pax_global_header00006660000000000000000000000064127732571640014530gustar00rootroot0000000000000052 comment=8db9717e73d32d2c5131da4f9ad86dfd9065f74b open-iscsi-2.0.874/000077500000000000000000000000001277325716400137635ustar00rootroot00000000000000open-iscsi-2.0.874/.gitignore000066400000000000000000000000041277325716400157450ustar00rootroot00000000000000*.o open-iscsi-2.0.874/COPYING000066400000000000000000000431311277325716400150200ustar00rootroot00000000000000 GNU GENERAL PUBLIC LICENSE Version 2, June 1991 Copyright (C) 1989, 1991 Free Software Foundation, Inc. 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. Preamble The licenses for most software are designed to take away your freedom to share and change it. By contrast, the GNU General Public License is intended to guarantee your freedom to share and change free software--to make sure the software is free for all its users. This General Public License applies to most of the Free Software Foundation's software and to any other program whose authors commit to using it. (Some other Free Software Foundation software is covered by the GNU Library General Public License instead.) You can apply it to your programs, too. When we speak of free software, we are referring to freedom, not price. Our General Public Licenses are designed to make sure that you have the freedom to distribute copies of free software (and charge for this service if you wish), that you receive source code or can get it if you want it, that you can change the software or use pieces of it in new free programs; and that you know you can do these things. To protect your rights, we need to make restrictions that forbid anyone to deny you these rights or to ask you to surrender the rights. These restrictions translate to certain responsibilities for you if you distribute copies of the software, or if you modify it. For example, if you distribute copies of such a program, whether gratis or for a fee, you must give the recipients all the rights that you have. You must make sure that they, too, receive or can get the source code. And you must show them these terms so they know their rights. We protect your rights with two steps: (1) copyright the software, and (2) offer you this license which gives you legal permission to copy, distribute and/or modify the software. Also, for each author's protection and ours, we want to make certain that everyone understands that there is no warranty for this free software. If the software is modified by someone else and passed on, we want its recipients to know that what they have is not the original, so that any problems introduced by others will not reflect on the original authors' reputations. Finally, any free program is threatened constantly by software patents. We wish to avoid the danger that redistributors of a free program will individually obtain patent licenses, in effect making the program proprietary. To prevent this, we have made it clear that any patent must be licensed for everyone's free use or not licensed at all. The precise terms and conditions for copying, distribution and modification follow. GNU GENERAL PUBLIC LICENSE TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION 0. This License applies to any program or other work which contains a notice placed by the copyright holder saying it may be distributed under the terms of this General Public License. The "Program", below, refers to any such program or work, and a "work based on the Program" means either the Program or any derivative work under copyright law: that is to say, a work containing the Program or a portion of it, either verbatim or with modifications and/or translated into another language. (Hereinafter, translation is included without limitation in the term "modification".) Each licensee is addressed as "you". Activities other than copying, distribution and modification are not covered by this License; they are outside its scope. The act of running the Program is not restricted, and the output from the Program is covered only if its contents constitute a work based on the Program (independent of having been made by running the Program). Whether that is true depends on what the Program does. 1. You may copy and distribute verbatim copies of the Program's source code as you receive it, in any medium, provided that you conspicuously and appropriately publish on each copy an appropriate copyright notice and disclaimer of warranty; keep intact all the notices that refer to this License and to the absence of any warranty; and give any other recipients of the Program a copy of this License along with the Program. You may charge a fee for the physical act of transferring a copy, and you may at your option offer warranty protection in exchange for a fee. 2. You may modify your copy or copies of the Program or any portion of it, thus forming a work based on the Program, and copy and distribute such modifications or work under the terms of Section 1 above, provided that you also meet all of these conditions: a) You must cause the modified files to carry prominent notices stating that you changed the files and the date of any change. b) You must cause any work that you distribute or publish, that in whole or in part contains or is derived from the Program or any part thereof, to be licensed as a whole at no charge to all third parties under the terms of this License. c) If the modified program normally reads commands interactively when run, you must cause it, when started running for such interactive use in the most ordinary way, to print or display an announcement including an appropriate copyright notice and a notice that there is no warranty (or else, saying that you provide a warranty) and that users may redistribute the program under these conditions, and telling the user how to view a copy of this License. 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You may copy and distribute the Program (or a work based on it, under Section 2) in object code or executable form under the terms of Sections 1 and 2 above provided that you also do one of the following: a) Accompany it with the complete corresponding machine-readable source code, which must be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, b) Accompany it with a written offer, valid for at least three years, to give any third party, for a charge no more than your cost of physically performing source distribution, a complete machine-readable copy of the corresponding source code, to be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, c) Accompany it with the information you received as to the offer to distribute corresponding source code. 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If the distribution and/or use of the Program is restricted in certain countries either by patents or by copyrighted interfaces, the original copyright holder who places the Program under this License may add an explicit geographical distribution limitation excluding those countries, so that distribution is permitted only in or among countries not thus excluded. In such case, this License incorporates the limitation as if written in the body of this License. 9. The Free Software Foundation may publish revised and/or new versions of the General Public License from time to time. Such new versions will be similar in spirit to the present version, but may differ in detail to address new problems or concerns. Each version is given a distinguishing version number. If the Program specifies a version number of this License which applies to it and "any later version", you have the option of following the terms and conditions either of that version or of any later version published by the Free Software Foundation. If the Program does not specify a version number of this License, you may choose any version ever published by the Free Software Foundation. 10. If you wish to incorporate parts of the Program into other free programs whose distribution conditions are different, write to the author to ask for permission. For software which is copyrighted by the Free Software Foundation, write to the Free Software Foundation; we sometimes make exceptions for this. Our decision will be guided by the two goals of preserving the free status of all derivatives of our free software and of promoting the sharing and reuse of software generally. NO WARRANTY 11. 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It is safest to attach them to the start of each source file to most effectively convey the exclusion of warranty; and each file should have at least the "copyright" line and a pointer to where the full notice is found. Copyright (C) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Also add information on how to contact you by electronic and paper mail. If the program is interactive, make it output a short notice like this when it starts in an interactive mode: Gnomovision version 69, Copyright (C) year name of author Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, the commands you use may be called something other than `show w' and `show c'; they could even be mouse-clicks or menu items--whatever suits your program. You should also get your employer (if you work as a programmer) or your school, if any, to sign a "copyright disclaimer" for the program, if necessary. Here is a sample; alter the names: Yoyodyne, Inc., hereby disclaims all copyright interest in the program `Gnomovision' (which makes passes at compilers) written by James Hacker. , 1 April 1989 Ty Coon, President of Vice This General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Library General Public License instead of this License. open-iscsi-2.0.874/Changelog000066400000000000000000000413641277325716400156050ustar00rootroot00000000000000open-iscsi-2.0-873 - open-iscsi-2.0.874 Adam Jackson (6): actor: Mark actor_check static actor: simplify actor_check actor: s/ACTOR_TICKS/actor_jiffies/ actor: Remove ACTOR_TICKS_10MS() actor: Unobfuscate ACTOR_MAX_LOOPS actor: Simplify actor_poll a little Adheer Chandravanshi (26): Manpage changes for flashnode submode support for host mode. README changes for flashnode submode support for host mode. iscsiadm: Check for mode is not required when creating params list iscsiadm: Correctly check for invalid hostno and flashnode index flashnode: Add support to set ISCSI_FLASHNODE_CHAP_OUT_IDX param iscsiadm: Use '-x' option instead of '-v' to specify chap_tbl_idx iscsiadm: Man page changes to use -x option for chap_tbl_idx README changes to use long option --index instead of --flashnode_idx iscsiadm: Add support to set CHAP entry using host chap mode iscsi tools: Correctly get username_in and password_in flashnode params README changes for adding support to set CHAP entry iscsi tools: Setup iface conf file with all iface attrs exported in sysfs iscsi_if.h: Additional parameters for network param settings iscsi tools: iface params should be updated for node_rec as well. iscsi tools: Let default type of iface be ipv4 iscsi tools: Show iface params based on iface type iscsi tools: Fix the iscsiadm help options for host mode Man page correction for host mode options of iscsiadm iscsiadm: Fix the compile time warning iscsiuio: Correct the handling of Multi Function mode iscsiuio: Add QLogic Vendor ID to support newer NX2 HBAs iscsid: Changes to support ping through iscsiuio iscsiuio: Add ping support through iscsiuio iscsiadm: let ping be tried after iface config is initialized iscsiuio: Wait for iface to be ready before issuing the ping iscsiuio: Get the library to use based on uio sysfs name Andy Grover (20): Update README for removal of DBM requirement Fix build warnings for unused variables Fix warning about possibly-uninitialized variable Fix bad sizeof in memset Fix missing header iscsiuio: Fix warning about non-matching types iscsiuio: Fix strict-aliasing warning with struct mac_address iscsiuio: Resolve strict aliasing issue in iscsiuio/src/unix/nic.c iscsiuio: Fix aliasing issue with IPV6_IS_ADDR_UNSPECIFIED iscsiuio: Use attribute(unused) for variables that are unused but needed iscsiuio: Use attribute(unused) for *icmpv6_hdr iscsiuio: Change nic_disable to return void iscsiuio: Remove set but unused variables iscsiuio: Check return value from nic_queue_tx_packet Remove actor_init and rename actor_new to actor_init Make running actors event-driven Wake up to reap children Fix incorrect list operation leading to out-of-order items on pend_list Prevent spinning over poll() when reconnecting to an inaccessible target Add some more debug logging to actor.c Anish Bhatt (1): iscsiadm : make iface.ipaddress optional in iface configs for transports that don't have a hard requirement on it. Chris Leech (19): iscsiadm: Fix the hostno check for stats submode of host mode fix regression in iscsi_tcp iface binding guard against NULL ptr during discovery from unexpected event add discovery as a valid mode in iscsiadm.8 iscsid: fix order of setting uid/gid and drop supplementary groups iscsiuio CFLAGS fixes iscsiuio systemd socket activation support iscsid safe session logout iscsid: don't re-read config file for every session logout make use of all 24 bits of ISID qualifier space iscsi_tcp set SO_LINGER to abort connection for error handling iscsiadm: fix parallel rescan handling of exit codes iscsistart: support booting over a VLAN iscsid: safe_logout fix device path canonicalization by using libmount cache iscsid: make safe_logut session checks apply for flashnode session remove sysfs attr_list Merge pull request #25 from cleech/master Merge pull request #29 from chris-se/debian-patches Replace open-iscsi.org with open-iscsi.com in docs Christian Hesse (1): typo in man iscsiadm(8) Christian Seiler (8): buildsys: make 'make clean' idempotent buildsys: respect CFLAGS and LDFLAGS from the outside Remove outdated Debian packaging code. Reformat man page synopsis sections Build system: sort object file lists iscsiuio: Make builds reproducible if SOURCE_DATE_EPOCH is set Additional spelling fixes iscsiuio/Makefile.am: fix typo introduced by reproducibility patch Christophe Vu-Brugier (1): Fix typos in iscsiadm man page Christopher Unkel (1): Fix typo in man page. Duane Northcutt (1): iscsid: Fix double close of mgmt ipc fd Eddie Wai (13): ISCSISTART: Bring up the corresponding network interface for iboot ISCSID: Passing more net params from ibft to iface ISCSID: Modified the Makefile for iscsiuio compilation ISCSID: Added iscsiuio source to the open-iscsi pkg ISCSIUIO: Updated iscsiuio to version 0.7.8.1b for perf optimization ISCSID: Added the extraction of the session boot info ISCSID: Added iface content override fix ISCSIUIO: Added tx doorbell override mechanism ISCSIUIO: Added fix for the iface.subnet_mask decoding for IPv6 ISCSIUIO: Added fix for the ARP cache flush mechanism ISCSIUIO: Updated RELEASE note and version ISCSIUIO: Removed the auto-generated COPYING file ISCSIUIO: Fixed a pthread resc leak from excessive session recovery Frank Fegert (2): Prevent iscsiuio from segfaulting due to un-lock of a not locked mutex. iscsiuio: ensure unlock of mutex in case of an error. Hannes Reinecke (14): iscsiuio: Remove autogenerated files from tracking iscsiuio: Update automake files iscsiuio: Add .gitignore files Remove unused variable 'path' Parse 'origin' value from iBFT Added new utility script to generate initiator name Added new util script to aid in CNA setup Code cleanup: no functional changes Represent DHCP "origin" as an enum, not a string. fwparam_ibft: Check iBFT target and NIC flags Allow modifications for iface.gateway and iface.subnet_mask iscsiuio: Do not memcpy identical locations iscsiuio: Clear memory after allocation iscsiuio: fixup race condition Harish Zunjarrao (6): iscsi_if.h: Remove numbers used for network parameter settings iscsi tools: Use macro to set IPv4/IPv6 IP addresses iscsi tools: Use single function to enable/disable network parameters iscsi tools: Use single function to set integer network parameters iscsi tools: Ignore network parameter if not enabled/disabled iscsi tools: Additional parameters for network settings Heinrich Schuchardt (1): Kernel include path Jan Vesely (2): iscsid: Fix strlen parameter iscsiuio: Change socket bind to use the same struct size as iscsid Jim Ramsay (1): iscsi tools: Convert '-r' argument to an integer before checking if it is a path John Soni Jose (2): be2iscsi: Fix MaxXmitDataLenght of the driver. Fix StatSN in Open-iSCSI Stack. Kamalneet Singh (1): fix typo Lalit Chandivade (3): iscsi_tool: Add offload host statistics support. README: Updated for host statistics. iscsiadm.8: Updated man page for host statistics. Lee Duncan (13): PATCH 1 of 1] correctly check return value of nice() iscsiadm: return error when login fails Fix discovery error return without return value Add missing DESTDIR isns: Add docs for deregistering discovery domains. Supply strings for newly-added error numbers Allow setting host params to return EAGAIN errors. Remove duplicate newlines in log messages. Fix iBFT target flags check. Use system-wide open-isns, not internal version. ARP table too small when switches involved. Merge pull request #22 from frank-fegert/master Merge pull request #26 from cvubrugier/master Manish Rangankar (1): iscsiadm: Initialize param_count in set_host_chap_info Mark Karpeles (1): fixed typo in iscsi_discovery usage() Mike Christie (22): iscsid: fix iscsid segfault during qla4xxx login iscsi tools: fix compile error when OFFLOAD_BOOT_SUPPORT defined iscsi tools: fix get_random_bytes error handling ISCSID: Added socket communication hooks for uip From: Adheer Chandravanshi Allow firmware mode to use debug flag iscsiadm: bind ifaces to portals found using isns iscsid/iscsiadm: add support for emulex one connect storage Make rescan run in parallel iscsi tools: sync iscsi_if.h with kernel space ISCSISTART: Saved ibft boot info to the session iscsi tools: Bug fix on IPC address copy (version 2) ISCSIUIO: Updated the configure file to reflect the new version iscsiuio: fix compilation iscsi tools: set non negotiated params early. iscsid: Fix handling of iscsi async events. iscsid: retry login for ISCSI_ERR_HOST_NOT_FOUND iscsid: don't round up when modifying padding len iscsi: remove local copy of open-isns iscsid: make sure actor is delated before rescheduling iscsid/iscsiuio: remove uio poll iscsid: fix iscsi_host_set_net_params return code Ritesh Raj Sarraf (1): Spelling and escaping error fixes. Salvatore Bonaccorso (1): Fix small typo in iscsid.conf Tomasz Torcz (3): iscsid,iscsiadm: fix abstract socket length in bind() call iscsid: implement systemd-compatible socket activation iscsid: add example unit files for systemd Vikas Chaudhary (3): iscsi tools: Print additional session info for flashnode session iscsiadm: Added document for description of iface attributes iscsiuio: Rebranding iscsiuio Ville Skyttä (2): man page syntax fixes Spelling fixes mikechristie (3): Merge pull request #11 from deepankar/master Merge pull request #8 from dscunkel/master Merge pull request #9 from xypron/kernel_source_path open-iscsi-2.0-872 - open-iscsi-2.0.873 Ales Kozumplik (1): fwparam_sysfs: fix pathname manipulation error in fwparam_sysfs_boot_info. Eddie Wai (3): ISCSID: Fixed a race condition in the INVALID_HOST path ISCSID: Fixed iface update for the new iface net config params ISCSIADM: Included the new iface net params to the node creation Hannes Reinecke (6): iscsid sends SIGTERM to PID 0 iscsid: Implement --no-pid-file Keep startup mode in sync when specified in config file Allow LOCK_DIR to be set via CFLAGS Allow 'onboot' as loginall parameter boot.suse: Update with latest fixes Jim Ramsay (12): Add specific session information to session_rec_t Add support for multiple sessions per iface to iscsid Add multiple sessions per iface commandline syntax Add new node.session.nr_sessions config parameter Implement leading-login support Fix dcb_app.c compile error with old kernels Check all ifaces during discovery even if some timeout iscsid: In foreground mode, treat SIGINT like SIGTERM Revise bind_conn_to_iface logic iscsi tools: Fix warnings reported by gcc-4.5.2 fwparam_ibft: Fix warnings reported by gcc-4.5.2 open-isns: Fix warnings reported by gcc-4.5.2 Karen Xie (1): open-iscsi: add transport cxgb4i Lalit Chandivade (2): iscsiadm: add netconfig support iscsi tools: manage qla4xxx iscsi sessions with iscsiadm Manish Rangankar (1): iscsid: Fixed iscsid restart issue for offload iSCSI login Mark Rustad (7): Add some consts to char * parameters that are not changed Add dcb_app.h for DCB support Add dcb_app.c for DCB support Add initial DCB support iscsid: Fix netdev check Remove redundant initialization iscsid: Add IEEE DCB support Mike Christie (86): iscsid: remove bogus debug log msg in isns_disc_new_portals isns: Fix endless loop when pollhup is returned iscsi tools: fix multi pdu sendtargets discovery sequences iscsi boot: fix iscsi_boot sysfs parsing Use pass through interface for sendtargets (take4) Currently offload cards like bnx2i, be2iscsi, cxgb3i must use a normal eth for discovery. This patch allows us to do discovery using the iscsi class passthrough interface. Add userspace/tools iscsi error code defs iscsi tools: fix iscsiadm exit codes iscsid: modify data drop iscsi doc: document iscsiadm host argument iscsid: add new auth error code iscsi tools: convert discovery code to iscsi error codes iscsi tools: document iface rp_filter use iscsi tools: disable isns dsa code iscsi tools: support hostnames in node mode iscsi tools: fix discovery return code iscsiadm: fix offload discovery retry iscsid: fix signal handler debug msg iscsiadm: fix discovery exit code iscsi tools: fix dcbnl.h compile error iscsid: retry initial connect iscsi tools/kernel: switch make defaults iscsi tools: fix comment about sysfs lookup failures iscsi tools: fix netlink bug allocation iscsi tools: Don't try to bind offload EPs to sockets iscsi tools: fix oom_adj use iscsi tools: fix bnx2i boot due to MAC mismatch iscsiadm: fix discoverydb help Update SUSE init script iscsi tools: revert commit c440cbe7ba2464f8baadedb55b00754c36773c2c Add a TODO TODO: mark down Jose as working on idr Update TODO iscsi tools: fix iname sysfs handling iscsi tools: handle compile warnings about unused variables iscsiadm: print kernel iface info iscsi tools: add tgt reset to session info and fix unknown values iscsi tools: fix default iface binding setup iscsi tools: fix iscsiadm return value on failed login iscsi tools: don't build with openssl iscsi tools: check NULL pointer first and add limit check in str_remove_initial iscsi tools: fix README sid lookup info iscsid: print out more informative error string for kernel errors iscsi tools: fix netlink msg setup iscsi tools: fix up vlan support update todo iscsiadm: fix printing of unknown host values Do not run configure for open-isns on every build iscsi tools: fix ipv6 ibft/firmware boot iscsid: don't sync qla4xxx flash sessions iscsid: kill session if already exists. isns: remove rfc files. iscsistart: allow any rec/iscsid.conf setting as arg iscsistart: support params in offload/ibft mode iscsi tools: never use hdr digest with iser iscsi tools: update iscsi_if.h for host event iscsi tools: added ping support iscsi tools: Add support to display a host's CHAP list and delete iscsi tools: fix conn state compilation warnings iscsi tools: allow default to have different transort names iscsiadm: print ping status string iscsi tools: fix hostname with port handling iscsi tools: have iscsid/iscsiadm load modules as needed iscsi tools: have iscsiadm load offload modules init: update red hat init script for module changes iscsi tools: create def ifaces on demand iscsi tools: iscsiadm modprobe support iscsi tools: remove class version check iscsi tools: remove unused len variable iscsiadm: support multiple params in one call iscsid: remove DCB support iscsiadm: print port speed and link state iscsi tools: check for loaded module before loading iscsistart: have iscsistart use same multi param code as iscsiadm iscsi tools: print and load boot transport iscsiadm: load iface before checking for hostno/mac match iscsistart: fix iface overriding iscsiadm: make sure offload drivers are loaded in host mode iscsi tools: have iscsi tools bring up offload net iface iscsi tools: fix bnx2i login iscsi tools: fix ipv6 handling iscsistart: fix invalid param handling iscsiadm: added command line option '--interval' iscsi tools: fix unknown param warnings iscsi tools: fix socket leak in transport probe iscsi tools: remove useless NULL iface check iscsi tools: use strlpy in net code Nilesh Javali (1): iscsi tools: update documents for CHAP command Rahul Gupta (1): iscsi tools: Displaying timeout and CHAP in iscisadm info Vikas Chaudhary (2): iscsi tools: update documents for ping command iscsi tools: remove un-necessary print message Wang Sheng-Hui (1): usr/config.h: fix comment for struct iscsi_session_timeout_config open-iscsi-2.0.874/Makefile000066400000000000000000000115311277325716400154240ustar00rootroot00000000000000# # Makefile for the Open-iSCSI Initiator # # if you are packaging open-iscsi, set this variable to the location # that you want everything installed into. DESTDIR ?= prefix = /usr exec_prefix = / sbindir = $(exec_prefix)/sbin bindir = $(exec_prefix)/bin mandir = $(prefix)/share/man etcdir = /etc initddir = $(etcdir)/init.d MANPAGES = doc/iscsid.8 doc/iscsiadm.8 doc/iscsi_discovery.8 iscsiuio/docs/iscsiuio.8 PROGRAMS = usr/iscsid usr/iscsiadm utils/iscsi_discovery utils/iscsi-iname iscsiuio/src/unix/iscsiuio INSTALL = install ETCFILES = etc/iscsid.conf IFACEFILES = etc/iface.example # Compatibility: parse old OPTFLAGS argument ifdef OPTFLAGS CFLAGS = $(OPTFLAGS) endif # Export it so configure of iscsiuio will # pick it up. ifneq (,$(CFLAGS)) export CFLAGS endif # Random comments: # using '$(MAKE)' instead of just 'make' allows make to run in parallel # over multiple makefile. all: user user: iscsiuio/Makefile $(MAKE) -C utils/sysdeps $(MAKE) -C utils/fwparam_ibft $(MAKE) -C usr $(MAKE) -C utils $(MAKE) -C iscsiuio @echo @echo "Compilation complete Output file" @echo "----------------------------------- ----------------" @echo "Built iSCSI daemon: usr/iscsid" @echo "Built management application: usr/iscsiadm" @echo "Built boot tool: usr/iscsistart" @echo "Built iscsiuio daemon: iscsiuio/src/unix/iscsiuio" @echo @echo "Read README file for detailed information." iscsiuio/Makefile: iscsiuio/configure iscsiuio/Makefile.in cd iscsiuio; ./configure iscsiuio/configure iscsiuio/Makefile.in: iscsiuio/configure.ac iscsiuio/Makefile.am cd iscsiuio; autoreconf --install kernel: force $(MAKE) -C kernel @echo "Kernel Compilation complete Output file" @echo "----------------------------------- ----------------" @echo "Built iSCSI Open Interface module: kernel/scsi_transport_iscsi.ko" @echo "Built iSCSI library module: kernel/libiscsi.ko" @echo "Built iSCSI over TCP library module: kernel/libiscsi_tcp.ko" @echo "Built iSCSI over TCP kernel module: kernel/iscsi_tcp.ko" force: ; clean: $(MAKE) -C utils/sysdeps clean $(MAKE) -C utils/fwparam_ibft clean $(MAKE) -C utils clean $(MAKE) -C usr clean $(MAKE) -C kernel clean [ ! -f iscsiuio/Makefile ] || $(MAKE) -C iscsiuio clean [ ! -f iscsiuio/Makefile ] || $(MAKE) -C iscsiuio distclean # this is for safety # now -jXXX will still be safe # note that make may still execute the blocks in parallel .NOTPARALLEL: install_user install_programs install_initd \ install_initd_suse install_initd_redhat install_initd_debian \ install_etc install_iface install_doc install_kernel install_iname install: install_programs install_doc install_etc \ install_initd install_iname install_iface install_user: install_programs install_doc install_etc \ install_initd install_iname install_iface install_programs: $(PROGRAMS) $(INSTALL) -d $(DESTDIR)$(sbindir) $(INSTALL) -m 755 $^ $(DESTDIR)$(sbindir) # ugh, auto-detection is evil # Gentoo maintains their own init.d stuff install_initd: if [ -f /etc/debian_version ]; then \ $(MAKE) install_initd_debian ; \ elif [ -f /etc/redhat-release ]; then \ $(MAKE) install_initd_redhat ; \ elif [ -f /etc/SuSE-release ]; then \ $(MAKE) install_initd_suse ; \ fi # these are external targets to allow bypassing distribution detection install_initd_suse: $(INSTALL) -d $(DESTDIR)$(initddir) $(INSTALL) -m 755 etc/initd/initd.suse \ $(DESTDIR)$(initddir)/open-iscsi $(INSTALL) -m 755 etc/initd/boot.suse \ $(DESTDIR)$(initddir)/boot.open-iscsi install_initd_redhat: $(INSTALL) -d $(DESTDIR)$(initddir) $(INSTALL) -m 755 etc/initd/initd.redhat \ $(DESTDIR)$(initddir)/open-iscsi install_initd_debian: $(INSTALL) -d $(DESTDIR)$(initddir) $(INSTALL) -m 755 etc/initd/initd.debian \ $(DESTDIR)$(initddir)/open-iscsi install_iface: $(IFACEFILES) $(INSTALL) -d $(DESTDIR)$(etcdir)/iscsi/ifaces $(INSTALL) -m 644 $^ $(DESTDIR)$(etcdir)/iscsi/ifaces install_etc: $(ETCFILES) if [ ! -f $(DESTDIR)/etc/iscsi/iscsid.conf ]; then \ $(INSTALL) -d $(DESTDIR)$(etcdir)/iscsi ; \ $(INSTALL) -m 644 $^ $(DESTDIR)$(etcdir)/iscsi ; \ fi install_doc: $(MANPAGES) $(INSTALL) -d $(DESTDIR)$(mandir)/man8 $(INSTALL) -m 644 $^ $(DESTDIR)$(mandir)/man8 install_kernel: $(MAKE) -C kernel install_kernel install_iname: if [ ! -f $(DESTDIR)/etc/iscsi/initiatorname.iscsi ]; then \ echo "InitiatorName=`$(DESTDIR)/sbin/iscsi-iname`" > $(DESTDIR)/etc/iscsi/initiatorname.iscsi ; \ echo "***************************************************" ; \ echo "Setting InitiatorName to `cat $(DESTDIR)/etc/iscsi/initiatorname.iscsi`" ; \ echo "To override edit $(DESTDIR)/etc/iscsi/initiatorname.iscsi" ; \ echo "***************************************************" ; \ fi depend: for dir in usr utils utils/fwparam_ibft; do \ $(MAKE) -C $$dir $@; \ done # vim: ft=make tw=72 sw=4 ts=4: open-iscsi-2.0.874/README000066400000000000000000001615131277325716400146520ustar00rootroot00000000000000================================================================= Linux* Open-iSCSI ================================================================= Sep 29, 2016 Contents ======== - 1. In This Release - 2. Introduction - 3. Installation - 4. Open-iSCSI daemon - 5. Open-iSCSI Configuration Utility - 6. Configuration - 7. Getting Started - 8. Advanced Configuration - 9. iSCSI System Info 1. In This Release ================== This file describes the Linux* Open-iSCSI Initiator. The software was tested on AMD Opteron (TM) and Intel Xeon (TM). The latest development release is available at: http://www.open-iscsi.com For questions, comments, contributions send e-mail to: open-iscsi@googlegroups.com 1.1. Features - highly optimized and very small-footprint data path; - persistent configuration database; - SendTargets discovery; - CHAP; - PDU header Digest; - multiple sessions; 2. Introduction =============== Open-iSCSI project is a high-performance, transport independent, multi-platform implementation of RFC3720 iSCSI. Open-iSCSI is partitioned into user and kernel parts. The kernel portion of Open-iSCSI is a from-scratch code licensed under GPL. The kernel part implements iSCSI data path (that is, iSCSI Read and iSCSI Write), and consists of three loadable modules: scsi_transport_iscsi.ko, libiscsi.ko and iscsi_tcp.ko. User space contains the entire control plane: configuration manager, iSCSI Discovery, Login and Logout processing, connection-level error processing, Nop-In and Nop-Out handling, and (in the future:) Text processing, iSNS, SLP, Radius, etc. The user space Open-iSCSI consists of a daemon process called iscsid, and a management utility iscsiadm. 3. Installation =============== As of today, the Open-iSCSI Initiator requires a host running the Linux operating system with kernel version 2.6.16, or later. 2.6.14 and 2.6.15 are partially supported. Known issues with 2.6.14 - .15 support: - If the device is using a write back cache, during session logout the cache sync command will fail. - iscsiadm's -P 3 option will not print out scsi devices. - iscsid will not automatically online devices. You need to enable "Cryptographic API" under "Cryptographic options" in the kernel config. And you must enable "CRC32c CRC algorithm" even if you do not use header or data digests. They are the kernel options, CONFIG_CRYPTO and CONFIG_CRYPTO_CRC32C, respectively. The userspace components: iscsid, iscsiadm and iscsistart require the open-isns library which can be found here: https://github.com/gonzoleeman/open-isns/releases To install the open-isns headers and library required for open-iscsi download the current release and run: ./configure make make install make install_hdrs make install_lib By default the kernel's iSCSI modules will be used. Running: make make install will install the iSCSI tools iscsiadm and iscsid to /sbin. For 2.6.14 - 2.6.34 the modules in the kernel dir can built and install by running: make kernel When building those modules the kernel source found at /lib/modules/`uname -r`/build will be used to compile the open-iscsi modules. To specify a different kernel to build against use: make kernel KSRC= or cross-compilation: make kernel KSRC= KARCH="ARCH=um" To compile on SUSE Linux you'll have to use make kernel KSRC=/usr/src/linux \ KBUILD_OUTPUT=/usr/src/linux-obj// where is the kernel configuration to use (eg. 'smp'). To install the kernel modules that were built run: make install_kernel This will copy: iscsi_tcp.ko, libiscsi_tcp.ko, libiscsi.ko and scsi_transport_iscsi to /lib/modules/`uname -r`/kernel/drivers/scsi/ overwriting existing iscsi modules. For Debian, be sure to install the linux-headers package that corresponds to your kernel in order to compile the kernel modules ('aptitude install linux-headers-`uname -r`'). You may also wish to run 'make -C kernel/ dpkg_divert' before installing kernel modules if you run a Debian-provided kernel. This will use dpkg-divert(8) to move the packaged kernel modules out of the way, and ensure that future kernel upgrades will not overwrite them. Also, please be aware that the compatibility patches that enable these iscsi modules to run on kernels older than 2.6.25 will not update the ib_iser module; you may get warnings related to mismatched symbols on this driver, in which case you'll be unable to load ib_iser and open-iscsi simultaneously. 4. Open-iSCSI daemon ==================== The daemon implements control path of iSCSI protocol, plus some management facilities. For example, the daemon could be configured to automatically re-start discovery at startup, based on the contents of persistent iSCSI database (see next section). For help, run: ./iscsid --help Usage: iscsid [OPTION] -c, --config=[path] Execute in the config file (/etc/iscsi/iscsid.conf). -f, --foreground run iscsid in the foreground -d, --debug debuglevel print debugging information -u, --uid=uid run as uid, default is current user -g, --gid=gid run as gid, default is current user group -h, --help display this help and exit -v, --version display version and exit 5. Open-iSCSI Configuration Utility =================================== Open-iSCSI persistent configuration is stored in a number of directories under a configuration root directory, using a flat-file format. This configuration root directory is /etc/iscsi by default, but may also commonly be in /var/lib/iscsi. Configuration is contained in directories for: - nodes - slp - isns - static - fw - send_targets - ifaces The iscsiadm utility is a command-line tool to manage (update, delete, insert, query) the persistent database. The utility presents set of operations that a user can perform on iSCSI nodes, sessions, connections, and discovery records. Open-iscsi does not use the term node as defined by the iSCSI RFC, where a node is a single iSCSI initiator or target. Open-iscsi uses the term node to refer to a portal on a target, so tools like iscsiadm require that --targetname and --portal argument be used when in node mode. For session mode, a session id (sid) is used. The sid of a session can be found by running iscsiadm -m session -P 1. The session id is not currently persistent and is partially determined by when the session is setup. Note that some of the iSCSI Node and iSCSI Discovery operations do not require iSCSI daemon (iscsid) loaded. For help, run: ./iscsiadm --help Usage: iscsiadm [OPTION] -m, --mode specify operational mode op = -m discoverydb --type=[type] --interface=[iface...] --portal=[ip:port] \ --print=[N] \ --op=[op]=[NEW | UPDATE | DELETE | NONPERSISTENT] \ --discover This command will use the discovery record settings matching the record with type=type and portal=ip:port]. If a record does not exist, it will create a record using the iscsid.conf discovery settings. By default, it will then remove records for portals no longer returned. And, if a portal is returned by the target, then the discovery command will create a new record or modify an existing one with values from iscsi.conf and the command line. [op] can be passed in multiple times to this command, and it will alter the node DB manipulation. If [op] is passed in and the value is "new", iscsiadm will add records for portals that do not yet have records in the db. If [op] is passed in and the value is "update", iscsiadm will update node records using info from iscsi.conf and the command line for portals that are returned during discovery and have a record in the db. If [op] is passed in and the value is "delete", iscsiadm will delete records for portals that were not returned during discovery. If [op] is passed in and the value is "nonpersistent" iscsiadm will not store the portals found in the node DB. This only useful with the --login command. See the example section for more info. See below for how to setup iscsi ifaces for software iscsi or override the system defaults. Multiple ifaces can be passed in during discovery. For the above commands "print" is optional. If used, N can be 0 or 1. 0 = The old flat style of output is used. 1 = The tree style with the inteface info is used. If print is not used the old flay style is used. -m discoverydb --interface=[iface...] --type=[type] --portal=[ip:port] \ --print=[N] \ --op=[op]=[NEW | UPDATE | DELETE | NONPERSISTENT] \ --discover --login This works like the previous discoverydb command with the --login argument passed in will also log into the portals that are found. -m discoverydb --portal=[ip:port] --type=[type] \ --op=[op] [--name=[name] --value=[value]] Perform specific DB operation [op] for discovery portal. It could be one of: [new], [delete], [update] or [show]. In case of [update], you have to provide [name] and [value] you wish to update op=NEW will create a new discovery record using the iscsid.conf discovery settings. If it already exists, it will be overwritten using iscsid.conf discovery settings. op=DELETE will delete the discovery record and records for the targets found through that discovery source. op=SHOW will display the discovery record values. The --show arguemnt can be used to force the CHAP passwords to be displayed. -m discovery --type=[type] --interface=iscsi_ifacename \ --portal=[ip:port] --login --print=[N] \ --op=[op]=[NEW | UPDATE | DELETE | NONPERSISTENT] perform [type] discovery for target portal with ip-address [ip] and port [port]. This command will not use the discovery record settings. It will use the iscsid.conf discovery settings and it will overwrite the discovery record with iscsid.conf discovery settings if it exists. By default, it will then remove records for portals no longer returned. And, if a portal is returned by the target, then the discovery command will create a new record or modify an existing one with values from iscsi.conf and the command line. [op] can be passed in multiple times to this command, and it will alter the DB manipulation. If [op] is passed in and the value is "new", iscsiadm will add records for portals that do not yet have records in the db. If [op] is passed in and the value is "update", iscsiadm will update node records using info from iscsi.conf and the command line for portals that are returned during discovery and have a record in the db. If [op] is passed in and the value is "delete", iscsiadm will delete records for portals that were not returned during discovery. If [op] is passed in and the value is "nonpersistent" iscsiadm will not store the portals found in the node DB. See the example section for more info. See below for how to setup iscsi ifaces for software iscsi or override the system defaults. Multiple ifaces can be passed in during discovery. -m discovery --print=[N] display all discovery records from internal persistent discovery database. -m node display all discovered nodes from internal persistent discovery database -m node --targetname=[name] --portal=[ip:port] \ --interface=iscsi_ifacename] \ [--login|--logout|--rescan|--stats] -m node --targetname=[name] --portal=[ip:port] --interface=[driver,HWaddress] \ --op=[op] [--name=[name] --value=[value]] -m node --targetname=[name] --portal=[ip:port] --interface=iscsi_ifacename] \ --print=[level] perform specific DB operation [op] for specific interface on host that will connect to portal on target. targetname, portal and interface are optional. See below for how to setup iscsi ifaces for software iscsi or override the system defaults. op could be one of: [new], [delete], [update] or [show]. In case of [update], you have to provide [name] and [value] you wish to update. [delete] - Note that if a session is using the node record, the session will be logged out then the record will be deleted. Print level can be 0 to 1. Rescan will perform a SCSI layer scan of the session to find new LUNs. Stats prints the iSCSI stats for the session. -m node --logoutall=[all|manual|automatic] Logout "all" the running sessions or just the ones with a node startup value manual or automatic. Nodes marked as ONBOOT are skipped. -m node --loginall=[all|manual|automatic] Login "all" the running sessions or just the ones with a node startup value manual or automatic. Nodes marked as ONBOOT are skipped. -m session display all active sessions and connections -m session --sid=[sid] [ --print=level | --rescan | --logout ] --op=[op] [--name=[name] --value=[value]] perform operation for specific session with session id sid. If no sid is given the operation will be performed on all running sessions if possible. --logout and --op work like they do in node mode, but in session mode targetname and portal info is is not passed in. Print level can be 0 to 2. 1 = Print basic session info like node we are connected to and whether we are connected. 2 = Print iscsi params used. 3 = Print SCSI info like LUNs, device state. If no sid and no operation is given print out the running sessions. -m iface --interface=iscsi_ifacename --op=[op] [--name=[name] --value=[value]] --print=level perform operation on fiven interface with name iscsi_ifacename. See below for examples. -m iface --interface=iscsi_ifacename -C ping --ip=[ipaddr] --packetsize=[size] --count=[count] --interval=[interval] -m host --host=hostno|MAC --print=level -C chap --op=[SHOW] Display information for a specific host. The host can be passed in by host number or by MAC address. If a host is not passed in then info for all hosts is printed. Print level can be 0 to 4. 1 = Print info for how like its state, MAC, and netinfo if possible. 2 = Print basic session info for nodes the host is connected to. 3 = Print iscsi params used. 4 = Print SCSI info like LUNs, device state. -m host --host=hostno|MAC -C chap --op=[DELETE] --index=[chap_tbl_idx] Delete chap entry at the given index from chap table. -m host --host=hostno|MAC -C chap --op=[NEW | UPDATE] --index=[chap_tbl_idx] \ --name=[name] --value=[value] Add new or update existing chap entry at the given index with given username and password pair. If index is not passed then entry is added at the first free index in chap table. -m host --host=hostno|MAC -C flashnode Display list of all the targets in adapter's flash (flash node), for the specified host, with ip, port, tpgt and iqn. -m host --host=hostno|MAC -C flashnode --op=[NEW] --portal_type=[ipv4|ipv6] Create new flash node entry for the given host of the specified portal_type. This returns the index of the newly created entry on success. -m host --host=hostno|MAC -C flashnode --index=[flashnode index] \ --op=[UPDATE] --name=[name] --value=[value] Update the params of the speficied flash node. The [name] and [value] pairs must be provided for the params that need to be updated. Multiple params can be updated using a single command. -m host --host=hostno|MAC -C flashnode --index=[flashnode index] \ --op=[SHOW | DELETE | LOGIN | LOGOUT] op=DELETE|LOGIN|LOGOUT will perform deletion/login/ logout operation on the specified flash node. op=SHOW will list all params with the values for the specified flash node. This is the default operation. See the iscsiadm example section for more info. -d, --debug debuglevel print debugging information -V, --version display version and exit -h, --help display this help and exit 5.1 iSCSI iface setup ===================== The next sections describe how to setup iSCSI ifaces so you can bind a session to a NIC port when using software iscsi (section 5.1.1), and it describes how to setup ifaces for use with offload cards from Chelsio and Broadcm (section 5.1.2). 5.1.1 How to setup iSCSI interfaces (iface) for binding ======================================================= If you wish to allow the network susbsystem to figure out the best path/NIC to use then you can skip this section. For example if you have setup your portals and NICs on different subnets then this the following is not needed for software iscsi. Warning!!!!!! This feature is experimental. The interface may change. When reporting bugs, if you cannot do a "ping -I ethX target_portal", then check your network settings first. Make sure the rp_filter setting is set to 0 or 2 (see Prep section below for more info). If you cannot ping the portal, then you will not be able to bind a session to a NIC. What is a scsi_host and iface for software, hardware and partial offload iscsi? Software iscsi, like iscsi_tcp and iser, allocate a scsi_host per session and does a single connection per session. As a result /sys/class_scsi_host and /proc/scsi will report a scsi_host for each connection/session you have logged into. Offload iscsi, like Chelsio cxgb3i, allocates a scsi_host for each PCI device (each port on a HBA will show up as a different PCI device so you get a scsi_host per HBA port). To manage both types of initiator stacks, iscsiadm uses the interface (iface) structure. For each HBA port or for software iscsi for each network device (ethX) or NIC, that you wish to bind sessions to you must create a iface config /etc/iscsi/ifaces. Prep: The iface binding feature requires the sysctl setting net.ipv4.conf.default.rp_filter to be set to 0 or 2. This can be set in /etc/sysctl.conf by having the line: net.ipv4.conf.default.rp_filter = N where N is 0 or 2. Note that when setting this you may have to reboot the box for the value to take effect. rp_filter information from Documentation/networking/ip-sysctl.txt: rp_filter - INTEGER 0 - No source validation. 1 - Strict mode as defined in RFC3704 Strict Reverse Path Each incoming packet is tested against the FIB and if the interface is not the best reverse path the packet check will fail. By default failed packets are discarded. 2 - Loose mode as defined in RFC3704 Loose Reverse Path Each incoming packet's source address is also tested against the FIB and if the source address is not reachable via any interface the packet check will fail. Running: # iscsiadm -m iface iface0 qla4xxx,00:c0:dd:08:63:e8,20.15.0.7,default,iqn.2005-06.com.redhat:madmax iface1 qla4xxx,00:c0:dd:08:63:ea,20.15.0.9,default,iqn.2005-06.com.redhat:madmax Will report iface configurations that are setup in /etc/iscsi/ifaces. The format is: iface_name transport_name,hwaddress,ipaddress,net_ifacename,initiatorname For software iscsi, you can create the iface configs by hand, but it is recommended that you use iscsiadm's iface mode. There is an iface.example in /etc/iscsi/ifaces which can be used as a template for the daring. For each network object you wish to bind a session to you must create a separate iface config in /etc/iscsi/ifaces and each iface config file must have a unique name which is less than or equal to 64 characters. Example: If you have NIC1 with MAC address 00:0F:1F:92:6B:BF and NIC2 with MAC address 00:C0:DD:08:63:E7 and you wanted to do software iscsi over TCP/IP. Then in /etc/iscsi/ifaces/iface0 you would enter: iface.transport_name = tcp iface.hwaddress = 00:0F:1F:92:6B:BF and in /etc/iscsi/ifaces/iface1 you would enter: iface.transport_name = tcp iface.hwaddress = 00:C0:DD:08:63:E7 Warning: Do not name an iface config file "default" or "iser". They are special value/file that is used by the iscsi tools for backward compatibility. If you name an iface default or iser, then the behavior is not defined. To use iscsiadm to create iface0 above for you run: (This will create a new empty iface config. If there was already an iface with the name "iface0" this command will overwrite it.) # iscsiadm -m iface -I iface0 --op=new (This will set the hwaddress.) # iscsiadm -m iface -I iface0 --op=update -n iface.hwaddress -v 00:0F:1F:92:6B:BF If you had sessions logged in iscsiadm will not update, overwrite a iface. You must log out first. If you have an iface bound to a node/portal but you have not logged in then, iscsiadm will update the config and all existing bindings. You should now skip to 5.1.3 to see how to log in using the iface and for some helpful management commands. 5.1.2 Setting up an iface for an iSCSI offload card =================================================== This section describes how to setup ifaces for use with Chelsio, Broadcom and QLogic cards. By default, iscsiadm will create an iface for each Broadcom, QLogic and Chelsio port. The iface name will be of the form: $transport/driver_name.$MAC_ADDRESS Running: # iscsiadm -m iface default tcp,,,, iser iser,,,, cxgb3i.00:07:43:05:97:07 cxgb3i,00:07:43:05:97:07,,, qla4xxx.00:0e:1e:04:8b:2e qla4xxx,00:0e:1e:04:8b:2e,,, Will report iface configurations that are setup in /etc/iscsi/ifaces. The format is: iface_name transport_name,hwaddress,ipaddress,net_ifacename,initiatorname iface_name: name of iface transport_name: name of driver hwaddress: MAC address ipaddress: IP address to use for this port net_iface_name: Net_ifacename will be because change between reboots. It is used for software iSCSI's vlan or alias binding. initiatorname: Initiatorname to be used if you want to override the default one in /etc/iscsi/initiatorname.iscsi. To display these values in a more friendly way, run: iscsiadm -m iface -I cxgb3i.00:07:43:05:97:07 # BEGIN RECORD 2.0-871 iface.iscsi_ifacename = cxgb3i.00:07:43:05:97:07 iface.net_ifacename = iface.ipaddress = iface.hwaddress = 00:07:43:05:97:07 iface.transport_name = cxgb3i iface.initiatorname = # END RECORD Before you can use the iface, you must set the IP address for the port with the following command: iscsiadm -m iface -I cxgb3i.00:07:43:05:97:07 -o update -n iface.ipaddress -v 20.15.0.66 Note1. For the name of the value we want to update we use the name from the "iscsiadm -m iface -I cxgb3i.00:07:43:05:97:07" command which is "iface.ipaddress". Note2. For QLogic ports after updating the iface record, for network settings to take effect, one must apply or applyall the settings. iscsiadm -m iface -I qla4xxx.00:0e:1e:04:8b:2e -o apply or iscsiadm -m iface -H 00:0e:1e:04:8b:2e -o applyall With operation "apply" network setting for the specified iface will take effect. With operation "applyall" network settings for all ifaces on a specific host will take take effect. The host can be specified using the -H/--host argument by either the MAC address of the host or the host number. Here is an example of setting multiple IPv6 address on single iSCSI interface port. First interface (no need to set iface_num, it is 0 by default) iscsiadm -m iface -I qla4xxx.00:0e:1e:04:8b:2a -o update \ -n iface.ipaddress -v fec0:ce00:7014:0041:1111:2222:1e04:9392 Create the second interface if it does not exist iscsiadm -m iface -I qla4xxx.00:0e:1e:04:8b:2a.1 -op=new iscsiadm -m iface -I qla4xxx.00:0e:1e:04:8b:2a -o update \ -n iface.iface_num -v 1 (iface_num is mandatory for second iface) iscsiadm -m iface -I qla4xxx.00:0e:1e:04:8b:2a -o update \ -n iface.ipaddress -v = fec0:ce00:7014:0041:1111:2222:1e04:9393 iscsiadm -m iface -H 00:0e:1e:04:8b:2a --op=applyall Note: If there are common settings for multiple interfaces then the settings from 0th iface would be considered valid. Now, we can use this iface to login into targets, which is described in the next section. 5.1.3 Discoverying iSCSI targets/portals ======================================== Be aware that iscsiadm will use the default route to do discovery. It will not use the iface specified. So if you are using a offload card, you will need a separate network connection to the target for discovery purposes. *This will be fixed in the next version of open-iscsi* For compatibility reasons, when you run iscsiadm to do discovery, it will check for interfaces in /etc/iscsi/iscsi/ifaces that are using tcp for the iface.transport and it will bind the portals that are discovered so that they will be logged in through those ifaces. This behavior can also be overriden by passing in the interfaces you want to use. For the case of offload like with cxgb3i and bnx2i this is required because the transport will not be tcp. For example if you had defined two interface but only wanted to use one you can use the --interface/-I argument: iscsiadm -m discoverydb -t st -p ip:port -I iface1 --discover -P 1 If you had defined interfaces but wanted the old behavior, where we do not bind a session to an iface, then you can use the special iface "default": iscsiadm -m discoverydb -t st -p ip:port -I default --discover -P 1 And if you did not define any interfaces in /etc/iscsi/ifaces and do not pass anything into iscsiadm, running iscsiadm will do the default behavior, where we allow the network subsystem to decide which device to use. If you later want to remove the bindings for a specific target and iface then you can run: iscsiadm -m node -T my_target -I iface0 --op=delete To do this for a specific portal on a target run: iscsiadm -m node -T my_target -p ip:port -I iface0 --op=delete If you wanted to delete all bindinds for iface0 then you can run iscsiadm -m node -I iface0 --op=delete And for equalogic targets it is sometimes useful to remove by just portal iscsiadm -m node -p ip:port -I iface0 --op=delete To now log into targets it is the same as with software iscsi. See section 7 for how to get started. 5.2 iscsiadm examples ===================== Usage examples using the one-letter options (see iscsiadm man page for long options): Discovery mode: - SendTargets iSCSI Discovery using the default driver and interface and using the discovery settings for the discovery record with the ID [192.168.1.1:3260]. ./iscsiadm -m discoverydb -t st -p 192.168.1.1:3260 --discover This will search /etc/iscsi/send_targets for a record with the ID [portal = 192.168.1.1:3260 and type = sendtargets. If found it will perform discovery using the settings stored in the record. If a record does not exist, it will be created using the iscsid.conf discovery settings. The argument to -p may also be a hostname instead of an address. ./iscsiadm -m discoverydb -t st -p smoehost --discover For the ifaces, iscsiadm will first search /etc/iscsi/ifaces for interfaces using software iscsi. If any are found then nodes found during discovery will be setup so that they can logged in through those interfaces. To specify a specific iface, pass the -I argument for each iface. - SendTargets iSCSI Discovery updating existing target records: ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ -o update --discover If there is a record for targetX and portalY exists in the DB, and is returned during discovery, it will be updated with the info from the iscsi.conf. No new portals will be added and stale portals will not be removed. - SendTargets iSCSI Discovery deleting existing target records: ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ -o delete --discover If there a record for targetX and portalY exists in the DB, but is not returned during discovery it will be removed from the DB. No new portals will be added and existing portal records will not be changed. Note: If a session is logged into portal we are going to delete a record for, it will be logged out then the record will be deleted. - SendTargets iSCSI Discovery adding new records: ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ -o new --discover If there targetX and portalY is returned during discovery and does not have a record, it will be added. Existing records are not modified. - SendTargets iSCSI Discovery using multiple ops: ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ -o new -o delete --discover This command will add new portals and delete records for portals no longer returned. It will not change the record information for existing portals. - SendTargets iSCSI Discovery in nonpersistent mode: ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ -o nonpersistent --discover This command will perform discovery, but not manipulate the node DB. - SendTargets iSCSI Discovery with a specific interface. If you wish to only use a subset of the interfaces in /etc/iscsi/ifaces then you can pass them in during discovery: ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ --interface=iface0 --interface=iface1 --discover Note that for software iscsi, we let the network layer select which NIC to use for discovery, but for later logins iscsiadm will use the NIC defined in the iface config. qla4xxx support is very basic and experimental. It does not store the record info in the card's FLASH or the node DB, so you must rerun discovery every time the driver is reloaded. - Manipulate SendTargets DB. Create new SendTargets discovery record or overwrite an existing discovery record with iscsid.conf discovery settings. ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 -o new See discovery settings. ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 -o show See hidden discovery settings like CHAP passwords ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ -o show --show Set discovery setting. ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 \ -o update -n name -v value Delete discovery record. This will also delete the records for the targets found through the discovery source. ./iscsiadm -m discoverydb -t sendtargets -p 192.168.1.1:3260 -o delete Node mode. In node mode you can specify which records you want to log into by specifying the targetname, ip address, port or interface (if specifying the interface it must already be setup in the node db). iscsiadm will search the node db, for records which match the values you pass in, so if you pass in the targetname and interface, iscsiadm will search for records with those values and operate on only them. Passing in none of them will result in all node records being operated on. - iSCSI Login to all portals on every node/starget through each interface set in the db: ./iscsiadm -m node -l - iSCSI login to all portals on a node/target through each interface set in the db: ./iscsiadm -m node -T iqn.2005-03.com.max -l - iSCSI login to a specific portal through each interface set in the db: ./iscsiadm -m node -T iqn.2005-03.com.max -p 192.168.0.4:3260 -l To specify an iPv6 address the following can be used: ./iscsiadm -m node -T iqn.2005-03.com.max \ -p 2001:c90::211:9ff:feb8:a9e9 -l The above command would use the default port, 3260. To specify a port use the following: ./iscsiadm -m node -T iqn.2005-03.com.max \ -p [2001:c90::211:9ff:feb8:a9e9]:3260 -l To specify a hostname the following can be used: ./iscsiadm -m node -T iqn.2005-03.com.max -p somehost -l - iSCSI Login to a specific portal through the NIC setup as iface0: ./iscsiadm -m node -T iqn.2005-03.com.max -p 192.168.0.4:3260 \ -I iface0 -l - iSCSI Logout to all portals on every node/starget through each interface set in the db: ./iscsiadm -m node -u Warning: this does not check startup values like the logout/login all option. Do not use this if you are running iscsi on your root disk. - iSCSI logout to all portals on a node/target through each interface set in the db: ./iscsiadm -m node -T iqn.2005-03.com.max -u - iSCSI logout to a specific portal through each interface set in the db: ./iscsiadm -m node -T iqn.2005-03.com.max -p 192.168.0.4:3260 -u - iSCSI Logout to a specific portal through the NIC setup as iface0: ./iscsiadm -m node -T iqn.2005-03.com.max -p 192.168.0.4:3260 \ -I iface0 - Changing iSCSI parameter: ./iscsiadm -m node -T iqn.2005-03.com.max -p 192.168.0.4:3260 \ -o update -n node.cnx[0].iscsi.MaxRecvDataSegmentLength -v 65536 You can also change paramaters for multiple records at once, by specifying different combinations of the target, portal and interface like above. - Adding custom iSCSI portal: ./iscsiadm -m node -o new -T iqn.2005-03.com.max \ -p 192.168.0.1:3260,2 -I iface4 The -I/--interface is optional. If not passed in, "default" is used. For tcp or iser, this would allow the network layer to decide what is best. Note that for this command the target portal group tag (TPGT) should be passed in. If it is not passed in on the initial creation command then the user must run iscsiadm again to set the value. Also if the TPGT is not initially passed in, the old behavior of not tracking whether the record was statically or dynamically created is used. - Adding custom NIC config to multiple targets: ./iscsiadm -m node -o new -I iface4 This command will add an interface config using the iSCSI and SCSI settings from iscsid.conf to every target that is in the node db. - Removing iSCSI portal: ./iscsiadm -m node -o delete -T iqn.2005-03.com.max -p 192.168.0.4:3260 You can also delete multiple records at once, by specifying different combinations of the target, portal and interface like above. - Display iSCSI portal onfiguration: ./iscsiadm -m node -T iqn.2005-03.com.max -p 192.168.0.4:3260 or ./iscsiadm -m node -o show -T iqn.2005-03.com.max -p 192.168.0.4:3260 You can also display multiple records at once, by specifying different combinations of the target, portal and interface like above. Note: running "iscsiadm -m node" will only display the records. It will not display the configuration info. You must run, "iscsiadm -m node -o show". - Show all node records: ./iscsiadm -m node This will print the nodes using the old flat format where the interface and driver are not displayed. To display that info use the -P argument with the arguent "1": ./iscsiadm -m node -P 1 - Show all records in discovery database: ./iscsiadm -m discovery - Show all records in discovery database and show the targets that were discovered from each record: ./iscsiadm -m discovery -P 1 - Display session statistics: ./iscsiadm -m session -r 1 --stats This function also works in node mode. Instead of the "-r $sid" argument, you would pass in the node info like targetname and/or portal, and/or interface. - Perform a SCSI scan on a session ./iscsiadm -m session -r 1 --rescan This function also works in node mode. Instead of the "-r $sid" argument, you would pass in the node info like targetname and/or portal, and/or interface. Note: Rescanning does not delete old LUNs. It will only pick up new ones. - Display running sessions: ./iscsiadm -m session -P 1 Host mode with flashnode submode: - Display list of flash nodes for a host ./iscsiadm -m host -H 6 -C flashnode This will print list of all the flash node entries for the given host 6 along with their ip, port, tpgt and iqn values. - Display all parameters of a flash node entry for a host ./iscsiadm -m host -H 6 -C flashnode -x 0 This will list all the parameter name,value pairs for flash node entry at index 0 of host 6. - Add a new flash node entry for a host ./iscsiadm -m host -H 6 -C flashnode -o new -A ipv4 or ./iscsiadm -m host -H 6 -C flashnode -o new -A ipv6 This will add new flash node entry for the given host 6 with portal type of either ipv4 or ipv6. The new operation returns the index of the newly created flash node entry. - Update a flashnode entry ./iscsiadm -m host -H 6 -C flashnode -x 1 -o update \ -n flashnode.conn[0].ipaddress -v 192.168.1.12 \ -n flashnode.session.targetname \ -v iqn.2002-03.com.compellent:5000d310004b0716 This will update the values of ipaddress and targetname params of flash node entry at index 1 of host 6. - Login to a flash node entry ./iscsiadm -m host -H 6 -C flashnode -x 1 -o login - Logout from a flash node entry ./iscsiadm -m host -H 6 -C flashnode -x 1 -o logout or ./iscsiadm -m session -r $sid -u Logout can be performed either using the flash node index or using the corresponding session index. - Delete a flash node entry ./iscsiadm -m host -H 6 -C flashnode -x 1 -o delete Host mode with chap submode: - Display list of chap entries for a host ./iscsiadm -m host -H 6 -C chap -o show This will list all the chap entries for the given host. - Delete a chap entry for a host ./iscsiadm -m host -H 6 -C chap -o delete -x 5 This will delete any chap entry present at given index 5. - Add/Update a local chap entry for a host ./iscsiadm -m host -H 6 -C chap -o update -x 4 -n username \ -v value -n password -v value This will update the local chap entry present at index 4. If index 4 is free then entry of type local chap will be created at that index with given username and password values. - Add/Update a bidi chap entry for a host ./iscsiadm -m host -H 6 -C chap -o update -x 5 -n username_in \ -v value -n password_in -v value This will update the bidi chap entry present at index 5. If index 5 is free then entry of type bidi chap will be created at that index with given username_in and password_in values. Host mode with stats submode: - Display host statistics: ./iscsiadm -m host -H 6 -C stats This will print the aggregate statistics on the host adapter port. This includes MAC, TCP/IP, ECC & iSCSI statistics. 6. Configuration ================ The default configuration file is /etc/iscsi/iscsid.conf. This file contains only configuration that could be overwritten by iSCSI Discovery, or manualy updated via iscsiadm utility. Its OK if this file does not exist in which case compiled-in default configuration will take place for newer discovered Target nodes. See the man page and the example file for the current syntax. The manpages for iscsid, iscsiadm are in the doc subdirectory and can be installed in the appropriate man page directories and need to be manually copied into e.g. /usr/local/share/man8. 7. Getting Started ================== There are three steps needed to set up a system to use iSCSI storage: 7.1. iSCSI startup using the init script or manual startup. 7.2. Discover targets. 7.3. Automate target logins for future system reboots. The init scripts will start the iSCSI daemon and log into any portals that are set up for automatic login (discussed in 7.2) or discovered through the discover daemon iscsid.conf params (discussed in 7.1.2). If your distro does not have an init script, then you will have to start the daemon and log into the targets manually. 7.1.1 iSCSI startup using the init script ----------------------------------------------- Red Hat or Fedora: ----------------- To start open-iscsi in Red Hat/Fedora you can do: service open-iscsi start To get open-iscsi to automatically start at run time you may have to run: chkconfig --level open-iscsi on Where are the run levels. And, to automatically mount a file system during startup you must have the partition entry in /etc/fstab marked with the "_netdev" option. For example this would mount an iscsi disk sdb: /dev/sdb /mnt/iscsi ext3 _netdev 0 0 SUSE or Debian: --------------- Otherwise, if there is an initd script for your distro in etc/initd that gets installed with "make install" /etc/init.d/open-iscsi start will usually get you started. 7.1.2 Manual Startup: --------------------- 7.1.2.1 Starting up the iSCSI daemon (iscsid) and loading modules: ----------------------------------------------------------------- If there is no initd script, you must start the tools by hand. First load the iscsi modules with: modprobe -q iscsi_tcp after that start iSCSI daemon process: ./iscsid or alternatively, start it with debug enabled and with output redirected to the current console: ./iscsid -d 8 -f & 7.1.2.2 Logging into Targets: --------------------------- Use the configuration utility, iscsiadm, to add/remove/update Discovery records, iSCSI Node records or monitor active iSCSI sessions (see above or the iscsiadm man files and see section 7.2 below for how to discover targets). ./iscsiadm -m node will print out the nodes that have been discovered as: 10.15.85.19:3260,3 iqn.1992-08.com.netapp:sn.33615311 10.15.84.19:3260,2 iqn.1992-08.com.netapp:sn.33615311 The format is: ip:port,target_portal_group_tag targetname If you are using the iface argument or want to see the driver info use the following: ./iscsiadm -m node -P 1 Target: iqn.1992-08.com.netapp:sn.33615311 Portal: 10.15.84.19:3260,2 Iface Name: iface2 Portal: 10.15.85.19:3260,3 Iface Name: iface2 The format is: Target: targetname Portal ip_address:port,tpgt Iface: iface where targetname is the name of the target and ip_address:port is the address and port of the portal. tpgt, is the portal group tag of the portal, and is not used in iscsiadm commands except for static record creation. And iface name is the name of the iscsi interface defined in /etc/iscsi/ifaces. If no interface was defined in /etc/iscsi/ifaces or passed in, the default behavior is used. Default here is iscsi_tcp/tcp to be used over which ever NIC the network layer decides is best. To login, take the ip, port and targetname from above and run: ./iscsiadm -m node -T targetname -p ip:port -l In this example we would run ./iscsiadm -m node -T iqn.1992-08.com.netapp:sn.33615311 -p 10.15.84.19:3260 -l Note: drop the portal group tag from the "iscsiadm -m node" output. 7.2. Discover Targets --------------------- Once the iSCSI service is running, you can perform discovery using SendTarget with: iscsiadm -m discoverydb -t sendtargets -p ip:port --discover where "ip" is the address of the portal and port is the port. To use iSNS you can run the discovery command with the type as "isns" and pass in the ip:port: iscsiadm -m discoverydb -t isns -p ip:port --discover Both commands will print out the list of all discovered targets and their portals: # iscsiadm -m discoverydb -t st -p 10.15.85.19:3260 --discover 10.15.84.19:3260,2 iqn.1992-08.com.netapp:sn.33615311 10.15.85.19:3260,3 iqn.1992-08.com.netapp:sn.33615311 The format for the output is: ip:port,tpgt targetname In this example, for the first target the ip address is 10.15.85.19. The port is 3260. The target portal group is 3. The target name is iqn.1992-08.com.netapp:sn.33615311. If you would also like to see the iscsi inteface which will be used for each session then use the --print[N] option. iscsiadm -m discoverydb -t sendtargets -p ip:port -P 1 --discover will print: Target: iqn.1992-08.com.netapp:sn.33615311 Portal: 10.15.84.19:3260,2 Iface Name: iface2 Portal: 10.15.85.19:3260,3 Iface Name: iface2 In this example, The IP address of the first portal is 10.15.84.19. The port is 3260. The target portal group is 3. The target name is iqn.1992-08.com.netapp:sn.33615311. The iface being used is iface2. While discovery targets are kept in the discovery db, they are useful only for re-discovery. The discovered targets (a.k.a. nodes) are stored as records in the node db. The discovered targets are not logged into yet. Rather than logging into the discovered nodes (making LUs from those nodes available as storage), it is better to automate the login to the nodes we need. If you wish to log into a target manually now, see section "7.1.2.2 Logging in targets" above. 7.3. Automate Target Logins for Future System Statups ----------------------------------------------------- Note: this may only work for distros with init scripts. To automate login to a node, use the following with the record ID (record ID is the targetname and portal) of the node discovered in the discovery above: iscsiadm -m node -T targetname -p ip:port --op update -n node.startup -v automatic To set the automatic setting to all portals on a target through every interface setup for each protal, the following can be run: iscsiadm -m node -T targetname --op update -n node.startup -v automatic Or to set the "node.startup" attribute to "startup" as default for all sessions add the following to the /etc/iscsi/iscsid.conf: node.startup = automatic Setting this in iscsid.conf, will not affect existing nodes. It will only affect nodes that are discovered after setting the value. To login to all the automated nodes, simply restart the iscsi service: e.g /etc/init.d/open-iscsi restart. On your next startup the nodes will be logged into autmotically. 7.4 Automatic Discovery and Login ----------------------------------- Instead of running the iscsiadm discovery command and editing the startup setting, iscsid can be configured so that every X seconds it performs discovery and logs in and out of the portals return or no longer returned. In this mode, when iscsid starts it will check the discovery db for iSNS records with: discovery.isns.use_discoveryd = Yes and it will check for SendTargets discovery records that have the setting: discovery.sendtargets.use_discoveryd = Yes If set, iscsid will perform discovery to the address every discovery.isns.discoveryd_poll_inval or discovery.sendtargets.discoveryd_poll_inval seconds, and it will log into any portals found from the discovery source using the ifaces in /etc/iscsi/ifaces. Note that for iSNS the poll_interval does not have to be set. If not set, iscsid will only perform rediscovery when it gets a SCN from the server. # iSNS Note: # For servers like Microsofts where they allow SCN registrations, but do not # send SCN events, discovery.isns.poll_interval should be set to a non zero # value to auto discover new targets. This is also useful for servers like # linux-isns (SLES's iSNS server) where it sometimes does not send SCN # events in the proper format, so they may not get handled. Example: -------- SendTargets: ------------ - Create a SendTargets record by passing iscsiadm the "-o new" argument in discoverydb mode. # iscsiadm -m discoverydb -t st -p 20.15.0.7:3260 -o new New discovery record for [20.15.0.7,3260] added. - Set the use_discoveryd setting for the record. # iscsiadm -m discoverydb -t st -p 20.15.0.7:3260 -o update -n discovery.sendtargets.use_discoveryd -v Yes - Set the polling interval. # iscsiadm -m discoverydb -t st -p 20.15.0.7:3260 -o update -n discovery.sendtargets.discoveryd_poll_inval -v 30 To have the new settings take effect restart iscsid by restarting the iscsi service. Note: When iscsiadm is run with the -o new argument, it will use the discovery.sendtargets.use_discoveryd and discovery.sendtargets.discoveryd_poll_inval settings in iscsid.conf for the records initial settings. So if those are set in iscsid.conf, then you can skip the iscsiadm -o update commands. iSNS: ---- - Create an iSNS record by passing iscsiadm the "-o new" argument in discoverydb mode. # iscsiadm -m discoverydb -t isns -p 20.15.0.7:3205 -o new New discovery record for [20.15.0.7,3205] added. - Set the use_discoveryd setting for the record. # iscsiadm -m discoverydb -t isns -p 20.15.0.7:3205 -o update -n discovery.isns.use_discoveryd -v Yes - [OPTIONAL: see iSNS note above] Set the polling interval if needed. # iscsiadm -m discoverydb -t st -p 20.15.0.7:3205 -o update -n discovery.isns.discoveryd_poll_inval -v 30 To have the new settings take effect restart iscsid by restarting the iscsi service. Note: When iscsiadm is run with the -o new argument, it will use the discovery.isns.use_discoveryd and discovery.isns.discoveryd_poll_inval settings in iscsid.conf for the records initial settings. So if those are set in iscsid.conf, then you can skip the iscsiadm -o update commands. 8. Advanced Configuration ========================= 8.1 iSCSI settings for dm-multipath ----------------------------------- When using dm-multipath, the iSCSI timers should be set so that commands are quickly failed to the dm-multipath layer. For dm-multipath you should then set values like queue if no path, so that IO errors are retried and queued if all paths are failed in the multipath layer. 8.1.1 iSCSI ping/Nop-Out settings --------------------------------- To quickly detect problems in the network, the iSCSI layer will send iSCSI pings (iSCSI NOP-Out requests) to the target. If a NOP-Out times out the iSCSI layer will respond by failing running commands and asking the SCSI layer to requeue them if possible (SCSI disk commands get 5 retries if not using multipath). If dm-multipath is being used the SCSI layer will fail the command to the multipath layer instead of retrying. The multipath layer will then retry the command on another path. To control how often a NOP-Out is sent the following value can be set: node.conn[0].timeo.noop_out_interval = X Where X is in seconds and the default is 10 seconds. To control the timeout for the NOP-Out the noop_out_timeout value can be used: node.conn[0].timeo.noop_out_timeout = X Again X is in seconds and the default is 15 seconds. Normally for these values you can use: node.conn[0].timeo.noop_out_interval = 5 node.conn[0].timeo.noop_out_timeout = 10 If there are a lot of IO error messages, then the above values may be too aggressive and you may need to increase the values for your network conditions and workload, or you may need to check your network for possible problems. 8.1.2 replacement_timeout ------------------------- The next iSCSI timer that will need to be tweaked is: node.session.timeo.replacement_timeout = X Here X is in seconds. replacement_timeout will control how long to wait for session re-establishment before failing pending SCSI commands and commands that are being operated on by the SCSI layer's error handler up to a higher level like multipath or to an application if multipath is not being used. 8.1.2.1 Running Commands, the SCSI Error Handler, and replacement_timeout ------------------------------------------------------------------------- Remember, from the Nop-out discussion that if a network problem is detected, the running commands are failed immediately. There is one exception to this and that is when the SCSI layer's error handler is running. To check if the SCSI error handler is running iscsiadm can be run as: iscsiadm -m session -P 3 You will then see: Host Number: X State: Recovery When the SCSI EH is running, commands will not be failed until node.session.timeo.replacement_timeout seconds. To modify the timer that starts the SCSI EH, you can either write directly to the device's sysfs file: echo X > /sys/block/sdX/device/timeout where X is in seconds or on most distros you can modify the udev rule. To modify the udev rule open /etc/udev/rules.d/50-udev.rules, and find the following lines: ACTION=="add", SUBSYSTEM=="scsi" , SYSFS{type}=="0|7|14", \ RUN+="/bin/sh -c 'echo 60 > /sys$$DEVPATH/timeout'" And change the echo 60 part of the line to the value that you want. The default timeout for normal File System commands is 30 seconds when udev is not being used. If udev is used the default is the above value which is normally 60 seconds. 8.1.2.2 Pending Commands and replacement_timeout ------------------------------------------------ Commonly, the SCSI/BLOCK layer will queue 256 commands, but the path can only take 32. When a network problem is detected, the 32 commands in flight will be sent back to the SCSI layer immediately and because multipath is being used this will cause the commands to be sent to the multipath layer for execution on another path. However the other 96 commands that were still in the SCSI/BLOCK queue, will remain here until the session is re-established or until node.session.timeo.replacement_timeout seconds has gone by. After replacement_timeout seconds, the pending commands will be failed to the multipath layer, and all new incoming commands will be immediately failed back to the multipath layer. If a session is later re-established, then new commands will be queued and executed. Normally, multipathd's path tester mechanism will detect that the session has been re-established and the path is accessible again, and it will inform dm-multipath. 8.1.3 Optimal replacement_timeout Value --------------------------------------- The default value for replacement_timeout is 120 seconds, but because multipath's queue_if_no_path and no_path_retry setting can prevent IO errors from being propagated to the application, replacement_timeout can be set to a shorter value like 5 to 15 seconds. By setting it lower pending IO is quickly sent to a new path and executed while the iSCSI layer attempts re-establishment of the session. If all paths end up being failed, then the multipath and device mapper layer will internally queue IO based on the multipath.conf settings, instead of the iSCSI layer. 8.2 iSCSI settings for iSCSI root --------------------------------- When accessing the root partition directly through an iSCSI disk, the iSCSI timers should be set so that iSCSI layer has several chances to try to re-establish a session and so that commands are not quickly requeued to the SCSI layer. Basically you want the opposite of when using dm-multipath. For this setup, you can turn off iSCSI pings by setting: node.conn[0].timeo.noop_out_interval = 0 node.conn[0].timeo.noop_out_timeout = 0 And you can turn the replacement_timer to a very long value: node.session.timeo.replacement_timeout = 86400 9. iSCSI System Info ==================== To get information about the running sessions: including the session and device state, session ids (sid) for session mode, and some of the negotiated parameters, run: iscsiadm -m session -P 2 If you are looking for something shorter like just the sid to node mapping run: iscsiadm -m session -P 0 or iscsiadm -m session This will print the list of running sessions with the format: driver [sid] ip:port,target_portal_group_tag targetname # iscsiadm -m session tcp [2] 10.15.84.19:3260,2 iqn.1992-08.com.netapp:sn.33615311 tcp [3] 10.15.85.19:3260,3 iqn.1992-08.com.netapp:sn.33615311 To print the hw address info use the -P option with "1": iscsiadm -m session -P 1 This will print the sessions with the following format: Target: targetname Current Portal: portal currently logged into Persistent Portal: portal we would fall back to if we had got redirected during login Iface Transport: driver/transport_name Iface IPaddress: IP address of iface being used Iface HWaddress: HW address used to bind session Iface Netdev: netdev value used to bind session SID: iscsi sysfs session id iSCSI Connection State: iscsi state Note: if a older kernel is being used or if the session is not bound then the keyword "default" is print to indicate that the default network behavior is being used. Example: #iscsiadm -m session -P 1 Target: iqn.1992-08.com.netapp:sn.33615311 Current Portal: 10.15.85.19:3260,3 Persistent Portal: 10.15.85.19:3260,3 Iface Transport: tcp Iface IPaddress: 10.11.14.37 Iface HWaddress: default Iface Netdev: default SID: 7 iSCSI Connection State: LOGGED IN Internal iscsid Session State: NO CHANGE The connection state is currently not available for qla4xxx. To get a HBA/Host view of the session there is the host mode. Example: iscsiadm -m host cxgb3i: [7] 10.10.15.51,[00:07:43:05:97:07],eth3 This prints the list of iSCSI hosts in the system with the format: driver [hostno] ipaddress,[hwaddress],net_ifacename,initiatorname To print this info in a more user friendly way the -P argument can be used: iscsiadm -m host -P 1 Host Number: 7 State: running Transport: cxgb3i Initiatorname: IPaddress: 10.10.15.51 HWaddress: 00:07:43:05:97:07 Netdev: eth3 Here, you can also see the sate of the host. You can also pass in any value from 1 - 4 to print more info like the sessions running through the host, what ifaces are being used and what devices are accessed through it. To print the info for a specific host then you can pass in the -H argument with the host number: iscsiadm -m host -P 1 -H 7 open-iscsi-2.0.874/THANKS000066400000000000000000000010001277325716400146650ustar00rootroot00000000000000contribution: Wang Zhenyu contribution: Albert Pauw contribution: Arne Redlich contribution: Christoph Hellwig contribution: Mike Christie contribution: Ming Zhang packaging: Chad Tindel testing: FUJITA Tomonori testing: Harald Kubota testing: Pascal Renauld open-iscsi-2.0.874/TODO000066400000000000000000000363371277325716400144670ustar00rootroot00000000000000iSCSI DEVELOPMENT HOWTO AND TODO -------------------------------- July 7th 2011 If you are admin or user and just want to send a fix, just send the fix any way you can. We can port the patch to the proper tree and fix up the patch for you. Engineers that would like to do more advanced development then the following guideline should be followed. Submitting Patches ------------------ Code should follow the Linux kernel codying style doc: http://www.kernel.org/doc/Documentation/CodingStyle Patches should be submitted to the open-iscsi list open-iscsi@googlegroups.com. They should be made with "git diff" or "diff -up" or "diff -uprN", and kernel patches must have a "Signed-off-by" line. See section 12 http://www.kernel.org/doc/Documentation/SubmittingPatches for more information on the the signed off line. Getting the Code ---------------- Kernel patches should be made against the linux-2.6-iscsi tree. This can be downloaded from kernel.org with git with the following commands: git clone git://git.kernel.org/pub/scm/linux/kernel/git/mnc/linux-2.6-iscsi.git Userspace patches should be made against the open-iscsi git tree: git clone git://git.kernel.org/pub/scm/linux/kernel/git/mnc/open-iscsi.git KERNEL TODO ITEMS ----------------- 1. Make iSCSI log messages humanly readable. In many cases the iscsi tools and modules will log a error number value. The most well known is conn error 1011. Users should not have to search on google for what this means. We should: 1. Write a simple table to convert the error values to a string and print them out. 2. Document the values, how you commonly hit them and common solutions in the iSCSI docs. See scsi_transport_iscsi.c:iscsi_conn_error_event for where the evil "detected conn error 1011" is printed. See the enum iscsi_err in iscsi_if.h for a definition of the error code values. --------------------------------------------------------------------------- 2. Implement iSCSI dev loss support. Currently if a session is down for longer than replacement/recovery_timeout seconds, the iscsi layer will unblock the devices and fail IO. Other transport, like FC and SAS, will do something similar. FC has a fast_io_fail tmo which will unblock devices and fail IO, then it has a dev_loss_tmo which will delete the devices accessed through that port. iSCSI needs to implement dev_loss_tmo behavior, because apps are beginning to expect this behavior. An initial path was made here: http://groups.google.com/group/open-iscsi/msg/031510ab4cecccfd?dmode=source Since all drivers want this behavior we want to make it common. We need to change the patch in that link to add a dev_loss_tmo handler callback to the scsi_transport_template struct, and add some common sysfs and helpers functions to manage the dev_loss_tmo variable. *Being worked on by Vikek S --------------------------------------------------------------------------- 3. Reduce locking contention between session lock. The session lock is basically one big lock that protects everything in the iscsi_session. This lock could be broken down into smaller locks and maybe even replaced with something that would not require a lock. For example: 1. The session lock serializes access to the current R2T the initiator is handling (a R2T from the target or the initialR2T if being used). libiscsi/ libiscsi_tcp will call iscsi_tcp_get_curr_r2t and grab the session lock in the xmit path from the xmit thread and then in the recv path libiscsi_tcp/iscsi_tcp will call iscsi_tcp_r2t_rsp (this function is called with the session lock held). We could add a new per iscsi_task lock and use that to guard the R2T. 2. For iscsi_tcp and cxgb*i, libiscsi uses the session->cmdqueue linked list and the session lock to queue IO from the queuecommand function (run from scsi softirq or kblockd context) to the iscsi xmit thread. Once the task is sent from that thread, it is deleted from the list. It seems we should be able to remove the linked list use here. The tasks are all preallocated in the session->cmds array. We can access that array and check the task->state (see fail_scsi_tasks for an example). We just need to come up with a way to safely set the task state, wake the xmit thread and make sure that tasks are executed in the order that the scsi layer sent them to our queuecommand function. A starting point on the queueing: We might be able to create a workqueue per processor, queue the work, which in this case is the execution of the task, from the queuecommand, then rely on the work queue synchronization and serialization code. Not 100% sure about this. Alternative to changing the threading: Can we figure out a way to just remove the xmit thread? We currently cannot because the network may only be able to send 1000 bytes, but to send the current command we need to send 2000. We cannot sleep from the queuecommand context until another 1000 bytes frees up and for iscsi_tcp we cannot sleep from the recv conext (this happens because we could have got a R2T from target and are handling it from the recv path). Note: that for iser and offload drivers like bnx2i and be2iscsi their is no xmit thread used. Note2: cxgb*i does not actually need the xmit thread so a side project could be to convert that driver. --------------------------------------------------------------------------- 4. Make memory access more efficient on multi-processor machines. We are moving twords per process queues in the block layer, so it would be a good idea to move the iscsi structs to be allocated on a per process basis. --------------------------------------------------------------------------- 5. Make blk_iopoll support (see block/blk-iopoll.c and be2iscsi for an example) being able to round robin IO across processors or complete on the processor it was queued on (today it always completes the IO on the processor the softirq was raised on), and convert bnx2i, ib_iser and cxgb*i to it. Not sure if it will help iscsi_tcp and cxgb, because their completion is done from the network softirq which does polling already. With irq balancing it can also be spread over all processors too. --------------------------------------------------------------------------- 7. When userspace calls into the kernel using the iscsi netlink interface to execute oprations like creating/destroying a session, create a connection to a target, etc the rx_queue_mutex is held the entire time (see iscsi_if_rx for the iscsi netlink interface entry point). This means if the driver should block every thing will be held up. iscsi_tcp does not block, but some offload drivers might for a couple seconds to 10 or 15 secs while it figures out what is going on or cleans up. This a major problem for things like multipath where one connection blocking up the recovery of every other connection will delay IO from re-flowing quickly. We should looking into breaking up the rx_queue_mutex into finer grained locks or making it multi threaded. For the latter we could queue operations into workqueues. --------------------------------------------------------------------------- 7. Add tracing support to iscsi modules. See the scsi layer's trace_scsi_dispatch_cmd_start for an example. Well, actually in general look into all the tracing stuff available (trace_printk/ftrace, etc) and use one. See http://lwn.net/Articles/291091/ for some details on what is out there. We can only use something that is upstream though. --------------------------------------------------------------------------- 8. Improve the iscsi driver logging. Each driver has a different way to control logging. We should unify them and make it manageable by iscsiadm. So each driver would use a common format, there would be a common kernel interface to set the logging level, etc. --------------------------------------------------------------------------- 9. Implement more features from the iSCSI RFC if they are worth it. - Error Recovery Level (ERL) 1 support - will help tape support. - Multi R2T support - Might improve write performance. - OutOfOrder support - Might imrpove performance. --------------------------------------------------------------------------- 10. Add support for digest/CRC offload. --------------------------------------------------------------------------- 11. Finish intel IOAT support. I started this here: http://groups.google.com/group/open-iscsi/msg/2626b8606edbe690?dmode=source but could only test on boxes with 1 gig interfaces which showed no difference in performance. Intel had said they saw significant throughput gains when using 10 gig. --------------------------------------------------------------------------- 12. Remove the login buffer preallocated buffer. Storage drivers must be able to make forward process, so that they can always write out a page incase the kernel needs to allocate the page to another process. If the connection were to be disconnected and the initiator needed to relogin to the target at this time, we might not be abe to allocate a page for the login commands buffer. To work around the problem the initiator prealloctes a 8K (sometimes more depending on the page size) buffer for each session (see iscsi_conn_setup' s __get_free_pages call). This is obviously very wasteful since it will be a rare occurrence. Can we think of a way to allow multiple sessions to be relogged in at the same time, but not have to preallocate so many buffers? --------------------------------------------------------------------------- 13. Support iSCSI over swap safely. Basically just need to hook iscsi_tcp into the patches that were submitted here for NBD. https://lwn.net/Articles/446831/ --------------------------------------------------------------------------- USERSPACE TODO ITEMS -------------------- 1. The iscsi tools, iscsid, iscsiadm and iscsid, have a debug flag, -d N, that allows the user to control the amount of output that is logged. The argument N is a integer from 1 to 8, with 8 printing out the most output. The problem is that the values from 1 to 8 do not really mean much. It would helpful if we could replace them with something that controls what exactly the iscsi tools and kernel modules log. For example, if we made the debug level argument a bitmap then iscsiadm -m node --login -d LOGIN_ERRS,PDUS,FUNCTION might print out extended iscsi login error information (LOGIN_ERRS), the iSCSI packets that were sent/receieved (PDUS), and the functions that were run (FUNCTION). Note, the use of a bitmapp and the debug levels are just an example. Feel free to do something else. We would want to be able to have iscsiadm control the iscsi kernel logging as well. There are interfaces like /sys/module/libiscsi/paramters/*debug* /sys/module/libiscsi_tcp/paramters/*debug* /sys/module/iscsi_tcp/paramters/*debug* /sys/module/scsi_transport_iscsi/paramters/*debug* but we would want to extend the debugging options to be finer grained and we would want to make it supportable by all iscsi drivers. (see #8 on the kernel todo). --------------------------------------------------------------------------- 2. "iscsiadm -m session -P 3" can print out a lot of information about the session, but not all configuration values are printed. iscsiadm should be modified to print out other settings like timeouts, Chap settings, the iSCSI values that were requested vs negotiated for, etc. --------------------------------------------------------------------------- 3. iscsiadm cannot update a setting of a running session. If you want to change a timeout you have to run the iscsiadm logout command, then update the record value, then login: iscsiadm -m node -T target -p ip -u iscsidm -m node -T target -p ip -o update -n node.session.timeo.replacement_timeout -v 30 iscsiadm -m node -T target -p ip -l iscsiadm should be modified to allow updating of a setting without having to run the iscsiadm command. Note that for some settings like iSCSI ones (ImmediateData, FirstBurstLength, etc) that must be negotiated with the target we will have to logout the target then re-login, but we should not have to completely destroy the session and scsi devices like is done when running the iscsiadm logout command. We should be able to pass iscsid the new values and then have iscsid logout and relogin. Other settings like the abort timeout will not need a logout/login. We can just pass those to the kernel or iscsid to use. *Being worked on by Tomoaki Nishimura --------------------------------------------------------------------------- 4. iscsiadm will attempt to perform logins/logouts in parallel. Running iscsiadm -m node -L, will cause iscsiadm to login to all portals with the startup=automatic field set at the same time. To log into a target, iscsiadm opens a socket to iscsid, sends iscsid a request to login to a target, iscsid performs the iSCSI login operation, then iscsid sends iscsiadm a reply. To perform multiple logins iscsiadm will open a socket for each login request, then wait for a reply. This is a problem because for 1000s of targets we will have 1000s of sockets open. There is a rlimit to control how many files a process can have open and iscsiadm currently runs setrlimit to increase this. With users creating lots of virtual iscsi interfaces on the target and initiator with each having multiple paths it beomes inefficient to open a socket for each requests. At the very least we want to handle setrlimit RLIMIT_NOFILE limit better, and it would be best to just stop openening a socket per login request. --------------------------------------------------------------------------- 6. Implement broadcast/multicasts support, so the initiator can find iSNS servers without the user having to set the iSNS server address. See 5.6.5.14. Name Service Heartbeat (Heartbeat) in http://tools.ietf.org/html//rfc4171 --------------------------------------------------------------------------- 7. Open-iscsi uses the open-isns iSNS library. The library might be a little too complicated and a little too heavy for what we need. Investigate replacing it. Also explore merging the open-isns and linux-isns projects, so we do not have to support multiple isns clients/servers in linux. --------------------------------------------------------------------------- 8. Implement the DHCP iSNS option support, so we the initiator can find the iSNS sever without the user having to set the iSNS server address. See: http://www.ietf.org/rfc/rfc4174.txt --------------------------------------------------------------------------- 9. Some iscsiadm/iscsid operations that access the iscsi DB and sysfs can be up to Big O(N^2). Some of the code was written when we thought 64 sessions would be a lot and the norm would be 4 or 8. Due to virtualization, cloud use, and targets like equallogic that do a target per logical unit (device) we can see 1000s of sessions. - We should look into making the record DB more efficient. Maybe time to use a real DB (something small simple and efficient since this needs to run in places like the initramfs). - Rewrite code to look up a running session so we do not have loop over every session in sysfs. --------------------------------------------------------------------------- 10. Look into using udev's libudev for our sysfs access in iscsiadm/iscsid/ iscsistart. --------------------------------------------------------------------------- 11. iSCSI lib. I am working on this one. Hopefully it should be done soon. --------------------------------------------------------------------------- open-iscsi-2.0.874/doc/000077500000000000000000000000001277325716400145305ustar00rootroot00000000000000open-iscsi-2.0.874/doc/iscsi-iname.8000066400000000000000000000007651277325716400170320ustar00rootroot00000000000000.TH ISCSI_INAME 8 "Jan 2010" "" "Linux Administrator's Manual" .SH NAME iscsi-iname \- iSCSI initiator name generation tool .SH SYNOPSIS .BI iscsi-iname [OPTION] .SH "DESCRIPTION" .B iscsi-iname generates a unique iSCSI node name on every invocation. .SH OPTIONS .TP .BI [-h|--help] Display help .TP .BI [-p=]\fIprefix\fP Use the prefix passed in instead of the default "iqn.2005-03.org.open-iscsi" .SH AUTHORS Open-iSCSI project .br Mike Christie open-iscsi-2.0.874/doc/iscsi_discovery.8000066400000000000000000000027231277325716400200260ustar00rootroot00000000000000.de Vb \" Begin verbatim text .ft CW .nf .ne \\$1 .. .TH "iscsi_discovery" 8 .SH NAME iscsi_discovery \- discover iSCSI targets .SH SYNOPSIS .B iscsi_discovery .I .RB [ -p .IR ] .RB [ -d ] .RB [\ -t .IR .RB [ -f ] ] .RB [ -m ] .RB [ -l ] .SH DESCRIPTION Perform send-targets discovery to the specified IP. If a discovery record is generated, try to login to the portal using the preferred transport (\-t flag specifies the requested transport type, TCP is the default). If login using a certain transport succeeds, mark the portal for automatic login (unless \-m flag is used), and disconnect (unless \-l flag is used). For iSCSI discovery to work, open-iscsi services must be running. i.e. iscsid should be up, and the iSCSI modules loaded. This is best accomplished by the init.d startup script. .\" .SH OPTIONS .TP .BI [-p=]\fIport\-number\fP set the port number (default is 3260). .TP .BI [-d] print debugging information. .TP .BI [-t=]\fItransport\-type\fP set transport (default is tcp). .TP .BI [-f] force specific transport - disable the fallback to tcp (default is fallback enabled). force the transport specified by the argument of the \-t flag. .TP .BI [-m] manual startup - will set manual startup (default is automatic startup). .TP .BI [-l] login - login to the new discovered nodes (default is false). .SH AUTHOR Written by Dan Bar Dov .SH "REPORTING BUGS" Report bugs to . .SH COPYRIGHT Copyright \(co Voltaire Ltd. 2006. open-iscsi-2.0.874/doc/iscsiadm.8000066400000000000000000000453321277325716400164240ustar00rootroot00000000000000.TH ISCSIADM 8 "Sep 2006" "" "Linux Administrator's Manual" .SH NAME iscsiadm \- open-iscsi administration utility .SH SYNOPSIS .B iscsiadm .B \-m discoverydb .RB [ \-hV ] .RB [ \-d .IR debug_level ] .RB [ \-P .IR printlevel ] [\ .BI \-I\ iface\ \-t\ type\ \-p\ ip:port .RB [ \-lD ] ] | [ .RB [ \-p .I ip:port .B \-t .IR type ] .RB [ \-o .IR operation ] .RB [ \-n .IR name ] .RB [ \-v .IR value ] .RB [ \-lD ] ] .B iscsiadm .B \-m discovery .RB [ \-hV ] .RB [ \-d .IR debug_level ] .RB [ \-P .IR printlevel ] [\ .BI \-I\ iface\ \-t\ type\ \-p\ ip:port .RB [ \-l ] ] | [ .RB [ \-p .IR ip:port ] .RB [ \-l | \-D ] ] .B iscsiadm .B \-m node .RB [ \-hV ] .RB [ \-d .IR debug_level ] .RB [ \-P .IR printlevel ] .RB [ \-L .IR all,manual,automatic ] .RB [ \-U .IR all,manual,automatic ] .RB [ \-S ] [ .RB [ \-T .IB targetname\ \-p\ ip:port\ \-I\ iface ] .RB [ \-l | \-u | \-R | \-s ] ] [ .RB [ \-o .IR operation ] .RB [ \-n .IR name ] .RB [ \-v .IR value ] .RB [ \-p .IR ip:port ] ] .B iscsiadm .B \-m session .RB [ \-hV ] .RB [ \-d .IR debug_level ] .RB [ \-P .IR printlevel ] [ .B \-r .IR sessionid | sysfsdir .RB [ \-R ] .RB [ \-u | \-s | \-o .IR new ] ] .B iscsiadm .B \-m iface .RB [ \-hV ] .RB [ \-d .IR debug_level ] .RB [ \-P .IR printlevel ] [ .BI \-I\ ifacename | .BI \-H\ hostno|MAC ] [ .RB [ \-o .IR operation ] .RB [ \-n .IR name ] .RB [ \-v .IR value ] ] [ .BI \-C\ ping .RB [ \-a .IR ip ] .RB [ \-b .IR packetsize ] .RB [ \-c .IR count ] .RB [ \-i .IR interval ] ] .B iscsiadm .B \-m fw .RB [ \-d .IR debug_level ] .RB [ \-l ] .B iscsiadm .B \-m host .RB [ \-P .IR printlevel ] .RB [ \-H .IR hostno|MAC ] [ .RB [\ \-C .IR chap .RB [ \-x .IR chap_tbl_idx ] ] | .RB [\ \-C .IR flashnode .RB [ \-A .IR portal_type ] .RB [ \-x .IR flashnode_idx ] ] | .RB [\ \-C .IR stats \ ] ] [ .RB [ \-o .IR operation ] .RB [ \-n .IR name ] .RB [ \-v .IR value ] ] .B iscsiadm .B \-k priority .SH "DESCRIPTION" The iscsiadm utility is a command-line tool allowing discovery and login to iSCSI targets, as well as access and management of the open-iscsi database. Open-iscsi does not use the term node as defined by the iSCSI RFC, where a node is a single iSCSI initiator or target. Open-iscsi uses the term node to refer to a portal on a target. For session mode, a session id (sid) is used. The sid of a session can be found by running iscsiadm \-m session \-P 1. The session id and sysfs path are not currently persistent and is partially determined by when the session is setup. .PP Note that many of the node and discovery operations require that the iSCSI daemon (iscsid) be running. .SH OPTIONS .TP \fB\-a\fR, \fB\-\-ip=\fIipaddr\fP \fIipaddr\fR can be IPv4 or IPv6. This option is only valid for ping submode. .TP \fB\-A\fR, \fB\-\-portal_type=\fI[ipv4|ipv6]\fR Specify the portal type for the new flash node entry to be created. .IP This option is only valid for flashnode submode of host mode and only with \fInew\fR operation. .TP \fB\-b\fR, \fB\-\-packetsize=\fIpacketsize\fP Specify the ping \fIpacketsize\fR. This option is only valid for ping submode. .TP \fB\-c\fR, \fB\-\-count=\fIcount\fP \fIcount\fR specify number of ping iterations. This option is only valid for ping submode. .TP \fB\-C\fR, \fB\-\-submode=\fIop\fP Specify the submode for mode. op must be name of submode. Currently iscsiadm support ping as submode for iface. For example, iscsiadm \-m iface \-I ifacename \-C ping \-a ipaddr \-b packetsize \-c count \-i interval For host, it supports chap , flashnode and stats as submodes. For example, iscsiadm \-m host \-H hostno \-C chap \-x chap_tbl_idx \-o operation iscsiadm \-m host \-H hostno \-C flashnode \-x flashnode_idx \-o operation iscsiadm \-m host \-H hostno \-C stats .TP \fB\-d\fR, \fB\-\-debug=\fIdebug_level\fP print debugging information. Valid values for debug_level are 0 to 8. .TP \fB\-h\fR, \fB\-\-help\fR display help text and exit .TP \fB\-H\fR, \fB\-\-host=\fI[hostno|MAC]\fR The host argument specifies the SCSI host to use for the operation. It can be the scsi host number assigned to the host by the kernel's scsi layer, or the MAC address of a scsi host. .TP \fB\-i\fR, \fB\-\-interval=\fIinterval\fP \fIinterval\fP specify delay between two ping iterations. This option is only valid for ping submode. .TP \fB\-I\fR, \fB\-\-interface=\fI[iface]\fR The interface argument specifies the iSCSI interface to use for the operation. iSCSI interfaces (iface) are defined in /etc/iscsi/ifaces. For hardware iSCSI (qla4xxx) the iface config must have the hardware address (iface.hwaddress = port's MAC address) and the driver/transport_name (iface.transport_name). The iface's name is then the filename of the iface config. For software iSCSI, the iface config must have either the hardware address (iface.hwaddress), or the network layer's interface name (iface.net_ifacename), and it must have the driver/transport_name The available drivers/iscsi_transports are tcp (software iSCSI over TCP/IP), iser (software iSCSI over InfiniBand), or qla4xxx (Qlogic 4XXXX HBAs). The hwaddress is the MAC address or for software iSCSI it may be the special value "default" which directs the initiator to not bind the session to a specific hardware resource and instead allow the network or InfiniBand layer to decide what to do. There is no need to create an iface config with the default behavior. If you do not specify an iface, then the default behavior is used. As mentioned above there is a special iface name default. There are three others -- cxgb3i, bnx2i and iser, which does not bind the session to a specific card, but will bind the session to the cxgb3i, bnx2i or iser transport. These are experimental and the use is not supported as a stable interface yet. In discovery mode multiple interfaces can be specified by passing in multiple \-I/\-\-interface instances. For example, "iscsiadm \-m discoverydb \-t st \-p ip:port \-I iface0 \-I iface2 \-\-discover" Will direct iscsiadm to setup the node db to create records which will create sessions through the two intefaces passed in. In node mode, only a single interface is supported in each call to iscsiadm. .IP This option is valid for discovery, node and iface mode. .TP \fB\-k\fR, \fB\-\-killiscsid=\fI[priority]\fR Currently priority must be zero. This will immediately stop all iscsid operations and shutdown iscsid. It does not logout any sessions. Running this command is the same as doing "killall iscsid". Neither should normally be used, because if iscsid is doing error recovery or if there is an error while iscsid is not running, the system may not be able to recover. This command and iscsid's SIGTERM handling are experimental. .TP \fB\-D\fR, \fB\-\-discover\fR Discover targets using the discovery record with the \fIrecid\fR matching the the discovery type and portal passed in. If there is no matching record, it will be created using the iscsid.conf discovery settings. This must be passed in \fIdiscoverydb\fR mode to instruct iscsiadm to perform discovery. .IP This option is only valid for SendTargets discovery mode. .TP \fB\-l\fR, \fB\-\-login\fR For node and fw mode, login to a specified record. For discovery mode, login to all discovered targets. .IP This option is only valid for discovery and node modes. .TP \fB\-L\fR, \fB\-\-loginall=\fI[all|manual|automatic]\fR For node mode, login all sessions with the node or conn startup values passed in or all running session, except ones marked onboot, if all is passed in. .IP This option is only valid for node mode (it is valid but not functional for session mode). .TP \fB\-m, \-\-mode \fIop\fR specify the mode. \fIop\fR must be one of \fIdiscovery\fR, \fIdiscoverydb\fR, \fInode\fR, \fIfw\fR, \fIhost\fR \fIiface\fR or \fIsession\fR. .IP If no other options are specified: for \fIdiscovery\fR, \fIdiscoverydb\fR and \fInode\fR, all of their respective records are displayed; for \fIsession\fR, all active sessions and connections are displayed; for \fIfw\fR, all boot firmware values are displayed; for \fIhost\fR, all iSCSI hosts are displayed; and for \fIiface\fR, all ifaces setup in /etc/iscsi/ifaces are displayed. .TP \fB\-n\fR, \fB\-\-name=\fIname\fR In node mode, specify a field \fIname\fR in a record. In flashnode submode of host mode, specify name of the flash node parameter. For use with the \fIupdate\fR operator. .IP .TP \fB\-o\fR, \fB\-\-op=\fIop\fR Specifies a database operator \fIop\fR. \fIop\fR must be one of \fInew\fR, \fIdelete\fR, \fIupdate\fR, \fIshow\fR or \fInonpersistent\fR. .IP For iface mode, \fIapply\fR and \fIapplyall\fR are also applicable. .IP For flashnode submode of host mode, \fIlogin\fR and \fIlogout\fR are also applicable. .IP This option is valid for all modes except fw. Delete should not be used on a running session. If it is iscsiadm will stop the session and then delete the record. .IP \fInew\fR creates a new database record for a given object. In node mode, the \fIrecid\fR is the target name and portal (IP:port). In iface mode, the \fIrecid\fR is the iface name. In discovery mode, the \fIrecid\fR is the portal and discovery type. .IP In session mode, the \fInew\fR operation logs in a new session using the same node database and iface information as the specified session. .IP In discovery mode, if the \fIrecid\fR and new operation is passed in, but the \fI--discover\fR argument is not, then iscsiadm will only create a discovery record (it will not perform discovery). If the \fI--discover\fR argument is passed in with the portal and discovery type, then iscsiadm will create the discovery record if needed, and it will create records for portals returned by the target that do not yet have a node DB record. .IP \fIdelete\fR deletes a specified \fIrecid\fR. In discovery mode, if iscsiadm is performing discovery it will delete records for portals that are no longer returned. .IP \fIupdate\fR will update the \fIrecid\fR with \fIname\fR to the specified \fIvalue\fR. In discovery mode, if iscsiadm is performing discovery the \fIrecid\fR, \fIname\fR and \fIvalue\fR arguments are not needed. The update operation will operate on the portals returned by the target, and will update the node records with info from the config file and command line. .IP \fIshow\fR is the default behaviour for node, discovery and iface mode. It is also used when there are no commands passed into session mode and a running sid is passed in. \fIname\fR and \fIvalue\fR are currently ignored when used with \fIshow\fR. .IP \fInonpersistent\fR instructs iscsiadm to not manipulate the node DB. .IP \fIapply\fR will cause the network settings to take effect on the specified iface. .IP \fIapplyall\fR will cause the network settings to take effect on all the ifaces whose MAC address or host number matches that of the specific host. .IP \fIlogin\fR will log into the specified flash node entry. .IP \fIlogout\fR does the logout from the given flash node entry. .TP \fB\-p\fR, \fB\-\-portal=\fIip[:port]\fR Use target portal with ip-address \fIip\fR and \fIport\fR. If port is not passed in the default \fIport\fR value is 3260. .IP IPv6 addresses can be specified as [ddd.ddd.ddd.ddd]:port or ddd.ddd.ddd.ddd. .IP Hostnames can also be used for the ip argument. .IP This option is only valid for discovery, or for node operations with the \fInew\fR operator. .IP This should be used along with \-\-target in node mode, to specify what the open-iscsi docs refer to as a node or node record. Note: open-iscsi's use of the word node, does not match the iSCSI RFC's iSCSI Node term. .TP \fB\-P\fR, \fB\-\-print=\fIprintlevel\fR If in node mode print nodes in tree format. If in session mode print sessions in tree format. If in discovery mode print the nodes in tree format. .TP \fB\-T\fR, \fB\-\-targetname=\fItargetname\fR Use target \fItargetname\fR. .IP This should be used along with \-\-portal in node mode, to specify what the open-iscsi docs refer to as a node or node record. Note: open-iscsi's use of the word node, does not match the iSCSI RFC's iSCSI Node term. .TP \fB\-r\fR, \fB\-\-sid=\fIsid | sysfsdir\fR Use session ID \fIsid\fR. The sid of a session can be found from running iscsiadm in session mode with the \-\-info argument. Instead of sid, a sysfs path containing the session can be used. For example using one of the following: /sys/devices/platform/hostH/sessionS/targetH:B:I/H:B:I:L, /sys/devices/platform/hostH/sessionS/targetH:B:I, or /sys/devices/platform/hostH/sessionS, for the sysfsdir argument would result in the session with sid S to be used. .IP \fIsid | sysfsdir\fR is only required for session mode. .TP \fB\-R\fR, \fB\-\-rescan\fR In session mode, if sid is also passed in rescan the session. If no sid has been passed in rescan all running sessions. In node mode, rescan a session running through the target, portal, iface tuple passed in. .TP \fB\-s\fR, \fB\-\-stats\fR Display session statistics. This option when used with host mode, displays host statistics. .TP \fB\-S\fR, \fB\-\-show\fR When displaying records, do not hide masked values, such as the CHAP secret (password). .IP This option is only valid for node and session mode. .TP \fB\-t\fR, \fB\-\-type=\fItype\fR \fItype\fR must be \fIsendtargets\fR (or abbreviated as \fIst\fR), \fIslp\fR, \fIisns\fR or \fIfw\fR. Currently only sendtargets, fw, and iSNS is supported, see the DISCOVERY TYPES section. .IP This option is only valid for discovery mode. .TP \fB\-u\fR, \fB\-\-logout\fR logout for a specified record. .IP This option is only valid for node and session mode. .TP \fB\-U\fR, \fB\-\-logoutall=\fI[all,manual,automatic]\fR logout all sessions with the node or conn startup values passed in or all running session, except ones marked onboot, if all is passed in. .IP This option is only valid for node mode (it is valid but not functional for session mode). .TP \fB\-v\fR, \fB\-\-value=\fIvalue\fR Specify a \fIvalue\fR for use with the \fIupdate\fR operator. .IP This option is only valid for node mode and flashnode submode of host mode. .TP \fB\-V\fR, \fB\-\-version\fR display version and exit .TP \fB\-x\fR, \fB\-\-index=\fIindex\fR Specify the \fIindex\fR of the entity to operate on. .IP This option is only valid for chap and flashnode submodes of host mode. .SH DISCOVERY TYPES iSCSI defines 3 discovery types: SendTargets, SLP, and iSNS. .TP .B SendTargets A native iSCSI protocol which allows each iSCSI target to send a list of available targets to the initiator. .TP .B SLP Optionally an iSCSI target can use the Service Location Protocol (SLP) to announce the available targets. The initiator can either implement SLP queries directly or can use a separate tool to acquire the information about available targets. .TP .B iSNS iSNS (Internet Storage Name Service) records information about storage volumes within a larger network. To utilize iSNS, pass the address and optionally the port of the iSNS server to do discovery to. .TP .B fw Several NICs and systems contain a mini iSCSI initiator which can be used for boot. To get the values used for boot the fw option can be used. Doing fw discovery, does not store persistent records in the node or discovery DB, because the values are stored in the system's or NIC's resource. Performing fw discovery will print the portals, like with other discovery methods. To see other settings like CHAP values and initiator settings, like you would in node mode, run "iscsiadm \-m fw". fw support in open-iscsi is experimental. The settings and iscsiadm syntax and output format may change. .P iscsiadm supports the .B iSNS (isns) or .B SendTargets (st) discovery type. An SLP implementation is under development. .SH EXIT STATUS On success 0 is returned. On error one of the return codes below will be returned. Commands that operate on multiple objects (sessions, records, etc), iscsiadm/iscsistart will return the first error that is encountered. iscsiadm/iscsistart will attempt to execute the operation on the objects it can. If no objects are found ISCSI_ERR_NO_OBJS_FOUND is returned. .TP .B 0 ISCSI_SUCCESS - command executed successfully. .TP .B 1 ISCSI_ERR - generic error code. .TP .B 2 ISCSI_ERR_SESS_NOT_FOUND - session could not be found. .TP .B 3 ISCSI_ERR_NOMEM - could not allocate resource for operation. .TP .B 4 ISCSI_ERR_TRANS - connect problem caused operation to fail. .TP .B 5 ISCSI_ERR_LOGIN - generic iSCSI login failure. .TP .B 6 ISCSI_ERR_IDBM - error accessing/managing iSCSI DB. .TP .B 7 ISCSI_ERR_INVAL - invalid argument. .TP .B 8 ISCSI_ERR_TRANS_TIMEOUT - connection timer exired while trying to connect. .TP .B 9 ISCSI_ERR_INTERNAL - generic internal iscsid/kernel failure. .TP .B 10 ISCSI_ERR_LOGOUT - iSCSI logout failed. .TP .B 11 ISCSI_ERR_PDU_TIMEOUT - iSCSI PDU timedout. .TP .B 12 ISCSI_ERR_TRANS_NOT_FOUND - iSCSI transport module not loaded in kernel or iscsid. .TP .B 13 ISCSI_ERR_ACCESS - did not have proper OS permissions to access iscsid or execute iscsiadm command. .TP .B 14 ISCSI_ERR_TRANS_CAPS - transport module did not support operation. .TP .B 15 ISCSI_ERR_SESS_EXISTS - session is logged in. .TP .B 16 ISCSI_ERR_INVALID_MGMT_REQ - invalid IPC MGMT request. .TP .B 17 ISCSI_ERR_ISNS_UNAVAILABLE - iSNS service is not supported. .TP .B 18 ISCSI_ERR_ISCSID_COMM_ERR - a read/write to iscsid failed. .TP .B 19 ISCSI_ERR_FATAL_LOGIN - fatal iSCSI login error. .TP .B 20 ISCSI_ERR_ISCSID_NOTCONN - could not connect to iscsid. .TP .B 21 ISCSI_ERR_NO_OBJS_FOUND - no records/targets/sessions/portals found to execute operation on. .TP .B 22 ISCSI_ERR_SYSFS_LOOKUP - could not lookup object in sysfs. .TP .B 23 ISCSI_ERR_HOST_NOT_FOUND - could not lookup host. .TP .B 24 ISCSI_ERR_LOGIN_AUTH_FAILED - login failed due to authorization failure. .TP .B 25 ISCSI_ERR_ISNS_QUERY - iSNS query failure. .TP .B 26 ISCSI_ERR_ISNS_REG_FAILED - iSNS registration/deregistration failed. .SH EXAMPLES .nf Discover targets at a given IP address: .ft R iscsiadm \-\-mode discoverydb \-\-type sendtargets \-\-portal 192.168.1.10 \-\-discover .nf Login, must use a node record id found by the discovery: .ft R iscsiadm \-\-mode node \-\-targetname iqn.2001-05.com.doe:test \-\-portal 192.168.1.1:3260 \-\-login .nf Logout: .ft R iscsiadm \-\-mode node \-\-targetname iqn.2001-05.com.doe:test \-\-portal 192.168.1.1:3260 \-\-logout .nf List node records: .ft R iscsiadm \-\-mode node .nf Display all data for a given node record: .ft R iscsiadm \-\-mode node \-\-targetname iqn.2001-05.com.doe:test \-\-portal 192.168.1.1:3260 .SH FILES .TP /etc/iscsi/iscsid.conf The configuration file read by \fBiscsid\fR and \fBiscsiadm\fR on startup. .TP /etc/iscsi/initiatorname.iscsi The file containing the iSCSI InitiatorName and InitiatorAlias read by \fBiscsid\fR and \fBiscsiadm\fR on startup. .TP /etc/iscsi/nodes/ This directory contains the nodes with their targets. .TP /etc/iscsi/send_targets This directory contains the portals. .SH "SEE ALSO" .BR iscsid (8) .SH AUTHORS Open-iSCSI project .br Alex Aizman .br Dmitry Yusupov open-iscsi-2.0.874/doc/iscsid.8000066400000000000000000000034431277325716400161030ustar00rootroot00000000000000.TH ISCSID 8 "July 2005" "" "Linux Administrator's Manual" .SH NAME iscsid \- Open-iSCSI daemon .SH SYNOPSIS .BI iscsid [OPTION] .SH "DESCRIPTION" The .B iscsid implements the control path of iSCSI protocol, plus some management facilities. For example, the daemon could be configured to automatically re-start discovery at startup, based on the contents of persistent iSCSI database. .SH OPTIONS .TP .BI [-c|--config=]\fIconfig\-file\fP Read configuration from \fIconfig\-file\fR rather than the default \fI/etc/iscsi/iscsid.conf\fR file. .TP .BI [-i|--initiatorname=]\fIiname\-file\fP Read initiator name from \fIiname\-file\fR rather than the default \fI/etc/iscsi/initiatorname.iscsi\fR file. .TP .BI [-f|--foreground] run .B iscsid in the foreground. .TP .BI [-d|--debug=]\fIdebug_level\fP print debugging information. Valid values for debug_level are 0 to 8. .TP .BI [-u|--uid=]\fIuid\fP run under user ID \fIuid\fR (default is the current user ID) .TP .BI [-g|--gid=]\fIgid\fP run under user group ID \fIgid\fR (default is the current user group ID). .TP .BI [-n|--no-pid-file]\fP do not write a process ID file. .TP .BI [-p|--pid=]\fIpid\-file\fP write process ID to \fIpid\-file\fR rather than the default \fI/var/run/iscsid.pid\fR .TP .BI [-h|--help] display this help and exit .TP .BI [-v|--version] display version and exit. .SH FILES .TP /etc/iscsi/iscsid.conf The configuration file read by .B iscsid and .B iscsiadm on startup. .TP /etc/iscsi/initiatorname.iscsi The file containing the iSCSI initiatorname and initiatoralias read by .B iscsid and .B iscsiadm on startup. .TP /etc/iscsi/nodes Open-iSCSI persistent configuration database .SH "SEE ALSO" .BR iscsiadm (8) .SH AUTHORS Open-iSCSI project .br Alex Aizman .br Dmitry Yusupov open-iscsi-2.0.874/doc/iscsistart.8000066400000000000000000000034601277325716400170140ustar00rootroot00000000000000.TH ISCSISTART 8 "Jan 2010" "" "Linux Administrator's Manual" .SH NAME iscsistart \- iSCSI boot tool .SH SYNOPSIS .BI iscsistart [OPTION] .SH "DESCRIPTION" .B iscsistart will start a session using the settings passed in, or using the iBFT or Open Firmware [OF] boot information. This program should not be run to manage sessions. Its primary use is to start sessions used for iSCSI root boot. .SH OPTIONS .TP .BI [-i|--initiatorname=]\fIname\fP Set InitiatorName to name (Required if not using iBFT or OF) .TP .BI [-t|--targetname=]\fIname\fP Set TargetName to name (Required if not using iBFT or OF) .TP .BI [-g|--tgpt=]\fIN\fP Set target portal group tag to N (Required if not using iBFT or OF) .TP .BI [-a|--address=]\fIA.B.C.D\fP Set IP address to A.B.C.D (Required if not using iBFT or OF) .TP .BI [-p|--port=]\fIN\fP Set port to N (Optional. Default 3260) .TP .BI [-u|--username=]\fIN\fP Set username to N (Optional) .TP .BI [-w|--password=]\fIN\fP Set password to N (Optional) .TP .BI [-U|-username_in=]\fIN\fP Set incoming username to N (Optional) .TP .BI [-W|--password_in=]\fIN\fP Set incoming password to N (Optional) .TP .BI [-d|--debug=]\fIdebug_level\fP Print debugging information .TP .BI [-b|--fwparam_connect] Create a session to the target using the iBFT or OF info .TP .BI [-N|--fwparam_network] Bring up the network as specified by iBFT or OF .TP .BI [-f|--fwparam_print] Print the iBFT or OF info to STDOUT .TP .BI [-P|--param=]\fINAME=VALUE\fP Set the parameter with the name NAME to VALUE. NAME is one of the settings in the node record or iscsid.conf. Multiple params can be passed in. .TP .BI [-h|--help] Display this help and exit .TP .BI [-v|--version] Display version and exit .SH "SEE ALSO" .BR iscsiadm (8) .SH AUTHORS Open-iSCSI project .br Mike Christie open-iscsi-2.0.874/etc/000077500000000000000000000000001277325716400145365ustar00rootroot00000000000000open-iscsi-2.0.874/etc/iface.example000066400000000000000000000135401277325716400171650ustar00rootroot00000000000000# # Example iSCSI interface config # # There must be a separate iscsi interface config file for each NIC, network # interface or port or iscsi HBA you want to bind sessions to. # # For hardware iscsi, this is created for you when you run iscsiadm. # For software iscsi, you must define these files yourself. # # REQUIRED: iface.transport_name # # Set the iscsi transport/driver to use for the iface by setting # iface.transport_name # example: # iface.transport_name = tcp # This value is required and valid values for iface.transport_name are: # - tcp (Software iSCSI over TCP/IP) # - iser (Software iSCSI over infinniband # - qla4xxx (Qlogic QLA4XXX HBAs) # - bnx2i (Broadcom bnx iSCSI HBAs); # - cxgb3i (Chelsio cxgb S3 iSCSI HBAs); # #OPTIONAL: iface.initiatorname # To use an initiator name other than the one set in # /etc/iscsi/initiatorname.iscsi for normal sessions set the # iface.initiatorname. This is only used for normal sessions. # For discovery sessions the /etc/iscsi/initiatorname.iscsi value # is used. # # iface.initiatorname = iqn.2003-04.com.fedora:test # # # REQUIRED to be able to bind a session to a network device: # [iface.net_ifacename | iface.hwaddress] # # OPTIONAL if you are creating ifaces so you can create multiple sessions # using the default behavior where the network layer selects the device. # # __One__ of the following values are required for binding a session # to a specific nic/netdevice. # # To bind by network interface name (example: eth0, eth2:2, eth1.3) # set iface.net_ifacename # example: # iface.net_ifacename = eth0 # To bind by hardware address set the NIC's MAC address to iface.hwaddress # example: # iface.hwaddress = 00:0F:1F:92:6B:BF # Note you can only bind using one value. If you set multiple values # the bahavior is not defined. # For some transport (cxgb3i), a user could to set the private ip address for # the iscsi traffic for an network interface: # example: # - set iscsi ip on eth0 to be 102.50.50.101, eth0 needs to be up and be on # the same subnet. # iface.net_ifacename = eth0 # iface.ipaddress = 102.50.50.101 # OPTIONAL: iface.bootproto # # Valid values are: # "dhcp" and "static" # # REQUIRED when IPv4 address need to be obtained dynamically using DHCP # example: # iface.bootproto = dhcp # # OPTIONAL when the IPv4 address is set statically # example: # iface.ipaddress = 102.50.50.101 # iface.bootproto = static # # OPTIONAL: iface.vlan_id # Used to set the VLAN ID for the iSCSI interfae. # example # iface.vlan_id = 1022 # OPTIONAL: iface.vlan_priority # Used to set the VLAN priority for the iSCSI interfae. # example # iface.vlan_priority = 1 # OPTIONAL: iface.vlan_state # Used to enable or disable the VLAN on the iSCSI interface # example # iface.vlan_state = enable # OPTIONAL: iface.ipv6_linklocal # Specify the IPV6 Link Local Address with the # link local prefix of FE80::0/64 # example: # iface.ipv6_linklocal = fe80:0000:0000:0000:020e:1eff:1111:2221 # OPTIONAL: iface.ipv6_router # Used to set a default IPV6 router # example: # iface.ipv6_router = fe80:0000:0000:0000:7ae7:d1ff:fe72:4048 # OPTIONAL: iface.ipv6_autocfg # Used to set the discovery protocol to obtain IPV6 address # For example qla4xxx support neighbor discovery # example: # iface.ipv6_autocfg = nd # OPTIONAL: iface.linklocal_autocfg # For transport like qla4xxx this allows to auto configure the # IPV6 link local address based on the MAC address of the iSCSI # interface # OPTIONAL: iface.router_autocfg # Required to set the IPv6 router discovery protocol # To set the router discovery protocol to Neighbor Discovery specify "nd" # example: # iface.router_autocfg = nd # OPTIONAL: iface.state # By default the iface is enabled # iface.state = enable # To disable the iface set the state to "disable" # iface.state = disable # iface.iface_num # REQUIRED: When there are more than 1 interface to be configured. # For transports like qla4xxx, one can specify two IPV6 interfaces # in such case the iface_num must be set correctly # example: # iface settings for first IPV6 interface # iface.iscsi_ifacename = iface-qla4xxx-ipv6-1 # iface.iface_num = 0 # # iface settings for second IPV6 interface # iface.iscsi_ifacename = iface-qla4xxx-ipv6-2 # iface.iface_num = 1 # Here are some example iface files # IPV4 sample config file with static IP address: # BEGIN RECORD 2.0-872 # iface.iscsi_ifacename = qla4xxx-3 # iface.ipaddress = 192.168.1.75 # iface.hwaddress = 00:0e:1e:04:93:92 # iface.transport_name = qla4xxx # iface.bootproto = static # iface.subnet_mask = 255.255.255.0 # iface.gateway = 192.168.1.1 # iface.state = enable # iface.vlan = # iface.iface_num = 0 # END RECORD # # IPV6 sample config file with neighbor discovery: # BEGIN RECORD 2.0-872 # iface.iscsi_ifacename = qla4xxx-3-1 # iface.ipaddress = # iface.hwaddress = 00:0e:1e:04:93:92 # iface.transport_name = qla4xxx # iface.ipv6_autocfg = nd # iface.linklocal_autocfg = auto # iface.router_autocfg = nd # iface.ipv6_linklocal = fe80:0000:0000:0000:020e:1eff:1111:2221 # iface.ipv6_router = auto # iface.state = enable # iface.vlan = # iface.iface_num = 0 # END RECORD # Ipv4 sample config file (DHCP configuration): # BEGIN RECORD 2.0-872 # iface.iscsi_ifacename = qla4xxx-3 # iface.hwaddress = 00:0e:1e:04:93:92 # iface.transport_name = qla4xxx # iface.bootproto = dhcp # iface.state = enable # iface.vlan = # iface.iface_num = 0 # END RECORD # Sample ipv6 config file(manual configured IPs): # BEGIN RECORD 2.0-872 # iface.iscsi_ifacename = iface-new-file # iface.ipaddress = fec0:ce00:7014:0041:1111:2222:1e04:9392 # iface.hwaddress = 00:0e:1e:04:93:92 # iface.transport_name = qla4xxx # iface.ipv6_autocfg = # iface.linklocal_autocfg = # iface.router_autocfg = # iface.ipv6_linklocal = fe80:0000:0000:0000:0000:0000:1e04:9392 # iface.ipv6_router = fe80:0000:0000:0000:7ae7:d1ff:fe72:4048 # iface.state = enable # iface.vlan = # iface.iface_num = 0 # END RECORD open-iscsi-2.0.874/etc/initd/000077500000000000000000000000001277325716400156455ustar00rootroot00000000000000open-iscsi-2.0.874/etc/initd/boot.suse000066400000000000000000000032511277325716400175120ustar00rootroot00000000000000#!/bin/bash # # /etc/init.d/iscsi # ### BEGIN INIT INFO # Provides: iscsiboot # Required-Start: # Should-Start: boot.multipath # Required-Stop: # Should-Stop: # Default-Start: B # Default-Stop: # Short-Description: iSCSI initiator daemon root-fs support # Description: Starts the iSCSI initiator daemon if the # root-filesystem is on an iSCSI device # ### END INIT INFO ISCSIADM=/sbin/iscsiadm CONFIG_FILE=/etc/iscsid.conf DAEMON=/sbin/iscsid ARGS="-c $CONFIG_FILE" # Source LSB init functions . /etc/rc.status # # This service is run right after booting. So all targets activated # during mkinitrd run should not be removed when the open-iscsi # service is stopped. # iscsi_mark_root_nodes() { $ISCSIADM -m session 2> /dev/null | while read t num i target ; do ip=${i%%:*} STARTUP=`$ISCSIADM -m node -p $ip -T $target 2> /dev/null | grep "node.conn\[0\].startup" | cut -d' ' -f3` if [ "$STARTUP" -a "$STARTUP" != "onboot" ] ; then $ISCSIADM -m node -p $ip -T $target -o update -n node.conn[0].startup -v onboot fi done } # Reset status of this service rc_reset # We only need to start this for root on iSCSI if ! grep -q iscsi_tcp /proc/modules ; then rc_failed 6 rc_exit fi case "$1" in start) echo -n "Starting iSCSI initiator for the root device: " startproc $DAEMON $ARGS rc_status -v iscsi_mark_root_nodes ;; stop|restart|reload) rc_failed 0 ;; status) echo -n "Checking for iSCSI initiator service: " if checkproc $DAEMON ; then rc_status -v else rc_failed 3 rc_status -v fi ;; *) echo "Usage: $0 {start|stop|status|restart|reload}" exit 1 ;; esac rc_exit open-iscsi-2.0.874/etc/initd/initd.debian000066400000000000000000000042141277325716400201210ustar00rootroot00000000000000#! /bin/sh ### BEGIN INIT INFO # Provides: # Required-Start: # Required-Stop: # Default-Start: # Default-Stop: # Short-Description: Starts and stops the iSCSI initiator services and logins to default targets ### END INIT INFO PATH=/sbin:/bin:/usr/sbin:/usr/bin DAEMON=/sbin/iscsid ADM=/sbin/iscsiadm PIDFILE=/var/run/iscsid.pid [ -x "$DAEMON" ] || exit 0 . /lib/lsb/init-functions if [ ! -d /sys/class/ ]; then log_failure_msg "iSCSI requires a mounted sysfs, not started." exit 1 fi nodestartup_re='s/^node\.conn\[0]\.startup[ ]*=[ ]*//p' RETVAL=0 start() { log_daemon_msg "Starting iSCSI initiator service" "iscsid" modprobe -q iscsi_tcp 2>/dev/null || : modprobe -q ib_iser 2>/dev/null || : start-stop-daemon --start --quiet --pidfile $PIDFILE --exec $DAEMON RETVAL=$? log_end_msg $RETVAL starttargets } starttargets() { log_daemon_msg "Setting up iSCSI targets" $ADM -m node --loginall=automatic log_end_msg 0 } stoptargets() { log_daemon_msg "Disconnecting iSCSI targets" sync $ADM -m node --logoutall=all RETVAL=$? log_end_msg $RETVAL } stop() { stoptargets if [ $RETVAL -ne 0 ]; then log_failure_msg "Could not stop all targets, try again later" return $RETVAL fi log_daemon_msg "Stopping iSCSI initiator service" start-stop-daemon --stop --quiet --pidfile $PIDFILE --exec $DAEMON rm -f $PIDFILE status=0 modprobe -r ib_iser 2>/dev/null if [ "$?" -ne "0" -a "$?" -ne "1" ]; then status=1 fi modprobe -r iscsi_tcp 2>/dev/null if [ "$?" -ne "0" -a "$?" -ne "1" ]; then status=1 fi log_end_msg $status } restart() { stop if [ $RETVAL -ne 0 ]; then log_failure_msg "Stopping iSCSI initiator service failed, not starting" return $RETVAL fi start } restarttargets() { stoptargets if [ $RETVAL -ne 0 ]; then log_failure_msg "Could not stop all targets, try again later" return $RETVAL fi starttargets } status() { #XXX FIXME: what to do here? #status iscsid # list active sessions echo Current active iSCSI sessions: $ADM -m session } case "$1" in start|starttargets|stop|stoptargets|restart|restarttargets|status) $1 ;; *) echo "Usage: $0 {start|stop|restart|status}" exit 1 ;; esac exit $RETVAL open-iscsi-2.0.874/etc/initd/initd.redhat000066400000000000000000000032071277325716400201470ustar00rootroot00000000000000#!/bin/sh # # chkconfig: 345 13 89 # description: Starts and stops the iSCSI initiator # # processname: iscsid # pidfile: /var/run/iscsid.pid # config: /etc/iscsi/iscsid.conf # Source function library. . /etc/init.d/functions PATH=/sbin:/bin:/usr/sbin:/usr/bin RETVAL=0 start() { echo -n $"Starting iSCSI initiator service: " daemon iscsid RETVAL=$? success echo [ $RETVAL -eq 0 ] || return touch /var/lock/subsys/open-iscsi echo -n $"Setting up iSCSI targets: " iscsiadm -m node --loginall=automatic success echo } stop() { echo -n $"Stopping iSCSI initiator service: " sync iscsiadm -m node --logoutall=all RETVAL=$? if [ $RETVAL -ne 0 ]; then echo "Could not logout from all nodes, try again later" return $RETVAL fi iscsiadm -k 0 rm -f /var/run/iscsid.pid [ $RETVAL -eq 0 ] && rm -f /var/lock/subsys/open-iscsi status=0 modprobe -r iscsi_tcp 2>/dev/null if [ "$?" -ne "0" -a "$?" -ne "1" ]; then status=1 fi modprobe -r ib_iser 2>/dev/null if [ "$?" -ne "0" -a "$?" -ne "1" ]; then status=1 fi if [ "$status" -eq "0" ]; then success else failure fi echo } restart() { stop if [ $RETVAL -ne 0 ]; then echo "Stopping iSCSI initiator service failed, not starting" return $RETVAL fi start } case "$1" in start) start ;; stop) stop ;; restart) stop if [ $RETVAL -ne 0 ]; then echo "Stopping iSCSI initiator service failed, not starting" exit $RETVAL fi start ;; status) status iscsid RETVAL=$? ;; condrestart) [ -f /var/lock/subsys/open-iscsi ] && restart ;; *) echo $"Usage: $0 {start|stop|restart|status|condrestart}" exit 1 esac exit $RETVAL open-iscsi-2.0.874/etc/initd/initd.suse000066400000000000000000000223551277325716400176640ustar00rootroot00000000000000#!/bin/bash # # /etc/init.d/iscsi # ### BEGIN INIT INFO # Provides: iscsi # Required-Start: $network # Should-Start: iscsitarget multipathd # Required-Stop: $network # Should-Stop: multipathd # Default-Start: 3 5 # Default-Stop: # Short-Description: iSCSI initiator daemon # Description: The iSCSI initator is used to create and # manage iSCSI connections to an iSCSI Target. # ### END INIT INFO CONFIG_FILE=/etc/iscsi/iscsid.conf DAEMON=/sbin/iscsid ISCSIADM=/sbin/iscsiadm BRCM_ISCSIUIO=/sbin/brcm_iscsiuio ARGS="-c $CONFIG_FILE -n" # Source LSB init functions . /etc/rc.status # Reset status of this service rc_reset DM_MAJOR=$(sed -n 's/\(.*\) device-mapper/\1/p' /proc/devices) iscsi_login_all_nodes() { echo -n "Setting up iSCSI targets: " $ISCSIADM -m node --loginall=automatic 2> /dev/null if [ $? == 21 ] ; then rc_failed 6 fi rc_status -v } # # Try to load all required modules prior to startup # iscsi_load_transport_modules() { loaded=$(sed -n "/^iscsi_tcp/p" /proc/modules) if [ -z "$loaded" ] ; then modprobe iscsi_tcp if [ $? = 0 ] ; then echo -n " tcp" fi fi for iface in /etc/iscsi/ifaces/*; do [ -f "$iface" ] || continue [ "$iface" = "iface.example" ] && continue # Check if the iface has been configured result=$(sed '/#.*/D;/iface.iscsi_ifacename/D;/iface.hwaddress/D;/iface.transport_name/D' $iface) if [ "$result" ] ; then mod=$(sed -n 's/iface.transport_name *= *\(.*\)/\1/p' $iface) loaded=$(sed -n "/^$mod/p" /proc/modules) if [ -z "$loaded" ] ; then modprobe $mod if [ $? = 0 ] ; then echo -n " $mod" fi fi fi done } # # Set a temporary startmode for ifdown # iscsi_modify_if_startmode() { local ifname=$1 local tmp_ifcfg=/dev/.sysconfig/network/if-$ifname if [ -e "$tmp_ifcfg" ] ; then . $tmp_ifcfg if [ "$startmode" ] ; then return fi fi : disabling shutdown on $ifname echo "startmode=nfsroot" >> $tmp_ifcfg } iscsi_get_ifacename_from_session() { local session=$1 local ifacename ifacename=$(iscsiadm -m session -r ${session##.*/session} 2> /dev/null | \ sed -n 's/iface.iscsi_ifacename = \(.*\)/\1/p') if [ -z "$ifacename" ] ; then # Check for iBFT ifacename=$(iscsiadm -m fw 2> /dev/null) if [ -n "$ifacename" ] ; then ifacename="fw" fi fi echo $ifacename } iscsi_get_hwaddress_from_iface() { local iface=$1 local hwaddress hwaddress=$(iscsiadm -m iface -I "$iface" 2> /dev/null | sed -n 's/iface.hwaddress = \(.*\)/\1/p') [ "$hwaddress" = "" ] && hwaddress= echo $hwaddress } iscsi_get_ifname_from_iface() { local iface=$1 local ifname ifname=$(iscsiadm -m iface -I "$iface" 2> /dev/null | sed -n 's/iface.net_ifacename = \(.*\)/\1/p') [ "$ifname" = "" ] && ifname= echo $ifname } iscsi_get_ipaddr_from_iface() { local iface=$1 local ipaddr ipaddr=$(iscsiadm -m iface -I "$iface" 2> /dev/null | sed -n 's/iface.ipaddress = \(.*\)/\1/p') [ "$ipaddr" = "" ] && ipaddr= echo $ipaddr } iscsi_get_ifname_from_firmware() { local hwaddress hwaddress=$(iscsiadm -m fw 2> /dev/null | sed -n 's/iface.net_ifacename = \(.*\)/\1/p') echo $hwaddress } # # cxgb3i is using the HWAddress to select # the correct interface # iscsi_get_ifname_from_hwaddress() { local hwaddress=$1 for if in /sys/class/net/*; do [ -e "$if" ] || continue read mac < $if/address [ "$mac" = "$hwaddress" ] || continue echo ${if##*/} break done } iscsi_get_ifname_from_ipaddr() { local ipaddr=$1 local ifname ifname=$(ip addr show to $ipaddr | sed -n 's/[0-9]*: \([^ :]*\): .*/\1/p') return $ifname } # # Handle 'default' interface: # It is basically impossible to determine via which # interface the iSCSI traffic will flow, so we take # the easy option and ignore _all_ active interfaces # during shutdown # iscsi_modify_all_interfaces() { ip link show up | sed -n '/.*LOOPBACK.*/d;s/[0-9]*: \(.*\): .*/\1/p' | while read ifname; do iscsi_modify_if_startmode $ifname done } # # Check iface setting and disable # affected network interfaces # iscsi_check_interface() { local session=$1 local i h n i=$(iscsi_get_ifacename_from_session $session) [ -z "$i" ] && continue if [ "$i" = "default" ] ; then iscsi_modify_all_interfaces elif [ "$i" = "fw" ] ; then n=$(iscsi_get_ifname_from_firmware) else n=$(iscsi_get_ifname_from_iface $i) if [ -z "$n" ] ; then h=$(iscsi_get_hwaddress_from_iface $i) if [ -n "$h" ] ; then n=$(iscsi_get_ifname_from_hwaddress $h) fi fi if [ -z "$n" ] ; then h=$(iscsi_get_ipaddr_from_iface $i) if [ -n "$h" ] ; then n=$(iscsi_get_ifname_from_ipaddr $h) fi fi fi if [ "$n" ] ; then iscsi_modify_if_startmode $n fi } # # Check if device 'dev' is mounted # Returns the mount point on success # iscsi_check_if_mounted() { local dev=$1 local d m t o x p cat /proc/mounts | sed -ne '/^\/dev\/.*/p' | while read d m t o x; do if [ -L "$d" ] ; then d=$(readlink -f $d) fi [ -b "$d" ] || continue b=$(ls -l $d | sed -n 's/.* \([0-9]*\), \([0-9]*\) .*/\1:\2/p') p=$(cd -P /sys/dev/block/$b ; echo $PWD) if [ -z "$p" ] ; then d=${d##/dev} p="/sys/block${d%%[0-9]*}" fi [ ! -d ${p} ] && continue if [ -e $p/partition ] ; then p=$(cd -P $p/../; echo $PWD) fi if [ "$dev" = "${p##*/}" ] ; then echo $m fi done } # # Unwind block device stack # # Stops unwinding if either no more 'holders' # are found or if a device is mounted # # Unmounts top-level device and deconfigures # all devices down the stack # # Root fs is not unmounted # iscsi_unwind_stack() { local p=$1 local d=${p##*/} local u local m if [ ! -d ${p} ] ; then return; fi m=$(iscsi_check_if_mounted $d) if [ -z "$m" ] ; then for s in $p/holders/* ; do [ -e $s ] || continue p=$(cd -P $s; echo $PWD) u=$(iscsi_unwind_stack $p) if [ "$u" ] ; then echo -n "$u " fi done else if [ "$m" = "/" ] ; then echo -n "$d " return 1 fi if ! umount $m ; then echo -n "$d " return 1 fi fi if [ "${d#dm-}" != "$d" ] ; then if ! dmsetup remove -j $DM_MAJOR -m ${d#dm-} 2> /dev/null ; then echo -n "$d " return 1 fi fi if [ "${d#md}" != "$d" ] ; then if ! mdadm --manage /dev/$d --stop 2> /dev/null ; then echo -n "$d " return 1 fi fi return 0 } # # Return all targets for a given session # iscsi_get_target() { local session=$1 local d for d in $session/device/target* ; do [ -e "$d" ] || continue echo "$d" done } # # Checks all devices presented by a target # and tries to umount them. # Skip unmounting for the root fs. # Stops on the first device which could not be unmounted # and returns the mount device of that device. # iscsi_check_target() { local t=$1 local d b m for d in $t/* ; do [ -d $d/block ] || continue for b in $d/block/sd* ; do [ -d "$b" ] || continue m=$(iscsi_unwind_stack $b) if [ -n "$m" ] ; then echo $m return 1 fi done done } # # Check all sessions for mounted devices # and shutdown the session if the affected # devices could be umounted cleanly. # If umount fails disable shutdown on all # affected network interfaces # iscsi_stop_sessions() { local t m s i i=0 for session in /sys/class/iscsi_session/session* ; do [ -e "$session" ] || continue; [ -e $session/device ] || continue t=$(iscsi_get_target $session) m=$(iscsi_check_target $t) s=${session##*/session} if [ -z "$m" ] ; then iscsiadm -m session -r ${s} -u i=$(( $i + 1 )) else iscsi_check_interface $s fi done echo $i } iscsi_list_all_nodes() { # Check for active sessions if $ISCSIADM -m session > /dev/null; then return 0 fi echo "Active connections:" $ISCSIADM -m session | while read proto num PORTAL TARGET ; do PORTAL=${PORTAL%,*} echo -e "\t$TARGET at $PORTAL" done } case "$1" in start) if checkproc $DAEMON ; then RETVAL=0 else echo -n "Starting iSCSI initiator service: " iscsi_load_transport_modules if grep -q bnx2i /proc/modules && [ -x $BRCM_ISCSIUIO ] ; then startproc $BRCM_ISCSIUIO fi startproc $DAEMON $ARGS RETVAL=$? rc_status -v fi if [ "$RETVAL" == "0" ]; then iscsi_login_all_nodes fi ;; stop) n=$(iscsi_stop_sessions) echo -n "Stopping iSCSI initiator service: " if [ "$n" ] && [ "$n" != "0" ] ; then m=$(iscsiadm -m session 2> /dev/null) if [ -z "$m" ] ; then killproc -KILL $DAEMON RETVAL=$? if grep -q bnx2i /proc/modules && [ -x $BRCM_ISCSIUIO ]; then killproc -KILL $BRCM_ISCSIUIO fi RETVAL=$? else RETVAL=1 fi rc_failed $RETVAL rc_status -v else # umounting failed, leave initiator running rc_status -s fi ;; status) echo -n "Checking for iSCSI initiator service: " if checkproc $DAEMON ; then rc_status -v iscsi_list_all_nodes else rc_failed 3 rc_status -v fi ;; restart|reload) $0 stop RETVAL=$? if [ "$RETVAL" != "0" ]; then echo "Stopping iSCSI initiator service failed, not starting" exit $RETVAL fi sleep 1 $0 start ;; *) echo "Usage: $0 {start|stop|status|restart|reload}" exit 1 ;; esac rc_exit open-iscsi-2.0.874/etc/iscsid.conf000066400000000000000000000272111277325716400166660ustar00rootroot00000000000000# # Open-iSCSI default configuration. # Could be located at /etc/iscsi/iscsid.conf or ~/.iscsid.conf # # Note: To set any of these values for a specific node/session run # the iscsiadm --mode node --op command for the value. See the README # and man page for iscsiadm for details on the --op command. # ###################### # iscsid daemon config ###################### # If you want iscsid to start the first time an iscsi tool # needs to access it, instead of starting it when the init # scripts run, set the iscsid startup command here. This # should normally only need to be done by distro package # maintainers. # # Default for Fedora and RHEL. (uncomment to activate). # iscsid.startup = /etc/rc.d/init.d/iscsid force-start # # Default for upstream open-iscsi scripts (uncomment to activate). iscsid.startup = /sbin/iscsid # Check for active mounts on devices reachable through a session # and refuse to logout if there are any. Defaults to "No". # iscsid.safe_logout = Yes ############################# # NIC/HBA and driver settings ############################# # open-iscsi can create a session and bind it to a NIC/HBA. # To set this up see the example iface config file. #***************** # Startup settings #***************** # To request that the iscsi initd scripts startup a session set to "automatic". # node.startup = automatic # # To manually startup the session set to "manual". The default is manual. node.startup = manual # For "automatic" startup nodes, setting this to "Yes" will try logins on each # available iface until one succeeds, and then stop. The default "No" will try # logins on all available ifaces simultaneously. node.leading_login = No # ************* # CHAP Settings # ************* # To enable CHAP authentication set node.session.auth.authmethod # to CHAP. The default is None. #node.session.auth.authmethod = CHAP # To set a CHAP username and password for initiator # authentication by the target(s), uncomment the following lines: #node.session.auth.username = username #node.session.auth.password = password # To set a CHAP username and password for target(s) # authentication by the initiator, uncomment the following lines: #node.session.auth.username_in = username_in #node.session.auth.password_in = password_in # To enable CHAP authentication for a discovery session to the target # set discovery.sendtargets.auth.authmethod to CHAP. The default is None. #discovery.sendtargets.auth.authmethod = CHAP # To set a discovery session CHAP username and password for the initiator # authentication by the target(s), uncomment the following lines: #discovery.sendtargets.auth.username = username #discovery.sendtargets.auth.password = password # To set a discovery session CHAP username and password for target(s) # authentication by the initiator, uncomment the following lines: #discovery.sendtargets.auth.username_in = username_in #discovery.sendtargets.auth.password_in = password_in # ******** # Timeouts # ******** # # See the iSCSI README's Advanced Configuration section for tips # on setting timeouts when using multipath or doing root over iSCSI. # # To specify the length of time to wait for session re-establishment # before failing SCSI commands back to the application when running # the Linux SCSI Layer error handler, edit the line. # The value is in seconds and the default is 120 seconds. # Special values: # - If the value is 0, IO will be failed immediately. # - If the value is less than 0, IO will remain queued until the session # is logged back in, or until the user runs the logout command. node.session.timeo.replacement_timeout = 120 # To specify the time to wait for login to complete, edit the line. # The value is in seconds and the default is 15 seconds. node.conn[0].timeo.login_timeout = 15 # To specify the time to wait for logout to complete, edit the line. # The value is in seconds and the default is 15 seconds. node.conn[0].timeo.logout_timeout = 15 # Time interval to wait for on connection before sending a ping. node.conn[0].timeo.noop_out_interval = 5 # To specify the time to wait for a Nop-out response before failing # the connection, edit this line. Failing the connection will # cause IO to be failed back to the SCSI layer. If using dm-multipath # this will cause the IO to be failed to the multipath layer. node.conn[0].timeo.noop_out_timeout = 5 # To specify the time to wait for abort response before # failing the operation and trying a logical unit reset edit the line. # The value is in seconds and the default is 15 seconds. node.session.err_timeo.abort_timeout = 15 # To specify the time to wait for a logical unit response # before failing the operation and trying session re-establishment # edit the line. # The value is in seconds and the default is 30 seconds. node.session.err_timeo.lu_reset_timeout = 30 # To specify the time to wait for a target response # before failing the operation and trying session re-establishment # edit the line. # The value is in seconds and the default is 30 seconds. node.session.err_timeo.tgt_reset_timeout = 30 #****** # Retry #****** # To specify the number of times iscsid should retry a login # if the login attempt fails due to the node.conn[0].timeo.login_timeout # expiring modify the following line. Note that if the login fails # quickly (before node.conn[0].timeo.login_timeout fires) because the network # layer or the target returns an error, iscsid may retry the login more than # node.session.initial_login_retry_max times. # # This retry count along with node.conn[0].timeo.login_timeout # determines the maximum amount of time iscsid will try to # establish the initial login. node.session.initial_login_retry_max is # multiplied by the node.conn[0].timeo.login_timeout to determine the # maximum amount. # # The default node.session.initial_login_retry_max is 8 and # node.conn[0].timeo.login_timeout is 15 so we have: # # node.conn[0].timeo.login_timeout * node.session.initial_login_retry_max = # 120 seconds # # Valid values are any integer value. This only # affects the initial login. Setting it to a high value can slow # down the iscsi service startup. Setting it to a low value can # cause a session to not get logged into, if there are distuptions # during startup or if the network is not ready at that time. node.session.initial_login_retry_max = 8 ################################ # session and device queue depth ################################ # To control how many commands the session will queue set # node.session.cmds_max to an integer between 2 and 2048 that is also # a power of 2. The default is 128. node.session.cmds_max = 128 # To control the device's queue depth set node.session.queue_depth # to a value between 1 and 1024. The default is 32. node.session.queue_depth = 32 ################################## # MISC SYSTEM PERFORMANCE SETTINGS ################################## # For software iscsi (iscsi_tcp) and iser (ib_iser) each session # has a thread used to transmit or queue data to the hardware. For # cxgb3i you will get a thread per host. # # Setting the thread's priority to a lower value can lead to higher throughput # and lower latencies. The lowest value is -20. Setting the priority to # a higher value, can lead to reduced IO performance, but if you are seeing # the iscsi or scsi threads dominate the use of the CPU then you may want # to set this value higher. # # Note: For cxgb3i you must set all sessions to the same value, or the # behavior is not defined. # # The default value is -20. The setting must be between -20 and 20. node.session.xmit_thread_priority = -20 #*************** # iSCSI settings #*************** # To enable R2T flow control (i.e., the initiator must wait for an R2T # command before sending any data), uncomment the following line: # #node.session.iscsi.InitialR2T = Yes # # To disable R2T flow control (i.e., the initiator has an implied # initial R2T of "FirstBurstLength" at offset 0), uncomment the following line: # # The defaults is No. node.session.iscsi.InitialR2T = No # # To disable immediate data (i.e., the initiator does not send # unsolicited data with the iSCSI command PDU), uncomment the following line: # #node.session.iscsi.ImmediateData = No # # To enable immediate data (i.e., the initiator sends unsolicited data # with the iSCSI command packet), uncomment the following line: # # The default is Yes node.session.iscsi.ImmediateData = Yes # To specify the maximum number of unsolicited data bytes the initiator # can send in an iSCSI PDU to a target, edit the following line. # # The value is the number of bytes in the range of 512 to (2^24-1) and # the default is 262144 node.session.iscsi.FirstBurstLength = 262144 # To specify the maximum SCSI payload that the initiator will negotiate # with the target for, edit the following line. # # The value is the number of bytes in the range of 512 to (2^24-1) and # the defauls it 16776192 node.session.iscsi.MaxBurstLength = 16776192 # To specify the maximum number of data bytes the initiator can receive # in an iSCSI PDU from a target, edit the following line. # # The value is the number of bytes in the range of 512 to (2^24-1) and # the default is 262144 node.conn[0].iscsi.MaxRecvDataSegmentLength = 262144 # To specify the maximum number of data bytes the initiator will send # in an iSCSI PDU to the target, edit the following line. # # The value is the number of bytes in the range of 512 to (2^24-1). # Zero is a special case. If set to zero, the initiator will use # the target's MaxRecvDataSegmentLength for the MaxXmitDataSegmentLength. # The default is 0. node.conn[0].iscsi.MaxXmitDataSegmentLength = 0 # To specify the maximum number of data bytes the initiator can receive # in an iSCSI PDU from a target during a discovery session, edit the # following line. # # The value is the number of bytes in the range of 512 to (2^24-1) and # the default is 32768 # discovery.sendtargets.iscsi.MaxRecvDataSegmentLength = 32768 # To allow the targets to control the setting of the digest checking, # with the initiator requesting a preference of enabling the checking, uncomment# one or both of the following lines: #node.conn[0].iscsi.HeaderDigest = CRC32C,None #node.conn[0].iscsi.DataDigest = CRC32C,None # # To allow the targets to control the setting of the digest checking, # with the initiator requesting a preference of disabling the checking, # uncomment one or both of the following lines: #node.conn[0].iscsi.HeaderDigest = None,CRC32C #node.conn[0].iscsi.DataDigest = None,CRC32C # # To enable CRC32C digest checking for the header and/or data part of # iSCSI PDUs, uncomment one or both of the following lines: #node.conn[0].iscsi.HeaderDigest = CRC32C #node.conn[0].iscsi.DataDigest = CRC32C # # To disable digest checking for the header and/or data part of # iSCSI PDUs, uncomment one or both of the following lines: #node.conn[0].iscsi.HeaderDigest = None #node.conn[0].iscsi.DataDigest = None # # The default is to never use DataDigests or HeaderDigests. # # For multipath configurations, you may want more than one session to be # created on each iface record. If node.session.nr_sessions is greater # than 1, performing a 'login' for that node will ensure that the # appropriate number of sessions is created. node.session.nr_sessions = 1 #************ # Workarounds #************ # Some targets like IET prefer after an initiator has sent a task # management function like an ABORT TASK or LOGICAL UNIT RESET, that # it does not respond to PDUs like R2Ts. To enable this behavior uncomment # the following line (The default behavior is Yes): node.session.iscsi.FastAbort = Yes # Some targets like Equalogic prefer that after an initiator has sent # a task management function like an ABORT TASK or LOGICAL UNIT RESET, that # it continue to respond to R2Ts. To enable this uncomment this line # node.session.iscsi.FastAbort = No open-iscsi-2.0.874/etc/systemd/000077500000000000000000000000001277325716400162265ustar00rootroot00000000000000open-iscsi-2.0.874/etc/systemd/iscsid.service000066400000000000000000000005261277325716400210710ustar00rootroot00000000000000[Unit] Description=Open-iSCSI Documentation=man:iscsid(8) man:iscsiuio(8) man:iscsiadm(8) After=network.target NetworkManager-wait-online.service iscsiuio.service tgtd.service targetcli.service [Service] Type=forking PIDFile=/var/run/iscsid.pid ExecStart=/usr/sbin/iscsid ExecStop=/sbin/iscsiadm -k 0 2 [Install] WantedBy=multi-user.target open-iscsi-2.0.874/etc/systemd/iscsid.socket000066400000000000000000000002771277325716400207240ustar00rootroot00000000000000[Unit] Description=Open-iSCSI iscsid Socket Documentation=man:iscsid(8) man:iscsiuio(8) man:iscsiadm(8) [Socket] ListenStream=@ISCSIADM_ABSTRACT_NAMESPACE [Install] WantedBy=sockets.target open-iscsi-2.0.874/include/000077500000000000000000000000001277325716400154065ustar00rootroot00000000000000open-iscsi-2.0.874/include/fw_context.h000066400000000000000000000045741277325716400177510ustar00rootroot00000000000000/* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA * * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * "Prasanna Mumbai" * */ #ifndef FWPARAM_CONTEXT_H_ #define FWPARAM_CONTEXT_H_ #include #include #include "iscsi_proto.h" #include "list.h" #include "auth.h" enum ibft_ip_prefix_origin { IBFT_IP_PREFIX_ORIGIN_OTHER = 0, IBFT_IP_PREFIX_ORIGIN_MANUAL, IBFT_IP_PREFIX_ORIGIN_WELL_KNOWN, IBFT_IP_PREFIX_ORIGIN_DHCP, IBFT_IP_PREFIX_ORIGIN_ROUTER_ADVERTISEMENT, IBFT_IP_PREFIX_ORIGIN_UNCHANGED = 16 }; struct boot_context { struct list_head list; char boot_root[BOOT_NAME_MAXLEN]; char boot_nic[BOOT_NAME_MAXLEN]; char boot_target[BOOT_NAME_MAXLEN]; /* target settings */ int target_flags; int target_port; char targetname[TARGET_NAME_MAXLEN + 1]; char target_ipaddr[NI_MAXHOST]; char chap_name[AUTH_STR_MAX_LEN]; char chap_password[AUTH_STR_MAX_LEN]; char chap_name_in[AUTH_STR_MAX_LEN]; char chap_password_in[AUTH_STR_MAX_LEN]; /* initiator settings */ char isid[10]; char initiatorname[TARGET_NAME_MAXLEN + 1]; /* network settings */ int nic_flags; enum ibft_ip_prefix_origin origin; char dhcp[NI_MAXHOST]; char iface[IF_NAMESIZE]; char mac[18]; char ipaddr[NI_MAXHOST]; char gateway[NI_MAXHOST]; char primary_dns[NI_MAXHOST]; char secondary_dns[NI_MAXHOST]; char mask[NI_MAXHOST]; char lun[17]; char vlan[15]; char scsi_host_name[64]; }; extern int fw_get_entry(struct boot_context *context); extern void fw_print_entry(struct boot_context *context); extern int fw_get_targets(struct list_head *list); extern void fw_free_targets(struct list_head *list); extern int fw_setup_nics(void); #endif /* FWPARAM_CONTEXT_H_ */ open-iscsi-2.0.874/include/iscsi_err.h000066400000000000000000000044711277325716400175470ustar00rootroot00000000000000/* * Return codes used by iSCSI tools. */ #ifndef _ISCSI_ERR_ #define _ISCSI_ERR_ enum { ISCSI_SUCCESS = 0, /* Generic error */ ISCSI_ERR = 1, /* session could not be found */ ISCSI_ERR_SESS_NOT_FOUND = 2, /* Could not allocate resource for operation */ ISCSI_ERR_NOMEM = 3, /* Transport error caused operation to fail */ ISCSI_ERR_TRANS = 4, /* Generic login failure */ ISCSI_ERR_LOGIN = 5, /* Error accessing/managing iSCSI DB */ ISCSI_ERR_IDBM = 6, /* Invalid argument */ ISCSI_ERR_INVAL = 7, /* Connection timer exired while trying to connect */ ISCSI_ERR_TRANS_TIMEOUT = 8, /* Generic internal iscsid failure */ ISCSI_ERR_INTERNAL = 9, /* Logout failed */ ISCSI_ERR_LOGOUT = 10, /* iSCSI PDU timedout */ ISCSI_ERR_PDU_TIMEOUT = 11, /* iSCSI transport module not loaded in kernel or iscsid */ ISCSI_ERR_TRANS_NOT_FOUND = 12, /* Permission denied */ ISCSI_ERR_ACCESS = 13, /* Transport module did not support operation */ ISCSI_ERR_TRANS_CAPS = 14, /* Session is logged in */ ISCSI_ERR_SESS_EXISTS = 15, /* Invalid IPC MGMT request */ ISCSI_ERR_INVALID_MGMT_REQ = 16, /* iSNS service is not supported */ ISCSI_ERR_ISNS_UNAVAILABLE = 17, /* A read/write to iscsid failed */ ISCSI_ERR_ISCSID_COMM_ERR = 18, /* Fatal login error */ ISCSI_ERR_FATAL_LOGIN = 19, /* Could ont connect to iscsid */ ISCSI_ERR_ISCSID_NOTCONN = 20, /* No records/targets/sessions/portals found to execute operation on */ ISCSI_ERR_NO_OBJS_FOUND = 21, /* Could not lookup object in sysfs */ ISCSI_ERR_SYSFS_LOOKUP = 22, /* Could not lookup host */ ISCSI_ERR_HOST_NOT_FOUND = 23, /* Login failed due to authorization failure */ ISCSI_ERR_LOGIN_AUTH_FAILED = 24, /* iSNS query failure */ ISCSI_ERR_ISNS_QUERY = 25, /* iSNS registration/deregistration failed */ ISCSI_ERR_ISNS_REG_FAILED = 26, /* operation not supported */ ISCSI_ERR_OP_NOT_SUPP = 27, /* device or resource in use */ ISCSI_ERR_BUSY = 28, /* Operation failed, but retrying layer may succeed */ ISCSI_ERR_AGAIN = 29, /* unknown discovery type */ ISCSI_ERR_UNKNOWN_DISCOVERY_TYPE = 30, /* child process terminated */ ISCSI_ERR_CHILD_TERMINATED = 31, /* Always last. Indicates end of error code space */ ISCSI_MAX_ERR_VAL, } iscsi_err; extern void iscsi_err_print_msg(int err); extern char *iscsi_err_to_str(int err); #endif open-iscsi-2.0.874/include/iscsi_if.h000066400000000000000000000640061277325716400173550ustar00rootroot00000000000000/* * iSCSI User/Kernel Shares (Defines, Constants, Protocol definitions, etc) * * Copyright (C) 2005 Dmitry Yusupov * Copyright (C) 2005 Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSI_IF_H #define ISCSI_IF_H #ifdef __KERNEL__ #include #include #else #include #endif #include "iscsi_proto.h" #define ISCSI_NL_GRP_ISCSID 1 #define ISCSI_NL_GRP_UIP 2 #define UEVENT_BASE 10 #define KEVENT_BASE 100 #define ISCSI_ERR_BASE 1000 enum iscsi_uevent_e { ISCSI_UEVENT_UNKNOWN = 0, /* down events */ ISCSI_UEVENT_CREATE_SESSION = UEVENT_BASE + 1, ISCSI_UEVENT_DESTROY_SESSION = UEVENT_BASE + 2, ISCSI_UEVENT_CREATE_CONN = UEVENT_BASE + 3, ISCSI_UEVENT_DESTROY_CONN = UEVENT_BASE + 4, ISCSI_UEVENT_BIND_CONN = UEVENT_BASE + 5, ISCSI_UEVENT_SET_PARAM = UEVENT_BASE + 6, ISCSI_UEVENT_START_CONN = UEVENT_BASE + 7, ISCSI_UEVENT_STOP_CONN = UEVENT_BASE + 8, ISCSI_UEVENT_SEND_PDU = UEVENT_BASE + 9, ISCSI_UEVENT_GET_STATS = UEVENT_BASE + 10, ISCSI_UEVENT_GET_PARAM = UEVENT_BASE + 11, ISCSI_UEVENT_TRANSPORT_EP_CONNECT = UEVENT_BASE + 12, ISCSI_UEVENT_TRANSPORT_EP_POLL = UEVENT_BASE + 13, ISCSI_UEVENT_TRANSPORT_EP_DISCONNECT = UEVENT_BASE + 14, ISCSI_UEVENT_TGT_DSCVR = UEVENT_BASE + 15, ISCSI_UEVENT_SET_HOST_PARAM = UEVENT_BASE + 16, ISCSI_UEVENT_UNBIND_SESSION = UEVENT_BASE + 17, ISCSI_UEVENT_CREATE_BOUND_SESSION = UEVENT_BASE + 18, ISCSI_UEVENT_TRANSPORT_EP_CONNECT_THROUGH_HOST = UEVENT_BASE + 19, ISCSI_UEVENT_PATH_UPDATE = UEVENT_BASE + 20, ISCSI_UEVENT_SET_IFACE_PARAMS = UEVENT_BASE + 21, ISCSI_UEVENT_PING = UEVENT_BASE + 22, ISCSI_UEVENT_GET_CHAP = UEVENT_BASE + 23, ISCSI_UEVENT_DELETE_CHAP = UEVENT_BASE + 24, ISCSI_UEVENT_SET_FLASHNODE_PARAMS = UEVENT_BASE + 25, ISCSI_UEVENT_NEW_FLASHNODE = UEVENT_BASE + 26, ISCSI_UEVENT_DEL_FLASHNODE = UEVENT_BASE + 27, ISCSI_UEVENT_LOGIN_FLASHNODE = UEVENT_BASE + 28, ISCSI_UEVENT_LOGOUT_FLASHNODE = UEVENT_BASE + 29, ISCSI_UEVENT_LOGOUT_FLASHNODE_SID = UEVENT_BASE + 30, ISCSI_UEVENT_SET_CHAP = UEVENT_BASE + 31, ISCSI_UEVENT_GET_HOST_STATS = UEVENT_BASE + 32, ISCSI_UEVENT_MAX = ISCSI_UEVENT_GET_HOST_STATS, /* up events */ ISCSI_KEVENT_RECV_PDU = KEVENT_BASE + 1, ISCSI_KEVENT_CONN_ERROR = KEVENT_BASE + 2, ISCSI_KEVENT_IF_ERROR = KEVENT_BASE + 3, ISCSI_KEVENT_DESTROY_SESSION = KEVENT_BASE + 4, ISCSI_KEVENT_UNBIND_SESSION = KEVENT_BASE + 5, ISCSI_KEVENT_CREATE_SESSION = KEVENT_BASE + 6, ISCSI_KEVENT_PATH_REQ = KEVENT_BASE + 7, ISCSI_KEVENT_IF_DOWN = KEVENT_BASE + 8, ISCSI_KEVENT_CONN_LOGIN_STATE = KEVENT_BASE + 9, ISCSI_KEVENT_HOST_EVENT = KEVENT_BASE + 10, ISCSI_KEVENT_PING_COMP = KEVENT_BASE + 11, ISCSI_KEVENT_MAX = ISCSI_KEVENT_PING_COMP, }; enum iscsi_tgt_dscvr { ISCSI_TGT_DSCVR_SEND_TARGETS = 1, ISCSI_TGT_DSCVR_ISNS = 2, ISCSI_TGT_DSCVR_SLP = 3, }; enum iscsi_host_event_code { ISCSI_EVENT_LINKUP = 1, ISCSI_EVENT_LINKDOWN, /* must always be last */ ISCSI_EVENT_MAX, }; struct iscsi_uevent { uint32_t type; /* k/u events type */ uint32_t iferror; /* carries interface or resource errors */ uint64_t transport_handle; union { /* messages u -> k */ struct msg_create_session { uint32_t initial_cmdsn; uint16_t cmds_max; uint16_t queue_depth; } c_session; struct msg_create_bound_session { uint64_t ep_handle; uint32_t initial_cmdsn; uint16_t cmds_max; uint16_t queue_depth; } c_bound_session; struct msg_destroy_session { uint32_t sid; } d_session; struct msg_create_conn { uint32_t sid; uint32_t cid; } c_conn; struct msg_bind_conn { uint32_t sid; uint32_t cid; uint64_t transport_eph; uint32_t is_leading; } b_conn; struct msg_destroy_conn { uint32_t sid; uint32_t cid; } d_conn; struct msg_send_pdu { uint32_t sid; uint32_t cid; uint32_t hdr_size; uint32_t data_size; } send_pdu; struct msg_set_param { uint32_t sid; uint32_t cid; uint32_t param; /* enum iscsi_param */ uint32_t len; } set_param; struct msg_start_conn { uint32_t sid; uint32_t cid; } start_conn; struct msg_stop_conn { uint32_t sid; uint32_t cid; uint64_t conn_handle; uint32_t flag; } stop_conn; struct msg_get_stats { uint32_t sid; uint32_t cid; } get_stats; struct msg_transport_connect { uint32_t non_blocking; } ep_connect; struct msg_transport_connect_through_host { uint32_t host_no; uint32_t non_blocking; } ep_connect_through_host; struct msg_transport_poll { uint64_t ep_handle; uint32_t timeout_ms; } ep_poll; struct msg_transport_disconnect { uint64_t ep_handle; } ep_disconnect; struct msg_tgt_dscvr { enum iscsi_tgt_dscvr type; uint32_t host_no; /* * enable = 1 to establish a new connection * with the server. enable = 0 to disconnect * from the server. Used primarily to switch * from one iSNS server to another. */ uint32_t enable; } tgt_dscvr; struct msg_set_host_param { uint32_t host_no; uint32_t param; /* enum iscsi_host_param */ uint32_t len; } set_host_param; struct msg_set_path { uint32_t host_no; } set_path; struct msg_set_iface_params { uint32_t host_no; uint32_t count; } set_iface_params; struct msg_iscsi_ping { uint32_t host_no; uint32_t iface_num; uint32_t iface_type; uint32_t payload_size; uint32_t pid; /* unique ping id associated with each ping request */ } iscsi_ping; struct msg_get_chap { uint32_t host_no; uint32_t num_entries; /* number of CHAP entries * on request, number of * valid CHAP entries on * response */ uint16_t chap_tbl_idx; } get_chap; struct msg_delete_chap { uint32_t host_no; uint16_t chap_tbl_idx; } delete_chap; struct msg_set_flashnode_param { uint32_t host_no; uint32_t flashnode_idx; uint32_t count; } set_flashnode; struct msg_new_flashnode { uint32_t host_no; uint32_t len; } new_flashnode; struct msg_del_flashnode { uint32_t host_no; uint32_t flashnode_idx; } del_flashnode; struct msg_login_flashnode { uint32_t host_no; uint32_t flashnode_idx; } login_flashnode; struct msg_logout_flashnode { uint32_t host_no; uint32_t flashnode_idx; } logout_flashnode; struct msg_logout_flashnode_sid { uint32_t host_no; uint32_t sid; } logout_flashnode_sid; struct msg_get_host_stats { uint32_t host_no; } get_host_stats; } u; union { /* messages k -> u */ int retcode; struct msg_create_session_ret { uint32_t sid; uint32_t host_no; } c_session_ret; struct msg_create_conn_ret { uint32_t sid; uint32_t cid; } c_conn_ret; struct msg_unbind_session { uint32_t sid; uint32_t host_no; } unbind_session; struct msg_recv_req { uint32_t sid; uint32_t cid; uint64_t recv_handle; } recv_req; struct msg_conn_login { uint32_t sid; uint32_t cid; uint32_t state; /* enum iscsi_conn_state */ } conn_login; struct msg_conn_error { uint32_t sid; uint32_t cid; uint32_t error; /* enum iscsi_err */ } connerror; struct msg_session_destroyed { uint32_t host_no; uint32_t sid; } d_session; struct msg_transport_connect_ret { uint64_t handle; } ep_connect_ret; struct msg_req_path { uint32_t host_no; } req_path; struct msg_notify_if_down { uint32_t host_no; } notify_if_down; struct msg_host_event { uint32_t host_no; uint32_t data_size; enum iscsi_host_event_code code; } host_event; struct msg_ping_comp { uint32_t host_no; uint32_t status; /* enum * iscsi_ping_status_code */ uint32_t pid; /* unique ping id associated with each ping request */ uint32_t data_size; } ping_comp; struct msg_new_flashnode_ret { uint32_t flashnode_idx; } new_flashnode_ret; } r; } __attribute__ ((aligned (sizeof(uint64_t)))); enum iscsi_param_type { ISCSI_PARAM, /* iscsi_param (session, conn, target, LU) */ ISCSI_HOST_PARAM, /* iscsi_host_param */ ISCSI_NET_PARAM, /* iscsi_net_param */ ISCSI_FLASHNODE_PARAM, /* iscsi_flashnode_param */ ISCSI_CHAP_PARAM, /* iscsi_chap_param */ ISCSI_IFACE_PARAM, /* iscsi_iface_param */ }; /* structure for minimalist usecase */ struct iscsi_param_info { uint32_t len; /* Actual length of the param value */ uint16_t param; /* iscsi param */ uint8_t value[0]; /* length sized value follows */ } __attribute__((__packed__)); struct iscsi_iface_param_info { uint32_t iface_num; /* iface number, 0 - n */ uint32_t len; /* Actual length of the param */ uint16_t param; /* iscsi param value */ uint8_t iface_type; /* IPv4 or IPv6 */ uint8_t param_type; /* iscsi_param_type */ uint8_t value[0]; /* length sized value follows */ } __packed; /* * To keep the struct iscsi_uevent size the same for userspace code * compatibility, the main structure for ISCSI_UEVENT_PATH_UPDATE and * ISCSI_KEVENT_PATH_REQ is defined separately and comes after the * struct iscsi_uevent in the NETLINK_ISCSI message. */ struct iscsi_path { uint64_t handle; uint8_t mac_addr[6]; uint8_t mac_addr_old[6]; uint32_t ip_addr_len; /* 4 or 16 */ union { struct in_addr v4_addr; struct in6_addr v6_addr; } src; union { struct in_addr v4_addr; struct in6_addr v6_addr; } dst; uint16_t vlan_id; uint16_t pmtu; } __attribute__ ((aligned (sizeof(uint64_t)))); /* iscsi iface enabled/disabled setting */ #define ISCSI_IFACE_DISABLE 0x01 #define ISCSI_IFACE_ENABLE 0x02 /* ipv4 bootproto */ #define ISCSI_BOOTPROTO_STATIC 0x01 #define ISCSI_BOOTPROTO_DHCP 0x02 /* ipv6 addr autoconfig type */ #define ISCSI_IPV6_AUTOCFG_DISABLE 0x01 #define ISCSI_IPV6_AUTOCFG_ND_ENABLE 0x02 #define ISCSI_IPV6_AUTOCFG_DHCPV6_ENABLE 0x03 /* ipv6 link local addr type */ #define ISCSI_IPV6_LINKLOCAL_AUTOCFG_ENABLE 0x01 #define ISCSI_IPV6_LINKLOCAL_AUTOCFG_DISABLE 0x02 /* ipv6 router addr type */ #define ISCSI_IPV6_ROUTER_AUTOCFG_ENABLE 0x01 #define ISCSI_IPV6_ROUTER_AUTOCFG_DISABLE 0x02 #define ISCSI_IFACE_TYPE_IPV4 0x01 #define ISCSI_IFACE_TYPE_IPV6 0x02 #define ISCSI_MAX_VLAN_ID 4095 #define ISCSI_MAX_VLAN_PRIORITY 7 /* iscsi vlan enable/disabled setting */ #define ISCSI_VLAN_DISABLE 0x01 #define ISCSI_VLAN_ENABLE 0x02 /* iscsi generic enable/disabled setting for various features */ #define ISCSI_NET_PARAM_DISABLE 0x01 #define ISCSI_NET_PARAM_ENABLE 0x02 /* iSCSI network params */ enum iscsi_net_param { ISCSI_NET_PARAM_IPV4_ADDR = 1, ISCSI_NET_PARAM_IPV4_SUBNET, ISCSI_NET_PARAM_IPV4_GW, ISCSI_NET_PARAM_IPV4_BOOTPROTO, ISCSI_NET_PARAM_MAC, ISCSI_NET_PARAM_IPV6_LINKLOCAL, ISCSI_NET_PARAM_IPV6_ADDR, ISCSI_NET_PARAM_IPV6_ROUTER, ISCSI_NET_PARAM_IPV6_ADDR_AUTOCFG, ISCSI_NET_PARAM_IPV6_LINKLOCAL_AUTOCFG, ISCSI_NET_PARAM_IPV6_ROUTER_AUTOCFG, ISCSI_NET_PARAM_IFACE_ENABLE, ISCSI_NET_PARAM_VLAN_ID, ISCSI_NET_PARAM_VLAN_PRIORITY, ISCSI_NET_PARAM_VLAN_ENABLED, ISCSI_NET_PARAM_VLAN_TAG, ISCSI_NET_PARAM_IFACE_TYPE, ISCSI_NET_PARAM_IFACE_NAME, ISCSI_NET_PARAM_MTU, ISCSI_NET_PARAM_PORT, ISCSI_NET_PARAM_IPADDR_STATE, ISCSI_NET_PARAM_IPV6_LINKLOCAL_STATE, ISCSI_NET_PARAM_IPV6_ROUTER_STATE, ISCSI_NET_PARAM_DELAYED_ACK_EN, ISCSI_NET_PARAM_TCP_NAGLE_DISABLE, ISCSI_NET_PARAM_TCP_WSF_DISABLE, ISCSI_NET_PARAM_TCP_WSF, ISCSI_NET_PARAM_TCP_TIMER_SCALE, ISCSI_NET_PARAM_TCP_TIMESTAMP_EN, ISCSI_NET_PARAM_CACHE_ID, ISCSI_NET_PARAM_IPV4_DHCP_DNS_ADDR_EN, ISCSI_NET_PARAM_IPV4_DHCP_SLP_DA_EN, ISCSI_NET_PARAM_IPV4_TOS_EN, ISCSI_NET_PARAM_IPV4_TOS, ISCSI_NET_PARAM_IPV4_GRAT_ARP_EN, ISCSI_NET_PARAM_IPV4_DHCP_ALT_CLIENT_ID_EN, ISCSI_NET_PARAM_IPV4_DHCP_ALT_CLIENT_ID, ISCSI_NET_PARAM_IPV4_DHCP_REQ_VENDOR_ID_EN, ISCSI_NET_PARAM_IPV4_DHCP_USE_VENDOR_ID_EN, ISCSI_NET_PARAM_IPV4_DHCP_VENDOR_ID, ISCSI_NET_PARAM_IPV4_DHCP_LEARN_IQN_EN, ISCSI_NET_PARAM_IPV4_FRAGMENT_DISABLE, ISCSI_NET_PARAM_IPV4_IN_FORWARD_EN, ISCSI_NET_PARAM_IPV4_TTL, ISCSI_NET_PARAM_IPV6_GRAT_NEIGHBOR_ADV_EN, ISCSI_NET_PARAM_IPV6_MLD_EN, ISCSI_NET_PARAM_IPV6_FLOW_LABEL, ISCSI_NET_PARAM_IPV6_TRAFFIC_CLASS, ISCSI_NET_PARAM_IPV6_HOP_LIMIT, ISCSI_NET_PARAM_IPV6_ND_REACHABLE_TMO, ISCSI_NET_PARAM_IPV6_ND_REXMIT_TIME, ISCSI_NET_PARAM_IPV6_ND_STALE_TMO, ISCSI_NET_PARAM_IPV6_DUP_ADDR_DETECT_CNT, ISCSI_NET_PARAM_IPV6_RTR_ADV_LINK_MTU, ISCSI_NET_PARAM_REDIRECT_EN, }; enum iscsi_ipaddress_state { ISCSI_IPDDRESS_STATE_UNCONFIGURED, ISCSI_IPDDRESS_STATE_ACQUIRING, ISCSI_IPDDRESS_STATE_TENTATIVE, ISCSI_IPDDRESS_STATE_VALID, ISCSI_IPDDRESS_STATE_DISABLING, ISCSI_IPDDRESS_STATE_INVALID, ISCSI_IPDDRESS_STATE_DEPRECATED, }; enum iscsi_router_state { ISCSI_ROUTER_STATE_UNKNOWN, ISCSI_ROUTER_STATE_ADVERTISED, ISCSI_ROUTER_STATE_MANUAL, ISCSI_ROUTER_STATE_STALE, }; /* iSCSI specific settings params for iface */ enum iscsi_iface_param { ISCSI_IFACE_PARAM_DEF_TASKMGMT_TMO, ISCSI_IFACE_PARAM_HDRDGST_EN, ISCSI_IFACE_PARAM_DATADGST_EN, ISCSI_IFACE_PARAM_IMM_DATA_EN, ISCSI_IFACE_PARAM_INITIAL_R2T_EN, ISCSI_IFACE_PARAM_DATASEQ_INORDER_EN, ISCSI_IFACE_PARAM_PDU_INORDER_EN, ISCSI_IFACE_PARAM_ERL, ISCSI_IFACE_PARAM_MAX_RECV_DLENGTH, ISCSI_IFACE_PARAM_FIRST_BURST, ISCSI_IFACE_PARAM_MAX_R2T, ISCSI_IFACE_PARAM_MAX_BURST, ISCSI_IFACE_PARAM_CHAP_AUTH_EN, ISCSI_IFACE_PARAM_BIDI_CHAP_EN, ISCSI_IFACE_PARAM_DISCOVERY_AUTH_OPTIONAL, ISCSI_IFACE_PARAM_DISCOVERY_LOGOUT_EN, ISCSI_IFACE_PARAM_STRICT_LOGIN_COMP_EN, ISCSI_IFACE_PARAM_INITIATOR_NAME, }; enum iscsi_conn_state { ISCSI_CONN_STATE_FREE, ISCSI_CONN_STATE_XPT_WAIT, ISCSI_CONN_STATE_IN_LOGIN, ISCSI_CONN_STATE_LOGGED_IN, ISCSI_CONN_STATE_IN_LOGOUT, ISCSI_CONN_STATE_LOGOUT_REQUESTED, ISCSI_CONN_STATE_CLEANUP_WAIT, }; /* * Common error codes */ enum iscsi_err { ISCSI_OK = 0, ISCSI_ERR_DATASN = ISCSI_ERR_BASE + 1, ISCSI_ERR_DATA_OFFSET = ISCSI_ERR_BASE + 2, ISCSI_ERR_MAX_CMDSN = ISCSI_ERR_BASE + 3, ISCSI_ERR_EXP_CMDSN = ISCSI_ERR_BASE + 4, ISCSI_ERR_BAD_OPCODE = ISCSI_ERR_BASE + 5, ISCSI_ERR_DATALEN = ISCSI_ERR_BASE + 6, ISCSI_ERR_AHSLEN = ISCSI_ERR_BASE + 7, ISCSI_ERR_PROTO = ISCSI_ERR_BASE + 8, ISCSI_ERR_LUN = ISCSI_ERR_BASE + 9, ISCSI_ERR_BAD_ITT = ISCSI_ERR_BASE + 10, ISCSI_ERR_CONN_FAILED = ISCSI_ERR_BASE + 11, ISCSI_ERR_R2TSN = ISCSI_ERR_BASE + 12, ISCSI_ERR_SESSION_FAILED = ISCSI_ERR_BASE + 13, ISCSI_ERR_HDR_DGST = ISCSI_ERR_BASE + 14, ISCSI_ERR_DATA_DGST = ISCSI_ERR_BASE + 15, ISCSI_ERR_PARAM_NOT_FOUND = ISCSI_ERR_BASE + 16, ISCSI_ERR_NO_SCSI_CMD = ISCSI_ERR_BASE + 17, ISCSI_ERR_INVALID_HOST = ISCSI_ERR_BASE + 18, ISCSI_ERR_XMIT_FAILED = ISCSI_ERR_BASE + 19, ISCSI_ERR_TCP_CONN_CLOSE = ISCSI_ERR_BASE + 20, ISCSI_ERR_SCSI_EH_SESSION_RST = ISCSI_ERR_BASE + 21, }; /* * iSCSI Parameters (RFC3720) */ enum iscsi_param { /* passed in using netlink set param */ ISCSI_PARAM_MAX_RECV_DLENGTH, ISCSI_PARAM_MAX_XMIT_DLENGTH, ISCSI_PARAM_HDRDGST_EN, ISCSI_PARAM_DATADGST_EN, ISCSI_PARAM_INITIAL_R2T_EN, ISCSI_PARAM_MAX_R2T, ISCSI_PARAM_IMM_DATA_EN, ISCSI_PARAM_FIRST_BURST, ISCSI_PARAM_MAX_BURST, ISCSI_PARAM_PDU_INORDER_EN, ISCSI_PARAM_DATASEQ_INORDER_EN, ISCSI_PARAM_ERL, ISCSI_PARAM_IFMARKER_EN, ISCSI_PARAM_OFMARKER_EN, ISCSI_PARAM_EXP_STATSN, ISCSI_PARAM_TARGET_NAME, ISCSI_PARAM_TPGT, ISCSI_PARAM_PERSISTENT_ADDRESS, ISCSI_PARAM_PERSISTENT_PORT, ISCSI_PARAM_SESS_RECOVERY_TMO, /* passed in through bind conn using transport_fd */ ISCSI_PARAM_CONN_PORT, ISCSI_PARAM_CONN_ADDRESS, ISCSI_PARAM_USERNAME, ISCSI_PARAM_USERNAME_IN, ISCSI_PARAM_PASSWORD, ISCSI_PARAM_PASSWORD_IN, ISCSI_PARAM_FAST_ABORT, ISCSI_PARAM_ABORT_TMO, ISCSI_PARAM_LU_RESET_TMO, ISCSI_PARAM_HOST_RESET_TMO, ISCSI_PARAM_PING_TMO, ISCSI_PARAM_RECV_TMO, ISCSI_PARAM_IFACE_NAME, ISCSI_PARAM_ISID, ISCSI_PARAM_INITIATOR_NAME, ISCSI_PARAM_TGT_RESET_TMO, ISCSI_PARAM_TARGET_ALIAS, ISCSI_PARAM_CHAP_IN_IDX, ISCSI_PARAM_CHAP_OUT_IDX, ISCSI_PARAM_BOOT_ROOT, ISCSI_PARAM_BOOT_NIC, ISCSI_PARAM_BOOT_TARGET, ISCSI_PARAM_AUTO_SND_TGT_DISABLE, ISCSI_PARAM_DISCOVERY_SESS, ISCSI_PARAM_PORTAL_TYPE, ISCSI_PARAM_CHAP_AUTH_EN, ISCSI_PARAM_DISCOVERY_LOGOUT_EN, ISCSI_PARAM_BIDI_CHAP_EN, ISCSI_PARAM_DISCOVERY_AUTH_OPTIONAL, ISCSI_PARAM_DEF_TIME2WAIT, ISCSI_PARAM_DEF_TIME2RETAIN, ISCSI_PARAM_MAX_SEGMENT_SIZE, ISCSI_PARAM_STATSN, ISCSI_PARAM_KEEPALIVE_TMO, ISCSI_PARAM_LOCAL_PORT, ISCSI_PARAM_TSID, ISCSI_PARAM_DEF_TASKMGMT_TMO, ISCSI_PARAM_TCP_TIMESTAMP_STAT, ISCSI_PARAM_TCP_WSF_DISABLE, ISCSI_PARAM_TCP_NAGLE_DISABLE, ISCSI_PARAM_TCP_TIMER_SCALE, ISCSI_PARAM_TCP_TIMESTAMP_EN, ISCSI_PARAM_TCP_XMIT_WSF, ISCSI_PARAM_TCP_RECV_WSF, ISCSI_PARAM_IP_FRAGMENT_DISABLE, ISCSI_PARAM_IPV4_TOS, ISCSI_PARAM_IPV6_TC, ISCSI_PARAM_IPV6_FLOW_LABEL, ISCSI_PARAM_IS_FW_ASSIGNED_IPV6, ISCSI_PARAM_DISCOVERY_PARENT_IDX, ISCSI_PARAM_DISCOVERY_PARENT_TYPE, /* must always be last */ ISCSI_PARAM_MAX, }; /* iSCSI HBA params */ enum iscsi_host_param { ISCSI_HOST_PARAM_HWADDRESS, ISCSI_HOST_PARAM_INITIATOR_NAME, ISCSI_HOST_PARAM_NETDEV_NAME, ISCSI_HOST_PARAM_IPADDRESS, ISCSI_HOST_PARAM_PORT_STATE, ISCSI_HOST_PARAM_PORT_SPEED, ISCSI_HOST_PARAM_MAX, }; /* portal type */ #define PORTAL_TYPE_IPV4 "ipv4" #define PORTAL_TYPE_IPV6 "ipv6" /* iSCSI Flash Target params */ enum iscsi_flashnode_param { ISCSI_FLASHNODE_IS_FW_ASSIGNED_IPV6, ISCSI_FLASHNODE_PORTAL_TYPE, ISCSI_FLASHNODE_AUTO_SND_TGT_DISABLE, ISCSI_FLASHNODE_DISCOVERY_SESS, ISCSI_FLASHNODE_ENTRY_EN, ISCSI_FLASHNODE_HDR_DGST_EN, ISCSI_FLASHNODE_DATA_DGST_EN, ISCSI_FLASHNODE_IMM_DATA_EN, ISCSI_FLASHNODE_INITIAL_R2T_EN, ISCSI_FLASHNODE_DATASEQ_INORDER, ISCSI_FLASHNODE_PDU_INORDER, ISCSI_FLASHNODE_CHAP_AUTH_EN, ISCSI_FLASHNODE_SNACK_REQ_EN, ISCSI_FLASHNODE_DISCOVERY_LOGOUT_EN, ISCSI_FLASHNODE_BIDI_CHAP_EN, /* make authentication for discovery sessions optional */ ISCSI_FLASHNODE_DISCOVERY_AUTH_OPTIONAL, ISCSI_FLASHNODE_ERL, ISCSI_FLASHNODE_TCP_TIMESTAMP_STAT, ISCSI_FLASHNODE_TCP_NAGLE_DISABLE, ISCSI_FLASHNODE_TCP_WSF_DISABLE, ISCSI_FLASHNODE_TCP_TIMER_SCALE, ISCSI_FLASHNODE_TCP_TIMESTAMP_EN, ISCSI_FLASHNODE_IP_FRAG_DISABLE, ISCSI_FLASHNODE_MAX_RECV_DLENGTH, ISCSI_FLASHNODE_MAX_XMIT_DLENGTH, ISCSI_FLASHNODE_FIRST_BURST, ISCSI_FLASHNODE_DEF_TIME2WAIT, ISCSI_FLASHNODE_DEF_TIME2RETAIN, ISCSI_FLASHNODE_MAX_R2T, ISCSI_FLASHNODE_KEEPALIVE_TMO, ISCSI_FLASHNODE_ISID, ISCSI_FLASHNODE_TSID, ISCSI_FLASHNODE_PORT, ISCSI_FLASHNODE_MAX_BURST, ISCSI_FLASHNODE_DEF_TASKMGMT_TMO, ISCSI_FLASHNODE_IPADDR, ISCSI_FLASHNODE_ALIAS, ISCSI_FLASHNODE_REDIRECT_IPADDR, ISCSI_FLASHNODE_MAX_SEGMENT_SIZE, ISCSI_FLASHNODE_LOCAL_PORT, ISCSI_FLASHNODE_IPV4_TOS, ISCSI_FLASHNODE_IPV6_TC, ISCSI_FLASHNODE_IPV6_FLOW_LABEL, ISCSI_FLASHNODE_NAME, ISCSI_FLASHNODE_TPGT, ISCSI_FLASHNODE_LINK_LOCAL_IPV6, ISCSI_FLASHNODE_DISCOVERY_PARENT_IDX, ISCSI_FLASHNODE_DISCOVERY_PARENT_TYPE, ISCSI_FLASHNODE_TCP_XMIT_WSF, ISCSI_FLASHNODE_TCP_RECV_WSF, ISCSI_FLASHNODE_CHAP_IN_IDX, ISCSI_FLASHNODE_CHAP_OUT_IDX, ISCSI_FLASHNODE_USERNAME, ISCSI_FLASHNODE_USERNAME_IN, ISCSI_FLASHNODE_PASSWORD, ISCSI_FLASHNODE_PASSWORD_IN, ISCSI_FLASHNODE_STATSN, ISCSI_FLASHNODE_EXP_STATSN, ISCSI_FLASHNODE_IS_BOOT_TGT, ISCSI_FLASHNODE_MAX, }; struct iscsi_flashnode_param_info { uint32_t len; /* Actual length of the param */ uint16_t param; /* iscsi param value */ uint8_t value[0]; /* length sized value follows */ } __attribute__((__packed__)); enum iscsi_discovery_parent_type { ISCSI_DISC_PARENT_UNKNOWN = 0x1, ISCSI_DISC_PARENT_SENDTGT = 0x2, ISCSI_DISC_PARENT_ISNS = 0x3, }; /* iSCSI port Speed */ enum iscsi_port_speed { ISCSI_PORT_SPEED_UNKNOWN = 0x1, ISCSI_PORT_SPEED_10MBPS = 0x2, ISCSI_PORT_SPEED_100MBPS = 0x4, ISCSI_PORT_SPEED_1GBPS = 0x8, ISCSI_PORT_SPEED_10GBPS = 0x10, }; /* iSCSI port state */ enum iscsi_port_state { ISCSI_PORT_STATE_DOWN = 0x1, ISCSI_PORT_STATE_UP = 0x2, }; /* iSCSI PING status/error code */ enum iscsi_ping_status_code { ISCSI_PING_SUCCESS = 0, ISCSI_PING_FW_DISABLED = 0x1, ISCSI_PING_IPADDR_INVALID = 0x2, ISCSI_PING_LINKLOCAL_IPV6_ADDR_INVALID = 0x3, ISCSI_PING_TIMEOUT = 0x4, ISCSI_PING_INVALID_DEST_ADDR = 0x5, ISCSI_PING_OVERSIZE_PACKET = 0x6, ISCSI_PING_ICMP_ERROR = 0x7, ISCSI_PING_MAX_REQ_EXCEEDED = 0x8, ISCSI_PING_NO_ARP_RECEIVED = 0x9, }; #define iscsi_ptr(_handle) ((void*)(unsigned long)_handle) #define iscsi_handle(_ptr) ((uint64_t)(unsigned long)_ptr) /* * These flags presents iSCSI Data-Path capabilities. */ #define CAP_RECOVERY_L0 0x1 #define CAP_RECOVERY_L1 0x2 #define CAP_RECOVERY_L2 0x4 #define CAP_MULTI_R2T 0x8 #define CAP_HDRDGST 0x10 #define CAP_DATADGST 0x20 #define CAP_MULTI_CONN 0x40 #define CAP_TEXT_NEGO 0x80 #define CAP_MARKERS 0x100 #define CAP_FW_DB 0x200 #define CAP_SENDTARGETS_OFFLOAD 0x400 /* offload discovery process */ #define CAP_DATA_PATH_OFFLOAD 0x800 /* offload entire IO path */ #define CAP_DIGEST_OFFLOAD 0x1000 /* offload hdr and data digests */ #define CAP_PADDING_OFFLOAD 0x2000 /* offload padding insertion, removal, and verification */ #define CAP_LOGIN_OFFLOAD 0x4000 /* offload session login */ /* * These flags describes reason of stop_conn() call */ #define STOP_CONN_TERM 0x1 #define STOP_CONN_SUSPEND 0x2 #define STOP_CONN_RECOVER 0x3 #define ISCSI_STATS_CUSTOM_MAX 32 #define ISCSI_STATS_CUSTOM_DESC_MAX 64 struct iscsi_stats_custom { char desc[ISCSI_STATS_CUSTOM_DESC_MAX]; uint64_t value; }; /* * struct iscsi_stats - iSCSI Statistics (iSCSI MIB) * * Note: this structure contains counters collected on per-connection basis. */ struct iscsi_stats { /* octets */ uint64_t txdata_octets; uint64_t rxdata_octets; /* xmit pdus */ uint32_t noptx_pdus; uint32_t scsicmd_pdus; uint32_t tmfcmd_pdus; uint32_t login_pdus; uint32_t text_pdus; uint32_t dataout_pdus; uint32_t logout_pdus; uint32_t snack_pdus; /* recv pdus */ uint32_t noprx_pdus; uint32_t scsirsp_pdus; uint32_t tmfrsp_pdus; uint32_t textrsp_pdus; uint32_t datain_pdus; uint32_t logoutrsp_pdus; uint32_t r2t_pdus; uint32_t async_pdus; uint32_t rjt_pdus; /* errors */ uint32_t digest_err; uint32_t timeout_err; /* * iSCSI Custom Statistics support, i.e. Transport could * extend existing MIB statistics with its own specific statistics * up to ISCSI_STATS_CUSTOM_MAX */ uint32_t custom_length; struct iscsi_stats_custom custom[0] __attribute__ ((aligned (sizeof(uint64_t)))); }; enum chap_type_e { CHAP_TYPE_OUT, CHAP_TYPE_IN, }; enum iscsi_chap_param { ISCSI_CHAP_PARAM_INDEX, ISCSI_CHAP_PARAM_CHAP_TYPE, ISCSI_CHAP_PARAM_USERNAME, ISCSI_CHAP_PARAM_PASSWORD, ISCSI_CHAP_PARAM_PASSWORD_LEN }; #define ISCSI_CHAP_AUTH_NAME_MAX_LEN 256 #define ISCSI_CHAP_AUTH_SECRET_MAX_LEN 256 struct iscsi_chap_rec { uint16_t chap_tbl_idx; enum chap_type_e chap_type; char username[ISCSI_CHAP_AUTH_NAME_MAX_LEN]; uint8_t password[ISCSI_CHAP_AUTH_SECRET_MAX_LEN]; uint8_t password_length; }; #define ISCSI_HOST_STATS_CUSTOM_MAX 32 #define ISCSI_HOST_STATS_CUSTOM_DESC_MAX 64 struct iscsi_host_stats_custom { char desc[ISCSI_HOST_STATS_CUSTOM_DESC_MAX]; uint64_t value; }; /* struct iscsi_offload_host_stats: Host statistics, * Include statistics for MAC, IP, TCP & iSCSI. */ struct iscsi_offload_host_stats { /* MAC */ uint64_t mactx_frames; uint64_t mactx_bytes; uint64_t mactx_multicast_frames; uint64_t mactx_broadcast_frames; uint64_t mactx_pause_frames; uint64_t mactx_control_frames; uint64_t mactx_deferral; uint64_t mactx_excess_deferral; uint64_t mactx_late_collision; uint64_t mactx_abort; uint64_t mactx_single_collision; uint64_t mactx_multiple_collision; uint64_t mactx_collision; uint64_t mactx_frames_dropped; uint64_t mactx_jumbo_frames; uint64_t macrx_frames; uint64_t macrx_bytes; uint64_t macrx_unknown_control_frames; uint64_t macrx_pause_frames; uint64_t macrx_control_frames; uint64_t macrx_dribble; uint64_t macrx_frame_length_error; uint64_t macrx_jabber; uint64_t macrx_carrier_sense_error; uint64_t macrx_frame_discarded; uint64_t macrx_frames_dropped; uint64_t mac_crc_error; uint64_t mac_encoding_error; uint64_t macrx_length_error_large; uint64_t macrx_length_error_small; uint64_t macrx_multicast_frames; uint64_t macrx_broadcast_frames; /* IP */ uint64_t iptx_packets; uint64_t iptx_bytes; uint64_t iptx_fragments; uint64_t iprx_packets; uint64_t iprx_bytes; uint64_t iprx_fragments; uint64_t ip_datagram_reassembly; uint64_t ip_invalid_address_error; uint64_t ip_error_packets; uint64_t ip_fragrx_overlap; uint64_t ip_fragrx_outoforder; uint64_t ip_datagram_reassembly_timeout; uint64_t ipv6tx_packets; uint64_t ipv6tx_bytes; uint64_t ipv6tx_fragments; uint64_t ipv6rx_packets; uint64_t ipv6rx_bytes; uint64_t ipv6rx_fragments; uint64_t ipv6_datagram_reassembly; uint64_t ipv6_invalid_address_error; uint64_t ipv6_error_packets; uint64_t ipv6_fragrx_overlap; uint64_t ipv6_fragrx_outoforder; uint64_t ipv6_datagram_reassembly_timeout; /* TCP */ uint64_t tcptx_segments; uint64_t tcptx_bytes; uint64_t tcprx_segments; uint64_t tcprx_byte; uint64_t tcp_duplicate_ack_retx; uint64_t tcp_retx_timer_expired; uint64_t tcprx_duplicate_ack; uint64_t tcprx_pure_ackr; uint64_t tcptx_delayed_ack; uint64_t tcptx_pure_ack; uint64_t tcprx_segment_error; uint64_t tcprx_segment_outoforder; uint64_t tcprx_window_probe; uint64_t tcprx_window_update; uint64_t tcptx_window_probe_persist; /* ECC */ uint64_t ecc_error_correction; /* iSCSI */ uint64_t iscsi_pdu_tx; uint64_t iscsi_data_bytes_tx; uint64_t iscsi_pdu_rx; uint64_t iscsi_data_bytes_rx; uint64_t iscsi_io_completed; uint64_t iscsi_unexpected_io_rx; uint64_t iscsi_format_error; uint64_t iscsi_hdr_digest_error; uint64_t iscsi_data_digest_error; uint64_t iscsi_sequence_error; /* * iSCSI Custom Host Statistics support, i.e. Transport could * extend existing host statistics with its own specific statistics * up to ISCSI_HOST_STATS_CUSTOM_MAX */ uint32_t custom_length; struct iscsi_host_stats_custom custom[0] __attribute__ ((aligned (sizeof(uint64_t)))); }; #endif open-iscsi-2.0.874/include/iscsi_net_util.h000066400000000000000000000006751277325716400206040ustar00rootroot00000000000000#ifndef __ISCSI_NET_UTIL_h__ #define __ISCSI_NET_UTIL_h__ #define ISCSI_HWADDRESS_BUF_SIZE 18 extern int net_get_transport_name_from_netdev(char *netdev, char *transport); extern int net_get_netdev_from_hwaddress(char *hwaddress, char *netdev); extern int net_setup_netdev(char *netdev, char *local_ip, char *mask, char *gateway, char *vlan, char *remote_ip, int needs_bringup); extern int net_ifup_netdev(char *netdev); #endif open-iscsi-2.0.874/include/iscsi_proto.h000066400000000000000000000365451277325716400201310ustar00rootroot00000000000000/* * RFC 3720 (iSCSI) protocol data types * * Copyright (C) 2005 Dmitry Yusupov * Copyright (C) 2005 Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSI_PROTO_H #define ISCSI_PROTO_H #ifndef __KERNEL__ #include #endif #include #define ISCSI_DRAFT20_VERSION 0x00 /* default iSCSI listen port for incoming connections */ #define ISCSI_LISTEN_PORT 3260 /* Padding word length */ #define ISCSI_PAD_LEN 4 /* * useful common(control and data pathes) macro */ #define ntoh24(p) (((p)[0] << 16) | ((p)[1] << 8) | ((p)[2])) #define hton24(p, v) { \ p[0] = (((v) >> 16) & 0xFF); \ p[1] = (((v) >> 8) & 0xFF); \ p[2] = ((v) & 0xFF); \ } #define zero_data(p) {p[0]=0;p[1]=0;p[2]=0;} /* * If running svn modules we may need to define these. * This should not go upstream since this is already properly defined there */ #ifdef __CHECKER__ #define __bitwise__ __attribute__((bitwise)) #else #define __bitwise__ #endif #ifdef __CHECK_ENDIAN__ #define __bitwise __bitwise__ #else #define __bitwise #endif /* initiator tags; opaque for target */ typedef uint32_t __bitwise__ itt_t; /* below makes sense only for initiator that created this tag */ #define build_itt(itt, age) ((__force itt_t)\ ((itt) | ((age) << ISCSI_AGE_SHIFT))) #define get_itt(itt) ((__force uint32_t)(itt_t)(itt) & ISCSI_ITT_MASK) #define RESERVED_ITT ((__force itt_t)0xffffffff) /* * iSCSI Template Message Header */ struct iscsi_hdr { uint8_t opcode; uint8_t flags; /* Final bit */ uint8_t rsvd2[2]; uint8_t hlength; /* AHSs total length */ uint8_t dlength[3]; /* Data length */ uint8_t lun[8]; itt_t itt; /* Initiator Task Tag, opaque for target */ __be32 ttt; /* Target Task Tag */ __be32 statsn; __be32 exp_statsn; __be32 max_statsn; uint8_t other[12]; }; /************************* RFC 3720 Begin *****************************/ #define ISCSI_RESERVED_TAG 0xffffffff /* Opcode encoding bits */ #define ISCSI_OP_RETRY 0x80 #define ISCSI_OP_IMMEDIATE 0x40 #define ISCSI_OPCODE_MASK 0x3F /* Initiator Opcode values */ #define ISCSI_OP_NOOP_OUT 0x00 #define ISCSI_OP_SCSI_CMD 0x01 #define ISCSI_OP_SCSI_TMFUNC 0x02 #define ISCSI_OP_LOGIN 0x03 #define ISCSI_OP_TEXT 0x04 #define ISCSI_OP_SCSI_DATA_OUT 0x05 #define ISCSI_OP_LOGOUT 0x06 #define ISCSI_OP_SNACK 0x10 #define ISCSI_OP_VENDOR1_CMD 0x1c #define ISCSI_OP_VENDOR2_CMD 0x1d #define ISCSI_OP_VENDOR3_CMD 0x1e #define ISCSI_OP_VENDOR4_CMD 0x1f /* Target Opcode values */ #define ISCSI_OP_NOOP_IN 0x20 #define ISCSI_OP_SCSI_CMD_RSP 0x21 #define ISCSI_OP_SCSI_TMFUNC_RSP 0x22 #define ISCSI_OP_LOGIN_RSP 0x23 #define ISCSI_OP_TEXT_RSP 0x24 #define ISCSI_OP_SCSI_DATA_IN 0x25 #define ISCSI_OP_LOGOUT_RSP 0x26 #define ISCSI_OP_R2T 0x31 #define ISCSI_OP_ASYNC_EVENT 0x32 #define ISCSI_OP_REJECT 0x3f struct iscsi_ahs_hdr { __be16 ahslength; uint8_t ahstype; uint8_t ahspec[5]; }; #define ISCSI_AHSTYPE_CDB 1 #define ISCSI_AHSTYPE_RLENGTH 2 #define ISCSI_CDB_SIZE 16 /* iSCSI PDU Header */ struct iscsi_cmd { uint8_t opcode; uint8_t flags; __be16 rsvd2; uint8_t hlength; uint8_t dlength[3]; uint8_t lun[8]; itt_t itt; /* Initiator Task Tag */ __be32 data_length; __be32 cmdsn; __be32 exp_statsn; uint8_t cdb[ISCSI_CDB_SIZE]; /* SCSI Command Block */ /* Additional Data (Command Dependent) */ }; /* Command PDU flags */ #define ISCSI_FLAG_CMD_FINAL 0x80 #define ISCSI_FLAG_CMD_READ 0x40 #define ISCSI_FLAG_CMD_WRITE 0x20 #define ISCSI_FLAG_CMD_ATTR_MASK 0x07 /* 3 bits */ /* SCSI Command Attribute values */ #define ISCSI_ATTR_UNTAGGED 0 #define ISCSI_ATTR_SIMPLE 1 #define ISCSI_ATTR_ORDERED 2 #define ISCSI_ATTR_HEAD_OF_QUEUE 3 #define ISCSI_ATTR_ACA 4 struct iscsi_rlength_ahdr { __be16 ahslength; uint8_t ahstype; uint8_t reserved; __be32 read_length; }; /* Extended CDB AHS */ struct iscsi_ecdb_ahdr { __be16 ahslength; /* CDB length - 15, including reserved byte */ uint8_t ahstype; uint8_t reserved; /* 4-byte aligned extended CDB spillover */ uint8_t ecdb[260 - ISCSI_CDB_SIZE]; }; /* SCSI Response Header */ struct iscsi_cmd_rsp { uint8_t opcode; uint8_t flags; uint8_t response; uint8_t cmd_status; uint8_t hlength; uint8_t dlength[3]; uint8_t rsvd[8]; itt_t itt; /* Initiator Task Tag */ __be32 rsvd1; __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; __be32 exp_datasn; __be32 bi_residual_count; __be32 residual_count; /* Response or Sense Data (optional) */ }; /* Command Response PDU flags */ #define ISCSI_FLAG_CMD_BIDI_OVERFLOW 0x10 #define ISCSI_FLAG_CMD_BIDI_UNDERFLOW 0x08 #define ISCSI_FLAG_CMD_OVERFLOW 0x04 #define ISCSI_FLAG_CMD_UNDERFLOW 0x02 /* iSCSI Status values. Valid if Rsp Selector bit is not set */ #define ISCSI_STATUS_CMD_COMPLETED 0 #define ISCSI_STATUS_TARGET_FAILURE 1 #define ISCSI_STATUS_SUBSYS_FAILURE 2 /* Asynchronous Event Header */ struct iscsi_async { uint8_t opcode; uint8_t flags; uint8_t rsvd2[2]; uint8_t rsvd3; uint8_t dlength[3]; uint8_t lun[8]; uint8_t rsvd4[8]; __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; uint8_t async_event; uint8_t async_vcode; __be16 param1; __be16 param2; __be16 param3; uint8_t rsvd5[4]; }; /* iSCSI Event Codes */ #define ISCSI_ASYNC_MSG_SCSI_EVENT 0 #define ISCSI_ASYNC_MSG_REQUEST_LOGOUT 1 #define ISCSI_ASYNC_MSG_DROPPING_CONNECTION 2 #define ISCSI_ASYNC_MSG_DROPPING_ALL_CONNECTIONS 3 #define ISCSI_ASYNC_MSG_PARAM_NEGOTIATION 4 #define ISCSI_ASYNC_MSG_VENDOR_SPECIFIC 255 /* NOP-Out Message */ struct iscsi_nopout { uint8_t opcode; uint8_t flags; __be16 rsvd2; uint8_t rsvd3; uint8_t dlength[3]; uint8_t lun[8]; itt_t itt; /* Initiator Task Tag */ __be32 ttt; /* Target Transfer Tag */ __be32 cmdsn; __be32 exp_statsn; uint8_t rsvd4[16]; }; /* NOP-In Message */ struct iscsi_nopin { uint8_t opcode; uint8_t flags; __be16 rsvd2; uint8_t rsvd3; uint8_t dlength[3]; uint8_t lun[8]; itt_t itt; /* Initiator Task Tag */ __be32 ttt; /* Target Transfer Tag */ __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; uint8_t rsvd4[12]; }; /* SCSI Task Management Message Header */ struct iscsi_tm { uint8_t opcode; uint8_t flags; uint8_t rsvd1[2]; uint8_t hlength; uint8_t dlength[3]; uint8_t lun[8]; itt_t itt; /* Initiator Task Tag */ itt_t rtt; /* Reference Task Tag */ __be32 cmdsn; __be32 exp_statsn; __be32 refcmdsn; __be32 exp_datasn; uint8_t rsvd2[8]; }; #define ISCSI_FLAG_TM_FUNC_MASK 0x7F /* Function values */ #define ISCSI_TM_FUNC_ABORT_TASK 1 #define ISCSI_TM_FUNC_ABORT_TASK_SET 2 #define ISCSI_TM_FUNC_CLEAR_ACA 3 #define ISCSI_TM_FUNC_CLEAR_TASK_SET 4 #define ISCSI_TM_FUNC_LOGICAL_UNIT_RESET 5 #define ISCSI_TM_FUNC_TARGET_WARM_RESET 6 #define ISCSI_TM_FUNC_TARGET_COLD_RESET 7 #define ISCSI_TM_FUNC_TASK_REASSIGN 8 #define ISCSI_TM_FUNC_VALUE(hdr) ((hdr)->flags & ISCSI_FLAG_TM_FUNC_MASK) /* SCSI Task Management Response Header */ struct iscsi_tm_rsp { uint8_t opcode; uint8_t flags; uint8_t response; /* see Response values below */ uint8_t qualifier; uint8_t hlength; uint8_t dlength[3]; uint8_t rsvd2[8]; itt_t itt; /* Initiator Task Tag */ itt_t rtt; /* Reference Task Tag */ __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; uint8_t rsvd3[12]; }; /* Response values */ #define ISCSI_TMF_RSP_COMPLETE 0x00 #define ISCSI_TMF_RSP_NO_TASK 0x01 #define ISCSI_TMF_RSP_NO_LUN 0x02 #define ISCSI_TMF_RSP_TASK_ALLEGIANT 0x03 #define ISCSI_TMF_RSP_NO_FAILOVER 0x04 #define ISCSI_TMF_RSP_NOT_SUPPORTED 0x05 #define ISCSI_TMF_RSP_AUTH_FAILED 0x06 #define ISCSI_TMF_RSP_REJECTED 0xff /* Ready To Transfer Header */ struct iscsi_r2t_rsp { uint8_t opcode; uint8_t flags; uint8_t rsvd2[2]; uint8_t hlength; uint8_t dlength[3]; uint8_t lun[8]; itt_t itt; /* Initiator Task Tag */ __be32 ttt; /* Target Transfer Tag */ __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; __be32 r2tsn; __be32 data_offset; __be32 data_length; }; /* SCSI Data Hdr */ struct iscsi_data { uint8_t opcode; uint8_t flags; uint8_t rsvd2[2]; uint8_t rsvd3; uint8_t dlength[3]; uint8_t lun[8]; itt_t itt; __be32 ttt; __be32 rsvd4; __be32 exp_statsn; __be32 rsvd5; __be32 datasn; __be32 offset; __be32 rsvd6; /* Payload */ }; /* SCSI Data Response Hdr */ struct iscsi_data_rsp { uint8_t opcode; uint8_t flags; uint8_t rsvd2; uint8_t cmd_status; uint8_t hlength; uint8_t dlength[3]; uint8_t lun[8]; itt_t itt; __be32 ttt; __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; __be32 datasn; __be32 offset; __be32 residual_count; }; /* Data Response PDU flags */ #define ISCSI_FLAG_DATA_ACK 0x40 #define ISCSI_FLAG_DATA_OVERFLOW 0x04 #define ISCSI_FLAG_DATA_UNDERFLOW 0x02 #define ISCSI_FLAG_DATA_STATUS 0x01 /* Text Header */ struct iscsi_text { uint8_t opcode; uint8_t flags; uint8_t rsvd2[2]; uint8_t hlength; uint8_t dlength[3]; uint8_t rsvd4[8]; itt_t itt; __be32 ttt; __be32 cmdsn; __be32 exp_statsn; uint8_t rsvd5[16]; /* Text - key=value pairs */ }; #define ISCSI_FLAG_TEXT_CONTINUE 0x40 /* Text Response Header */ struct iscsi_text_rsp { uint8_t opcode; uint8_t flags; uint8_t rsvd2[2]; uint8_t hlength; uint8_t dlength[3]; uint8_t rsvd4[8]; itt_t itt; __be32 ttt; __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; uint8_t rsvd5[12]; /* Text Response - key:value pairs */ }; /* Login Header */ struct iscsi_login { uint8_t opcode; uint8_t flags; uint8_t max_version; /* Max. version supported */ uint8_t min_version; /* Min. version supported */ uint8_t hlength; uint8_t dlength[3]; uint8_t isid[6]; /* Initiator Session ID */ __be16 tsih; /* Target Session Handle */ itt_t itt; /* Initiator Task Tag */ __be16 cid; __be16 rsvd3; __be32 cmdsn; __be32 exp_statsn; uint8_t rsvd5[16]; }; /* Login PDU flags */ #define ISCSI_FLAG_LOGIN_TRANSIT 0x80 #define ISCSI_FLAG_LOGIN_CONTINUE 0x40 #define ISCSI_FLAG_LOGIN_CURRENT_STAGE_MASK 0x0C /* 2 bits */ #define ISCSI_FLAG_LOGIN_NEXT_STAGE_MASK 0x03 /* 2 bits */ #define ISCSI_LOGIN_CURRENT_STAGE(flags) \ ((flags & ISCSI_FLAG_LOGIN_CURRENT_STAGE_MASK) >> 2) #define ISCSI_LOGIN_NEXT_STAGE(flags) \ (flags & ISCSI_FLAG_LOGIN_NEXT_STAGE_MASK) /* Login Response Header */ struct iscsi_login_rsp { uint8_t opcode; uint8_t flags; uint8_t max_version; /* Max. version supported */ uint8_t active_version; /* Active version */ uint8_t hlength; uint8_t dlength[3]; uint8_t isid[6]; /* Initiator Session ID */ __be16 tsih; /* Target Session Handle */ itt_t itt; /* Initiator Task Tag */ __be32 rsvd3; __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; uint8_t status_class; /* see Login RSP ststus classes below */ uint8_t status_detail; /* see Login RSP Status details below */ uint8_t rsvd4[10]; }; /* Login stage (phase) codes for CSG, NSG */ #define ISCSI_INITIAL_LOGIN_STAGE -1 #define ISCSI_SECURITY_NEGOTIATION_STAGE 0 #define ISCSI_OP_PARMS_NEGOTIATION_STAGE 1 #define ISCSI_FULL_FEATURE_PHASE 3 /* Login Status response classes */ #define ISCSI_STATUS_CLS_SUCCESS 0x00 #define ISCSI_STATUS_CLS_REDIRECT 0x01 #define ISCSI_STATUS_CLS_INITIATOR_ERR 0x02 #define ISCSI_STATUS_CLS_TARGET_ERR 0x03 /* Login Status response detail codes */ /* Class-0 (Success) */ #define ISCSI_LOGIN_STATUS_ACCEPT 0x00 /* Class-1 (Redirection) */ #define ISCSI_LOGIN_STATUS_TGT_MOVED_TEMP 0x01 #define ISCSI_LOGIN_STATUS_TGT_MOVED_PERM 0x02 /* Class-2 (Initiator Error) */ #define ISCSI_LOGIN_STATUS_INIT_ERR 0x00 #define ISCSI_LOGIN_STATUS_AUTH_FAILED 0x01 #define ISCSI_LOGIN_STATUS_TGT_FORBIDDEN 0x02 #define ISCSI_LOGIN_STATUS_TGT_NOT_FOUND 0x03 #define ISCSI_LOGIN_STATUS_TGT_REMOVED 0x04 #define ISCSI_LOGIN_STATUS_NO_VERSION 0x05 #define ISCSI_LOGIN_STATUS_ISID_ERROR 0x06 #define ISCSI_LOGIN_STATUS_MISSING_FIELDS 0x07 #define ISCSI_LOGIN_STATUS_CONN_ADD_FAILED 0x08 #define ISCSI_LOGIN_STATUS_NO_SESSION_TYPE 0x09 #define ISCSI_LOGIN_STATUS_NO_SESSION 0x0a #define ISCSI_LOGIN_STATUS_INVALID_REQUEST 0x0b /* Class-3 (Target Error) */ #define ISCSI_LOGIN_STATUS_TARGET_ERROR 0x00 #define ISCSI_LOGIN_STATUS_SVC_UNAVAILABLE 0x01 #define ISCSI_LOGIN_STATUS_NO_RESOURCES 0x02 /* Logout Header */ struct iscsi_logout { uint8_t opcode; uint8_t flags; uint8_t rsvd1[2]; uint8_t hlength; uint8_t dlength[3]; uint8_t rsvd2[8]; itt_t itt; /* Initiator Task Tag */ __be16 cid; uint8_t rsvd3[2]; __be32 cmdsn; __be32 exp_statsn; uint8_t rsvd4[16]; }; /* Logout PDU flags */ #define ISCSI_FLAG_LOGOUT_REASON_MASK 0x7F /* logout reason_code values */ #define ISCSI_LOGOUT_REASON_CLOSE_SESSION 0 #define ISCSI_LOGOUT_REASON_CLOSE_CONNECTION 1 #define ISCSI_LOGOUT_REASON_RECOVERY 2 #define ISCSI_LOGOUT_REASON_AEN_REQUEST 3 /* Logout Response Header */ struct iscsi_logout_rsp { uint8_t opcode; uint8_t flags; uint8_t response; /* see Logout response values below */ uint8_t rsvd2; uint8_t hlength; uint8_t dlength[3]; uint8_t rsvd3[8]; itt_t itt; /* Initiator Task Tag */ __be32 rsvd4; __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; __be32 rsvd5; __be16 t2wait; __be16 t2retain; __be32 rsvd6; }; /* logout response status values */ #define ISCSI_LOGOUT_SUCCESS 0 #define ISCSI_LOGOUT_CID_NOT_FOUND 1 #define ISCSI_LOGOUT_RECOVERY_UNSUPPORTED 2 #define ISCSI_LOGOUT_CLEANUP_FAILED 3 /* SNACK Header */ struct iscsi_snack { uint8_t opcode; uint8_t flags; uint8_t rsvd2[14]; itt_t itt; __be32 begrun; __be32 runlength; __be32 exp_statsn; __be32 rsvd3; __be32 exp_datasn; uint8_t rsvd6[8]; }; /* SNACK PDU flags */ #define ISCSI_FLAG_SNACK_TYPE_MASK 0x0F /* 4 bits */ /* Reject Message Header */ struct iscsi_reject { uint8_t opcode; uint8_t flags; uint8_t reason; uint8_t rsvd2; uint8_t hlength; uint8_t dlength[3]; uint8_t rsvd3[8]; __be32 ffffffff; uint8_t rsvd4[4]; __be32 statsn; __be32 exp_cmdsn; __be32 max_cmdsn; __be32 datasn; uint8_t rsvd5[8]; /* Text - Rejected hdr */ }; /* Reason for Reject */ #define ISCSI_REASON_CMD_BEFORE_LOGIN 1 #define ISCSI_REASON_DATA_DIGEST_ERROR 2 #define ISCSI_REASON_DATA_SNACK_REJECT 3 #define ISCSI_REASON_PROTOCOL_ERROR 4 #define ISCSI_REASON_CMD_NOT_SUPPORTED 5 #define ISCSI_REASON_IMM_CMD_REJECT 6 #define ISCSI_REASON_TASK_IN_PROGRESS 7 #define ISCSI_REASON_INVALID_SNACK 8 #define ISCSI_REASON_BOOKMARK_INVALID 9 #define ISCSI_REASON_BOOKMARK_NO_RESOURCES 10 #define ISCSI_REASON_NEGOTIATION_RESET 11 /* Max. number of Key=Value pairs in a text message */ #define MAX_KEY_VALUE_PAIRS 8192 /* maximum length for text keys/values */ #define KEY_MAXLEN 64 #define VALUE_MAXLEN 255 #define TARGET_NAME_MAXLEN VALUE_MAXLEN #define BOOT_NAME_MAXLEN 256 #define ISCSI_DEF_MAX_RECV_SEG_LEN 8192 #define ISCSI_MIN_MAX_RECV_SEG_LEN 512 #define ISCSI_MAX_MAX_RECV_SEG_LEN 16777215 #define ISCSI_DEF_FIRST_BURST_LEN 65536 #define ISCSI_MIN_FIRST_BURST_LEN 512 #define ISCSI_MAX_FIRST_BURST_LEN 16777215 #define ISCSI_DEF_MAX_BURST_LEN 262144 #define ISCSI_MIN_MAX_BURST_LEN 512 #define ISCSI_MAX_MAX_BURST_LEN 16777215 #define ISCSI_DEF_TIME2WAIT 2 /************************* RFC 3720 End *****************************/ #endif /* ISCSI_PROTO_H */ open-iscsi-2.0.874/include/list.h000066400000000000000000000054271277325716400165420ustar00rootroot00000000000000#ifndef __LIST_H__ #define __LIST_H__ #include /* taken from linux kernel */ #undef offsetof #ifdef __compiler_offsetof #define offsetof(TYPE,MEMBER) __compiler_offsetof(TYPE,MEMBER) #else #define offsetof(TYPE, MEMBER) ((size_t) &((TYPE *)0)->MEMBER) #endif #define list_container_of(ptr, type, member) ({ \ const typeof( ((type *)0)->member ) *__mptr = (ptr); \ (type *)( (char *)__mptr - offsetof(type,member) );}) struct list_head { struct list_head *next, *prev; }; #define LIST_HEAD_INIT(name) { &(name), &(name) } #define LIST_HEAD(name) \ struct list_head name = LIST_HEAD_INIT(name) static inline void INIT_LIST_HEAD(struct list_head *list) { list->next = list; list->prev = list; } static inline int list_empty(const struct list_head *head) { return head->next == head; } #define list_entry(ptr, type, member) \ list_container_of(ptr, type, member) #define list_first_entry(ptr, type, member) \ list_entry((ptr)->next, type, member) #define list_first_entry_or_null(ptr, type, member) \ (!list_empty(ptr) ? list_first_entry(ptr, type, member) : NULL) #define list_for_each(pos, head) \ for (pos = (head)->next; pos != (head); pos = pos->next) #define list_for_each_entry(pos, head, member) \ for (pos = list_entry((head)->next, typeof(*pos), member); \ &pos->member != (head); \ pos = list_entry(pos->member.next, typeof(*pos), member)) #define list_for_each_entry_safe(pos, n, head, member) \ for (pos = list_entry((head)->next, typeof(*pos), member), \ n = list_entry(pos->member.next, typeof(*pos), member); \ &pos->member != (head); \ pos = n, n = list_entry(n->member.next, typeof(*n), member)) static inline void __list_add(struct list_head *new, struct list_head *prev, struct list_head *next) { next->prev = new; new->next = next; new->prev = prev; prev->next = new; } static inline void list_add(struct list_head *new, struct list_head *head) { __list_add(new, head, head->next); } static inline void list_add_tail(struct list_head *new, struct list_head *head) { __list_add(new, head->prev, head); } static inline void __list_del(struct list_head * prev, struct list_head * next) { next->prev = prev; prev->next = next; } static inline void list_del(struct list_head *entry) { __list_del(entry->prev, entry->next); entry->next = entry->prev = NULL; } static inline void list_del_init(struct list_head *entry) { __list_del(entry->prev, entry->next); INIT_LIST_HEAD(entry); } /** * list_move_tail - delete from one list and add as another's tail * @list: the entry to move * @head: the head that will follow our entry */ static inline void list_move_tail(struct list_head *list, struct list_head *head) { __list_del(list->prev, list->next); list_add_tail(list, head); } #endif open-iscsi-2.0.874/include/sysdeps.h000066400000000000000000000017201277325716400172510ustar00rootroot00000000000000/* * wrapping of libc features and kernel interfaces * * Copyright (C) 2005-2006 Kay Sievers * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation version 2 of the License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #ifndef _SYSDEPS_H_ #define _SYSDEPS_H_ extern size_t strlcpy(char *dst, const char *src, size_t size); extern size_t strlcat(char *dst, const char *src, size_t size); #endif open-iscsi-2.0.874/iscsiuio/000077500000000000000000000000001277325716400156125ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/.gitignore000066400000000000000000000003601277325716400176010ustar00rootroot00000000000000# Autogenerated files stamp-h1 Makefile.in Makefile configure config.h.in config.h config.guess config.log config.status config.sub COPYING .deps autom4te.cache # autotools aclocal.m4 compile depcomp install-sh libtool ltmain.sh missing open-iscsi-2.0.874/iscsiuio/AUTHORS000066400000000000000000000000001277325716400166500ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/ChangeLog000066400000000000000000000005231277325716400173640ustar00rootroot00000000000000Version 0.4.1 (July 20, 2009) * Fix from Mike Christie to determine page size from getpagesize() rather then the constant PAGE_SIZE. PAGE_SIZE is not defined om ia64 and ppc. * Update documentation to indicate IPv6 is not supported * Fix code to catch the message from the CNIC that the network interface is going down. open-iscsi-2.0.874/iscsiuio/INSTALL000066400000000000000000000262211277325716400166460ustar00rootroot00000000000000Installation Instructions ************************* Copyright (C) 1994, 1995, 1996, 1999, 2000, 2001, 2002, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc. This file is free documentation; the Free Software Foundation gives unlimited permission to copy, distribute and modify it. Basic Installation ================== Briefly, the shell commands `./configure; make; make install' should configure, build, and install this package. The following more-detailed instructions are generic; see the `README' file for instructions specific to this package. The `configure' shell script attempts to guess correct values for various system-dependent variables used during compilation. It uses those values to create a `Makefile' in each directory of the package. It may also create one or more `.h' files containing system-dependent definitions. Finally, it creates a shell script `config.status' that you can run in the future to recreate the current configuration, and a file `config.log' containing compiler output (useful mainly for debugging `configure'). It can also use an optional file (typically called `config.cache' and enabled with `--cache-file=config.cache' or simply `-C') that saves the results of its tests to speed up reconfiguring. Caching is disabled by default to prevent problems with accidental use of stale cache files. If you need to do unusual things to compile the package, please try to figure out how `configure' could check whether to do them, and mail diffs or instructions to the address given in the `README' so they can be considered for the next release. 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Run `configure --help' for more details. open-iscsi-2.0.874/iscsiuio/Makefile.am000066400000000000000000000014201277325716400176430ustar00rootroot00000000000000SUBDIRS= src EXTRA_DIST = build_date build_date: if [ -n "$$SOURCE_DATE_EPOCH" ] ; then \ echo 'char *build_date = "'`LC_ALL=C.UTF-8 date --date=@$$SOURCE_DATE_EPOCH -u`'";' > build_date.c ; \ else \ echo 'char *build_date = "'`date`'";' > build_date.c ; \ fi echo 'char *build_date;'> build_date.h manprefix = /usr/share mandir = ${manprefix}/man logdir = /etc/logrotate.d install-am: all-am @$(MAKE) $(AM_MAKEFLAGS) install-exec-am install-data-am install-man install-log install-brcm install-man: cat docs/iscsiuio.8 | GZIP=$(GZIP_ENV) gzip -c > iscsiuio.8.gz $(INSTALL_PROGRAM) iscsiuio.8.gz $(mandir)/man8 install-log: $(INSTALL_PROGRAM) iscsiuiolog $(logdir) install-brcm: -rm -f $(sbindir)/brcm_iscsiuio -ln -s $(sbindir)/iscsiuio $(sbindir)/brcm_iscsiuio open-iscsi-2.0.874/iscsiuio/NEWS000066400000000000000000000000001277325716400162770ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/README000066400000000000000000000175501277325716400165020ustar00rootroot00000000000000Iscsiuio Userspace Tool Version 0.7.8.2 Dec 10, 2013 ------------------------------------------------------ This tool is to be used in conjunction with the QLogic NetXtreme II Linux driver (Kernel module name: 'bnx2' and 'bnx2x'), QLogic CNIC driver, and the QLogic iSCSI driver (Kernel module name: 'bnx2i'). This user space tool is used in conjunction with the following QLogic Network Controllers: bnx2: BCM5706, BCM5708, BCM5709 devices bnx2x: BCM57710, BCM57711, BCM57711E, BCM57712, BCM57712E, BCM57800, BCM57810, BCM57840 devices This utility will provide the ARP and DHCP functionality for the iSCSI offload. The communication to the driver is done via Userspace I/O (Kernel module name 'uio'). There is one component to this application: 1. 'iscsiuio' - This is the daemon which aids in creating iSCSI offloaded connections. Dependencies: ======================================= Linux Kernel Dependencies: 1. QLogic CNIC driver (cnic) 1. QLogic iSCSI offload driver (bnx2i) 2. Userspace I/O driver (uio) Directory Structure of this Package: ======================================= | +-doc (documentation directory: man pages) | +-src | +- uip - the uIP stack | +- unix - iscsiuio source Compiling / Installing ======================================= 1. Please untar the tarball. 2. Run the configure script. This will create the Makefiles and proper header files needed for the build. 3. Run 'make'. This will create the binary, 'iscsiuio' 4. Run 'make install' to place the binaries in their installed location. (The default location is '/sbin') iscsid IFACE Configuration File: ======================================= The network interface configuration files are driven by the iscsid iface files. The configuration data is parsed by iscsid and passed to the uIP stack when the connection is established. One can use the following iscsiadm commands to create/set the configuration using the iface files: 1. Create the iface file: iscsiadm -m iface -I --op=new 2. Discover the targets associated with the new iface iscsiadm -m discovery -t st -p -I 3. Update the iface file: To use a static IPv4 address: iscsiadm -m iface -I --op=update --name=iface.ipaddress --value= To use a DHCP address: iscsiadm -m iface -I --op=update --name=iface.ipaddress --value=0.0.0.0 The following values are required. To specify the bnx2i as the transport: iscsiadm -m iface -I --op=update --name=iface.transport_name --value=bnx2i To specify the network interface to offload with: a. Specify the physical network interface name iscsiadm -m iface -I --op=update --name=iface.net_ifacename --value= b. Specify the iSCSI MAC address of the iSCSI HBA iscsiadm -m iface -I --op=update --name=iface.hwaddress --value= 4. Now all the settings should be set so that one could connect to their desired iSCSI target. iscsiadm -m node -p -T -I --login bnx2 Limitations: ======================================= * RX iSCSI ring: * default ring size is 3 entries * default buffer size is 0x400 bytes * TX iSCSI ring: * default ring size of 1 entry * default buffer size is 0x400 bytes bnx2x Limitations: ======================================= * RX iSCSI ring: * default ring size is 15 entries * default buffer size is 0x400 bytes * TX iSCSI ring: * default ring size of 1 entry * default buffer size is 0x400 bytes Other Limiations: Any packets larger then the buffer size will not be sent/received by the hardware and will be dropped. IPv6 support: IPv6 NDP (neighbor discovery protocol), DHCPv6 and Static IPv6 are now supported. The IPv6 address used for the connection will be matched against the DHCPv6/static IPv6 address, the RA (router advertise) address, and the assigned link local address. VLAN support: VLAN support is only supported when using static IP addresses. Also, currently only 1 VLAN is supported per physical network interface. Either non-VLAN offloaded traffic is allowed or VLAN offloaded traffic is allowed. The current implementation does not support both at the same time. Currently there is no explicit VLAN attributes in the iface file. To configure the VLAN offload, the iface.hwaddress attribute or physical net_ifacename (without the VLAN identifier) must be used to specify the HBA device. For the proper CNIC routing, the corresponding L2 interface which has the associated VLAN interface must have an IP address on the same subnet. The following attributes need to be filled when offloading via the VLAN interface: iface.iscsi_ifacename = iface.hwaddress = XX:XX:XX:XX:XX:XX iface.ipaddress = XX.XX.XX.XX iface.transport_name = bnx2i Setting IP address: On RHEL5.4, RHEL5.5+, RHEL6.0+, and SLES11SP1 distributions, discovery login is done over the Linux TCP/IP stack and L2 network interface. The ethx interface corresponding to the HBA must therefore be in the same IP subnet in order to reach the iSCSI target during discovery. However, the HBA's IP address should not be the same as the L2 ethx's IP address. Starting with RHEL6.1 and all other newer distributions, discovery using SendTargets is done over the HBA interface, so there is no need for the HBA and L2 network to be on the same subnet. However, if VLAN is used on the HBA, they still have to be on the same subnet as described above. Setting Netmask and Gateway addresses: With the current limitations of the iface file, there are no entries to allow the user to enter a netmask or gateway IP address. The only way to explicitly configure these options is to use DHCP addressing. Then the netmask/gateway are set on the DHCP server. These settings are then sent to uIP via the DHCPOFFERs. If the netmask is not defined then the netmask are automatically generated depending on the destination IP address. Debugging: ======================================= By default, the iscsiuio daemon does not output any messages to the log file, '/var/log/iscsiuio.log'. Message logging is only enabled when the daemon is run under debug mode. To run the daemon in debug mode please pass the parameter '-d ' where the following debug levels are defined: DEBUG 4 - Print all messages INFO 3 - Print messages needed to follow the uIP code (default) WARN 2 - Print warning messages ERROR 1 - Only print critical errors A sample banner message: INFO [Mon Jun 20 11:23:14 2011]Started iSCSI uio stack: Ver 0.7.0.6 INFO [Mon Jun 20 11:23:14 2011]Build date: Mon Jun 20 11:22:05 PDT 2011 INFO [Mon Jun 20 11:23:14 2011]Debug mode enabled These messages can be used to help debug any issues. When debugging issues like the iscsid, the iscsiuio daemon can be run in the foreground and the maximum debugging level should be used. To place the daemon in foreground mode please pass the parameter '-f' Note: The messages to the log file are not flushed unless debugging is enabled. Note: If the daemon iscsiuio is running, one will not be able to trample over the existing binary. One might see the following message: 'cannot create regular file `/sbin/iscsiuio': Text file busy' The solve this, please stop the iscsid service and then install. Warning: If full debug is enabled, this may quickly fill the partition containing the iscsiuio logs. This is because full debugging will log packet activity which on a busy network will quickly fill the logs. Note: If the bnx2i and cnic drivers are unloaded, then iscsiuio will also need to be restarted so that it can determine the iscsid version. open-iscsi-2.0.874/iscsiuio/RELEASE.TXT000066400000000000000000002174351277325716400173070ustar00rootroot00000000000000 Release Notes QLogic uIP Linux Driver Version 0.7.8.2 12/10/2013 QLogic Corporation 26650 Aliso Viejo Pkwy, Aliso Viejo, CA 92656 Copyright (c) 2004 - 2013 Broadcom Corporation Copyright (c) 2014, QLogic Corporation All rights reserved uIP v0.7.10.2 (Feb 12, 2014) ======================================================= Fixes ----- 1. Problem: Cont00072504 - ifconfig shows allocation failure after up/down few hours with iSCSI + L2 traffic Cause: A memory leak was discovered in the ongoing pthread creation destruction code during the connection recovery process Change: Fixed the pthread creation code Impact: All uIP v0.7.8.2 (Dec 10, 2013) ======================================================= Fixes ----- 1. Problem: Cont00072053 - Some hardware iSCSI paths fail during test Cause: The test exercised a corner case where the ARP cache flush mechanism didn't work properly Change: Fixed the ARP cache flush mechanism Impact: All Enhancements ------------ 1. Change: Added a new tx doorbell field in the uio path to work with the new bnx2x/cnic drivers that supports VF_RSS Impact: 10G only 2. Change: Fixed the iface.subnet_mask decoding for IPv6 Impact: IPv6 uIP v0.7.8.1b (May 01, 2013) ======================================================= Enhancements ------------ 1. Change: Performance optimization by caching the page size Impact: All 2. Change: Fixed a bug in the tx completion interrupt handler Impact: 10G only uIP v0.7.6.1g (Jan 14, 2013) ======================================================= Fixes ----- 1. Problem: Cont00067316 - IPv6 address prefix length < 32 bits fails to connect Cause: CIDR notation has an order bug in the IPv6 section whenever the prefix length specified is < 32 Change: Fixed the network order bug Impact: IPv6 only uIP v0.7.6.1f (Nov 14, 2012) ======================================================= Fixes ----- 1. Problem: Cont00065768 - RHEL5.X iscsiuio segfault possible if there is a specific 1024 byte size broadcast packet Cause: This is another corner case where the packet size is also exactly 1024 bytes + padding that exceeded the DMA rx buffer. The previous fix was not sufficient Change: Ensure that the packet size + padding do not exceed this limit. Impact: 10G only. 1G already has the guard against it. uIP v0.7.6.1e (Nov 07, 2012) ======================================================= Fixes ----- 1. Problem: Cont00066397 - Unable to connect to iSCSI target with NPAR enabled on 57840 Cause: The PCI device ID for 57840_MF has been changed from 0x16ab to 0x16a4 Change: Updated the PCI id table to match exactly what the bnx2x 1.76 indicates Impact: 57840 MF uIP v0.7.6.1d (Oct 31, 2012) ======================================================= Enhancements ------------ 1. Change: Added support for open-iscsi-2.0.873 Impact: All uIP v0.7.6.1c (Oct 15, 2012) ======================================================= Enhancements ------------ 1. Change: Added support for 10G 57840 4x10 and 2x20 Impact: 10G 57840 uIP v0.7.6.1b (Oct 09, 2012) ======================================================= Fixes ----- 1. Problem: Cont00065690 - Vconfig method of connecting over tagged vlan with IPv6 failed Cause: The new net param support changes has prevented the old vconfig method from execising the IPv6 acquisition engine properly Change: Ensure that this old vconfig method to run the IPv6 acquisition engine properly and to its entirety Impact: IPv6 + VLAN using the network VLAN configuration method 2. Problem: Cont00065768 - RHEL5.X iscsiuio segfault possible if there is a specific 1024 byte size broadcast packet Cause: This is a corner case where the packet size is exactly 1024 bytes + padding that exceeded the DMA rx buffer. This has been there since day 1. Change: Ensure that the packet size + padding do not exceed this limit. Impact: 10G only. 1G already has the guard against it. Enhancements ------------ 1. Change: Source optimization - backported source code fixes as reported from the upstream submission patch Impact: ALL uIP v0.7.4.2k (Aug 10, 2012) ======================================================= Enhancements ------------ 1. Change: Enable HP SD mode Impact: 577XX/578XX uIP v0.7.4.2j (Jul 18, 2012) ======================================================= Fixes ----- 1. Problem: Cont00064665 - Linux iSCSI connects via gateway address on the wrong subnet Cause: The gateway address used was not checked against the subnet mask specified before the ARP requests. Since this behavior deters from how L2 operates, therefore, a change was made to correct this. Change: Added check of the gateway specified against the subnet specified. Impact: Static IPv4 operation 2. Problem: Cont00064722 - Linux iSCSI unable to force IPv6 LL override (advanced iface parameters) Cause: The override LL address was not being populated to the IPv6 address database correctly Change: Added this correctly to the IPv6 initialization Impact: Static/DHCP IPv6 LL address override only uIP v0.7.4.2i (Jul 11, 2012) ======================================================= Fixes ----- 1. Problem: Cont00064604 - Fails to connect to routed IPv6 target via RA Cause: The default router IPv6 address was not being retrieved correctly. Change: Fixed the default router IPv6 address read Impact: All uIP v0.7.4.2h (Jun 15, 2012) ======================================================= Fixes ----- 1. Problem: Cont00063863 - can't boot into offload image when VLAN is enabled Cause: During the iSCSI login exchange, certain iSCSI targets will send an ARP request even though the TCP connection has been made. The bug was in this ARP reply where the local MAC was corrupted when VLAN is enabled. Change: Fixed the ARP reply packet Impact: All uIP v0.7.4.2g (Jun 08, 2012) ======================================================= Fixes ----- 1. Problem: Cont00063816 - The initiator is not able to connect to the iSCSI targets over VLAN Cause: The process packet routine did not consider the PCP of the VLAN tag to be non-zero. This created a mismatch when this VLAN tag was compared against the nic_iface->vlan_id which doesn't include the PCP. Change: Added the consideration of non-zero PCP Impact: All uIP v0.7.4.2f (Jun 04, 2012) ======================================================= Fixes ----- 1. Problem: Cont00063626 - Static IPv6 does not connect when the prefix len is not set explicitly Cause: The IPv6 prefix length was not set correctly for Static IPv6 operation when CIDR notation is not specified Change: Fixed the default prefix length Impact: Static IPv6 2. Problem: Cont00063651 - Cannot connect to iSCSI targets HP PTM/SF Cause: Switch-Dependent mode + invalid Outer VLAN was not supported Change: Allow SD+invalid OV to fallback to SF operation mode Impact: 5771X/578XX uIP v0.7.4.2e (May 30, 2012) ======================================================= Fixes ----- 1. Problem: Cont00063443 - Compilation error on SLES11sp1 Cause: The iface_num field was not defined Change: Fixed all references to iface_num Impact: SLES11sp1 2. Problem: Cont00063518 - HBA fails to connect across router using iface.gateway address Cause: The gateway override code did not populate the address into the lower level engine Change: Fixed the gateway override code Impact: IPv4 Static IP operation 3. Problem: Cont00063567 - IPv6 LL and RA override does not work Cause: The IPv6 LL/RA override addresses were overwritten by the NDP engine Change: Fixed the LL/RA override code Impact: IPv6 operation Enhancements ------------ 1. Added support for jumbo MTU (independent from the L2 MTU) uIP v0.7.4.2d (May 21, 2012) ======================================================= Fixes ----- 1. Problem: Cont00063421 - Static IPv6 cannot connect via RA/LL Cause: The router advertise and the linklocal address were corrupted due to the override capabilities added for the newer open-iscsi util Change: Fixed the address override code Impact: Static IPv6 Enhancements ------------ 1. Allow VLAN tag = 1 (router management) to connect offload uIP v0.7.4.2c (May 09, 2012) ======================================================= Fixes ----- 1. Problem: RHEL BZ 734010/804580 - issues found by the Coverity scan Cause: 10 code issues were flagged for revision Change: Fixed all area of concern Impact: All 2. Problem: Cont00063177 - IPv4 DHCP with VLAN specification in iface file gets wrong address Cause: The DHCPv4 handler was not discriminating the VLAN tag associated with the DHCP offers from multiple DHCP servers Change: Changed the DHCPv4 handler to drop DHCP offer packets that doesn't match the VLAN tag of the intended DHCP discovery packet Impact: DHCPv4 operation uIP v0.7.4.2b (May 01, 2012) ======================================================= Fixes ----- 1. Problem: Cont00062993 - IPv6 DHCP with VLAN specification in iface file gets wrong address Cause: The DHCPv6 request was using the same DUID as always so the non-VLAN DHCP server responded to our broadcast instead Change: Changed the DHCPv6 request DUID to link address + time instead of link address alone Impact: DHCPv6 operation uIP v0.7.4.1j (Apr 24, 2012) ======================================================= Fixes ----- 1. Problem: Cont00062805 - Cannot login to iSCSI targets on RHEL6.3 Cause: The problem was caused by a change made to the iface_rec structure in the RHEL6.3 inbox open-iscsi util Change: The new changes is now incorporated Impact: All uIP v0.7.4.1i (Apr 16, 2012) ======================================================= Fixes ----- 1. Problem: Cont00062660 - Unable to login with VLAN iscsiuio on RHEL6.2 Cause: The open-iscsi util in RHEL6.2 has a bug which does not pass the correct iface_num to iscsiuio Change: Added workaround to fall back to do the legacy VLAN support if iface_num and vlan_id = 0 Impact: RHEL6.2 uIP v0.7.4.1h (Apr 13, 2012) ======================================================= Enhancements ------------ 1. Added support for the new iface_num field in the iscsi_uevent path 2. Fixed bug in the nic_iface search engine based on iface_num uIP v0.7.4.1g (Mar 22, 2012) ======================================================= Fixes ----- 1. Problem: Cont00061869 - Unable to setup an offload iSCSI connection with FLR/NPAR under ESX5.0:PDA Cause: The physical function ID was previously extracted from the sysfs of the VM which might not be consistent to the actual physical setup due to the function remapping in the hypervisor Change: Read the physical function ID directly from the BAR0 ME register Impact: All 2. Problem: Cont00062170 - IPv6 login/logout stress fails Cause: The packet interrupt was lost after running the test for a much longer period of time. A bug in the packet processing routine was found to exit prematurely Change: Fixed the packet processing routine to process all packets before exiting Impact: All uIP v0.7.4.1f (Mar 19, 2012) ======================================================= Fixes ----- 1. Problem: Cont00062170 - IPv6 login/logout stress fails Cause: The packet buffer routine for IPv6 did not take network order <-> host order into consideration Change: Added a htons call to compensate for the ntohs pair Impact: All uIP v0.7.4.1e (Mar 08, 2012) ======================================================= Fixes ----- 1. Problem: Cont00061978 - Load/unload stress test fails Cause: The bnx2x open request was failing due to the module request procedure. However, the open failure was not being handled correctly. Change: Fixed the device open error handling Impact: 5771X/578XX uIP v0.7.4.1d (Mar 02, 2012) ======================================================= Fixes ----- 1. Problem: Cont00061708 - Unable to log into target after running driver load/unload Cause: A bug was introduced in the previous bug fix (CQ61459) where a pthread_cond_broadcast call was erroneously enabled Change: Restored this back Impact: All uIP v0.7.4.1c (Feb 16, 2012) ======================================================= Fixes ----- 1. Problem: Cont00061529 - Unable to connect to target after an initial failed login attempt until iscsi service is restarted Cause: Upon a failed DHCPv4 acquisition due to the wrong VLAN tag in the initial iface setup, any iscsid connect request from the same NIC will get dropped due to a bug. Change: Fixed the bug which prevented new iscsid connect requests from getting honored Impact: All Enhancements ------------ 1. Updated README uIP v0.7.4.1b (Feb 08, 2012) ======================================================= Fixes ----- 1. Problem: Cont00061513 - Unable to connect to target over VLAN interface Cause: The VLAN id was not properly passed back to the CNIC driver for the offload request Change: Fixed the VLAN id being passed back to the CNIC driver Impact: All uIP v0.7.4.1a (Feb 01, 2012) ======================================================= Fixes ----- 1. Problem: Cont00049383 - No mechanism in iface file to support gateway/routing Change: Added support for the additional network parameters as passed from the newer iscsi-util. These parameters include: IPv4: subnet_mask, gateway IPv6: ipv6_linklocal, ipv6_router, ipv6_autocfg, linklocal_autocfg, router_autocfg VLAN: vlan_id, vlan_priority, vlan_state Other: mtu, port Impact: All 2. Problem: Cont00060806 - Unable to connect target using DHCP over tagged VLAN Change: DHCP+VLAN is a new feature enhancement that was added alongside all other new iface parameters. Impact: All Enhancements ------------ 1. Lock iscsid's connect request with path_req so connect requests with DHCP/Static will no longer override each other 2. Fixed the if_down handler from global to nic specific 3. Fixed various synchronization issues uIP v0.7.2.1e (Jan 05, 2012) ======================================================= Fixes ----- 1. Problem: Cont00060734 - ifupdown-mtu change stress with active session causes iscsiuio to fail Change: Fixed a race condition between the nic enable thread and when DHCP fails Impact: All uIP v0.7.2.1d (Dec 28, 2011) ======================================================= Fixes ----- 1. Problem: Cont00060368 - segfault observed after failing both mpio paths Change: Various memory leaks were identified and resolved in the nic cleanup path Impact: All uIP v0.7.2.1c (Dec 16, 2011) ======================================================= Enhancements ------------ 1. Change: Disable HP SD mode uIP v0.7.2.1b (Dec 14, 2011) ======================================================= Enhancements ------------ 1. Change: Default iscsiuio logging to off. Use the '-d' option to enable uIP v0.7.0.14g (Oct 25, 2011) ======================================================= Enhancements ------------ 1. Change: Fixed the compilation under RHEL6.2 2. Change: Added oom_adjust call to prevent OOM Killer from killing iscsiuio when memory is low 3. Change: Added mlockall setting to prevent page swap uIP v0.7.0.14f (Oct 20, 2011) ======================================================= Fixes ----- 1. Problem: Cont00058994 - DOS vulnerability in uip during UDP flood Cause: The warning messages from the UDP handler was logging at a rate faster than the log file logrotate rate Therefore, the system's OOM eventually got kicked in to start terminating running processes which includes iscsiuio Change: Moved several UDP warning messages from the default log level to the debug log level Impact: All (minor) 2. Problem: Cont00059288 - Show segfault w/ SLES11 SP1 Xen kernel Cause: The bnx2x chip_id was not read correctly from the PCIe BAR1 under the Xen kernel. The error was in the mmap area. Change: Corrected the mmapping of the PCI MMIO space. Impact: Xen kernels Enhancements ------------ 1. Change: Changed the log file open error to a warning and let the daemon progress. This was only observed under iSCSI boot uIP v0.7.0.14e (Sep 19, 2011) ======================================================= Fixes ----- 1. Problem: Cont00058678 - Can not iboot target from ipv6 path using VLAN Cause: A bug was found in the path request path where the vlan iface's protocol family was not used correctly in the iface search Change: This has been corrected uIP v0.7.0.14d (Sep 16, 2011) ======================================================= Fixes ----- 1. Problem: Cont00058602 - Can't iboot using IPv6 offload path Cause: The bug was exposed by a fix in 0.7.0.14c where the IPv6 router solicitation timeout exceeded the nic enable thread timeout. Change: The IPv6 router solicitation timeout has been adjusted uIP v0.7.0.14c (Sep 01, 2011) ======================================================= Fixes ----- 1. Problem: Cont00058256 - Sessions fail after loginstress to via simultaneous ipv4 and ipv6 dhcp Cause: Switching between DHCPv4/v6 coupled with VLAN exposed a drawback in our nic_iface architecture design where VLAN is not specified by iscsid. Change: The code was optimized and improved the performance when switching between DHCPv4/v6+VLAN. However, the ultimate fix is to make use of the net config parameters introduced in the newer open-iscsi util which will identify the specific VLAN nic_iface to use. Enhancements ------------ 1. Change: Added support for bnx2x-1.71.00 uIP v0.7.0.14b (Aug 23, 2011) ======================================================= Fixes ----- 1. Problem: Cont00057840 - RHEL6.2 inbox: Unable to connect to targets with 5709 Cause: For cases when the bnx2/bnx2x driver gets removed, the uio database that was built by cnic would have the device ->net reference removed. This has caused an unnecessary timeout of 5s for each stale uio entry in the database. Change: Adjusted the routine which seeks the device->net entry to include more logic instead of hard waiting for 5s. Enhancements ------------ 1. Change: Added support for RHEL6.2 for out-of-box release 2. Change: Updated the man page with -h and -p info 3. Change: Updated the -h info uIP v0.7.0.13 (Aug 10, 2011) ======================================================= Fixes ----- 1. Problem: Cont00057768 - iscsiuio logrotate causes daemon failure Cause: The logrotate script will send a SIGUSR1 signal to notify the iscsiuio daemon of such action. However, the daemon wasn't programmed to catch this signal. Change: Restored the catching of this signal uIP v0.7.0.12 (Aug 04, 2011) ======================================================= Fixes ----- 1. Problem: Cont00050634 - brcm_iscsiuio Tainted: running IoZone, Iometer and receiving a UDP flood on 3260 Cause: Upon iscsiuio termination, because of the UDP flood, the nic thread will be busy servicing those UDP packets while the signal handling thread will free up all nic resources. The two threads were not in sync. Change: Added a nic_remove_all routine to destroy all nic threads before the nic resources get freed. Enhancements ------------ 1. Change: Fixed all warnings as reported by RHELS' Coverity testing. uIP v0.7.0.11 (Aug 02, 2011) ======================================================= Fixes ----- 1. Problem: Erroneous VLAN tag was being passed by iscsid for connect request Cause: The iscsid's iface_rec_t ipc message does not contain this vlan field. This field was added in uIP for future vlan support. Since the buffer allocated to receive such message in uIP didn't get initialized, therefore, garbled up VLAN tag was getting used. Change: Added the initialization of this buffer. uIP v0.7.0.10 (Jul 26, 2011) ======================================================= Fixes ----- 1. Problem: Can't offload when switching from Static to DHCP then back to Static IPv4 when connecting through a VLAN interface Cause: The VLAN processing code did not reinstall the IP address from the default nic_iface to the associated VLAN nic_iface. This was only done on the very first time when the VLAN interface was created and not on subsequent instances. Change: Added code to mirror the default nic_iface IP/netmask/ip_config on the VLAN nic_iface on every new connection request. uIP v0.7.0.9 (Jul 19, 2011) ======================================================= Fixes ----- 1. Problem: Can't offload to 57810 NPAR NIC Cause: The MF/VF variant of the PCI IDs were not supported previously Change: Added support for the MF/VF variants for 57800/57810/57840 uIP v0.7.0.8 (Jun 30, 2011) ======================================================= Fixes ----- 1. Problem: Cont00056522 - Unable to connect to iSCSI target using netxtreme2 package 7.0.9 Cause: The iSCSI L2 ring's CID has changed from 17 to 49 Change: The code now gets L2 iSCSI ring CID from the l2_buf directly. This will work with any version of the cnic driver because the location is a zero before this change. uIP v0.7.0.7 (Jun 23, 2011) ======================================================= Fixes ----- 1. Problem: Cont00056460 - iSCSI Offload boot RHEL5u5 x64 dropped tagged packets with iSCSI Offload Boot with untagged Cause: The ICMP echo replies to the target was corrupted in both 1g and 10g mode Change: The code will now handle both VLAN stripped and no VLAN stripped incoming packets correctly. Also modified the transmit routine to strip out any inline VLAN tag before setting up the hw to insert VLAN tag. uIP v0.7.0.6 (Jun 21, 2011) ======================================================= Fixes ----- 1. Problem: Cont00056231 - DHCPv4 not working with iSCSI HBA w/ linux-nx2 v7.0.7 Cause: The 10g L2 FW HSI has been modified for PCIe performance enhancement in the 7.0.7 package (FW 1.70.20) which uIP has not adapted to. Change: The eth_rx_cqe size has been increased from 32B to 64B. Enhancements ------------ 1. Change: The utility name has changed from brcm_iscsiuio to iscsiuio as preparation for upstream submission. 2. Change: Updated README uIP v0.7.0.5 (Jun 02, 2011) ======================================================= Fixes ----- 1. Problem: Cont00055915 - iSCSI does not connect on 57800 in 4-port mode Cause: The 4-port mode was not being determined correctly Change: Fixed the PORT4MODE register offset and the QZONE_ID macros uIP v0.7.0.4 (May 24, 2011) ======================================================= Fixes ----- 1. Problem: Cont00055832 - linux iscsiboot can not login to target using offload path (57800) Cause: The device ID comparison routine did not take care of the case when one device ID is bitwise superset of another. Change: Fixed the device ID comparison routine. uIP v0.7.0.3 (May. 19, 2011) ======================================================= Enhancements ------------ 1. Change: Updated all fixes to match the released uIP 0.6.4.17 2. Change: Modified source and Copyright info as preparation for upstream submission uIP v0.7.0.2 (May. 03, 2011) ======================================================= Fixes ----- 1. Problem: Cont00048972 - brcm-iscsi.log has no max size and would grow to consume all free space on hard disk Cause: There was no mechanism to rotate the log Change: Added logrotate entry and SIGUSR1 signal handling for log rotate action 2. Problem: Cont00054996 - Multi-session, multi-protocol mtu stress does not recover all sessions Cause: A segfault was observed during the load/unload module. The problem was caused by an illegal dereference of a pointer when IPv6 couldn't find the longest match address from the ARP (Neighbor) table. Change: Fixed the dereferencing error 3. Problem: Cont00054900 - Linux uIP - Please add ability to connect to routed target with static iface IPv6 Cause: Static IPv6 never runs the IPv6 NDP router sol/adv engine. Change: IPv6 NDP router sol/adv has now been added to static IPv6 operation. 4. Problem: Cont00054996 - Multi-session, multi-protocol mtu stress does not recover all sessions Cause: Segfaults were observed caused by the accessing of the IPv6 NDP structure while the nic is undergoing a reset either due to a DHCPv4 request from iscsid or the handling of if_down due to the NL handler from CNIC. Change: The fix involves the following: - Fixed the handling of staggered IPv4/v6 DHCP/static requests - Fixed memory leak due to reallocation of IPv4 and IPv6 DHCP structs - Fixed the pthread join stuck problem in the handling of the if_down NL message 5. Problem: Cont00054810 - Linux NMI - bnx2x_init_hw_common:PXP2 CFG failed running iSCSI MTU stress test Cause: This only happens in DHCPv4 mode. The problem was caused by contention between the elongated window of performing DHCP in the enable_nic thread while receiving the asynchronous if_down NL message (from the MTU change event) from the CNIC NL thread. The problem occurs when the enable_nic thread tries to call bnx2x_open while the other thread calls the bnx2x_close routine. Change: Fixed mutex lock bugs for the enable_nic thread. Also extended the nic_disable timeout to 10s to compensate for the DHCP operation. 6. Problem: Cont00054818 - RH6.0 - Unable to logout of iSCSI session after running PQA baseline scripts Cause: This was caused by the call to cancel the enable_nic thread when disabling the nic but failed to unlock the nic mutex that the enable_nic thread held. Change: Wake up the enable_nic thread and wait for it to complete instead of canceling it in the nic_disable path. 7. Problem: Cont00054725 - Previous static HBA IP will be used after a new static HBA IP has been created Cause: There was an assumption in the code where if the same nic_iface structure was found based on the nic/vlan pair, the specified IP address would not be used. Instead, it will continue to use the previous defined IP address. Change: The previous IP address will now be compared against the the specified IP address before finishing the parce iface request from iscsid. If different, the current nic will be disabled and then re-enabled with the newly specified IP address. 8. Problem: Cont00054571 - Unable to connect to routed ipv6 target with RA address and iface DHCPv6 Cause: The default router address was not being employed for the IPv6 neighbor negotiation. Additionally, the return address of our neighbor advertisement was incorrect as it should use the best matched src address instead. Change: Fixed both the IPv6 neighbor solicitation and advertisement transmission and handling. 9. Problem: Cont00054510 - fails to login to 32 session with blanket login IPv6 Cause: A bug was introduced in uIP 0.6.4.6 where the NIC_RUNNING flag might not be set when entering the main loop under certain situations depending on the nic bring up. Change: A new NIC_STARTED_RUNNING flag is now defined to fix CQ53511. 10. Problem: Cont00053807 - RA and link local are unable to connect if DHCPv6 fails Cause: The host link local address was not being searched as one of the host address to be replied to CNIC for the connect request. Change: The path reply now includes the search of host link local address as well. 11. Problem: Cont00054236 - iSCSI service must be restarted before an IPv6 connection can be made to the Equalogic target Cause: The problem was intermittent as it depends on which IPv6 address the target was redirecting to. Since uIP was only extracting the target's IPv6 address + MAC from the target's neighbor advertisement packet itself and not from the ICMPv6 option, so the wrong or no MAC address will get send down to CNIC for the connection establishment; hence the no connect. Change: Added the updating of the neighbor discovery table to also use the Target IPv6 address + MAC specified in the incoming neighbor advertisement's ICMPv6 option field. 12. Problem: Cont00053255 - bnx2x panic dump logging into multiple discovered IPv6 nodes (Equalogic IPv6 target) Cause: The bnx2x panic was fixed in the 10g fw 6.4.29. A IPv6 connectivity issue was then found and led to different kernel/uIP crashes. This was caused by the same IPv6 connectivity problem mentioned above. Change: Same as above 13. Problem: Cont00053728 - Sessions never recover after doing initiator-side cable pull test with IPv6 traffic against Equalogic targets Cause: It was discovered that the Equalogic would send out periodic neighbor solicitation to maintain the connection to the initiator. Since uIP was responding with the assigned IPv6 link local address in the neighbor advertisement unconditionally, the target was observed to stop transmitting on the connection specified. Change: The neighbor advertisement generated will now use the dst IPv6 address from the input neighbor solicitation packet instead of the assigned IPv6 link local address for both the packet and the ICMPv6 source IPv6 address. 14. Problem: Compile error under 32-bit OS Cause: A bug was introduced in the previous release 0.6.4.6 which caused a compilation error in 32-bit OS (64-bit compiles fine) Change: Fixed the bug 15. Problem: Cont00053807 - RA and Link local are unable to connect if dhcpv6 fails Cause: There was a bug in the nl reply where the RA address will never be sent back to CNIC for the connection request Change: The best matched address to the dst will now be sent back to CNIC in the path rsp. Enhancements ------------ 1. Change: Updated README to remove the 57713/E references 2. Change: Allow the ICMP option field in the IPv6 Neighbor Advertisement response to be included without discrimination. This fixes an issue connecting against the EQL via RA for DHCPv6. 3. Change: Updated README for the IPv6 operation, VLAN, and discovery. uIP v0.7.0.1 (Mar. 29, 2011) ======================================================= Fixes ----- 1. Problem: Cont00053511 - bnx2x panic dump during ifup/down stress with iSCSI traffic Cause: The panic dump was resolved by the driver's rq dbell size fix. After that, uIP crashed due to the asynchronous if_down event that took the chip resources away while the nic thread is still continuing to try to send DHCP request. Change: Added synchronization between the two threads so proper clean up of the threads can occur. Enhancements ------------ 1. Change: Added support for E3 (57800, 57810, and 57840) uIP v0.6.4.5 (Mar. 23, 2011) ======================================================= Enhancements ------------ 1. Change: Optimized the double VLAN fix of CQ53870 to match what will be submitted for RHELS5.7 and RHELS6.1 inbox uIP v0.6.4.4 (Mar. 17, 2011) ======================================================= Fixes ----- 1. Problem: Cont00053870 - Unable to login to iSCSI target via offload through a Nexus 5020 switch with DCBx enabled Cause: Double VLAN tagging was observed due to DCBx enabled. The chip actually adds a VLAN tag if the txbd does not have VLAN tag enabled under the DCBx environment for PRI setting. Since uIP does not make use of hw assisted VLAN tagging, 2 VLAN tag was observed in the data stream. Change: Enabled hw assisted VLAN tagging in uIP for both 1g and 10g. 2. Problem: Cont00053792 - maxconnections intermittently fail and recover using iface DHCPv4 Cause: The DHCPv4 engine erroneously keeps on requesting for a new lease which tremendously hamper normal path_req operation. The problem is that the lease time parameter has overflowed when converted to ticks count. Change: Expanded the lease timer ticks count parameter from 16 to 32 bits. 3. Problem: Cont00053807 - RA and link local are unable to connect if DHCPv6 fails Cause: The DHCPv6 engine does not have the failover to use RA mechanism Change: Expanded to use best match address instead regardless of DHCPv6 success or not, or using static v6. Enhancements ------------ 1. Change: Cont00051823 - Added man page for brcm_iscsiuio uIP v0.6.4.3 (Mar. 15, 2011) ======================================================= Fixes ----- 1. Problem: Cont00053719 - intermittent logging into targets that are not in the same subnet as defined in the iface Cause: The default route was used erroneously due to a miscompare Change: Fixed this comparison so if the requested dst is not in in the same subnet, uIP would not even ARP out. 2. Problem: Cont00053580 - Unable to do iSCSI boot into Linux OS using 57710 adapters Cause: The E1 iro USTORM_RX_PROD_OFFSET doesn't match the t6.4 fw Change: This is now fixed uIP v0.6.4.2 (Feb. 24, 2011) ======================================================= Fixes ----- 1. Problem: Cont00050343 - HBA does not follow RFC2131 spec for IPv4 DHCP lease expiration Cause: The dhcp engine did not have this feature implemented Change: Added lease time tracking and renewal 2. Problem: Cont00050801 - Unable to connect to target after switching between DHCPv4 to static v4 Cause: The configuration flags got corrupted when switching between dhcp and static or vice versa. Change: Fixed the flag handling. Also needed to zero out the static ip address in the host memory when switching to dhcp. Otherwise, the static ip address will get used mistakenly. Enhancements ------------ 1. Change: Cont00051936 - Added IPv6 NDP and DHCPv6 support. uIP v0.6.4.1 (Jan. 27, 2011) ======================================================= Fixes ----- 1. Problem: Cont00049766 - segfault seen while stopping iscsi service Cause: The logger output routine was accessing the log resource while another thread calls fini_logger to free the same resources Change: Added pthread mutex lock to the logger routine to exclude the initializer, user, and finisher Enhancements ------------ 1. Change: Added new t6.4 HSI and 57713 support. uIP v0.6.2.13 (Jan. 04, 2011) ======================================================= Fixes ----- 1. Problem: Cont00049665 - iscsiboot:linux failed to boot into iscsi boot image in offload path after 5 iterations Cause: The hw consumer index for the uIP ring got out of sync with the producer index. This has led to the xmit mutex lock be held forever so subsequent ARP requests will not get transmitted to the wire Change: Added this out of sync detection and rescue the xmit mutex lock uIP v0.6.2.12 (Dec. 21, 2010) ======================================================= Fixes ----- 1. Problem: Cont00051820 - Session fails to reconnect after gateway fallback Cause: Under the HSRP test scenario, it was found that an ARP request from the SUT is required in order for the HSRP router to begin sending packets downstream to the SUT. The default ARP age was originally set to 20 minutes before a new ARP request will get sent, Change: Changed the ARP age default to Linux default at 5 minutes uIP v0.6.2.11 (Dec. 17, 2010) ======================================================= Fixes ----- 1. Problem: For IPv4, the gateway route was not being utilized when the subnet mask given or calculated does not match. This resulted in many unwanted connection attempts. Cause: A bug was found in the default gateway calculation logic which prevented the gateway address from being used. Change: Fixed the default gateway logic 2. Problem: For IPv6, there are scenarios where it won't connect Cause: The IPv6 subnet mask as extracted from the CIDR format might contain garbage data. This garbage data was then used as part of the subnet mask which would prevent the correct address mask. Change: Fixed the subnet mask uIP v0.6.2.10 (Dec. 15, 2010) ======================================================= Fixes ----- 1. Problem: IPv6 does not connect for non-CIDR iface.ipaddress specification Cause: A bug where all ones was used as the IPv6 netmask instead of all zeroes. This prevented all IPv6 path requests from being honored Change: Fixed the subnet mask used uIP v0.6.2.9 (Dec. 14, 2010) ======================================================= Enhancements ------------ 1. Change: Added IP address CIDR notation support for the iface.ipaddress field in the iface file. This will allow subnet mask to be defined and used. uIP v0.6.2.8 (Dec. 9, 2010) ======================================================= Fixes ----- 1. Problem: ipv6 + ifup/down fails to reconnect Cause: There were 2 problems found: - the xmit_mutex lock was being held indefinitely - the nl_process_if_down flag for 10g doorbell ringing did not get reinitialized Change: Fixed the xmit_mutex deadlock via trylock Added nl_process_if_down initialization in the IF_DOWN process 2. Problem: Added fix for the NPAR disabled for 57712 Cause: The mac address was not handled correctly Change: Fixed the mac address handling. Also requires corresponding kernel component for the complete fix uIP v0.6.2.7 (Dec. 7, 2010) ======================================================= Enhancements ------------ 1. Change: Use the gateway address from the DHCP server the destination IP address is not in the current subnet. uIP v0.6.2.6 (Nov. 16, 2010) ======================================================= Fixes ----- 1. Problem: Warning message seen in the kernel logs, "uio uio2: uevent: unsupported action string" Cause: The improper string was echo'ed into the UIO trigger field. With an improper string, this message would appear in the kernel logs. Change: uIP will now write the string "online" to the UIO trigger field. This is the string expected by the Linux kernel base driver. 2. Problem: uIP would segfault during a heavily login/logout iSCSI subsystem reset senario Cause: A double free occurred in the logging portion of the uIP code, but this was root cause to a double free when manipulating the NetLink buffers. Change: Properly look at the return code from the routine which will read NetLink messages. Also only free buffers if they are allocated. Enhancements ------------ 1. Change: Add ability to print kernel version and machine architecture to further help debug problems. 2. Change: Apply the netmask from DHCP if provided. uIP v0.6.2.5 (Nov. 10, 2010) ======================================================= Fixes ----- 1. Problem: iscsid would try to conenct with unintended iSCSI targets Cause: uIP would blindly return the iSCSI target MAC address regardless if the iSCSI target is reachable via the given port. Change: uIP will try to filter the requests coming from CNIC by automatically generating a network mask based off the configured IP addressed. Then this netmask is masked with the destination IP address. If there is a match, then the path_req is allowed through. 2. Problem: Problems reconnecting back to the target when running MTU stress tests. Cause: cnic/bnx2i and uIP could possibly get out of sync when an if_down message is sent. Change: uIP will now immediately react to the if_down message, and flush all the path req's and then to process to if_close. Enhancements ------------ 1. Change: Fix compile warnings for src/unix/nic_nl.c, and src/unix/main.c uIP v0.6.2.4 (Nov. 4, 2010) ======================================================= Fixes ----- 1. Problem: iSCSI HBA: brcm_iscsiuio segfault during ifdown with many active sessions Cause: uIP will segfault when traversing the error path when an iSCSI connection is starting but the sysfs entries have not been created yet. Change: Use the errno value rather then the one from the file descriptor because the file descriptor will be NULL and the NULL dereference will cause a segfault. Enhancements ------------ 1. Change: Added initial changes for iSCSI multi-function support for 10G NIC's. 2. Change: Add more detailed messages for error pathes in nic_utils uIP v0.6.2.3 (October 28, 2010) ======================================================= Enhancements ------------ 1. Change: Add support for bnx2x-1.62.x drivers uIP v0.6.2.2 (October 18, 2010) ======================================================= Enhancements ------------ 1. Change: Only allow iSCSI connections with known bnx2x HSI's. uIP v0.6.2.1 (October 7, 2010) ======================================================= Fixes ----- 1. Problem: After multiple MTU changes, the ethtool IOCTL used to determine the bnx2x driver version fails and eventually iSCSI connections would not reconnect. Cause: The socket file descriptor used during the ethtool IOCTL call was never closed and leaked. Change: On the error path when calling the ethtool IOCTL, the file descriptor is now properly closed. uIP v0.5.39 (September 15, 2010) ======================================================= Fixes ----- 1. Problem: Could not offload IPv4 VLAN connection when the target tries to ARP the iSCSI initiator Cause: In the ARP reply, the ether field was incorrect. Change: Properly set the ether field to 802.1Q type (0x8100) uIP v0.5.38 (September 14, 2010) ======================================================= Fixes ----- 1. Problem: uIP would cause a panic dump when the NIC was going down Cause: uIP and CNIC where not synchonized on NIC state Change: Check if the RX BD's which are zero'ed by CNIC when the NIC is going down. If the BD addresses are zero, then uIP will drop the TX packets. uIP v0.5.37 (August 21, 2010) ======================================================= Fixes ----- 1. Problem: uIP would segfault on ifup/ifdown stress test when using DHCP to determine local IP address. Cause: The uIP would use a NULL buffer during data transmission. Change: Drop packets when there are no buffer avaliable. uIP v0.5.36 (August 21, 2010) ======================================================= Fixes ----- 1. Problem: iSCSI boot would not completely login after the pivot root operation. Cause: The uIP would not properly start the NIC interface. Change: uIP should only check the NIC state to determine whether to start the NIC thread or not. 2. Problem: uIP would segfault during if'up if'down testing. Cause: The uIP would improperly start 2 NIC threads for the same NIC interface. Change: uIP should properly lock the NIC list when disabling/removing the NIC threads. uIP v0.5.35 (August 20, 2010) ======================================================= Fixes ----- 1. Problem: Sessions would hang with ethtool self-test Cause: The uIP would hang because the socket layer was stuck because there is much contention for that socket. This would hang the CNIC thread. Change: Remove any IOCTL calls in uIP which may colide with the ethtool self test. The driver version is only capture during uIP initialization. 2. Problem: There were session recovery issue when using DHCP if up/down tests. Cause: The uIP would hang because the DHCP requests would timeout if the network interface is downed which would hang all the other uIP threads. Change: Ensure that the DHCP state machine had exit points if the network interface was down'ed. uIP v0.5.34 (August 18, 2010) ======================================================= Fixes ----- 1. Problem: Sessions would not recover with ethtool self-test Cause: The uIP would hang because either the NetLink buffer is full or that any socket operations used to manipulate multicast addresses would block. Change: Ensure that the socket used for multicast addressing is set to nonblocking. Drain the NetLink buffer without using the eventing, but with a more aggressive poll routine. 2. Problem: Sessions would not recover with L2 driver load/unload on RHEL 6.0 SS9 Cause: The uIP would close the NIC thread too early and would deadlock on cloing the NIC thread. Change: Ensure that the NIC thread is canceled/closed only in one location, in the NIC remove routine. uIP v0.5.33 (August 17, 2010) ======================================================= Fixes ----- 1. Problem: Error message seen from the uIP stack for valid packets. Cause: The uIP was incorrectly marking logging messages for valid packets as errors because it didn't know how to parase them. Change: Changed the following from error to debug message ipv6: invalid version ipv4: invalid version or header length. icmpv6: unknown ICMP message. ip: neither tcp nor icmp Changed the following from error to warn message udp: bad checksum tcp: bad checksum tcp: got reset, aborting connection. 2. Problem: After multiple iterations the loading and unloading of the Broadcom Linux drivers with active connections would not cause the sessions to recover on RHEL 6.0 snapshot 9. Cause: There was a deadlock in the nic mutex Change: Lock ordering for the nic mutex and nic list mutex must be inforced. 3. Problem: After multiple iterations of running the ethtool selftest the Broadcom Linux drivers with active connections would not cause the sessions to recover on RHEL 5.5. Cause: The Netlink buffer between uIP and CNIC would get full. Change: Poll more regularly for packets in the Netlink buffer from 4 times a second to 100 times a 1 second. Drain packets during the PATH_REQ packet pull. uIP v0.5.32 (August 14, 2010) ======================================================= Fixes ----- 1. Problem: Error message 'nic eth0: Didn't find type 0xaa bb' seen. Cause: Valid non-DIX Ethernet packets as being passed to the uIP. uIP will drop these packets but should be logged correctly. Change: These packets are valid, and should only be logged for debugging purposes. 2. Problem: Error message 'Dropped previous transmitted packet' seen. Cause: The TX ring is full, and here uIP is trying to transmit a packet which will be dropped. This is a valid state but the log message is marked incorrectly Change: These messages are not warnings and should be logging when debugging is enabled. 3. Problem: Error message: "iscsi_ipc eth0 Transport name is not equal expected: got: bnx2i" seen. Cause: The iface_rec structure is different between iscsid version. For RHEL 5.5, iscsid is versioned 871, for RHEL 6.0 is versioned 872. Change: Allow uIP to compile against a different version of iscsid. uIP v0.5.31 (August 12, 2010) ======================================================= Fixes ----- 1. Problem: Softlock would occur showing that the NetLink table lock was taken but never released. Cause: NetLink socket buffer would fill with constant PATH_REQ messages preventing PATH_REQ response from libiscsi Change: Now uIP will drain the NetLink buffer while looking for a response. Enhancements ------------ 1. Change: Add documentation for VLAN configuration and restrictions. uIP v0.5.30 (August 6, 2010) ======================================================= Fixes ----- 1. Problem: iscsid thread will stall if closing the uio files nodes is stuck Cause: uIP would indefinitely block waiting for the mutex shared by the close routine. Change: Now uIP will try and poll a bit for the mutex. If it can't get this mutex in the iscsid thread then an error is return rather then hold the thread. 2. Problem: IPv6 Unicast Neighbor Adveriserments would have the ICMPv6 option header specifying a MAC. Cause: uIP should use the source IPv6 address to detmine whether to strip the option header or not and not the target address in the ICMPv6 field. Change: The uIP stack return a unicast IPv6 Neighbor Advertisement without the ICMPv6 option as a response to unicast IPv6 Neighbor Solicitations. 3. Problem: There would be TCP SYN packets with improper MAC address. Cause: A zero'ed MAC address was not passed to CNIC to indicate an error or if the IP address didn't resolve. Change: The uIP stack will now return a zero'ed MAC address if it can't find any entries. uIP v0.5.29 (August 6, 2010) ======================================================= Fixes ----- 1. Problem: "uip udp: no matching connection found: lport: 35072" seen numerous times in the brcm_iscsiuio log file Cause: This message was incorrectly marked as an error Change: These messages are valid log entries especially if the packet was a broadcast UDP packet not destined for the SUT I will change the code to mark these logs entries as debug. uIP v0.5.28 (August 5, 2010) ======================================================= Fixes ----- 1. Problem: Can't login into a redirected Equilogic Target Cause: The Equilogic Target uses a unicast IPv6 Neighbor Solicitation to test if the host is up. The uIP stack would return a Neighbor Advertisement with an unneeded ICMPv6 option. Change: Only have the uIP stack return a unicast IPv6 Neighbor Advertisement without the ICMPv6 option. 2. Problem: With older bnx2/bnx2x/cnic/bnx2i driver combinations uIP would segfault when these drivers were unloaded. Cause: When the older drivers were removed, the underlying uio instance was removed causing uIP to have a stale file handle. When uIP finally closes using this stale file handle, either uIP would segfault, or there would be an error in the uio_release() path. Change: Only have the uIP close if the UIO file node exists. uIP v0.5.27 (July 31, 2010) ======================================================= Fixes ----- 1. Problem: iSCSI HBA: Unable to use DHCP address for iSCSI interface if a connection was previously made with a static address on bnx2 devices. Cause: Because the device is closed and reopen'ed the TX consumer indexes were not persisted Change: Only discard the TX consumer indexes only when the devices will be discarded or closed Enhancements ------------ 1. Change: Change CNIC references to bnx2 in the bnx2 user space driver. uIP v0.5.26 (July 30, 2010) ======================================================= Fixes ----- 1. Problem: iSCSI HBA: Unable to use DHCP address for iSCSI interface if a connection was previously made with a static address on bnx2x devices. Cause: Because the device is closed and reopen'ed the TX consumer indexes were not persisted Change: Only discard the TX consumer indexes only when the devices will be discarded 2. Problem: IPv6 using VLAN's didn't login Cause: The uIP code used to determine if the packet was an IPv6 or not was not working. This VLAN packets for IPv6 were being mis-interpreted. Change: Make the function is_ipv6() VLAN aware 3. Problem: Persistant targets was not loggin in during boot Cause: If udev was slow and the /dev/uio* were creatly slowly uIP would fail. Change: Poll uIP waiting for /dev/uio* file nodes. uIP v0.5.25 (July 27, 2010) ======================================================= Fixes ----- 1. Problem: When using IPv4 DHCP, there are no initial DHCP Discover packets were not seen on the wire. Cause: Packets generated from the app handler from the uIP stack were not placed on the wire. Change: Packets originating from the uIP stack are now always placed on the wire. uIP v0.5.24 (July 25, 2010) ======================================================= Fixes ----- 1. Problem: One would see invalid packet packets flow through the uIP stack, where the logs would indicate there is a packet with an invalid length Cause: The BD and CQE consumer indexes were not properly incremented and masked. Change: The BD index is now properly masked. The CQE index is not incremented using the CQE index rather the mistaken BD index. Impact: 10G only 2. Problem: uIP would segfault during the booting of the machine. Cause: uIP was using a NULL data pointer because there was an incorrect packet passed to the stack. Change: Only allow uIP to process data if the packet exists. 3. Problem: uIP would stop processing packets Cause: The uIP code would not properly drain the CQE ring causing it to eventually be full Change: Consume all the CQE elements even if they are ethernet types or not. Impact: 10G only 4. Problem: uIP would stop after if/down of the network interface. Cause: uIP was not kick starting the NIC loop thread properly. Change: Ensure that the NIC loop thread is started by when iscsid request that the interface start the offload. Mark the NIC only if the thread is truly canceled. uIP v0.5.23 (July 20, 2010) ======================================================= Fixes ----- 1. Problem: Segfault during brcm_iscsiuio initialization Cause: uIP was using a NULL data pointer, because a different thread re-initialized the uIP stack Change: Properly synchronize the initialization of the stack 2. Problem: Deadlock during the printing of heavy debug messages Cause: The variable macro structures would point to invalid data Change: With each invocation of va_copy() a corresponding invocation of va_end() in the same function for the proper cleanup 3. Problem: uIP would hang when the interface could go up/down Cause: uIP would get out of sync with the state of the network interface Change: Instead of detriving state from the UIO file nodes, uIP will take direction from iscsid on when interfaces will be started. uIP v0.5.22 (July 15, 2010) ======================================================= Fixes ----- 1. Problem: Unable to reconnect via iSCSI offload after ifup/ifdown Cause: uIP was stuck on the thread when closing the NIC main loop Change: Properly synchronize the NetLink CNIC and uevent threads 2. Problem: uIP would crash during boot up. Cause: uIP would overwrite a memory location which was already freed during nic_remove(). Change: Since the NIC is freed there is no need to write to update the NIC flags Enhancements ------------ 1. Change: Added IPv6 Link Local support uIP v0.5.21 (July 5, 2010) ======================================================= Fixes ----- 1. Problem: Unable to connect via iSCSI offload after changing L2 address Cause: uIP didn't notice the network inferface going down Change: Allow uIP to persist the stack's IP address after a reset 2. Problem: Unable to connect via IPv4 and IPv6 concurrently Cause: uIP didn't notice the network inferface going down Change: Allow uIP to persist the stack's IP address after a reset and properly bring up the interface 3. Problem: Unable to connect via VLAN Cause: IP address was no persisted after a device reset Change: When CNIC requests a path request, uIP will use the VLAN passed by the CNIC. uIP v0.5.20 (June 24, 2010) uIP v0.5.20 (June 24, 2010) ======================================================= Fixes ----- 1. Problem: Certain IPv6 addresses are not repsonded to by the target. Cause: The MAC was generated from the target's IPv6 address not the deterived multicast IPv6 address. Change: The destination MAC address should be deterived from the packet's destination IPv6 address and not the target. 2. Problem: brcm_iscsiuio would segfault when L2 interface is bought up and down after being logged into Cause: The NIC thread was not stopped properly Change: When the UIO device is remove and when the cooresponding NIC tracked by brcm_iscsiuio, the daemon would properly wait for the NIC thread to stop. uIP v0.5.19 (June 22, 2010) ======================================================= Fixes ----- 1. Problem: Can't login after boot Cause: If NIC interfaces are brough up and down quickly uIP wait on an invalid NIC thread Change: Only wait for the NIC thread if the NIC thread exists. uIP v0.5.18 (June 21, 2010) ======================================================= Fixes ----- 1. Problem: Does not compile on SLES 11 SP1 Cause: Automake cached files were included as part of the uIP-0.5.17 package Change: Remove automake cached files, and allow these files to be generated each time the source is compiled 2. Problem: Does not always receive multicast packets Cause: Multicast bit was not set in SORT USER 2 register Change: brcm_iscsiuio will now set the SORT USER 2 registers with both the broadcast and multicast bits. 3. Problem: Existing iSCSI connections do not reconnect after operations which require equivalent driver load/unload operations Cause: Multiple path requests would trample NIC configurations Change: Allow only one path request at a time uIP v0.5.17 (June 16, 2010) ======================================================= Fixes ----- 1. Problem: IPv6 neighbor solicitations from brcm_iscsiuio could not be responded to Cause: The IPv6 neighbor solicitation packet had an invalid multicast MAC address Change: Properly set the MAC address multicast bit and OR with the IPv6 destination address 2. Problem: NIC state was not properly synchronized and noticed by Shyam Iyer Change: Properly lock the NIC device when changing state Enhancements ------------ 1. Change: Listen for iscsid before daemonizing to close a timing gap which might allow iscsid to start before uIP is completely initialized. uIP v0.5.16 (June 2, 2010) ======================================================= Enhancements ------------ 1. Change: Formally add IPv6 support. Only a static IPv6 address is supported. uIP v0.5.15 (May 20, 2010) ======================================================= Fixes ----- 1. Problem: brcm_iscsiuio would echo packets off the wire Cause: Stale packets from the uIP stack could potentially make it onto the wire causing a network flood Change: Only place on the wire packets uIP intended to place on the wire. Drop all other packets. uIP v0.5.14 (May 18, 2010) ======================================================= Fixes ----- 1. Problem: brcm_iscsiuio would crash when offloading using a bnx2x device /dev/mem could not be opened, (ie. SE Linux enabled) Cause: /dev/mem could not be opened, (ie. SE Linux enabled) and then the NIC would be improperly initialized. Change: If /dev/mem is not able to be opened, then the device is closed 2. Problem: brcm_iscsiuio would crash when brcm_iscsiuio is being shutdown Cause: The NIC mutex was deferenced imporperly when the NIC is being closed Change: Take the NIC mutex lock only when the NIC is closed. uIP v0.5.13 (May 16, 2010) ======================================================= Fixes ----- 1. Problem: brcm_iscsiuio would crash with heavy traffic directed at the iSCSI traffic Cause: Packets which are sized between 1006-1024 bytes would crash brcm_iscsiuio because brcm_iscsiuio is not sized to handle such large packets Change: Drop large packets, properly hold the NIC mutex lock for the duration when NIC fields are being used. uIP v0.5.12 (May 13, 2010) ======================================================= Fixes ----- 1. Problem: brcm_iscsiuio could crash on when L2 interface is ifdown'ed Cause: The local NIC pointer was not initialized properly in the routine parse_iface() Change: Properly initialize the NIC pointer 2. Problem: Documentation referred to older admin_client which doesn't exist any more because brcm_iscsiuio uses the iscsid iface file Change: Remove the stale references uIP v0.5.11 (May 11, 2010) ======================================================= Fixes ----- 1. Problem: brcm_iscsiuio could crash on invalid packet sizes Cause: The hardware BD could be a large value because of a hardware error Change: Limit the size of the packet dumped to the MTU size Enhancements ------------ 1. Change: During the running of the configure script now the script will check for ar and ranlib binaries uIP v0.5.10 (May 03, 2010) ======================================================= Fixes ----- 1. Problem: BCM57712 not recognized Cause: The PCI ID's in the bnx2x file were missing. Change: Added proper BCM57712, BCM57712E, BCM57713, BCM57713E PCI ID's 2. Problem: (CQ 47481) brcm_iscsiuio not installed in correct location Cause: Default install path for autoconf is /usr/local Change: Change the default prefix to '/' so the brcm_iscsiuio binary is installed to /sbin/ Enhancements ------------ 1. Change: Remove dependency on Yacc and Lex uIP v0.5.9 (April 28, 2010) ======================================================= Fixes ----- 1. Problem: bnx2x T6.0 driver would not login Cause: The bnx2x code was not using the T6.0 HSI offsets Change: Determine to bnx2x driver version eariler to properly use the T4.8 or T6.0 HSI Enhancements ------------ 1. Change: Collapse all the various locks to use the NIC lock to shrink memory footprint 2. Change: Consolidate upper layer checksumming code uIP v0.5.5 (March 02, 2010) ======================================================= Enhancements ------------ 1. Change: Add support for T6.0 bnx2x HSI and 57712. 2. Change: Initial support for IPv6 uIP v0.5.8 (April 22, 2010) ======================================================= Enhancements ------------ 1. Change: Add support for T6.0 bnx2x HSI and 57712. 2. Change: Initial support for IPv6 uIP v0.5.7 (March 17, 2010) ======================================================= Enhancements ------------ 1. Change: Add to documentation on discovering on a particular iface before logging in uIP v0.5.6 (Mar 05, 2009) ======================================================= Fixes ----- 1. Problem: bnx2x panic dump would be seen when sending traffic to uIP Cause: The TX producer index was not properly incrementing when the wrapping occured Change: Do not skip the last TX producer index like the TX BD's Impact: None. uIP v0.5.5 (March 02, 2010) ======================================================= Initial release Enhancements ------------ 1. Change: Add to documentation on debugging/logging for uIP uIP v0.5.4 (Feb 22, 2010) ======================================================= Fixes ----- 1. Problem: Compile error where 'ETHERTYPE_VLAN' define is missing Cause: Certain distributions do not define 'ETHERTYPE_VLAN' in the header file "net/ethernet.h". Change: Added proper defines for ETHERTYPE_VLAN when necessary Impact: None. uIP v0.5.3 (Feb 18, 2010) ======================================================= Fixes ----- 1. Problem: Using VLAN's on offloaded iSCSI connections Cause: (CQ45983) VLAN tags were not being properly inserted when sending the ARP request packets Change: Added VLAN tags when sending ARP request packets Impact: None. uIP v0.5.2 (Dec 10, 2009) ======================================================= Fixes ----- 1. Problem: Switching between 10G and 1G iSCSI offloaded devices caused login connectivity problems Cause: The NIC devices within uIP were not cleanup properly. Change: The NIC structure is not re-initialized and the NIC thread is destroyed when the host network interface is brought down. Impact: None. uIP v0.5.1 (Dec 9, 2009) ======================================================= Fixes ----- 1. Problem: 10G devices behind PCI bridges would not collect Cause: PCI bus:slot.func string was parsed incorrectly because the bridge string was used Change: Parse the proper PCI bus:slot.func string. Impact: None. uIP v0.5.0b (Nov 24, 2009) ======================================================= Initial release Enhancements ------------ 1. Change: Add Broadcom 10G iSCSI offload support Impact: Linux open-iscsi-2.0.874/iscsiuio/configure.ac000066400000000000000000000041221277325716400200770ustar00rootroot00000000000000dnl iscsiuio uIP user space stack configure.ac file dnl dnl Copyright (c) 2004-2013 Broadcom Corporation dnl Copyright (c) 2014, QLogic Corporation dnl dnl This program is free software; you can redistribute it and/or modify dnl it under the terms of the GNU General Public License as published by dnl the Free Software Foundation. dnl dnl Written by: Eddie Wai (eddie.wai@broadcom.com) dnl Benjamin Li (benli@broadcom.com) dnl PACKAGE=iscsiuio VERSION=0.7.8.2 AC_INIT([iscsiuio], [0.7.8.2], [QLogic-Storage-Upstream@qlogic.com]) AM_INIT_AUTOMAKE AC_CONFIG_HEADER(config.h) AC_PATH_PROGS(BASH, bash) AC_PROG_CC AM_PROG_CC_C_O AC_PROG_RANLIB AC_GNU_SOURCE AC_PROG_INSTALL AC_PROG_GCC_TRADITIONAL # Checks for typedefs, structures, and compiler characteristics. AC_C_CONST AC_C_INLINE AC_TYPE_OFF_T AC_TYPE_SIZE_T AC_CHECK_TYPES(int8_t) AC_CHECK_TYPES(uint8_t) AC_CHECK_TYPES(int16_t) AC_CHECK_TYPES(uint16_t) AC_CHECK_TYPES(int32_t) AC_CHECK_TYPES(uint32_t) AC_CHECK_TYPES(int64_t) AC_CHECK_TYPES(uint64_t) AC_CHECK_SIZEOF(short, 2) AC_CHECK_SIZEOF(int, 4) AC_CHECK_SIZEOF(long, 4) AC_C_BIGENDIAN(AC_SUBST([ENDIAN],[BIG]),AC_SUBST([ENDIAN],[LITTLE])) AC_LIBTOOL_DLOPEN # libtool stuff AC_PROG_LIBTOOL : ${CFLAGS:="-O2"} CFLAGS="${CFLAGS} -Wall" ## check for --enable-debug first before checking CFLAGS before ## so that we don't mix -O and -g AC_ARG_ENABLE(debug, [ --enable-debug Turn on compiler debugging information (default=no)], [if eval "test x$enable_debug = xyes"; then CFLAGS="${CFLAGS} -g -O0" fi]) AM_CONDITIONAL([DEBUG], [test x$debug = xtrue]) AC_CONFIG_COMMANDS([default],[[ if [ -n "$SOURCE_DATE_EPOCH" ] ; then echo 'char *build_date = "'`LC_ALL=C.UTF-8 date --date=@$SOURCE_DATE_EPOCH -u`'";' > src/unix/build_date.c else echo 'char *build_date = "'`date`'";' > src/unix/build_date.c fi echo 'char *build_date;'> src/unix/build_date.h ]],[[]]) AC_PREFIX_DEFAULT() AC_OUTPUT([Makefile src/Makefile src/apps/Makefile src/apps/dhcpc/Makefile src/apps/brcm-iscsi/Makefile src/uip/Makefile src/unix/Makefile src/unix/libs/Makefile]) open-iscsi-2.0.874/iscsiuio/docs/000077500000000000000000000000001277325716400165425ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/docs/iscsiuio.8000066400000000000000000000037301277325716400204650ustar00rootroot00000000000000.\" Copyright (c) 2010-2013 Broadcom Corporation .\" Copyright (c) 2014, QLogic Corporation .\" This is free documentation; you can redistribute it and/or .\" modify it under the terms of the GNU General Public License as .\" published by the Free Software Foundation. .\" .\" bnx2.4,v 0.7.8.1b .\" .TH iscsiuio 8 "12/10/2013" "QLogic Corporation" .\" .\" NAME part .\" .SH NAME iscsiuio \- iSCSI UserSpace I/O driver .\" .\" SYNOPSIS part .\" .SH SYNOPSIS .B iscsiuio .RB [ -d -f -v ] .PP .\" .\" DESCRIPTION part .\" .SH DESCRIPTION iscsiuio is the UserSpace I/O driver for the QLogic NetXtreme II BCM5706/5708/5709 series PCI/PCI-X Gigabit Ethernet Network Interface Card (NIC) and for the QLogic NetXtreme II BCM57710/57711/57712/57800/57810/57840 series PCI-E 10 Gigabit Ethernet Network Interface Card. The driver has been tested on 2.6.28 kernels and above. .PP Refer to the README.TXT from the driver package on how to compile and install the driver. .PP Refer to various Linux documentations on how to configure network protocol and address. .\" .\" DRIVER DEPENDENCIES part .\" .SH DRIVER DEPENDENCIES .\" .\" PARAMETER part .\" .SH PARAMETERS There are very few parameters when running this application. .TP .BI -d This is to enable debug mode where debug messages will be sent to stdout The following debug modes are supported .P .RS DEBUG 4 - Print all messages .P INFO 3 - Print messages needed to follow the uIP code (default) .P WARN 2 - Print warning messages .P ERROR 1 - Only print critical errors .RE .PP .TP .TP .BI -f This is to enable foreground mode so that this application doesn't get sent into the background. .PP .TP .BI -v This is to print the version. .PP .TP .BI -p Use pidfile (default /var/run/iscsiuio.pid ) .PP .TP .BI -h Display this help and exit. .\" .\" AUTHOR part .\" .SH AUTHOR Benjamin Li \- benli@broadcom.com .P Eddie Wai \- eddie.wai@broadcom.com .SH Maintained by QLogic-Storage-Upstream@qlogic.com open-iscsi-2.0.874/iscsiuio/iscsiuiolog000066400000000000000000000002541277325716400200670ustar00rootroot00000000000000/var/log/iscsiuio.log { weekly missingok notifempty rotate 4 sharedscripts postrotate pkill -USR1 iscsiuio 2> /dev/null || true endscript } open-iscsi-2.0.874/iscsiuio/src/000077500000000000000000000000001277325716400164015ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/src/Makefile.am000066400000000000000000000000301277325716400204260ustar00rootroot00000000000000SUBDIRS = apps uip unix open-iscsi-2.0.874/iscsiuio/src/README000066400000000000000000000007141277325716400172630ustar00rootroot00000000000000uIP is a very small implementation of the TCP/IP stack that is written by Adam Dunkels . More information can be obtained at the uIP homepage at http://www.sics.se/~adam/uip/. This is version $Name: uip-1-0 $. The directory structure look as follows: apps/ - Example applications doc/ - Documentation lib/ - Library code used by some applications uip/ - uIP TCP/IP stack code unix/ - uIP as a user space process under FreeBSD or Linux open-iscsi-2.0.874/iscsiuio/src/apps/000077500000000000000000000000001277325716400173445ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/src/apps/Makefile.am000066400000000000000000000000331277325716400213740ustar00rootroot00000000000000SUBDIRS = dhcpc brcm-iscsi open-iscsi-2.0.874/iscsiuio/src/apps/README000066400000000000000000000001361277325716400202240ustar00rootroot00000000000000This directory contains a few example applications. They are not all heavily tested, however. open-iscsi-2.0.874/iscsiuio/src/apps/brcm-iscsi/000077500000000000000000000000001277325716400213775ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/src/apps/brcm-iscsi/Makefile.am000066400000000000000000000005701277325716400234350ustar00rootroot00000000000000AM_CFLAGS = -I${top_srcdir}/src/unix \ -I${top_srcdir}/src/uip \ -I${top_srcdir}/src/apps/dhcpc \ -I${top_srcdir}/src/apps/brcm-iscsi \ -I${top_srcdir}/../include \ -I${top_srcdir}/../usr noinst_LIBRARIES = lib_apps_brcm_iscsi.a lib_apps_brcm_iscsi_a_SOURCES = brcm_iscsi.c lib_apps_brcm_iscsi_a_CFLAGS = $(AM_CFLAGS) \ -DBYTE_ORDER=@ENDIAN@ open-iscsi-2.0.874/iscsiuio/src/apps/brcm-iscsi/Makefile.brcm-iscsi000066400000000000000000000000341277325716400250660ustar00rootroot00000000000000APP_SOURCES += brcm-iscsi.c open-iscsi-2.0.874/iscsiuio/src/apps/brcm-iscsi/brcm_iscsi.c000066400000000000000000000062501277325716400236630ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li * Based on code example from Adam Dunkels * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ /** * \addtogroup brcm-iscsi * @{ */ /** * \file * An example of how to write uIP applications * with protosockets * \author * Benjamin Li */ /* * This is a short example of how to write uIP applications using * protosockets. */ /* * We define the application state (struct hello_world_state) in the * hello-world.h file, so we need to include it here. We also include * uip.h (since this cannot be included in hello-world.h) and * , since we use the memcpy() function in the code. */ #include "brcm_iscsi.h" #include "uip.h" #include #include #include "uip_arp.h" /*---------------------------------------------------------------------------*/ /* * The initialization function. We must explicitly call this function * from the system initialization code, some time after uip_init() is * called. */ void brcm_iscsi_init(void) { } /*---------------------------------------------------------------------------*/ /* * In hello-world.h we have defined the UIP_APPCALL macro to * hello_world_appcall so that this funcion is uIP's application * function. This function is called whenever an uIP event occurs * (e.g. when a new connection is established, new data arrives, sent * data is acknowledged, data needs to be retransmitted, etc.). */ void brcm_iscsi_appcall(struct uip_stack *ustack) { } open-iscsi-2.0.874/iscsiuio/src/apps/brcm-iscsi/brcm_iscsi.h000066400000000000000000000060351277325716400236710ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li * Based on code example from Adam Dunkels * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ /** * \addtogroup apps * @{ */ /** * \defgroup helloworld Hello, world * @{ * * A small example showing how to write applications with * \ref psock "protosockets". */ /** * \file * Header file for an example of how to write uIP applications * with protosockets. * \author * Benjamin Li */ #ifndef __BRCM_ISCSI_H__ #define __BRCM_ISCSI_H__ /* Since this file will be included by uip.h, we cannot include uip.h here. But we might need to include uipopt.h if we need the u8_t and u16_t datatypes. */ #include "uipopt.h" #include "uip.h" #include "psock.h" /* Next, we define the hello_world_state structure. This is the state of our application, and the memory required for this state is allocated together with each TCP connection. One application state for each TCP connection. */ struct hello_world_state { struct psock p; u8_t inputbuffer[32]; u8_t name[40]; struct uip_udp_conn *conn; }; /* Finally we define the application function to be called by uIP. */ void brcm_iscsi_appcall(struct uip_stack *ustack); #ifndef UIP_APPCALL #define UIP_APPCALL brcm_iscsi_appcall #endif /* UIP_APPCALL */ void brcm_iscsi_init(void); #endif /* __BRCM_ISCSI_H__ */ /** @} */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/apps/dhcpc/000077500000000000000000000000001277325716400204255ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/src/apps/dhcpc/Makefile.am000066400000000000000000000005561277325716400224670ustar00rootroot00000000000000AM_CFLAGS = -I${top_srcdir}/src/unix \ -I${top_srcdir}/src/uip \ -I${top_srcdir}/src/apps/dhcpc \ -I${top_srcdir}/src/apps/brcm-iscsi \ -I${top_srcdir}/../include \ -I${top_srcdir}/../usr noinst_LIBRARIES = lib_apps_dhcpc.a lib_apps_dhcpc_a_SOURCES = dhcpc.c dhcpv6.c lib_apps_dhcpc_a_CFLAGS = $(AM_CFLAGS) \ -DBYTE_ORDER=@ENDIAN@ open-iscsi-2.0.874/iscsiuio/src/apps/dhcpc/Makefile.dhcpc000066400000000000000000000000371277325716400231450ustar00rootroot00000000000000APP_SOURCES += dhcpc.c timer.c open-iscsi-2.0.874/iscsiuio/src/apps/dhcpc/dhcpc.c000066400000000000000000000265411277325716400216620ustar00rootroot00000000000000/* * Copyright (c) 2005, Swedish Institute of Computer Science * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * */ #include #include #include #include #include #include #include "uip.h" #include "dhcpc.h" #include "timer.h" #include "pt.h" #include "debug.h" #include "logger.h" #include "nic.h" #include "nic_utils.h" struct __attribute__ ((__packed__)) dhcp_msg { u8_t op, htype, hlen, hops; u8_t xid[4]; u16_t secs, flags; u8_t ciaddr[4]; u8_t yiaddr[4]; u8_t siaddr[4]; u8_t giaddr[4]; u8_t chaddr[16]; #ifndef UIP_CONF_DHCP_LIGHT u8_t sname[64]; u8_t file[128]; #endif u8_t options[312]; }; #define BOOTP_BROADCAST 0x8000 #define DHCP_REQUEST 1 #define DHCP_REPLY 2 #define DHCP_HTYPE_ETHERNET 1 #define DHCP_HLEN_ETHERNET 6 #define DHCP_MSG_LEN 236 #define DHCPC_SERVER_PORT 67 #define DHCPC_CLIENT_PORT 68 #define DHCPDISCOVER 1 #define DHCPOFFER 2 #define DHCPREQUEST 3 #define DHCPDECLINE 4 #define DHCPACK 5 #define DHCPNAK 6 #define DHCPRELEASE 7 #define DHCP_OPTION_SUBNET_MASK 1 #define DHCP_OPTION_ROUTER 3 #define DHCP_OPTION_DNS_SERVER 6 #define DHCP_OPTION_REQ_IPADDR 50 #define DHCP_OPTION_LEASE_TIME 51 #define DHCP_OPTION_MSG_TYPE 53 #define DHCP_OPTION_SERVER_ID 54 #define DHCP_OPTION_REQ_LIST 55 #define DHCP_OPTION_END 255 static u8_t xid[4] = { 0xad, 0xde, 0x12, 0x23 }; static const u8_t magic_cookie[4] = { 99, 130, 83, 99 }; struct dhcpc_options dhcpc_opt = { .enable_random_xid = 1, }; /*---------------------------------------------------------------------------*/ static u8_t *add_msg_type(u8_t *optptr, u8_t type) { *optptr++ = DHCP_OPTION_MSG_TYPE; *optptr++ = 1; *optptr++ = type; return optptr; } /*---------------------------------------------------------------------------*/ static u8_t *add_server_id(struct dhcpc_state *s, u8_t *optptr) { *optptr++ = DHCP_OPTION_SERVER_ID; *optptr++ = 4; memcpy(optptr, s->serverid, 4); return optptr + 4; } /*---------------------------------------------------------------------------*/ static u8_t *add_req_ipaddr(struct dhcpc_state *s, u8_t *optptr) { *optptr++ = DHCP_OPTION_REQ_IPADDR; *optptr++ = 4; memcpy(optptr, s->ipaddr, 4); return optptr + 4; } /*---------------------------------------------------------------------------*/ static u8_t *add_req_options(u8_t *optptr) { *optptr++ = DHCP_OPTION_REQ_LIST; *optptr++ = 3; *optptr++ = DHCP_OPTION_SUBNET_MASK; *optptr++ = DHCP_OPTION_ROUTER; *optptr++ = DHCP_OPTION_DNS_SERVER; return optptr; } /*---------------------------------------------------------------------------*/ static u8_t *add_end(u8_t *optptr) { *optptr++ = DHCP_OPTION_END; return optptr; } /*---------------------------------------------------------------------------*/ static void create_msg(struct dhcpc_state *s, struct dhcp_msg *m) { m->op = DHCP_REQUEST; m->htype = DHCP_HTYPE_ETHERNET; m->hlen = s->mac_len; m->hops = 0; memcpy(m->xid, xid, sizeof(m->xid)); m->secs = 0; m->flags = const_htons(BOOTP_BROADCAST); /* Broadcast bit. */ /* uip_ipaddr_copy(m->ciaddr, uip_hostaddr); */ memcpy(m->ciaddr, s->ustack->hostaddr, sizeof(m->ciaddr)); memset(m->yiaddr, 0, sizeof(m->yiaddr)); memset(m->siaddr, 0, sizeof(m->siaddr)); memset(m->giaddr, 0, sizeof(m->giaddr)); memcpy(m->chaddr, s->mac_addr, s->mac_len); memset(&m->chaddr[s->mac_len], 0, sizeof(m->chaddr) - s->mac_len); #ifndef UIP_CONF_DHCP_LIGHT memset(m->sname, 0, sizeof(m->sname)); memset(m->file, 0, sizeof(m->file)); #endif memcpy(m->options, magic_cookie, sizeof(magic_cookie)); } /*---------------------------------------------------------------------------*/ static void send_discover(struct dhcpc_state *s) { u8_t *end; struct dhcp_msg *m = (struct dhcp_msg *)s->ustack->uip_appdata; create_msg(s, m); end = add_msg_type(&m->options[4], DHCPDISCOVER); end = add_req_options(end); end = add_end(end); uip_appsend(s->ustack, s->ustack->uip_appdata, end - (u8_t *) s->ustack->uip_appdata); } /*---------------------------------------------------------------------------*/ static void send_request(struct dhcpc_state *s) { u8_t *end; struct dhcp_msg *m = (struct dhcp_msg *)s->ustack->uip_appdata; create_msg(s, m); end = add_msg_type(&m->options[4], DHCPREQUEST); end = add_server_id(s, end); end = add_req_ipaddr(s, end); end = add_end(end); uip_appsend(s->ustack, s->ustack->uip_appdata, end - (u8_t *) s->ustack->uip_appdata); } /*---------------------------------------------------------------------------*/ static u8_t parse_options(struct dhcpc_state *s, u8_t *optptr, int len) { u8_t *end = optptr + len; u8_t type = 0; while (optptr < end) { switch (*optptr) { case DHCP_OPTION_SUBNET_MASK: memcpy(s->netmask, optptr + 2, 4); break; case DHCP_OPTION_ROUTER: memcpy(s->default_router, optptr + 2, 4); break; case DHCP_OPTION_DNS_SERVER: memcpy(s->dnsaddr, optptr + 2, 4); break; case DHCP_OPTION_MSG_TYPE: type = *(optptr + 2); break; case DHCP_OPTION_SERVER_ID: memcpy(s->serverid, optptr + 2, 4); break; case DHCP_OPTION_LEASE_TIME: memcpy(s->lease_time, optptr + 2, 4); break; case DHCP_OPTION_END: return type; } optptr += optptr[1] + 2; } return type; } /*---------------------------------------------------------------------------*/ static u8_t parse_msg(struct dhcpc_state *s) { struct dhcp_msg *m = (struct dhcp_msg *)s->ustack->uip_appdata; if (m->op == DHCP_REPLY && memcmp(m->xid, xid, sizeof(xid)) == 0 && memcmp(m->chaddr, s->mac_addr, s->mac_len) == 0) { memcpy(s->ipaddr, m->yiaddr, 4); return parse_options(s, &m->options[4], uip_datalen(s->ustack)); } return 0; } /*---------------------------------------------------------------------------*/ static PT_THREAD(handle_dhcp(struct uip_stack *ustack)) { struct dhcpc_state *s; s = ustack->dhcpc; if (s == NULL) { LOG_WARN("Could not find dhcpc state"); return PT_ENDED; } PT_BEGIN(&s->pt); /* try_again: */ s->state = STATE_SENDING; s->ticks = CLOCK_SECOND; do { send_discover(s); timer_set(&s->timer, s->ticks); PT_WAIT_UNTIL(&s->pt, uip_newdata(s->ustack) || timer_expired(&s->timer)); if (uip_newdata(s->ustack) && parse_msg(s) == DHCPOFFER) { s->state = STATE_OFFER_RECEIVED; break; } if (s->ticks < CLOCK_SECOND * 60) s->ticks += CLOCK_SECOND; else PT_RESTART(&s->pt); } while (s->state != STATE_OFFER_RECEIVED); s->ticks = CLOCK_SECOND; do { send_request(s); timer_set(&s->timer, s->ticks); s->ustack->uip_flags &= ~UIP_NEWDATA; PT_WAIT_UNTIL(&s->pt, uip_newdata(s->ustack) || timer_expired(&s->timer)); if (uip_newdata(s->ustack) && parse_msg(s) == DHCPACK) { s->state = STATE_CONFIG_RECEIVED; break; } if (s->ticks <= CLOCK_SECOND * 10) s->ticks += CLOCK_SECOND; else PT_RESTART(&s->pt); } while (s->state != STATE_CONFIG_RECEIVED); LOG_INFO("Got IP address %d.%d.%d.%d", uip_ipaddr1(s->ipaddr), uip_ipaddr2(s->ipaddr), uip_ipaddr3(s->ipaddr), uip_ipaddr4(s->ipaddr)); LOG_INFO("Got netmask %d.%d.%d.%d", uip_ipaddr1(s->netmask), uip_ipaddr2(s->netmask), uip_ipaddr3(s->netmask), uip_ipaddr4(s->netmask)); LOG_INFO("Got DNS server %d.%d.%d.%d", uip_ipaddr1(s->dnsaddr), uip_ipaddr2(s->dnsaddr), uip_ipaddr3(s->dnsaddr), uip_ipaddr4(s->dnsaddr)); LOG_INFO("Got default router %d.%d.%d.%d", uip_ipaddr1(s->default_router), uip_ipaddr2(s->default_router), uip_ipaddr3(s->default_router), uip_ipaddr4(s->default_router)); s->lease_time_nl32 = ntohs(s->lease_time[0]) * 65536ul + ntohs(s->lease_time[1]); LOG_INFO("Lease expires in %ld seconds", s->lease_time_nl32); s->last_update = time(NULL); set_uip_stack(s->ustack, (uip_ip4addr_t *) s->ipaddr, (uip_ip4addr_t *) s->netmask, (uip_ip4addr_t *) s->default_router, (uint8_t *) s->mac_addr); /* Put the stack thread back into a long sleep */ s->nic->flags |= NIC_LONG_SLEEP; /* timer_stop(&s.timer); */ /* Handle DHCP lease expiration */ s->ticks = CLOCK_SECOND * s->lease_time_nl32; timer_set(&s->timer, s->ticks); PT_WAIT_UNTIL(&s->pt, timer_expired(&s->timer)); LOG_INFO("Lease expired, re-acquire IP address"); s->nic->flags &= ~NIC_LONG_SLEEP; PT_RESTART(&s->pt); /* * PT_END restarts the thread so we do this instead. Eventually we * should reacquire expired leases here. */ while (1) PT_YIELD(&s->pt); PT_END(&(s->pt)); } /*---------------------------------------------------------------------------*/ int dhcpc_init(nic_t *nic, struct uip_stack *ustack, const void *mac_addr, int mac_len) { uip_ip4addr_t addr; struct dhcpc_state *s = ustack->dhcpc; if (s) { LOG_DEBUG("DHCP: DHCP context already allocated"); return -EALREADY; } s = malloc(sizeof(*s)); if (s == NULL) { LOG_ERR("Couldn't allocate size for dhcpc info"); return -ENOMEM; } memset(s, 0, sizeof(*s)); s->nic = nic; s->ustack = ustack; s->mac_addr = mac_addr; s->mac_len = mac_len; s->state = STATE_INITIAL; /* Initialize XID to randomly */ if (dhcpc_opt.enable_random_xid == 1) { u32_t gen_xid; gen_xid = random(); memcpy(xid, &gen_xid, sizeof(gen_xid)); } uip_ipaddr(addr, 255, 255, 255, 255); s->conn = uip_udp_new(ustack, &addr, const_htons(DHCPC_SERVER_PORT)); if (s->conn != NULL) uip_udp_bind(s->conn, const_htons(DHCPC_CLIENT_PORT)); ustack->dhcpc = s; /* Let the RX poll value take over */ nic->flags &= ~NIC_LONG_SLEEP; PT_INIT(&s->pt); return 0; } /*---------------------------------------------------------------------------*/ void dhcpc_appcall(struct uip_stack *ustack) { handle_dhcp(ustack); } /*---------------------------------------------------------------------------*/ void dhcpc_request(struct uip_stack *ustack) { struct dhcpc_state *s = ustack->dhcpc; if (s != NULL && s->state == STATE_INITIAL) handle_dhcp(ustack); } /*---------------------------------------------------------------------------*/ open-iscsi-2.0.874/iscsiuio/src/apps/dhcpc/dhcpc.h000066400000000000000000000051111277325716400216550ustar00rootroot00000000000000/* * Copyright (c) 2005, Swedish Institute of Computer Science * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * */ #ifndef __DHCPC_H__ #define __DHCPC_H__ #include #include "nic.h" #include "timer.h" #include "pt.h" #include "uip.h" #define STATE_INITIAL 0 #define STATE_SENDING 1 #define STATE_OFFER_RECEIVED 2 #define STATE_CONFIG_RECEIVED 3 struct dhcpc_state { struct pt pt; nic_t *nic; struct uip_stack *ustack; char state; struct uip_udp_conn *conn; struct timer timer; u32_t ticks; const void *mac_addr; int mac_len; u8_t serverid[4]; u16_t lease_time[2]; u32_t lease_time_nl32; u16_t ipaddr[2]; u16_t netmask[2]; u16_t dnsaddr[2]; u16_t default_router[2]; time_t last_update; }; struct dhcpc_options { u8_t enable_random_xid; u8_t xid[4]; }; int dhcpc_init(nic_t *nic, struct uip_stack *ustack, const void *mac_addr, int mac_len); void dhcpc_request(struct uip_stack *ustack); void dhcpc_appcall(struct uip_stack *ustack); void dhcpc_configured(const struct dhcpc_state *s); #define UIP_UDP_APPCALL dhcpc_appcall #endif /* __DHCPC_H__ */ open-iscsi-2.0.874/iscsiuio/src/apps/dhcpc/dhcpv6.c000066400000000000000000000367141277325716400217760ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai * Based on code from Kevin Tran's iSCSI boot code * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * dhcpv6.c - DHCPv6 engine * */ #include #include #include "ipv6.h" #include "ipv6_pkt.h" #include "dhcpv6.h" #include "logger.h" /* Local function prototypes */ static int dhcpv6_send_solicit_packet(struct dhcpv6_context *context); static int dhcpv6_send_request_packet(struct dhcpv6_context *context); static u16_t dhcpv6_init_packet(struct dhcpv6_context *context, u8_t type); static void dhcpv6_init_dhcpv6_server_addr(struct ipv6_addr *addr); static void dhcpv6_handle_advertise(struct dhcpv6_context *context, u16_t dhcpv6_len); static void dhcpv6_handle_reply(struct dhcpv6_context *context, u16_t dhcpv6_len); static int dhcpv6_process_opt_ia_na(struct dhcpv6_context *context, struct dhcpv6_opt_hdr *opt_hdr); static void dhcpv6_process_opt_dns_servers(struct dhcpv6_context *context, struct dhcpv6_opt_hdr *opt_hdr); static void dhcpv6_parse_vendor_option(struct dhcpv6_context *context, u8_t *option, int len); void dhcpv6_init(struct dhcpv6_context *context) { context->seconds = 0; context->our_mac_addr = ipv6_get_link_addr(context->ipv6_context); /* Use the last four bytes of MAC address as base of the transaction ID */ context->dhcpv6_transaction_id = context->our_mac_addr->last_4_bytes; context->dhcpv6_done = FALSE; strcpy(context->dhcp_vendor_id, "BRCM ISAN"); } int dhcpv6_do_discovery(struct dhcpv6_context *context) { int retc = ISCSI_FAILURE; context->eth = (struct eth_hdr *)context->ipv6_context->ustack->data_link_layer; context->ipv6 = (struct ipv6_hdr *)context->ipv6_context->ustack->network_layer; context->udp = (struct udp_hdr *)((u8_t *)context->ipv6 + sizeof(struct ipv6_hdr)); /* Send out DHCPv6 Solicit packet. */ dhcpv6_send_solicit_packet(context); return retc; } static int dhcpv6_send_solicit_packet(struct dhcpv6_context *context) { u16_t packet_len; LOG_DEBUG("DHCPV6: Send solicit"); packet_len = dhcpv6_init_packet(context, DHCPV6_SOLICIT); context->dhcpv6_state = DHCPV6_STATE_SOLICIT_SENT; ipv6_send_udp_packet(context->ipv6_context, packet_len); return 0; } static int dhcpv6_send_request_packet(struct dhcpv6_context *context) { u16_t packet_len; LOG_DEBUG("DHCPV6: Send request"); packet_len = dhcpv6_init_packet(context, DHCPV6_REQUEST); context->dhcpv6_state = DHCPV6_STATE_REQ_SENT; ipv6_send_udp_packet(context->ipv6_context, packet_len); return 0; } static u16_t dhcpv6_init_packet(struct dhcpv6_context *context, u8_t type) { u16_t pkt_len; struct udp_hdr *udp = context->udp; union dhcpv6_hdr *dhcpv6; struct dhcpv6_option *opt; u16_t len; /* Initialize dest IP with well-known DHCP server address */ dhcpv6_init_dhcpv6_server_addr(&context->ipv6->ipv6_dst); /* Initialize dest MAC based on MC dest IP */ ipv6_mc_init_dest_mac(context->eth, context->ipv6); /* Initialize UDP header */ udp->src_port = HOST_TO_NET16(DHCPV6_CLIENT_PORT); udp->dest_port = HOST_TO_NET16(DHCPV6_SERVER_PORT); /* * DHCPv6 section has the following format per RFC 3315 * * 0 1 2 3 * 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | msg-type | transaction-id | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | | * . options . * . (variable) . * | | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ */ dhcpv6 = (union dhcpv6_hdr *)((u8_t *)udp + sizeof(struct udp_hdr)); if (dhcpv6->dhcpv6_type != type) context->dhcpv6_transaction_id++; dhcpv6->dhcpv6_trans_id = context->dhcpv6_transaction_id; dhcpv6->dhcpv6_type = type; /* Keep track of length of all DHCP options. */ pkt_len = sizeof(union dhcpv6_hdr); if (dhcpv6->dhcpv6_type == DHCPV6_REQUEST) { /* We will send back whatever DHCPv6 sent us */ return ((u8_t *)udp - (u8_t *)context->eth + NET_TO_HOST16(udp->length)); } opt = (struct dhcpv6_option *)((u8_t *)dhcpv6 + sizeof(union dhcpv6_hdr)); /* Add client ID option */ opt->hdr.type = HOST_TO_NET16(DHCPV6_OPT_CLIENTID); opt->hdr.length = HOST_TO_NET16(sizeof(struct dhcpv6_opt_client_id)); opt->type.client_id.duid_type = HOST_TO_NET16(DHCPV6_DUID_TYPE_LINK_LAYER_AND_TIME); opt->type.client_id.hw_type = HOST_TO_NET16(DHCPV6_HW_TYPE_ETHERNET); opt->type.client_id.time = HOST_TO_NET32(clock_time()/1000 - 0x3A4FC880); memcpy((char *)&opt->type.client_id.link_layer_addr, (char *)context->our_mac_addr, sizeof(struct mac_address)); pkt_len += sizeof(struct dhcpv6_opt_client_id) + sizeof(struct dhcpv6_opt_hdr); opt = (struct dhcpv6_option *)((u8_t *)opt + sizeof(struct dhcpv6_opt_client_id) + sizeof(struct dhcpv6_opt_hdr)); /* Add Vendor Class option if it's configured */ len = strlen(context->dhcp_vendor_id); if (len > 0) { opt->hdr.type = HOST_TO_NET16(DHCPV6_OPT_VENDOR_CLASS); opt->hdr.length = HOST_TO_NET16(sizeof(struct dhcpv6_vendor_class) + len - 1); opt->type.vendor_class.enterprise_number = HOST_TO_NET32(IANA_ENTERPRISE_NUM_BROADCOM); opt->type.vendor_class.vendor_class_length = HOST_TO_NET16(len); memcpy((char *)&opt->type.vendor_class. vendor_class_data[0], (char *)context->dhcp_vendor_id, len); pkt_len += sizeof(struct dhcpv6_vendor_class) - 1 + len + sizeof(struct dhcpv6_opt_hdr); opt = (struct dhcpv6_option *)((u8_t *)opt + sizeof(struct dhcpv6_vendor_class) - 1 + len + sizeof(struct dhcpv6_opt_hdr)); } /* Add IA_NA option */ opt->hdr.type = HOST_TO_NET16(DHCPV6_OPT_IA_NA); opt->hdr.length = HOST_TO_NET16(sizeof(struct dhcpv6_opt_id_assoc_na)); opt->type.ida_na.iaid = htonl(context->our_mac_addr->last_4_bytes); opt->type.ida_na.t1 = 0; opt->type.ida_na.t2 = 0; pkt_len += sizeof(struct dhcpv6_opt_id_assoc_na) + sizeof(struct dhcpv6_opt_hdr); opt = (struct dhcpv6_option *)((u8_t *)opt + sizeof(struct dhcpv6_opt_id_assoc_na) + sizeof(struct dhcpv6_opt_hdr)); /* Add Elapsed Time option */ opt->hdr.type = HOST_TO_NET16(DHCPV6_OPT_ELAPSED_TIME); opt->hdr.length = HOST_TO_NET16(sizeof(struct dhcpv6_opt_elapse_time)); opt->type.elapsed_time.time = HOST_TO_NET16(context->seconds); pkt_len += sizeof(struct dhcpv6_opt_elapse_time) + sizeof(struct dhcpv6_opt_hdr); /* Add Option Request List */ opt = (struct dhcpv6_option *)((u8_t *)opt + sizeof(struct dhcpv6_opt_elapse_time) + sizeof(struct dhcpv6_opt_hdr)); opt->hdr.type = HOST_TO_NET16(DHCPV6_OPT_ORO); opt->hdr.length = HOST_TO_NET16(3 * sizeof(struct dhcpv6_opt_request_list)); opt->type.list.request_code[0] = HOST_TO_NET16(DHCPV6_OPT_VENDOR_CLASS); opt->type.list.request_code[1] = HOST_TO_NET16(DHCPV6_OPT_VENDOR_OPTS); opt->type.list.request_code[2] = HOST_TO_NET16(DHCPV6_OPT_DNS_SERVERS); pkt_len += 3 * sizeof(struct dhcpv6_opt_request_list) + sizeof(struct dhcpv6_opt_hdr); udp->length = HOST_TO_NET16(sizeof(struct udp_hdr) + pkt_len); pkt_len += ((u8_t *)udp - (u8_t *)context->eth) + sizeof(struct udp_hdr); return pkt_len; } static void dhcpv6_init_dhcpv6_server_addr(struct ipv6_addr *addr) { /* Well-known DHCPv6 server address is ff02::1:2 */ memset((char *)addr, 0, sizeof(struct ipv6_addr)); addr->addr8[0] = 0xff; addr->addr8[1] = 0x02; addr->addr8[13] = 0x01; addr->addr8[15] = 0x02; } void ipv6_udp_handle_dhcp(struct dhcpv6_context *context) { union dhcpv6_hdr *dhcpv6; u16_t dhcpv6_len; if (context->dhcpv6_done == TRUE) return; dhcpv6 = (union dhcpv6_hdr *)((u8_t *)context->udp + sizeof(struct udp_hdr)); if (dhcpv6->dhcpv6_trans_id != context->dhcpv6_transaction_id) return; dhcpv6_len = NET_TO_HOST16(context->udp->length) - sizeof(struct udp_hdr); switch (dhcpv6->dhcpv6_type) { case DHCPV6_ADVERTISE: dhcpv6_handle_advertise(context, dhcpv6_len); break; case DHCPV6_REPLY: dhcpv6_handle_reply(context, dhcpv6_len); break; default: break; } } static void dhcpv6_handle_advertise(struct dhcpv6_context *context, u16_t dhcpv6_len) { union dhcpv6_hdr *dhcpv6 = (union dhcpv6_hdr *)((u8_t *)context->udp + sizeof(struct udp_hdr)); struct dhcpv6_opt_hdr *opt; u16_t type; int i; int opt_len; u8_t *vendor_id = NULL; u16_t vendor_id_len = 0; u8_t *vendor_opt_data = NULL; int vendor_opt_len = 0; int addr_cnt = 0; /* We only handle DHCPv6 advertise if we recently sent DHCPv6 solicit */ if (context->dhcpv6_state != DHCPV6_STATE_SOLICIT_SENT) return; LOG_DEBUG("DHCPV6: handle advertise"); context->dhcpv6_state = DHCPV6_STATE_ADV_RCVD; i = 0; while (i < (dhcpv6_len - sizeof(union dhcpv6_hdr))) { opt = (struct dhcpv6_opt_hdr *)((u8_t *)dhcpv6 + sizeof(union dhcpv6_hdr) + i); opt_len = NET_TO_HOST16(opt->length); type = NET_TO_HOST16(opt->type); /* We only care about some of the options */ switch (type) { case DHCPV6_OPT_IA_NA: if (context-> dhcpv6_task & DHCPV6_TASK_GET_IP_ADDRESS) { addr_cnt += dhcpv6_process_opt_ia_na(context, opt); } break; case DHCPV6_OPT_VENDOR_CLASS: vendor_id_len = NET_TO_HOST16(((struct dhcpv6_option *)opt)->type. vendor_class.vendor_class_length); vendor_id = &((struct dhcpv6_option *)opt)->type.vendor_class. vendor_class_data[0]; break; case DHCPV6_OPT_VENDOR_OPTS: vendor_opt_len = opt_len - 4; vendor_opt_data = &((struct dhcpv6_option *)opt)->type.vendor_opts. vendor_opt_data[0]; break; case DHCPV6_OPT_DNS_SERVERS: if (context->dhcpv6_task & DHCPV6_TASK_GET_OTHER_PARAMS) dhcpv6_process_opt_dns_servers(context, opt); break; default: break; } i += NET_TO_HOST16(opt->length) + sizeof(struct dhcpv6_opt_hdr); } if (context->dhcpv6_task & DHCPV6_TASK_GET_OTHER_PARAMS) { if ((vendor_id_len > 0) && (strncmp((char *)vendor_id, (char *)context->dhcp_vendor_id, vendor_id_len) == 0)) { dhcpv6_parse_vendor_option(context, vendor_opt_data, vendor_opt_len); context->dhcpv6_done = TRUE; } } if (context->dhcpv6_task & DHCPV6_TASK_GET_IP_ADDRESS) { if (addr_cnt > 0) { /* * If we need to acquire IP address from the server, * we need to send Request to server to confirm. */ dhcpv6_send_request_packet(context); context->dhcpv6_done = TRUE; } } if (context->dhcpv6_done) { /* Keep track of IPv6 address of DHCHv6 server */ memcpy((char *)&context->dhcp_server, (char *)&context->ipv6->ipv6_src, sizeof(struct ipv6_addr)); } } static int dhcpv6_process_opt_ia_na(struct dhcpv6_context *context, struct dhcpv6_opt_hdr *opt_hdr) { int i; int opt_len; struct dhcpv6_option *opt; int len; int addr_cnt; opt_len = NET_TO_HOST16(opt_hdr->length) - sizeof(struct dhcpv6_opt_id_assoc_na); i = 0; addr_cnt = 0; while (i < opt_len) { opt = (struct dhcpv6_option *)((u8_t *)opt_hdr + sizeof(struct dhcpv6_opt_hdr) + sizeof(struct dhcpv6_opt_id_assoc_na) + i); len = NET_TO_HOST16(opt->hdr.length); switch (NET_TO_HOST16(opt->hdr.type)) { case DHCPV6_OPT_IAADDR: if (len > (sizeof(struct dhcpv6_opt_hdr) + sizeof(struct dhcpv6_opt_iaa_addr))) { struct dhcpv6_option *in_opt; in_opt = (struct dhcpv6_option *)((u8_t *)opt + sizeof(struct dhcpv6_opt_hdr) + sizeof(struct dhcpv6_opt_iaa_addr)); if (in_opt->hdr.type == HOST_TO_NET16(DHCPV6_OPT_STATUS_CODE)) { /* This entry has error! */ if (in_opt->type.sts.status != 0) break; } } LOG_INFO("DHCPv6: Got IP Addr"); /* Status is OK, let's add this addr to our address list */ ipv6_add_prefix_entry(context->ipv6_context, &opt->type.iaa_addr.addr, 64); /* Add multicast address for this address */ ipv6_add_solit_node_address(context-> ipv6_context, &opt->type.iaa_addr.addr); addr_cnt++; break; default: break; } i += len + sizeof(struct dhcpv6_opt_hdr); } return addr_cnt; } static void dhcpv6_process_opt_dns_servers(struct dhcpv6_context *context, struct dhcpv6_opt_hdr *opt_hdr) { int opt_len; opt_len = NET_TO_HOST16(opt_hdr->length); if (opt_len >= sizeof(struct ipv6_addr)) memcpy((char *)&context->primary_dns_server, (char *)&((struct dhcpv6_option *)opt_hdr)->type.dns. primary_addr, sizeof(struct ipv6_addr)); if (opt_len >= 2 * sizeof(struct ipv6_addr)) memcpy((char *)&context->secondary_dns_server, (char *)&((struct dhcpv6_option *)opt_hdr)->type.dns. secondary_addr, sizeof(struct ipv6_addr)); } static void dhcpv6_handle_reply(struct dhcpv6_context *context, u16_t dhcpv6_len) { if (context->dhcpv6_state != DHCPV6_STATE_REQ_SENT) return; context->dhcpv6_done = TRUE; } static void dhcpv6_parse_vendor_option(struct dhcpv6_context *context, u8_t *option, int len) { struct dhcpv6_option *opt; u16_t type; int opt_len; int data_len; int i; u8_t *data; for (i = 0; i < len; i += opt_len + sizeof(struct dhcpv6_opt_hdr)) { opt = (struct dhcpv6_option *)((u8_t *)option + i); type = HOST_TO_NET16(opt->hdr.type); opt_len = HOST_TO_NET16(opt->hdr.length); data = &opt->type.data[0]; data_len = strlen((char *)data); switch (type) { case 201: /* iSCSI target 1 */ break; case 202: /* iSCSI target 2 */ break; case 203: if (data_len > ISCSI_MAX_ISCSI_NAME_LENGTH) data_len = ISCSI_MAX_ISCSI_NAME_LENGTH; data[data_len] = '\0'; strcpy(context->initiatorName, (char *)data); break; default: break; } } } open-iscsi-2.0.874/iscsiuio/src/apps/dhcpc/dhcpv6.h000066400000000000000000000176051277325716400220010ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai * Based on code from Kevin Tran's iSCSI boot code * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * dhcpv6.h - DHCPv6 engine header * */ #ifndef __IDHCPV6_H__ #define __IDHCPV6_H__ #include "ipv6_ndpc.h" #include "ipv6.h" #define ISCSI_MAX_ISCSI_NAME_LENGTH 128 /* DHCPv6 Message types. */ #define DHCPV6_SOLICIT 1 #define DHCPV6_ADVERTISE 2 #define DHCPV6_REQUEST 3 #define DHCPV6_CONFIRM 4 #define DHCPV6_RENEW 5 #define DHCPV6_REBIND 6 #define DHCPV6_REPLY 7 #define DHCPV6_RELEASE 8 #define DHCPV6_DECLINE 9 #define DHCPV6_RECONFIGURE 10 #define DHCPV6_INFO_REQUEST 11 #define DHCPV6_RELAY_FORW 12 #define DHCPV6_RELAY_REPL 13 /* Option codes. */ #define DHCPV6_OPT_CLIENTID 1 /* Client ID option - built by stack */ #define DHCPV6_OPT_SERVERID 2 /* Server ID option - built by stack */ #define DHCPV6_OPT_IA_NA 3 /* IA_NA option - built by user */ #define DHCPV6_OPT_IA_TA 4 /* IA_TA option - not supported */ #define DHCPV6_OPT_IAADDR 5 /* IA_ADDR option - built by user */ #define DHCPV6_OPT_ORO 6 /* Option Request Option - built by stack */ #define DHCPV6_OPT_PREFERENCE 7 /* Preference option - built by server */ #define DHCPV6_OPT_ELAPSED_TIME 8 /* Elapsed Time option - built by stack */ #define DHCPV6_OPT_RELAY_MSG 9 /* Relay Message option - not supported */ #define DHCPV6_OPT_AUTH 11 /* Authentication option - built by stack */ #define DHCPV6_OPT_UNICAST 12 /* Server Unicast option - built by server */ #define DHCPV6_OPT_STATUS_CODE 13 /* Status Code option - built by stack */ #define DHCPV6_OPT_RAPID_COMMIT 14 /* Rapid Commit option - built by user */ #define DHCPV6_OPT_USER_CLASS 15 /* User Class option - built by user */ #define DHCPV6_OPT_VENDOR_CLASS 16 /* Vendor Class option - built by user */ #define DHCPV6_OPT_VENDOR_OPTS 17 /* Vendor-Specific Information option - build by user */ #define DHCPV6_OPT_INTERFACE_ID 18 /* Interface ID option - not supported */ #define DHCPV6_OPT_RECONF_MSG 19 /* Reconfigure Message option - built by server */ #define DHCPV6_OPT_RECONF_ACCEPT 20 /* Reconfigure Accept option - built by user */ #define DHCPV6_OPT_SIP_SERVER_D 21 /* NOT SUPPORTED - included for completeness only */ #define DHCPV6_OPT_SIP_SERVER_A 22 /* NOT SUPPORTED - included for completeness only */ #define DHCPV6_OPT_DNS_SERVERS 23 /* DNS Recursive Name Server option - built by server */ #define DHCPV6_OPT_DOMAIN_LIST 24 /* Domain Search List option - not supported */ #define DHCPV6_MAX_OPT_CODES 25 /* This will be the count + 1 since the parsing array starts at [1] instead of [0] */ /* Authentication protocol types. */ #define DHCPV6_DELAYED_AUTH_PROT 2 /* Delayed Authentication protocol. */ #define DHCPV6_RECON_KEY_AUTH_PROT 3 /* Reconfigure Key Authentication protocol. */ struct dhcpv6_context { #define DHCP_VENDOR_ID_LEN 128 char dhcp_vendor_id[DHCP_VENDOR_ID_LEN]; struct mac_address *our_mac_addr; u32_t dhcpv6_transaction_id; u16_t seconds; int timeout; int dhcpv6_done; #define DHCPV6_STATE_UNKNOWN 0 #define DHCPV6_STATE_SOLICIT_SENT 1 #define DHCPV6_STATE_ADV_RCVD 2 #define DHCPV6_STATE_REQ_SENT 3 #define DHCPV6_STATE_CONFIRM_SENT 4 int dhcpv6_state; u16_t dhcpv6_task; struct ipv6_context *ipv6_context; struct eth_hdr *eth; struct ipv6_hdr *ipv6; struct udp_hdr *udp; char initiatorName[ISCSI_MAX_ISCSI_NAME_LENGTH]; struct ipv6_addr dhcp_server; struct ipv6_addr primary_dns_server; struct ipv6_addr secondary_dns_server; }; union dhcpv6_hdr { struct { u32_t type:8; u32_t trans_id:24; } field; u32_t type_transaction; }; #define dhcpv6_type field.type #define dhcpv6_trans_id field.trans_id struct dhcpv6_opt_hdr { u16_t type; u16_t length; }; struct dhcpv6_opt_client_id { u16_t duid_type; #define DHCPV6_DUID_TYPE_LINK_LAYER_AND_TIME 1 #define DHCPV6_DUID_TYPE_VENDOR_BASED 2 #define DHCPV6_DUID_TYPE_LINK_LAYER 3 u16_t hw_type; #define DHCPV6_HW_TYPE_ETHERNET 1 u32_t time; struct mac_address link_layer_addr; }; struct dhcpv6_opt_id_assoc_na { u32_t iaid; #define DHCPV6_OPT_IA_NA_IAID 0x306373L u32_t t1; u32_t t2; }; struct dhcpv6_opt_elapse_time { u16_t time; }; struct dhcpv6_opt_iaa_addr { struct ipv6_addr addr; u32_t preferred_lifetime; u32_t valid_lifetime; }; struct dhcpv6_opt_status { u16_t status; }; struct dhcpv6_opt_request_list { u16_t request_code[1]; }; struct dhcpv6_opt_dns { struct ipv6_addr primary_addr; struct ipv6_addr secondary_addr; }; struct dhcpv6_vendor_class { u32_t enterprise_number; u16_t vendor_class_length; u8_t vendor_class_data[1]; }; struct dhcpv6_vendor_opts { u32_t enterprise_number; u8_t vendor_opt_data[1]; }; struct dhcpv6_option { struct dhcpv6_opt_hdr hdr; union { struct dhcpv6_vendor_opts vendor_opts; struct dhcpv6_vendor_class vendor_class; struct dhcpv6_opt_client_id client_id; struct dhcpv6_opt_id_assoc_na ida_na; struct dhcpv6_opt_elapse_time elapsed_time; struct dhcpv6_opt_iaa_addr iaa_addr; struct dhcpv6_opt_status sts; struct dhcpv6_opt_request_list list; struct dhcpv6_opt_dns dns; u8_t data[1]; } type; }; #define DHCPV6_NUM_OF_RETRY 4 #define DHCPV6_ACK_TIMEOUT 2 #define IANA_ENTERPRISE_NUM_BROADCOM 0x113d /* QLogic Extended DHCP options used in iSCSI boot */ #define DHCPV6_TAG_FIRST_ISCSI_TARGET_NAME 201 #define DHCPV6_TAG_SECOND_ISCSI_TARGET_NAME 202 #define DHCPV6_TAG_ISCSI_INITIATOR_NAME 203 #define MAX_DHCP_RX_OFFERS 4 #define MAX_DHCP_OPTION43_LENGTH 1024 #define DHCPV6_TASK_GET_IP_ADDRESS 0x1 #define DHCPV6_TASK_GET_OTHER_PARAMS 0x2 enum { ISCSI_FAILURE, ISCSI_USER_ABORT, ISCSI_SUCCESS }; /* Function prototypes */ int dhcpv6_do_discovery(struct dhcpv6_context *context); void ipv6_udp_handle_dhcp(struct dhcpv6_context *context); void dhcpv6_init(struct dhcpv6_context *context); #endif /* __IDHCPV6_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip-1.0-changelog.txt000066400000000000000000000064531277325716400221700ustar00rootroot00000000000000* A new API: protosockets that are similar to BSD sockets but does not require any underlying multithreading system. * Very rudimentary IPv6 support * New application: DHCP client. Web server rewritten with protosockets. * Removed uIP zero-copy functionality in order to simplify uIP device driver coding: outbound packets are now *always* stored in full in the uip_buf buffer. * Checksum computation is now part of uip.c, but it still is possible to implement them in assembly code by specifying a configuration option. Checksum code now runs on architectures with 2-byte alignment. * Added TCP persistent timer. * Made all IP address representations use the new uip_ipaddr_ip datatype for clarity. * Updated window behavior so that sending to a host with a small open window works better now. * UDP API change: uip_udp_new() now takes port numbers in network byte order like TCP functions. * Allow reception of packets when no IP address is configured to make DHCP work. * Moved Ethernet address into main uIP module from ARP module. * Made constants explicit #defines and moved them out of the code (header sizes, TCP options, TCP header length field). * If uip_len is less than that reported by the IP header, the packet is discarded. If uip_len is greater than the length reported by the IP header, uip_len is adjusted. * Moved header size definitions into header file. * Added uIP call for polling an application without triggering any timer events. Removed redundant assignments of uip_len and uip_slen. * Removed compiler warning about icmp_input label being defined when UIP_PINGADDRCONF was not used. * Added UIP_APPDATA_SIZE macro that holds the available buffer size for user data. * Added uip_udp_bind() call. * Moved checksum code into main uIP module. * Switched the TCP, UDP and IP header structures to be structs rather than typedefs. * Prefixed TCP state names with UIP_ to avoid name space contamination. * Changed declarations of uip_appdatap and friends to void * to avoid explicit typecasts. * Bugfixes o TCP: Fixed bug with high byte of peer window size. o TCP: Fixed bug that in some cases prevented concurrent reception and transmission of TCP data. o TCP: uip_connect() didn't correctly calculate age of TIME_WAIT connections. o TCP: Array index for uip_conns[] array was out of bounds in comparison. Comparison changed to make index within bounds. o TCP: if the remote host crashes and tries to reestablish an old connection, uIP should respond with an ACK with the correct sequence and acknowledgment numbers, to which the remote host should respond with an ACK. uIP did not respond with the correct ACK. o TCP: Fixed check for SYNACK segment: now checks only relevant TCP control flags and discards flags reserved for future expansion. o TCP: Fixed bug where uIP did not inform application that a connection had been aborted during an active open. o TCP: FIN segment was accepted even though application had stopped incoming data with uip_stop(). o TCP: A FINACK segment would not always correctly acknowledge data. o UDP: checksums are now calculated after all fields have been filled in. o UDP: network byte order on lastport in uip_udp_new(). o IP: memset() bugs in IP fragment reassembly code fixed. open-iscsi-2.0.874/iscsiuio/src/uip/000077500000000000000000000000001277325716400171765ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/src/uip/Makefile.am000066400000000000000000000006441277325716400212360ustar00rootroot00000000000000AM_CFLAGS = -I${top_srcdir}/src/unix \ -I${top_srcdir}/src/apps/dhcpc \ -I${top_srcdir}/src/apps/brcm-iscsi \ -I${top_srcdir}/../include \ -I${top_srcdir}/../usr noinst_LIBRARIES = lib_iscsi_uip.a lib_iscsi_uip_a_SOURCES = uip.c \ uip_arp.c \ psock.c \ timer.c \ uip-neighbor.c \ uip_eth.c \ ipv6_ndpc.c \ ipv6.c lib_iscsi_uip_a_CFLAGS = -DBYTE_ORDER=@ENDIAN@ $(AM_CFLAGS) open-iscsi-2.0.874/iscsiuio/src/uip/Makefile.include000066400000000000000000000020401277325716400222540ustar00rootroot00000000000000 ifdef APPS APPDIRS = $(foreach APP, $(APPS), ../apps/$(APP)) -include $(foreach APP, $(APPS), ../apps/$(APP)/Makefile.$(APP)) CFLAGS += $(addprefix -I../apps/,$(APPS)) endif ifndef CCDEP CCDEP = $(CC) endif ifndef CCDEPCFLAGS CCDEPCFLAGS = $(CFLAGS) endif ifndef OBJECTDIR OBJECTDIR = obj endif ifeq (${wildcard $(OBJECTDIR)},) DUMMY := ${shell mkdir $(OBJECTDIR)} endif vpath %.c . ../uip ../lib $(APPDIRS) $(OBJECTDIR)/%.o: %.c $(CC) $(CFLAGS) -c $< -o $@ $(OBJECTDIR)/%.d: %.c @set -e; rm -f $@; \ $(CCDEP) -MM $(CCDEPCFLAGS) $< > $@.$$$$; \ sed 's,\($*\)\.o[ :]*,$(OBJECTDIR)/\1.o $@ : ,g' < $@.$$$$ > $@; \ rm -f $@.$$$$ UIP_SOURCES=uip.c uip_arp.c uiplib.c psock.c timer.c uip-neighbor.c uip_eth.c ipv6_ndp.c ipv6.c ifneq ($(MAKECMDGOALS),clean) -include $(addprefix $(OBJECTDIR)/,$(UIP_SOURCES:.c=.d) \ $(APP_SOURCES:.c=.d)) endif libuip.a: ${addprefix $(OBJECTDIR)/, $(UIP_SOURCES:.c=.o)} $(AR) rc $@ $^ libapps.a: ${addprefix $(OBJECTDIR)/, $(APP_SOURCES:.c=.o)} $(AR) rc $@ $^ open-iscsi-2.0.874/iscsiuio/src/uip/clock.h000066400000000000000000000054351277325716400204510ustar00rootroot00000000000000/** * \defgroup clock Clock interface * * The clock interface is the interface between the \ref timer "timer library" * and the platform specific clock functionality. The clock * interface must be implemented for each platform that uses the \ref * timer "timer library". * * The clock interface does only one this: it measures time. The clock * interface provides a macro, CLOCK_SECOND, which corresponds to one * second of system time. * * \sa \ref timer "Timer library" * * @{ */ /* * Copyright (c) 2004, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ #ifndef __CLOCK_H__ #define __CLOCK_H__ #include "clock-arch.h" /** * Initialize the clock library. * * This function initializes the clock library and should be called * from the main() function of the system. * */ void clock_init(void); /** * Get the current clock time. * * This function returns the current system clock time. * * \return The current clock time, measured in system ticks. */ clock_time_t clock_time(void); /** * A second, measured in system clock time. * * \hideinitializer */ #ifdef CLOCK_CONF_SECOND #define CLOCK_SECOND CLOCK_CONF_SECOND #else #define CLOCK_SECOND (clock_time_t)32 #endif #endif /* __CLOCK_H__ */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/debug.h000066400000000000000000000002621277325716400204350ustar00rootroot00000000000000#ifndef __DEBUG_H__ #define __DEBUG_H__ #ifdef DEBUG #define UIP_DEBUG(args...) \ do { \ fprintf(stdout, args); \ fflush(stdout); \ } while (0); #else #endif #endif open-iscsi-2.0.874/iscsiuio/src/uip/icmpv6.h000066400000000000000000000263551277325716400205660ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai (eddie.wai@broadcom.com) * Based on Kevin Tran's iSCSI boot code * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * icmpv6.h - This file contains macro definitions pertaining to ICMPv6 * * RFC 2463 : ICMPv6 Specification * RFC 2461 : Neighbor Discovery for IPv6 * */ #ifndef __ICMPV6_H__ #define __ICMPV6_H__ /* Base ICMP Header sizes */ #define IPV6_RTR_SOL_HDR_SIZE 8 #define IPV6_RTR_ADV_HDR_SIZE 16 #define IPV6_NEIGH_SOL_HDR_SIZE 24 #define IPV6_NEIGH_ADV_HDR_SIZE 24 #define IPV6_LINK_LAYER_OPT_SIZE 2 #define IPV6_LINK_LAYER_OPT_LENGTH 8 #define IPV6_MTU_OPT_SIZE 8 #define IPV6_PREFIX_OPT_SIZE 32 #define IPV6_ECHO_REQUEST_HDR_SIZE 8 #define IPV6_ECHO_REPLY_HDR_SIZE 8 #define IPV6_REDIRECT_SIZE 40 #define IPV6_DHAAD_REQ_HDR_SIZE 8 #define IPV6_DHAAD_REPLY_HDR_SIZE 8 #define IPV6_PRFXSOL_HDR_SIZE 8 #define IPV6_PRFXADV_HDR_SIZE 8 #define IPV6_RTR_ADV_INT_OPT_SIZE 8 /* ICMP Message Types */ /* Error messages are always less than 128 */ #define ICMPV6_DST_UNREACH 1 /* Destination Unreachable */ #define ICMPV6_PACKET_TOO_BIG 2 /* Packet Too Big */ #define ICMPV6_TIME_EXCEEDED 3 /* Time Exceeded */ #define ICMPV6_PARAM_PROB 4 /* Parameter Problem */ #define ICMPV6_RTR_SOL 133 /* Router Solicitation */ #define ICMPV6_RTR_ADV 134 /* Router Advertisement */ #define ICMPV6_NEIGH_SOL 135 /* Neighbor Solicitation */ #define ICMPV6_NEIGH_ADV 136 /* Neighbor Advertisement */ #define ICMPV6_REDIRECT 137 /* Redirect */ #define ICMPV6_ECHO_REQUEST 128 /* Echo Request */ #define ICMPV6_ECHO_REPLY 129 /* Echo Reply */ #define ICMPV6_WRUREQUEST 139 /* Who Are You Request */ #define ICMPV6_WRUREPLY 140 /* Who Are You Reply */ #define ICMPV6_ROUTER_RENUMBERING 138 /* Router Renumbering */ #define ICMPV6_HA_ADDR_DISC_REQ 144 /* Dynamic Home Agent Address Discovery Request */ #define ICMPV6_HA_ADDR_DISC_REPLY 145 /* Dynamic Home Agent Address Discovery Reply */ #define ICMPV6_MP_SOLICIT 146 /* Mobile Prefix Solicitation */ #define ICMPV6_MP_ADV 147 /* Mobile Prefix Reply */ /* Destination Unreachable Codes */ #define ICMPV6_DST_UNREACH_NOROUTE 0 #define ICMPV6_DST_UNREACH_ADMIN 1 #define ICMPV6_DST_UNREACH_ADDRESS 3 #define ICMPV6_DST_UNREACH_PORT 4 /* Time Exceeded Codes */ #define ICMPV6_TIME_EXCD_HPLMT 0 /* Hop Limit exceeded in transit */ #define ICMPV6_TIME_EXCD_REASM 1 /* Fragment reassembly time exceeded */ /* Parameter Problem Codes */ #define ICMPV6_PARM_PROB_HEADER 0 #define ICMPV6_PARM_PROB_NEXT_HDR 1 #define ICMPV6_PARM_PROB_OPTION 2 /* ICMP Option Types */ #define IPV6_ICMP_OPTION_SRC_ADDR 1 /* Source Link-Layer Address */ #define IPV6_ICMP_OPTION_TAR_ADDR 2 /* Target Link-Layer Address */ #define IPV6_ICMP_OPTION_PREFIX 3 /* Prefix */ #define IPV6_ICMP_OPTION_RED_HDR 4 /* Redirect Header */ #define IPV6_ICMP_OPTION_MTU 5 /* Link MTU */ #define IPV6_ICMP_OPTION_RTR_ADV_INT 7 /* Rtr Advertisement Interval */ /* ICMP Offsets */ #define IPV6_ICMP_TYPE_OFFSET 0 #define IPV6_ICMP_CODE_OFFSET 1 #define IPV6_ICMP_CKSUM_OFFSET 2 #define IPV6_ICMP_RESERVED_OFFSET 4 #define IPV6_ICMP_DATA_OFFSET 8 /* ICMP Router Solicitation Offsets */ #define IPV6_ICMP_RTR_SOL_RES_OFFSET 4 #define IPV6_ICMP_RTR_SOL_OPTIONS_OFFSET 8 /* ICMP Router Advertisement Offsets */ #define IPV6_ICMP_RTR_ADV_CURHOPLMT_OFFSET 4 #define IPV6_ICMP_RTR_ADV_MGDANDCFG_BIT_OFFSET 5 #define IPV6_ICMP_RTR_ADV_RTR_LIFETIME_OFFSET 6 #define IPV6_ICMP_RTR_ADV_RCHBL_TIME_OFFSET 8 #define IPV6_ICMP_RTR_ADV_RTRNS_TMR_OFFSET 12 #define IPV6_ICMP_RTR_ADV_OPTIONS_OFFSET 16 /* ICMP Neighbor Solicitation Offsets */ #define IPV6_ICMP_NEIGH_SOL_RES_OFFSET 4 #define IPV6_ICMP_NEIGH_SOL_TRGT_ADDRS_OFFSET 8 #define IPV6_ICMP_NEIGH_SOL_OPTIONS_OFFSET 24 /* ICMP Neighbor Advertisement Offsets */ #define IPV6_ICMP_NEIGH_ADV_FLAG_OFFSET 4 #define IPV6_ICMP_NEIGH_ADV_TRGT_ADDRS_OFFSET 8 #define IPV6_ICMP_NEIGH_ADV_OPTIONS_OFFSET 24 /* ICMP Redirect Offsets */ #define IPV6_ICMP_REDIRECT_TRGT_ADDRS_OFFSET 8 #define IPV6_ICMP_REDIRECT_DEST_ADDRS_OFFSET 24 #define IPV6_ICMP_REDIRECT_OPTIONS_OFFSET 40 /* ICMP Option Offsets */ #define IPV6_ICMP_OPTION_TYPE_OFFSET 0 #define IPV6_ICMP_OPTION_LENGTH_OFFSET 1 /* ICMP Link-Layer Address Option Offsets */ #define IPV6_ICMP_LL_OPTION_ADDRESS_OFFSET 2 /* ICMP Prefix Option Offsets */ #define IPV6_ICMP_PREFIX_PRE_LENGTH_OFFSET 2 #define IPV6_ICMP_PREFIX_FLAG_OFFSET 3 #define IPV6_ICMP_PREFIX_VALID_LIFETIME_OFFSET 4 #define IPV6_ICMP_PREFIX_PREF_LIFETIME_OFFSET 8 #define IPV6_ICMP_PREFIX_RES2_OFFSET 12 #define IPV6_ICMP_PREFIX_PREFIX_OFFSET 16 /* ICMP Redirected Header Option Offsets */ #define IPV6_ICMP_RED_OPTION_TYPE_OFFSET 0 #define IPV6_ICMP_RED_OPTION_LEN_OFFSET 1 #define IPV6_ICMP_RED_OPTION_RES1_OFFSET 2 #define IPV6_ICMP_RED_OPTION_RES2_OFFSET 4 #define IPV6_ICMP_RED_OPTION_DATA_OFFSET 8 /* ICMP MTU Option Offsets */ #define IPV6_ICMP_MTU_RESERVED_OFFSET 2 #define IPV6_ICMP_MTU_OFFSET 4 /* ICMP Echo Request Offsets */ #define IPV6_ICMP_ECHO_ID 4 #define IPV6_ICMP_ECHO_SEQ 6 #define IPV6_ICMP_ECHO_DATA 8 /* ICMP Destination Unreachable Offsets */ #define IPV6_DST_UNREACH_UNUSED 4 #define IPV6_DST_UNREACH_DATA 8 /* ICMP Parameter Problem Offsets */ #define IPV6_PARAM_PROB_PTR 4 #define IPV6_PARAM_PROT_DATA 8 /* ICMP Time Exceeded Offsets */ #define IPV6_TIME_EXCEEDED_DATA 8 /* ICMP Packet Too Big Offsets */ #define IPV6_PKT_TOO_BIG_MTU 4 #define IPV6_PKT_TOO_BIG_DATA 8 /* Home Agent Address Discovery Request Header Offsets */ #define ICMPV6_HA_ADDR_DISC_REQ_ID_OFFSET 4 #define ICMPV6_HA_ADDR_DISC_REQ_RSVD_OFFSET 6 /* Home Agent Address Discovery Reply Header Offsets */ #define ICMPV6_HA_ADDR_DISC_REPLY_ID_OFFSET 4 #define ICMPV6_HA_ADDR_DISC_REPLY_RSVD_OFFSET 6 #define ICMPV6_HA_ADDR_DISC_REPLY_HA_ADDR_OFFSET 8 /* Mobile Prefix Solicitation Header Offsets */ #define ICMPV6_MP_SOLICIT_ID_OFFSET 4 #define ICMPV6_MP_SOLICIT_RSVD_OFFSET 6 /* Mobile Prefix Advertisement Header Offsets */ #define ICMPV6_MP_ADV_ID_OFFSET 4 #define ICMPV6_MP_ADV_MGDANDCFG_BIT_OFFSET 6 #define ICMPV6_MP_ADV_OPT_OFFSET 8 /* Advertisement Interval Option Header Offsets */ #define ICMPV6_ADV_INT_TYPE_OFFSET 0 #define ICMPV6_ADV_INT_LEN_OFFSET 1 #define ICMPV6_ADV_INT_RSVD_OFFSET 2 #define ICMPV6_ADV_INT_ADV_INT_OFFSET 4 #define ICMPV6_HEADER_LEN 4 #define IPV6_PREFIX_FLAG_ONLINK 0x80 #define IPV6_PREFIX_FLAG_AUTO 0x40 #define IPV6_PREFIX_FLAG_ROUTER 0x20 #define IPV6_NA_FLAG_ROUTER 0x80 #define IPV6_NA_FLAG_SOLICITED 0x40 #define IPV6_NA_FLAG_OVERRIDE 0x20 /* Router Advertisement Flags */ #define IPV6_RA_MANAGED_FLAG 0x80 #define IPV6_RA_CONFIG_FLAG 0x40 /* Mobile Prefix Advertisement Flags */ #define IPV6_PA_MANAGED_FLAG 0x80 #define IPV6_PA_CONFIG_FLAG 0x40 /* Validation Values */ #define ICMPV6_VALID_HOP_LIMIT 255 /* Valid Hop Limit */ #define ICMPV6_VALID_CODE 0 /* Valid Code */ #define ICMPV6_RTRSOL_MIN_LENGTH 8 /* Minimum valid length for Router Solicitation */ #define ICMPV6_RTRADV_MIN_LENGTH 16 /* Minimum valid length for Router Advertisement */ #define ICMPV6_NEIGHSOL_MIN_LENGTH 24 /* Minimum valid length for Neighbor Solicitation */ #define ICMPV6_NEIGHADV_MIN_LENGTH 24 /* Minimum valid length for Neighbor Advertisement */ #define ICMPV6_REDIRECT_MIN_LENGTH 40 /* Minimum valid length for Neighbor Advertisement */ /* ICMPV6 Header */ struct icmpv6_hdr { u8_t icmpv6_type; /* type field */ u8_t icmpv6_code; /* code field */ u16_t icmpv6_cksum; /* checksum field */ union { u32_t icmpv6_un_data32[1]; /* type-specific field */ u16_t icmpv6_un_data16[2]; /* type-specific field */ u8_t icmpv6_un_data8[4]; /* type-specific field */ } data; }; #define icmpv6_data data.icmpv6_un_data32[0] struct icmpv6_opt_hdr { u8_t type; u8_t len; }; struct icmpv6_opt_link_addr { struct icmpv6_opt_hdr hdr; u8_t link_addr[6]; }; struct icmpv6_opt_prefix { struct icmpv6_opt_hdr hdr; u8_t prefix_len; u8_t flags; #define ICMPV6_OPT_PREFIX_FLAG_ON_LINK (1 << 7) #define ICMPV6_OPT_PREFIX_FLAG_BIT_A (1 << 6) u32_t valid_lifetime; u32_t preferred_lifetime; u32_t reserved; struct ipv6_addr prefix; }; /* Neighbor Solicitation */ struct icmpv6_nd_solicit { struct icmpv6_hdr nd_ns_hdr; }; /* Router Advertisement */ struct icmpv6_router_advert { struct icmpv6_hdr header; u32_t reachable_time; u32_t retransmit_timer; }; #define nd_ra_type header.icmpv6_type #define nd_ra_code header.icmpv6_code #define nd_ra_cksum header.icmpv6_cksum #define nd_ra_curhoplimit header.data.icmpv6_un_data8[0] #define nd_ra_flags_reserved header.data.icmpv6_un_data8[1] #define nd_ra_router_lifetime header.data.icmpv6_un_data16[1] #endif /* __ICMPV6_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/ipv6.c000066400000000000000000001150561277325716400202360ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai (eddie.wai@broadcom.com) * Based on Kevin Tran's iSCSI boot code * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ipv6.c - This file contains simplifed IPv6 processing code. * */ #include #include #include #include "logger.h" #include "uip.h" #include "ipv6.h" #include "ipv6_pkt.h" #include "icmpv6.h" #include "uipopt.h" #include "dhcpv6.h" #include "ping.h" inline int best_match_bufcmp(u8_t *a, u8_t *b, int len) { int i; for (i = 0; i < len; i++) { if (a[i] != b[i]) break; } return i; } /* Local function prototypes */ static int ipv6_is_it_our_address(struct ipv6_context *context, struct ipv6_addr *ip_addr); static void ipv6_insert_protocol_chksum(struct ipv6_hdr *ipv6); static void ipv6_update_arp_table(struct ipv6_context *context, struct ipv6_addr *ip_addr, struct mac_address *mac_addr); static void ipv6_icmp_init_link_option(struct ipv6_context *context, struct icmpv6_opt_link_addr *link_opt, u8_t type); static void ipv6_icmp_rx(struct ipv6_context *context); static void ipv6_icmp_handle_nd_adv(struct ipv6_context *context); static void ipv6_icmp_handle_nd_sol(struct ipv6_context *context); static void ipv6_icmp_handle_echo_request(struct ipv6_context *context); static void ipv6_icmp_handle_router_adv(struct ipv6_context *context); static void ipv6_icmp_process_prefix(struct ipv6_context *context, struct icmpv6_opt_prefix *icmp_prefix); static void ipv6_udp_rx(struct ipv6_context *context); int iscsiL2Send(struct ipv6_context *context, int pkt_len) { LOG_DEBUG("IPv6: iscsiL2Send"); uip_send(context->ustack, (void *)context->ustack->data_link_layer, pkt_len); return pkt_len; } int iscsiL2AddMcAddr(struct ipv6_context *context, struct mac_address *new_mc_addr) { int i; struct mac_address *mc_addr; const struct mac_address all_zeroes_mc = { { { 0, 0, 0, 0, 0, 0 } } }; mc_addr = context->mc_addr; for (i = 0; i < MAX_MCADDR_TABLE; i++, mc_addr++) if (!memcmp((char *)mc_addr, (char *)new_mc_addr, sizeof(struct mac_address))) return TRUE; /* Already in the mc table */ mc_addr = context->mc_addr; for (i = 0; i < MAX_MCADDR_TABLE; i++, mc_addr++) { if (!memcmp((char *)mc_addr, (char *)&all_zeroes_mc, sizeof(struct mac_address))) { memcpy((char *)mc_addr, (char *)new_mc_addr, sizeof(struct mac_address)); LOG_DEBUG("IPv6: mc_addr added " "%02x:%02x:%02x:%02x:%02x:%02x", *(u8_t *)new_mc_addr, *((u8_t *)new_mc_addr + 1), *((u8_t *)new_mc_addr + 2), *((u8_t *)new_mc_addr + 3), *((u8_t *)new_mc_addr + 4), *((u8_t *)new_mc_addr + 5)); return TRUE; } } return FALSE; } int iscsiL2IsOurMcAddr(struct ipv6_context *context, struct mac_address *dest_mac) { int i; struct mac_address *mc_addr; mc_addr = context->mc_addr; for (i = 0; i < MAX_MCADDR_TABLE; i++, mc_addr++) if (!memcmp((char *)mc_addr, (char *)dest_mac->addr, sizeof(struct mac_address))) return TRUE; return FALSE; } void ipv6_init(struct ndpc_state *ndp, int cfg) { int i; struct ipv6_context *context = (struct ipv6_context *)ndp->ipv6_context; struct mac_address *mac_addr = (struct mac_address *)ndp->mac_addr; struct ipv6_arp_entry *ipv6_arp_table; struct ipv6_prefix_entry *ipv6_prefix_table; struct mac_address mc_addr; if (context == NULL) { LOG_ERR("IPV6: INIT ipv6_context is NULL"); return; } memset((char *)context, 0, sizeof(struct ipv6_context)); /* Associate the nic_iface's ustack to this ipv6_context */ context->ustack = ndp->ustack; ipv6_arp_table = &context->ipv6_arp_table[0]; ipv6_prefix_table = &context->ipv6_prefix_table[0]; memset((char *)ipv6_arp_table, 0, sizeof(*ipv6_arp_table)); memset((char *)ipv6_prefix_table, 0, sizeof(*ipv6_prefix_table)); memcpy((char *)&context->mac_addr, (char *)mac_addr, sizeof(struct mac_address)); /* * Per RFC 2373. * There are two types of local-use unicast addresses defined. These * are Link-Local and Site-Local. The Link-Local is for use on a single * link and the Site-Local is for use in a single site. Link-Local * addresses have the following format: * * | 10 | * | bits | 54 bits | 64 bits | * +----------+-------------------------+----------------------------+ * |1111111010| 0 | interface ID | * +----------+-------------------------+----------------------------+ */ if (context->ustack->linklocal_autocfg != IPV6_LL_AUTOCFG_OFF) { context->link_local_addr.addr8[0] = 0xfe; context->link_local_addr.addr8[1] = 0x80; /* Bit 1 is 1 to indicate universal scope. */ context->link_local_addr.addr8[8] = mac_addr->addr[0] | 0x2; context->link_local_addr.addr8[9] = mac_addr->addr[1]; context->link_local_addr.addr8[10] = mac_addr->addr[2]; context->link_local_addr.addr8[11] = 0xff; context->link_local_addr.addr8[12] = 0xfe; context->link_local_addr.addr8[13] = mac_addr->addr[3]; context->link_local_addr.addr8[14] = mac_addr->addr[4]; context->link_local_addr.addr8[15] = mac_addr->addr[5]; context->link_local_multi.addr8[0] = 0xff; context->link_local_multi.addr8[1] = 0x02; context->link_local_multi.addr8[11] = 0x01; context->link_local_multi.addr8[12] = 0xff; context->link_local_multi.addr8[13] |= context->link_local_addr.addr8[13]; context->link_local_multi.addr16[7] = context->link_local_addr.addr16[7]; /* Default Prefix length is 64 */ /* Add Link local address to the head of the ipv6 address list */ ipv6_add_prefix_entry(context, &context->link_local_addr, 64); } /* * Convert Multicast IP address to Multicast MAC adress per * RFC 2464: Transmission of IPv6 Packets over Ethernet Networks * * An IPv6 packet with a multicast destination address DST, consisting * of the sixteen octets DST[1] through DST[16], is transmitted to the * Ethernet multicast address whose first two octets are the value 3333 * hexadecimal and whose last four octets are the last four octets of * DST. * * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * |0 0 1 1 0 0 1 1|0 0 1 1 0 0 1 1| * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | DST[13] | DST[14] | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | DST[15] | DST[16] | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * * IPv6 requires the following Multicast IP addresses setup per node. */ for (i = 0; i < 3; i++) { mc_addr.addr[0] = 0x33; mc_addr.addr[1] = 0x33; mc_addr.addr[2] = 0x0; mc_addr.addr[3] = 0x0; mc_addr.addr[4] = 0x0; switch (i) { case 0: /* All Nodes Multicast IPv6 address : ff02::1 */ mc_addr.addr[5] = 0x1; break; case 1: /* All Host Multicast IPv6 address : ff02::3 */ mc_addr.addr[5] = 0x3; break; case 2: /* Solicited Node Multicast Address: ff02::01:ffxx:yyzz */ mc_addr.addr[2] = 0xff; mc_addr.addr[3] = mac_addr->addr[3]; mc_addr.addr[4] = mac_addr->addr[4]; mc_addr.addr[5] = mac_addr->addr[5]; break; default: break; } iscsiL2AddMcAddr(context, &mc_addr); } /* Default HOP number */ context->hop_limit = IPV6_HOP_LIMIT; } int ipv6_add_prefix_entry(struct ipv6_context *context, struct ipv6_addr *ip_addr, u8_t prefix_len) { int i; struct ipv6_prefix_entry *prefix_entry; struct ipv6_prefix_entry *ipv6_prefix_table = context->ipv6_prefix_table; char addr_str[INET6_ADDRSTRLEN]; /* Check if there is an valid entry already. */ for (i = 0; i < IPV6_NUM_OF_ADDRESS_ENTRY; i++) { prefix_entry = &ipv6_prefix_table[i]; if (prefix_entry->prefix_len != 0) { if (memcmp((char *)&prefix_entry->ip_addr, (char *)ip_addr, sizeof(struct ipv6_addr)) == 0) { /* We already initialize on this interface. There is nothing to do */ return 0; } } } /* Find an unused entry */ for (i = 0; i < IPV6_NUM_OF_ADDRESS_ENTRY; i++) { prefix_entry = &ipv6_prefix_table[i]; if (prefix_entry->prefix_len == 0) break; } if (prefix_entry->prefix_len != 0) return -1; prefix_entry->prefix_len = prefix_len / 8; memcpy((char *)&prefix_entry->ip_addr, (char *)ip_addr, sizeof(struct ipv6_addr)); inet_ntop(AF_INET6, &prefix_entry->ip_addr.addr8, addr_str, sizeof(addr_str)); LOG_DEBUG("IPv6: add prefix IP addr %s", addr_str); /* Put it on the list on head of the list. */ if (context->addr_list != NULL) prefix_entry->next = context->addr_list; else prefix_entry->next = NULL; context->addr_list = prefix_entry; return 0; } void ipv6_rx_packet(struct ipv6_context *context, u16_t len) { struct ipv6_hdr *ipv6; u16_t protocol; if (!context->ustack) { LOG_WARN("ipv6 rx pkt ipv6_context = %p ustack = %p", context, context->ustack); return; } ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; /* Make sure it's an IPv6 packet */ if ((ipv6->ipv6_version_fc & 0xf0) != IPV6_VERSION) { /* It's not an IPv6 packet. Drop it. */ LOG_WARN("IPv6 version 0x%x not IPv6", ipv6->ipv6_version_fc); return; } protocol = ipv6_process_rx(ipv6); switch (protocol) { case IPPROTO_ICMPV6: ipv6_icmp_rx(context); break; case IPPROTO_UDP: /* Indicate to UDP processing code */ ipv6_udp_rx(context); break; default: break; } } void ipv6_mc_init_dest_mac(struct eth_hdr *eth, struct ipv6_hdr *ipv6) { int i; /* * Initialize address mapping of IPV6 Multicast to multicast MAC * address per RFC 2464. * * An IPv6 packet with a multicast destination address DST, consisting * of the sixteen octets DST[1] through DST[16], is transmitted to the * Ethernet multicast address whose first two octets are the value 3333 * hexadecimal and whose last four octets are the last four octets of * DST. * * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * |0 0 1 1 0 0 1 1|0 0 1 1 0 0 1 1| * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | DST[13] | DST[14] | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | DST[15] | DST[16] | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ */ eth->dest_mac.addr[0] = 0x33; eth->dest_mac.addr[1] = 0x33; for (i = 0; i < 4; i++) eth->dest_mac.addr[2 + i] = ipv6->ipv6_dst.addr8[12 + i]; } int ipv6_autoconfig(struct ipv6_context *context) { return ipv6_discover_address(context); } int ipv6_discover_address(struct ipv6_context *context) { struct eth_hdr *eth = (struct eth_hdr *)context->ustack->data_link_layer; struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct icmpv6_hdr *icmp = (struct icmpv6_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); int rc = 0; /* Retrieve tx buffer */ if (eth == NULL || ipv6 == NULL) return -EAGAIN; /* Setup IPv6 All Routers Multicast address : ff02::2 */ memset((char *)&ipv6->ipv6_dst, 0, sizeof(struct ipv6_addr)); ipv6->ipv6_dst.addr8[0] = 0xff; ipv6->ipv6_dst.addr8[1] = 0x02; ipv6->ipv6_dst.addr8[15] = 0x02; ipv6->ipv6_hop_limit = 255; /* Initialize MAC header based on destination MAC address */ ipv6_mc_init_dest_mac(eth, ipv6); ipv6->ipv6_nxt_hdr = IPPROTO_ICMPV6; icmp->icmpv6_type = ICMPV6_RTR_SOL; icmp->icmpv6_code = 0; icmp->icmpv6_data = 0; icmp->icmpv6_cksum = 0; ipv6_icmp_init_link_option(context, (struct icmpv6_opt_link_addr *)((u8_t *)icmp + sizeof(struct icmpv6_hdr)), IPV6_ICMP_OPTION_SRC_ADDR); ipv6->ipv6_plen = HOST_TO_NET16((sizeof(struct icmpv6_hdr) + sizeof(struct icmpv6_opt_link_addr))); memcpy((char *)&ipv6->ipv6_src, (char *)&context->link_local_addr, sizeof(struct ipv6_addr)); icmp->icmpv6_cksum = 0; LOG_DEBUG("IPv6: Send rtr sol"); ipv6_send(context, (u8_t *) icmp - (u8_t *) eth + sizeof(struct icmpv6_hdr) + sizeof(struct icmpv6_opt_link_addr)); return rc; } u16_t ipv6_process_rx(struct ipv6_hdr *ipv6) { return ipv6->ipv6_nxt_hdr; } int ipv6_send(struct ipv6_context *context, u16_t packet_len) { struct eth_hdr *eth = (struct eth_hdr *)context->ustack->data_link_layer; struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; ipv6_setup_hdrs(context, eth, ipv6, packet_len); return iscsiL2Send(context, packet_len); } void ipv6_send_udp_packet(struct ipv6_context *context, u16_t packet_len) { struct eth_hdr *eth = (struct eth_hdr *)context->ustack->data_link_layer; struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct udp_hdr *udp = (struct udp_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); ipv6->ipv6_nxt_hdr = IPPROTO_UDP; ipv6->ipv6_plen = HOST_TO_NET16(packet_len - ((u8_t *)udp - (u8_t *)eth)); udp->chksum = 0; /* * We only use UDP packet for DHCPv6. The source address is always * link-local address. */ ipv6->ipv6_src.addr[0] = 0; /* Hop limit is always 1 for DHCPv6 packet. */ ipv6->ipv6_hop_limit = 1; ipv6_send(context, packet_len); } void ipv6_setup_hdrs(struct ipv6_context *context, struct eth_hdr *eth, struct ipv6_hdr *ipv6, u16_t packet_len) { struct ipv6_addr *our_address; /* VLAN will be taken cared of in the nic layer */ eth->len_type = HOST_TO_NET16(LAYER2_TYPE_IPV6); memcpy((char *)ð->src_mac, (char *)&context->mac_addr, sizeof(struct mac_address)); /* Put the traffic class into the packet. */ memset(&ipv6->ipv6_version_fc, 0, sizeof(u32_t)); ipv6->ipv6_version_fc = IPV6_VERSION; if (ipv6->ipv6_hop_limit == 0) ipv6->ipv6_hop_limit = context->hop_limit; if (ipv6->ipv6_src.addr[0] == 0) { /* Need to initialize source IP address. */ our_address = ipv6_our_address(context); if (our_address != NULL) { /* Assume that caller has filled in the destination IP address */ memcpy((char *)&ipv6->ipv6_src, (char *)our_address, sizeof(struct ipv6_addr)); } } ipv6_insert_protocol_chksum(ipv6); } static void ipv6_insert_protocol_chksum(struct ipv6_hdr *ipv6) { u32_t sum; u16_t *ptr; u16_t *protocol_data_ptr; int i; u16_t protocol_data_len; u16_t checksum; /* * This routine assumes that there is no extension header. This driver * doesn't user extension header to keep driver small and simple. * * Pseudo check consists of the following: * SRC IP, DST IP, Protocol Data Length, and Next Header. */ sum = 0; ptr = (u16_t *)&ipv6->ipv6_src; for (i = 0; i < sizeof(struct ipv6_addr); i++) { sum += HOST_TO_NET16(*ptr); ptr++; } /* Keep track where the layer header is */ protocol_data_ptr = ptr; protocol_data_len = HOST_TO_NET16(ipv6->ipv6_plen); sum += protocol_data_len; sum += ipv6->ipv6_nxt_hdr; /* Sum now contains sum of IPv6 pseudo header. Let's add the data streams. */ if (protocol_data_len & 1) { /* Length of data is odd */ *((u8_t *) ptr + protocol_data_len) = 0; protocol_data_len++; } for (i = 0; i < protocol_data_len / 2; i++) { sum += HOST_TO_NET16(*ptr); ptr++; } sum = (sum >> 16) + (sum & 0xffff); sum += (sum >> 16); sum &= 0xffff; checksum = (u16_t) (~sum); checksum = HOST_TO_NET16(checksum); switch (ipv6->ipv6_nxt_hdr) { case IPPROTO_ICMPV6: /* Insert correct ICMPv6 checksum */ ((struct icmpv6_hdr *)(protocol_data_ptr))->icmpv6_cksum = checksum; break; case IPPROTO_UDP: /* Insert correct UDP checksum */ ((struct udp_hdr *)protocol_data_ptr)->chksum = checksum; break; default: break; } } int ipv6_is_it_our_link_local_address(struct ipv6_context *context, struct ipv6_addr *ip_addr) { u8_t *test_addr = (u8_t *) ip_addr->addr8; u8_t test_remainder; if (test_addr[0] != context->link_local_addr.addr8[0]) return FALSE; test_remainder = (test_addr[1] & 0xC0) >> 6; if (test_remainder != 2) return FALSE; return TRUE; } static int ipv6_is_it_our_address(struct ipv6_context *context, struct ipv6_addr *ipv6_addr) { struct ipv6_prefix_entry *ipv6_prefix; for (ipv6_prefix = context->addr_list; ipv6_prefix != NULL; ipv6_prefix = ipv6_prefix->next) { if (IPV6_ARE_ADDR_EQUAL(&ipv6_prefix->ip_addr, ipv6_addr)) return TRUE; } return FALSE; } struct ipv6_addr *ipv6_our_address(struct ipv6_context *context) { return &context->link_local_addr; } int ipv6_ip_in_arp_table(struct ipv6_context *context, struct ipv6_addr *ip_addr, struct mac_address *mac_addr) { struct ipv6_arp_entry *arp_entry; int i; for (i = 0; i < UIP_ARPTAB_SIZE; i++) { arp_entry = &context->ipv6_arp_table[i]; if (IPV6_ARE_ADDR_EQUAL(&arp_entry->ip_addr, ip_addr)) { memcpy((char *)mac_addr, &arp_entry->mac_addr, sizeof(struct mac_address)); return 1; } } return 0; } struct ipv6_addr *ipv6_find_longest_match(struct ipv6_context *context, struct ipv6_addr *ip_addr) { struct ipv6_prefix_entry *ipv6_prefix; struct ipv6_prefix_entry *best_match = NULL; int longest_len = -1; int len; for (ipv6_prefix = context->addr_list; ipv6_prefix != NULL; ipv6_prefix = ipv6_prefix->next) { if (!IPV6_IS_ADDR_LINKLOCAL(&ipv6_prefix->ip_addr)) { len = best_match_bufcmp((u8_t *)&ipv6_prefix->ip_addr, (u8_t *)ip_addr, sizeof(struct ipv6_addr)); if (len > longest_len) { best_match = ipv6_prefix; longest_len = len; } } } if (best_match) return &best_match->ip_addr; return NULL; } void ipv6_arp_out(struct ipv6_context *context, int *uip_len) { /* Empty routine */ } static void ipv6_update_arp_table(struct ipv6_context *context, struct ipv6_addr *ip_addr, struct mac_address *mac_addr) { struct ipv6_arp_entry *arp_entry; int i; struct ipv6_arp_entry *ipv6_arp_table = context->ipv6_arp_table; LOG_DEBUG("IPv6: Neighbor update"); /* * Walk through the ARP mapping table and try to find an entry to * update. If none is found, the IP -> MAC address mapping is * inserted in the ARP table. */ for (i = 0; i < UIP_ARPTAB_SIZE; i++) { arp_entry = &ipv6_arp_table[i]; /* Only check those entries that are actually in use. */ if (arp_entry->ip_addr.addr[0] != 0) { /* * Check if the source IP address of the incoming * packet matches the IP address in this ARP table * entry. */ if (IPV6_ARE_ADDR_EQUAL(&arp_entry->ip_addr, ip_addr)) { /* An old entry found, update this and return */ memcpy((char *)&arp_entry->mac_addr, (char *)mac_addr, sizeof(struct mac_address)); arp_entry->time = context->arptime; return; } } } /* * If we get here, no existing ARP table entry was found, so we * create one. * * First, we try to find an unused entry in the ARP table. */ for (i = 0; i < UIP_ARPTAB_SIZE; i++) { arp_entry = &ipv6_arp_table[i]; if (arp_entry->ip_addr.addr[0] == 0) break; } if (i == UIP_ARPTAB_SIZE) return; /* Index j is the entry that is least used */ arp_entry = &ipv6_arp_table[i]; memcpy((char *)&arp_entry->ip_addr, (char *)ip_addr, sizeof(struct ipv6_addr)); memcpy((char *)&arp_entry->mac_addr, (char *)mac_addr, sizeof(struct mac_address)); arp_entry->time = context->arptime; } /* DestIP is intact */ int ipv6_send_nd_solicited_packet(struct ipv6_context *context, struct eth_hdr *eth, struct ipv6_hdr *ipv6) { struct icmpv6_hdr *icmp; int pkt_len = 0; struct ipv6_addr *longest_match_addr; char addr_str[INET6_ADDRSTRLEN]; ipv6->ipv6_nxt_hdr = IPPROTO_ICMPV6; /* Depending on the IPv6 address of the target, we'll need to determine whether we use the assigned IPv6 address/RA or the link local address */ /* Use Link-local as source address */ if (ipv6_is_it_our_link_local_address(context, &ipv6->ipv6_dst) == TRUE) { LOG_DEBUG("IPv6: NS using link local"); memcpy((char *)&ipv6->ipv6_src, (char *)&context->link_local_addr, sizeof(struct ipv6_addr)); } else { longest_match_addr = ipv6_find_longest_match(context, &ipv6->ipv6_dst); if (longest_match_addr) { LOG_DEBUG("IPv6: NS using longest match addr"); memcpy((char *)&ipv6->ipv6_src, (char *)longest_match_addr, sizeof(struct ipv6_addr)); } else { LOG_DEBUG("IPv6: NS using link local instead"); memcpy((char *)&ipv6->ipv6_src, (char *)&context->link_local_addr, sizeof(struct ipv6_addr)); } } icmp = (struct icmpv6_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); inet_ntop(AF_INET6, &ipv6->ipv6_src.addr8, addr_str, sizeof(addr_str)); LOG_DEBUG("IPv6: NS host IP addr: %s", addr_str); /* * Destination IP address to be resolved is after the ICMPv6 * header. */ memcpy((char *)((u8_t *)icmp + sizeof(struct icmpv6_hdr)), (char *)&ipv6->ipv6_dst, sizeof(struct ipv6_addr)); /* * Destination IP in the IPv6 header contains solicited-node multicast * address corresponding to the target address. * * ff02::01:ffxx:yyzz. Where xyz are least * significant of 24-bit MAC address. */ memset((char *)&ipv6->ipv6_dst, 0, sizeof(struct ipv6_addr) - 3); ipv6->ipv6_dst.addr8[0] = 0xff; ipv6->ipv6_dst.addr8[1] = 0x02; ipv6->ipv6_dst.addr8[11] = 0x01; ipv6->ipv6_dst.addr8[12] = 0xff; ipv6_mc_init_dest_mac(eth, ipv6); ipv6->ipv6_hop_limit = 255; icmp->icmpv6_type = ICMPV6_NEIGH_SOL; icmp->icmpv6_code = 0; icmp->icmpv6_data = 0; icmp->icmpv6_cksum = 0; ipv6_icmp_init_link_option(context, (struct icmpv6_opt_link_addr *)((u8_t *)icmp + sizeof(struct icmpv6_hdr) + sizeof(struct ipv6_addr)), IPV6_ICMP_OPTION_SRC_ADDR); ipv6->ipv6_plen = HOST_TO_NET16((sizeof(struct icmpv6_hdr) + sizeof(struct icmpv6_opt_link_addr) + sizeof(struct ipv6_addr))); /* Total packet size */ pkt_len = (u8_t *) icmp - (u8_t *) eth + sizeof(struct icmpv6_hdr) + sizeof(struct icmpv6_opt_link_addr) + sizeof(struct ipv6_addr); ipv6_setup_hdrs(context, eth, ipv6, pkt_len); return pkt_len; } static void ipv6_icmp_init_link_option(struct ipv6_context *context, struct icmpv6_opt_link_addr *link_opt, u8_t type) { link_opt->hdr.type = type; link_opt->hdr.len = sizeof(struct icmpv6_opt_link_addr) / 8; memcpy((char *)&link_opt->link_addr, (char *)&context->mac_addr, sizeof(struct mac_address)); } static void ipv6_icmp_rx(struct ipv6_context *context) { struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct icmpv6_hdr *icmp = (struct icmpv6_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); uip_icmp_echo_hdr_t *icmp_echo_hdr = (uip_icmp_echo_hdr_t *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); switch (icmp->icmpv6_type) { case ICMPV6_RTR_ADV: ipv6_icmp_handle_router_adv(context); break; case ICMPV6_NEIGH_SOL: ipv6_icmp_handle_nd_sol(context); break; case ICMPV6_NEIGH_ADV: ipv6_icmp_handle_nd_adv(context); break; case ICMPV6_ECHO_REQUEST: /* Response with ICMP reply */ ipv6_icmp_handle_echo_request(context); break; case ICMPV6_ECHO_REPLY: /* Handle ICMP reply */ process_icmp_packet(icmp_echo_hdr, context->ustack); break; default: break; } } static void ipv6_icmp_handle_router_adv(struct ipv6_context *context) { struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct icmpv6_router_advert *icmp = (struct icmpv6_router_advert *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); struct icmpv6_opt_hdr *icmp_opt; u16_t opt_len; u16_t len; char addr_str[INET6_ADDRSTRLEN]; if (context->flags & IPV6_FLAGS_ROUTER_ADV_RECEIVED) return; opt_len = HOST_TO_NET16(ipv6->ipv6_plen) - sizeof(struct icmpv6_router_advert); icmp_opt = (struct icmpv6_opt_hdr *)((u8_t *)icmp + sizeof(struct icmpv6_router_advert)); len = 0; while (len < opt_len) { icmp_opt = (struct icmpv6_opt_hdr *)((u8_t *)icmp + sizeof(struct icmpv6_router_advert) + len); switch (icmp_opt->type) { case IPV6_ICMP_OPTION_PREFIX: ipv6_icmp_process_prefix(context, (struct icmpv6_opt_prefix *)icmp_opt); context->flags |= IPV6_FLAGS_ROUTER_ADV_RECEIVED; break; default: break; } len += icmp_opt->len * 8; } if (context->flags & IPV6_FLAGS_ROUTER_ADV_RECEIVED) { LOG_DEBUG("IPv6: RTR ADV nd_ra_flags = 0x%x", icmp->nd_ra_flags_reserved); if (icmp->nd_ra_curhoplimit > 0) context->hop_limit = icmp->nd_ra_curhoplimit; if (icmp->nd_ra_flags_reserved & IPV6_RA_MANAGED_FLAG) context->flags |= IPV6_FLAGS_MANAGED_ADDR_CONFIG; if (icmp->nd_ra_flags_reserved & IPV6_RA_CONFIG_FLAG) context->flags |= IPV6_FLAGS_OTHER_STATEFUL_CONFIG; if (icmp->nd_ra_router_lifetime != 0) { /* There is a default router. */ if (context->ustack->router_autocfg != IPV6_RTR_AUTOCFG_OFF) memcpy( (char *)&context->default_router, (char *)&ipv6->ipv6_src, sizeof(struct ipv6_addr)); inet_ntop(AF_INET6, &context->default_router, addr_str, sizeof(addr_str)); LOG_DEBUG("IPv6: Got default router IP addr: %s", addr_str); } } } static void ipv6_icmp_process_prefix(struct ipv6_context *context, struct icmpv6_opt_prefix *icmp_prefix) { struct ipv6_addr addr; char addr_str[INET6_ADDRSTRLEN]; /* we only process on-link address info */ if (!(icmp_prefix->flags & ICMPV6_OPT_PREFIX_FLAG_ON_LINK)) return; /* * We only process prefix length of 64 since our Identifier is 64-bit */ if (icmp_prefix->prefix_len == 64) { /* Copy 64-bit from the local-link address to create IPv6 address */ memcpy((char *)&addr, (char *)&icmp_prefix->prefix, 8); memcpy((char *)&addr.addr8[8], &context->link_local_addr.addr8[8], 8); inet_ntop(AF_INET6, &addr, addr_str, sizeof(addr_str)); LOG_DEBUG("IPv6: Got RA ICMP option IP addr: %s", addr_str); ipv6_add_prefix_entry(context, &addr, 64); } } static void ipv6_icmp_handle_nd_adv(struct ipv6_context *context) { struct eth_hdr *eth = (struct eth_hdr *)context->ustack->data_link_layer; struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct icmpv6_hdr *icmp = (struct icmpv6_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); struct icmpv6_opt_link_addr *link_opt = (struct icmpv6_opt_link_addr *)((u8_t *)icmp + sizeof(struct icmpv6_hdr) + sizeof(struct ipv6_addr)); struct ipv6_addr *tar_addr6; char addr_str[INET6_ADDRSTRLEN]; /* Added the multicast check for ARP table update */ /* Should we qualify for only our host's multicast and our link_local_multicast?? */ LOG_DEBUG("IPv6: Handle nd adv"); if ((ipv6_is_it_our_address(context, &ipv6->ipv6_dst) == TRUE) || (memcmp((char *)&context->link_local_multi, (char *)&ipv6->ipv6_dst, sizeof(struct ipv6_addr)) == 0) || (memcmp((char *)&context->multi, (char *)&ipv6->ipv6_dst, sizeof(struct ipv6_addr)) == 0)) { /* * This is an ARP reply for our addresses. Let's update the * ARP table. */ ipv6_update_arp_table(context, &ipv6->ipv6_src, ð->src_mac); /* Now check for the target address option and update that as well */ if (link_opt->hdr.type == IPV6_ICMP_OPTION_TAR_ADDR) { tar_addr6 = (struct ipv6_addr *)((u8_t *)icmp + sizeof(struct icmpv6_hdr)); LOG_DEBUG("IPV6: Target MAC " "%02x:%02x:%02x:%02x:%02x:%02x", link_opt->link_addr[0], link_opt->link_addr[1], link_opt->link_addr[2], link_opt->link_addr[3], link_opt->link_addr[4], link_opt->link_addr[5]); inet_ntop(AF_INET6, &tar_addr6->addr8, addr_str, sizeof(addr_str)); LOG_DEBUG("IPv6: Target IP addr %s", addr_str); ipv6_update_arp_table(context, tar_addr6, (struct mac_address *)link_opt->link_addr); } } } static void ipv6_icmp_handle_nd_sol(struct ipv6_context *context) { struct eth_hdr *eth = (struct eth_hdr *)context->ustack->data_link_layer; struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct icmpv6_hdr *icmp = (struct icmpv6_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); struct icmpv6_opt_link_addr *link_opt = (struct icmpv6_opt_link_addr *)((u8_t *)icmp + sizeof(struct icmpv6_hdr) + sizeof(struct ipv6_addr)); int icmpv6_opt_len = 0; struct ipv6_addr tmp; struct ipv6_addr *longest_match_addr, *tar_addr6; LOG_DEBUG("IPv6: Handle nd sol"); if ((memcmp((char *)&context->mac_addr, (char *)ð->dest_mac, sizeof(struct mac_address)) != 0) && (iscsiL2IsOurMcAddr(context, (struct mac_address *)ð->dest_mac) == FALSE)) { /* This packet is not for us to handle */ LOG_DEBUG("IPv6: MAC not addressed to us " "%02x:%02x:%02x:%02x:%02x:%02x", eth->dest_mac.addr[0], eth->dest_mac.addr[1], eth->dest_mac.addr[2], eth->dest_mac.addr[3], eth->dest_mac.addr[4], eth->dest_mac.addr[5]); return; } /* Also check for the icmpv6_data before generating the reply */ if (ipv6_is_it_our_address(context, (struct ipv6_addr *) ((u8_t *) icmp + sizeof(struct icmpv6_hdr))) == FALSE) { /* This packet is not for us to handle */ LOG_DEBUG("IPv6: IP not addressed to us"); return; } /* Copy source MAC to Destination MAC */ memcpy((char *)ð->dest_mac, (char *)ð->src_mac, sizeof(struct mac_address)); /* Dest IP contains source IP */ memcpy((char *)&tmp, (char *)&ipv6->ipv6_dst, sizeof(struct ipv6_addr)); memcpy((char *)&ipv6->ipv6_dst, (char *)&ipv6->ipv6_src, sizeof(struct ipv6_addr)); /* Examine the Neighbor Solicitation ICMPv6 target address field. If target address exist, use that to find best match src address for the reply */ if (link_opt->hdr.type == IPV6_ICMP_OPTION_SRC_ADDR) { tar_addr6 = (struct ipv6_addr *)((u8_t *)icmp + sizeof(struct icmpv6_hdr)); if (ipv6_is_it_our_link_local_address(context, tar_addr6) == TRUE) { LOG_DEBUG("IPv6: NA using link local"); memcpy((char *)&ipv6->ipv6_src, (char *)&context->link_local_addr, sizeof(struct ipv6_addr)); } else { longest_match_addr = ipv6_find_longest_match(context, tar_addr6); if (longest_match_addr) { LOG_DEBUG("IPv6: NA using longest match addr"); memcpy((char *)&ipv6->ipv6_src, (char *)longest_match_addr, sizeof(struct ipv6_addr)); } else { LOG_DEBUG("IPv6: NA using link local instead"); memcpy((char *)&ipv6->ipv6_src, (char *)&context->link_local_addr, sizeof(struct ipv6_addr)); } } } else { /* No target link address, just use whatever it sent to us */ LOG_DEBUG("IPv6: NA use dst addr"); memcpy((char *)&ipv6->ipv6_src, (char *)&tmp, sizeof(struct ipv6_addr)); } ipv6->ipv6_hop_limit = 255; icmp->icmpv6_type = ICMPV6_NEIGH_ADV; icmp->icmpv6_code = 0; icmp->icmpv6_data = 0; icmp->icmpv6_cksum = 0; icmp->data.icmpv6_un_data8[0] = IPV6_NA_FLAG_SOLICITED | IPV6_NA_FLAG_OVERRIDE; memcpy((char *)((u8_t *)icmp + sizeof(struct icmpv6_hdr)), (char *)&ipv6->ipv6_src, sizeof(struct ipv6_addr)); /* Add the target link address option only for all solicitation */ ipv6_icmp_init_link_option(context, (struct icmpv6_opt_link_addr *)((u8_t *)icmp + sizeof(struct icmpv6_hdr) + sizeof(struct ipv6_addr)), IPV6_ICMP_OPTION_TAR_ADDR); icmpv6_opt_len = sizeof(struct icmpv6_opt_link_addr); ipv6->ipv6_plen = HOST_TO_NET16((sizeof(struct icmpv6_hdr) + icmpv6_opt_len + sizeof(struct ipv6_addr))); LOG_DEBUG("IPv6: Send nd adv"); ipv6_send(context, (u8_t *) icmp - (u8_t *) eth + sizeof(struct icmpv6_hdr) + sizeof(struct icmpv6_opt_link_addr) + sizeof(struct ipv6_addr)); return; } static void ipv6_icmp_handle_echo_request(struct ipv6_context *context) { struct eth_hdr *eth = (struct eth_hdr *)context->ustack->data_link_layer; struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct icmpv6_hdr *icmp = (struct icmpv6_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); struct ipv6_addr temp; /* Copy source MAC to Destination MAC */ memcpy((char *)ð->dest_mac, (char *)ð->src_mac, sizeof(struct mac_address)); memcpy((char *)&temp, (char *)&ipv6->ipv6_dst, sizeof(struct ipv6_addr)); /* Dest IP contains source IP */ memcpy((char *)&ipv6->ipv6_dst, (char *)&ipv6->ipv6_src, sizeof(struct ipv6_addr)); /* Use Link-local as source address */ memcpy((char *)&ipv6->ipv6_src, (char *)&temp, sizeof(struct ipv6_addr)); ipv6->ipv6_hop_limit = context->hop_limit; icmp->icmpv6_type = ICMPV6_ECHO_REPLY; icmp->icmpv6_code = 0; icmp->icmpv6_cksum = 0; LOG_DEBUG("IPv6: Send echo reply"); ipv6_send(context, (u8_t *) icmp - (u8_t *) eth + sizeof(struct ipv6_hdr) + HOST_TO_NET16(ipv6->ipv6_plen)); return; } void ipv6_set_ip_params(struct ipv6_context *context, struct ipv6_addr *src_ip, u8_t prefix_len, struct ipv6_addr *default_gateway, struct ipv6_addr *linklocal) { if (!(IPV6_IS_ADDR_UNSPECIFIED(src_ip))) { ipv6_add_prefix_entry(context, src_ip, prefix_len); /* Create the multi_dest address */ memset(&context->multi_dest, 0, sizeof(struct ipv6_addr)); context->multi_dest.addr8[0] = 0xff; context->multi_dest.addr8[1] = 0x02; context->multi_dest.addr8[11] = 0x01; context->multi_dest.addr8[12] = 0xff; context->multi_dest.addr8[13] = src_ip->addr8[13]; context->multi_dest.addr16[7] = src_ip->addr16[7]; /* Create the multi address */ memset(&context->multi, 0, sizeof(struct ipv6_addr)); context->multi.addr8[0] = 0xfc; context->multi.addr8[2] = 0x02; context->multi.addr16[7] = src_ip->addr16[7]; } if (!(IPV6_IS_ADDR_UNSPECIFIED(default_gateway))) { /* Override the default gateway addr */ memcpy((char *)&context->default_router, (char *)default_gateway, sizeof(struct ipv6_addr)); ipv6_add_prefix_entry(context, default_gateway, prefix_len); } if (!(IPV6_IS_ADDR_UNSPECIFIED(linklocal))) { /* Override the linklocal addr */ memcpy((char *)&context->link_local_addr, (char *)linklocal, sizeof(struct ipv6_addr)); context->link_local_multi.addr8[0] = 0xff; context->link_local_multi.addr8[1] = 0x02; context->link_local_multi.addr8[11] = 0x01; context->link_local_multi.addr8[12] = 0xff; context->link_local_multi.addr8[13] |= context->link_local_addr.addr8[13]; context->link_local_multi.addr16[7] = context->link_local_addr.addr16[7]; /* Default Prefix length is 64 */ /* Add Link local address to the head of the ipv6 address list */ ipv6_add_prefix_entry(context, &context->link_local_addr, 64); } } int ipv6_get_source_ip_addrs(struct ipv6_context *context, struct ipv6_addr_entry *addr_list) { struct ipv6_prefix_entry *ipv6_prefix; int i; for (i = 0, ipv6_prefix = context->addr_list; ipv6_prefix != NULL; ipv6_prefix = ipv6_prefix->next) { memcpy((char *)&addr_list->ip_addr, (char *)&ipv6_prefix->ip_addr, sizeof(struct ipv6_addr)); addr_list->prefix_len = ipv6_prefix->prefix_len * 8; i++; addr_list++; } return i; } int ipv6_get_default_router_ip_addrs(struct ipv6_context *context, struct ipv6_addr *ip_addr) { /* This is a default router. */ memcpy((char *)ip_addr, (char *)&context->default_router, sizeof(struct ipv6_addr)); return 1; } static void ipv6_udp_rx(struct ipv6_context *context) { struct eth_hdr *eth = (struct eth_hdr *)context->ustack->data_link_layer; struct ipv6_hdr *ipv6 = (struct ipv6_hdr *)context->ustack->network_layer; struct udp_hdr *udp = (struct udp_hdr *)((u8_t *)ipv6 + sizeof(struct ipv6_hdr)); struct dhcpv6_context *dhcpv6c; /* * We only care about DHCPv6 packets from the DHCPv6 server. We drop * all others. */ if (!(context->flags & IPV6_FLAGS_DISABLE_DHCPV6)) { if ((udp->src_port == HOST_TO_NET16(DHCPV6_SERVER_PORT)) && (udp->dest_port == HOST_TO_NET16(DHCPV6_CLIENT_PORT))) { dhcpv6c = context->dhcpv6_context; dhcpv6c->eth = eth; dhcpv6c->ipv6 = ipv6; dhcpv6c->udp = udp; ipv6_udp_handle_dhcp(dhcpv6c); } } } struct mac_address *ipv6_get_link_addr(struct ipv6_context *context) { return &context->mac_addr; } u16_t ipv6_do_stateful_dhcpv6(struct ipv6_context *context, u32_t flags) { u16_t task = 0; u16_t ra_flags; ra_flags = context->flags & (IPV6_FLAGS_MANAGED_ADDR_CONFIG | IPV6_FLAGS_OTHER_STATEFUL_CONFIG); if (!(context->flags & IPV6_FLAGS_ROUTER_ADV_RECEIVED)) { LOG_DEBUG("IPv6: There is no IPv6 router on the network"); ra_flags |= (IPV6_FLAGS_MANAGED_ADDR_CONFIG | IPV6_FLAGS_OTHER_STATEFUL_CONFIG); } if ((flags & ISCSI_FLAGS_DHCP_TCPIP_CONFIG) && (ra_flags & IPV6_FLAGS_MANAGED_ADDR_CONFIG)) task |= DHCPV6_TASK_GET_IP_ADDRESS; if ((flags & ISCSI_FLAGS_DHCP_ISCSI_CONFIG) && (ra_flags & IPV6_FLAGS_OTHER_STATEFUL_CONFIG)) task |= DHCPV6_TASK_GET_OTHER_PARAMS; LOG_DEBUG("IPv6: Stateful flags = 0x%x, ra_flags = 0x%x, task = 0x%x", flags, ra_flags, task); return task; } void ipv6_add_solit_node_address(struct ipv6_context *context, struct ipv6_addr *ip_addr) { struct mac_address mac_addr; /* * Add Solicited Node Multicast Address for statically configured IPv6 * address. */ mac_addr.addr[0] = 0x33; mac_addr.addr[1] = 0x33; mac_addr.addr[2] = 0xff; mac_addr.addr[3] = ip_addr->addr8[13]; mac_addr.addr[4] = ip_addr->addr8[14]; mac_addr.addr[5] = ip_addr->addr8[15]; iscsiL2AddMcAddr(context, (struct mac_address *)&mac_addr); } void ipv6_cfg_link_local_addr(struct ipv6_context *context, struct ipv6_addr *ip_addr) { memcpy((char *)&context->link_local_addr, (char *)ip_addr, sizeof(struct ipv6_addr)); } void ipv6_disable_dhcpv6(struct ipv6_context *context) { context->flags |= IPV6_FLAGS_DISABLE_DHCPV6; } open-iscsi-2.0.874/iscsiuio/src/uip/ipv6.h000066400000000000000000000261151277325716400202400ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai (eddie.wai@broadcom.com) * Based on Kevin Tran's iSCSI boot code * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ipv6.h - This file contains macro definitions pertaining to IPv6. * * RFC 2460 : IPv6 Specification. * RFC 2373 : IPv6 Addressing Architecture. * RFC 2462 : IPv6 Stateless Address Autoconfiguration. * RFC 2464 : Transmission of IPv6 Packets over Ethernet Networks. * */ #ifndef __IPV6_H__ #define __IPV6_H__ #include "ipv6_ndpc.h" #define FALSE 0 #define TRUE 1 #define LINK_LOCAL_PREFIX_LENGTH 2 #define LAYER2_HEADER_LENGTH 14 #define LAYER2_VLAN_HEADER_LENGTH 16 #define LAYER2_TYPE_IPV6 0x86dd struct ipv6_addr { union { u8_t addr8[16]; u16_t addr16[8]; u32_t addr[4]; }; }; struct udp_hdr { u16_t src_port; u16_t dest_port; u16_t length; u16_t chksum; }; struct mac_address { union { u8_t addr[6]; struct { u16_t first_2_bytes; u32_t last_4_bytes; } __attribute__ ((packed)); }; }; #define HOST_TO_NET16(a) htons(a) #define HOST_TO_NET32(a) htonl(a) #define NET_TO_HOST16(a) ntohs(a) /* * Local definition for masks */ #define IPV6_MASK0 { { { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 } } } #define IPV6_MASK32 { { { 0xff, 0xff, 0xff, 0xff, 0x00, 0x00, 0x00, 0x00, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 } } } #define IPV6_MASK64 { { { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 } } } #define IPV6_MASK96 { { { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, \ 0xff, 0xff, 0xff, 0xff, 0x00, 0x00, 0x00, 0x00 } } } #define IPV6_MASK128 { { { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, \ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } } } #ifdef BIG_ENDIAN #define IPV6_ADDR_INT32_ONE 1 #define IPV6_ADDR_INT32_TWO 2 #define IPV6_ADDR_INT32_MNL 0xff010000 #define IPV6_ADDR_INT32_MLL 0xff020000 #define IPV6_ADDR_INT32_SMP 0x0000ffff #define IPV6_ADDR_INT16_ULL 0xfe80 #define IPV6_ADDR_INT16_USL 0xfec0 #define IPV6_ADDR_INT16_MLL 0xff02 #else /* LITTE ENDIAN */ #define IPV6_ADDR_INT32_ONE 0x01000000 #define IPV6_ADDR_INT32_TWO 0x02000000 #define IPV6_ADDR_INT32_MNL 0x000001ff #define IPV6_ADDR_INT32_MLL 0x000002ff #define IPV6_ADDR_INT32_SMP 0xffff0000 #define IPV6_ADDR_INT16_ULL 0x80fe #define IPV6_ADDR_INT16_USL 0xc0fe #define IPV6_ADDR_INT16_MLL 0x02ff #endif /* * Definition of some useful macros to handle IP6 addresses */ #define IPV6_ADDR_ANY_INIT \ { { { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 } } } #define IPV6_ADDR_LOOPBACK_INIT \ { { { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01 } } } #define IPV6_ADDR_NODELOCAL_ALLNODES_INIT \ { { { 0xff, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01 } } } #define IPV6_ADDR_INTFACELOCAL_ALLNODES_INIT \ { { { 0xff, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01 } } } #define IPV6_ADDR_LINKLOCAL_ALLNODES_INIT \ { { { 0xff, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01 } } } #define IPV6_ADDR_LINKLOCAL_ALLROUTERS_INIT \ { { { 0xff, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02 } } } #define IPV6_ARE_ADDR_EQUAL(a, b) \ (memcmp((char *)a, (char *)b, sizeof(struct ipv6_addr)) == 0) /* Unspecified IPv6 address */ #define IPV6_IS_ADDR_UNSPECIFIED(a) \ ((((a)->addr[0]) == 0) && \ (((a)->addr[1]) == 0) && \ (((a)->addr[2]) == 0) && \ (((a)->addr[3]) == 0)) /* IPv6 Scope Values */ #define IPV6_ADDR_SCOPE_INTFACELOCAL 0x01 /* Node-local scope */ #define IPV6_ADDR_SCOPE_LINKLOCAL 0x02 /* Link-local scope */ #define IPV6_ADDR_SCOPE_SITELOCAL 0x05 /* Site-local scope */ #define IPV6_ADDR_SCOPE_ORGLOCAL 0x08 /* Organization-local scope */ #define IPV6_ADDR_SCOPE_GLOBAL 0x0e /* Global scope */ /* Link-local Unicast : 10-bits much be 1111111010b --> 0xfe80. */ #define IPV6_IS_ADDR_LINKLOCAL(a) \ (((a)->addr8[0] == 0xfe) && (((a)->addr8[1] & 0xc0) == 0x80)) /* Site-local Unicast : 10-bits much be 1111111011b --> 0xfec0. */ #define IPV6_IS_ADDR_SITELOCAL(a) \ (((a)->addr8[0] == 0xfe) && (((a)->addr8[1] & 0xc0) == 0xc0)) /* Multicast : 10bits much be 11111111b. Next 4 bits is flags | 4-bit scope */ #define IPV6_IS_ADDR_MULTICAST(a) ((a)->addr8[0] == 0xff) #define IPV6_ADDR_MC_SCOPE(a) ((a)->addr8[1] & 0x0f) /* Multicast Scope */ struct eth_hdr { struct mac_address dest_mac; struct mac_address src_mac; u16_t len_type; }; struct ipv6_hdr { union { struct { u32_t ipv6_flow; /* Version (4-bit) | Traffic Class (8-bit) | Flow ID (20-bit) */ u16_t ipv6_plen; /* Payload length */ u8_t ipv6_nxt_hdr; /* Next Header */ u8_t ipv6_hop_limit; /* hop limit */ } ipv6_dw1; u8_t ipv6_version_fc; /* 4 bits version, top 4 bits class */ } ipv6_ctrl; struct ipv6_addr ipv6_src; /* Source address */ struct ipv6_addr ipv6_dst; /* Destination address */ }; #define ipv6_version_fc ipv6_ctrl.ipv6_version_fc #define ipv6_flow ipv6_ctrl.ipv6_dw1.ipv6_flow #define ipv6_plen ipv6_ctrl.ipv6_dw1.ipv6_plen #define ipv6_nxt_hdr ipv6_ctrl.ipv6_dw1.ipv6_nxt_hdr #define ipv6_hop_limit ipv6_ctrl.ipv6_dw1.ipv6_hop_limit #define IPV6_VERSION 0x60 #define IPV6_VERSION_MASK 0xf0 #define IPV6_HOP_LIMIT 64 /* Length of the IP header with no next header */ #define IPV6_HEADER_LEN sizeof(struct ipv6_hdr) #ifdef BIG_ENDIAN #define IPV6_FLOWINFO_MASK 0x0fffffff /* flow info (28 bits) */ #define IPV6_FLOWLABEL_MASK 0x000fffff /* flow label (20 bits) */ #else /* LITTLE_ENDIAN */ #define IPV6_FLOWINFO_MASK 0xffffff0f /* flow info (28 bits) */ #define IPV6_FLOWLABEL_MASK 0xffff0f00 /* flow label (20 bits) */ #endif struct packet_ipv6 { struct mac_address dest_mac; struct mac_address src_mac; u16_t len_type; struct ipv6_hdr ipv6; union { struct udp_hdr udp; } layer4_prot; }; struct packet_ipv6_vlan { struct mac_address dest_mac; struct mac_address src_mac; u16_t len_type; u16_t vlan_id; struct ipv6_hdr ipv6; union { struct udp_hdr udp; } layer4_prot; }; struct ipv6_arp_entry { struct ipv6_addr ip_addr; struct mac_address mac_addr; u8_t time; }; #define IPV6_NUM_OF_ADDRESS_ENTRY 4 struct ipv6_prefix_entry { struct ipv6_prefix_entry *next; struct ipv6_addr ip_addr; u8_t prefix_len; }; struct ipv6_addr_entry { struct ipv6_addr ip_addr; u8_t prefix_len; }; struct ipv6_context { u16_t flags; #define IPV6_FLAGS_MANAGED_ADDR_CONFIG (1 << 0) #define IPV6_FLAGS_OTHER_STATEFUL_CONFIG (1 << 1) #define IPV6_FLAGS_ROUTER_ADV_RECEIVED (1 << 2) #define IPV6_FLAGS_DISABLE_DHCPV6 (1 << 3) struct mac_address mac_addr; struct ipv6_addr link_local_addr; struct ipv6_addr link_local_multi; struct ipv6_addr multi; /* For Static IPv6 only */ struct ipv6_addr multi_dest; /* For Static IPv6 only */ struct ipv6_addr default_router; struct ipv6_prefix_entry *addr_list; u8_t hop_limit; #define UIP_ARPTAB_SIZE 16 struct uip_stack *ustack; #define MAX_MCADDR_TABLE 5 struct mac_address mc_addr[MAX_MCADDR_TABLE]; u8_t arptime; struct ipv6_arp_entry ipv6_arp_table[UIP_ARPTAB_SIZE]; struct ipv6_prefix_entry ipv6_prefix_table[IPV6_NUM_OF_ADDRESS_ENTRY]; /* VLAN support */ void *dhcpv6_context; }; #define ISCSI_FLAGS_DHCP_TCPIP_CONFIG (1<<0) #define ISCSI_FLAGS_DHCP_ISCSI_CONFIG (1<<1) #define IPV6_MAX_ROUTER_SOL_DELAY 4 #define IPV6_MAX_ROUTER_SOL_RETRY 3 #define DHCPV6_CLIENT_PORT 546 #define DHCPV6_SERVER_PORT 547 /* Function prototype */ void ipv6_init(struct ndpc_state *ndp, int cfg); int ipv6_autoconfig(struct ipv6_context *context); int ipv6_discover_address(struct ipv6_context *context); struct ipv6_addr *ipv6_our_address(struct ipv6_context *context); int ipv6_ip_in_arp_table(struct ipv6_context *context, struct ipv6_addr *ipv6_addr, struct mac_address *mac_addr); void ipv6_arp_timer(struct ipv6_context *context); void ipv6_arp_out(struct ipv6_context *context, int *uip_len); int ipv6_add_prefix_entry(struct ipv6_context *context, struct ipv6_addr *ip_addr, u8_t prefix_len); void ipv6_set_ip_params(struct ipv6_context *context, struct ipv6_addr *src_ip, u8_t prefix_len, struct ipv6_addr *default_gateway, struct ipv6_addr *linklocal); void ipv6_set_host_addr(struct ipv6_context *context, struct ipv6_addr *src_ip); int ipv6_get_default_router_ip_addrs(struct ipv6_context *context, struct ipv6_addr *ip_addr); struct mac_address *ipv6_get_link_addr(struct ipv6_context *context); u16_t ipv6_do_stateful_dhcpv6(struct ipv6_context *context, u32_t flags); void ipv6_add_solit_node_address(struct ipv6_context *context, struct ipv6_addr *ip_addr); int ipv6_get_source_ip_addrs(struct ipv6_context *context, struct ipv6_addr_entry *addr_list); void ipv6_cfg_link_local_addr(struct ipv6_context *context, struct ipv6_addr *ip_addr); void ipv6_disable_dhcpv6(struct ipv6_context *context); int ipv6_send_nd_solicited_packet(struct ipv6_context *context, struct eth_hdr *eth, struct ipv6_hdr *ipv6); int ipv6_is_it_our_link_local_address(struct ipv6_context *context, struct ipv6_addr *ip_addr); void ipv6_mc_init_dest_mac(struct eth_hdr *eth, struct ipv6_hdr *ipv6); struct ipv6_addr *ipv6_find_longest_match(struct ipv6_context *context, struct ipv6_addr *ip_addr); #endif /* __IPV6_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/ipv6_ndpc.c000066400000000000000000000271471277325716400212450ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai (eddie.wai@broadcom.com) * Based on the Swedish Institute of Computer Science's * dhcpc.c code * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ipv6_ndpc.c - Top level IPv6 Network Discovery Protocol Engine (RFC4861) * */ #include #include #include #include #include #include #include "uip.h" #include "ipv6_ndpc.h" #include "timer.h" #include "pt.h" #include "debug.h" #include "logger.h" #include "nic.h" #include "nic_utils.h" #include "ipv6.h" #include "ipv6_pkt.h" #include "dhcpv6.h" const int dhcpv6_retry_timeout[DHCPV6_NUM_OF_RETRY] = { 1, 2, 4, 8 }; static PT_THREAD(handle_ndp(struct uip_stack *ustack, int force)) { struct ndpc_state *s; struct ipv6_context *ipv6c; struct dhcpv6_context *dhcpv6c = NULL; u16_t task = 0; char buf[INET6_ADDRSTRLEN]; s = ustack->ndpc; if (s == NULL) { LOG_DEBUG("NDP: Could not find ndpc state"); return PT_ENDED; } ipv6c = s->ipv6_context; if (!ipv6c) goto ndpc_state_null; dhcpv6c = s->dhcpv6_context; PT_BEGIN(&s->pt); if (s->state == NDPC_STATE_BACKGROUND_LOOP) goto ipv6_loop; if (s->state == NDPC_STATE_RTR_ADV) goto rtr_adv; /* For AUTOCFG == DHCPv6, do all For == ND, skip DHCP only and do RTR For == UNUSED/UNSPEC, do all as according to DHCP or not */ s->state = NDPC_STATE_RTR_SOL; /* try_again: */ s->ticks = CLOCK_SECOND * IPV6_MAX_ROUTER_SOL_DELAY; s->retry_count = 0; do { /* Perform router solicitation and wait for router advertisement */ LOG_DEBUG("%s: ndpc_handle send rtr sol", s->nic->log_name); ipv6_autoconfig(s->ipv6_context); timer_set(&s->timer, s->ticks); wait_rtr: s->ustack->uip_flags &= ~UIP_NEWDATA; LOG_DEBUG("%s: ndpc_handle wait for rtr adv flags=0x%x", s->nic->log_name, ipv6c->flags); PT_WAIT_UNTIL(&s->pt, uip_newdata(s->ustack) || timer_expired(&s->timer) || force); if (uip_newdata(s->ustack)) { /* Validate incoming packets Note that the uip_len is init from nic loop */ ipv6_rx_packet(ipv6c, (u16_t) uip_datalen(s->ustack)); if (ipv6c->flags & IPV6_FLAGS_ROUTER_ADV_RECEIVED) { LOG_INFO("%s: ROUTER_ADV_RECEIVED", s->nic->log_name); /* Success */ break; } else if (!timer_expired(&s->timer)) { /* Yes new data, but not what we want, check for timer expiration before bumping tick */ goto wait_rtr; } } s->retry_count++; if (s->retry_count >= IPV6_MAX_ROUTER_SOL_RETRY) /* Max router solicitation retry reached. Move to IPv6 loop (no DHCPv6) */ goto no_rtr_adv; } while (!(ipv6c->flags & IPV6_FLAGS_ROUTER_ADV_RECEIVED)); LOG_DEBUG("%s: ndpc_handle got rtr adv", s->nic->log_name); no_rtr_adv: s->state = NDPC_STATE_RTR_ADV; rtr_adv: if (!(ustack->ip_config & IPV6_CONFIG_DHCP)) goto staticv6; /* Only DHCPv6 comes here */ task = ipv6_do_stateful_dhcpv6(ipv6c, ISCSI_FLAGS_DHCP_TCPIP_CONFIG); if (task) { /* Run the DHCPv6 engine */ if (!dhcpv6c) goto ipv6_loop; dhcpv6c->dhcpv6_task = task; s->retry_count = 0; s->state = NDPC_STATE_DHCPV6_DIS; do { /* Do dhcpv6 */ dhcpv6c->timeout = dhcpv6_retry_timeout[s->retry_count]; s->ticks = CLOCK_SECOND * dhcpv6c->timeout; LOG_DEBUG("%s: ndpc_handle send dhcpv6 sol retry " "cnt=%d", s->nic->log_name, s->retry_count); dhcpv6_do_discovery(dhcpv6c); timer_set(&s->timer, s->ticks); wait_dhcp: s->ustack->uip_flags &= ~UIP_NEWDATA; PT_WAIT_UNTIL(&s->pt, uip_newdata(s->ustack) || timer_expired(&s->timer) || force); if (uip_newdata(s->ustack)) { /* Validate incoming packets Note that the uip_len is init from nic loop */ ipv6_rx_packet(ipv6c, (u16_t) uip_datalen(s->ustack)); if (dhcpv6c->dhcpv6_done == TRUE) break; else if (!timer_expired(&s->timer)) { /* Yes new data, but not what we want, check for timer expiration before bumping tick */ goto wait_dhcp; } } s->retry_count++; if (s->retry_count < DHCPV6_NUM_OF_RETRY) { dhcpv6c->seconds += dhcpv6c->timeout; } else { LOG_DEBUG("%s: ndpc_handle DHCP failed", s->nic->log_name); /* Allow to goto background loop */ goto ipv6_loop; } } while (dhcpv6c->dhcpv6_done == FALSE); s->state = NDPC_STATE_DHCPV6_DONE; LOG_DEBUG("%s: ndpc_handle got dhcpv6", s->nic->log_name); /* End of DHCPv6 engine */ } else { /* Static IPv6 */ if (ustack->ip_config == IPV6_CONFIG_DHCP) { LOG_DEBUG("%s: ndpc_handle DHCP failed", s->nic->log_name); PT_RESTART(&s->pt); } staticv6: ipv6_disable_dhcpv6(ipv6c); } /* Copy out the default_router_addr6 and ll */ if (ustack->router_autocfg != IPV6_RTR_AUTOCFG_OFF) memcpy(&ustack->default_route_addr6, &ipv6c->default_router, sizeof(struct ipv6_addr)); inet_ntop(AF_INET6, &ustack->default_route_addr6, buf, sizeof(buf)); LOG_INFO("%s: Default router IP: %s", s->nic->log_name, buf); if (ustack->linklocal_autocfg != IPV6_LL_AUTOCFG_OFF) memcpy(&ustack->linklocal6, &ipv6c->link_local_addr, sizeof(struct ipv6_addr)); inet_ntop(AF_INET6, &ustack->linklocal6, buf, sizeof(buf)); LOG_INFO("%s: Linklocal IP: %s", s->nic->log_name, buf); ipv6_loop: s->state = NDPC_STATE_BACKGROUND_LOOP; LOG_DEBUG("%s: Loop", s->nic->log_name); /* Background IPv6 loop */ while (1) { /* Handle all neightbor solicitation/advertisement here */ s->ustack->uip_flags &= ~UIP_NEWDATA; PT_WAIT_UNTIL(&s->pt, uip_newdata(s->ustack)); /* Validate incoming packets */ ipv6_rx_packet(ipv6c, (u16_t) uip_datalen(s->ustack)); } ndpc_state_null: while (1) PT_YIELD(&s->pt); PT_END(&(s->pt)); } /*---------------------------------------------------------------------------*/ int ndpc_init(nic_t *nic, struct uip_stack *ustack, const void *mac_addr, int mac_len) { struct ipv6_context *ipv6c; struct dhcpv6_context *dhcpv6c; struct ndpc_state *s = ustack->ndpc; struct ipv6_addr src, gw, ll; char buf[INET6_ADDRSTRLEN]; if (s) { LOG_DEBUG("NDP: NDP context already allocated"); /* Already allocated, skip*/ return -EALREADY; } s = malloc(sizeof(*s)); if (s == NULL) { LOG_ERR("%s: Couldn't allocate size for ndpc info", nic->log_name); goto error; } memset(s, 0, sizeof(*s)); if (s->ipv6_context) { LOG_DEBUG("NDP: IPv6 context already allocated"); ipv6c = s->ipv6_context; goto init1; } ipv6c = malloc(sizeof(struct ipv6_context)); if (ipv6c == NULL) { LOG_ERR("%s: Couldn't allocate mem for IPv6 context info", nic->log_name); goto error1; } init1: if (s->dhcpv6_context) { LOG_DEBUG("NDP: DHCPv6 context already allocated"); dhcpv6c = s->dhcpv6_context; goto init2; } dhcpv6c = malloc(sizeof(struct dhcpv6_context)); if (dhcpv6c == NULL) { LOG_ERR("%s: Couldn't allocate mem for DHCPv6 context info", nic->log_name); goto error2; } init2: memset(s, 0, sizeof(*s)); memset(ipv6c, 0, sizeof(*ipv6c)); memset(dhcpv6c, 0, sizeof(*dhcpv6c)); s->ipv6_context = ipv6c; s->dhcpv6_context = dhcpv6c; s->nic = nic; s->ustack = ustack; s->mac_addr = (void *)mac_addr; s->mac_len = mac_len; s->state = NDPC_STATE_INIT; /* Init IPV6_CONTEXT */ ipv6_init(s, ustack->ip_config); dhcpv6c->ipv6_context = ipv6c; ipv6c->dhcpv6_context = dhcpv6c; /* Init DHCPV6_CONTEXT */ dhcpv6_init(dhcpv6c); ustack->ndpc = s; PT_INIT(&s->pt); if (ustack->ip_config == IPV6_CONFIG_DHCP) { /* DHCPv6 specific */ memset(&src, 0, sizeof(src)); } else { /* Static v6 specific */ memcpy(&src.addr8, &ustack->hostaddr6, sizeof(struct ipv6_addr)); ipv6_add_solit_node_address(ipv6c, &src); inet_ntop(AF_INET6, &src.addr8, buf, sizeof(buf)); LOG_INFO("%s: Static hostaddr IP: %s", s->nic->log_name, buf); } /* Copy out the default_router_addr6 and ll */ if (ustack->router_autocfg == IPV6_RTR_AUTOCFG_OFF) memcpy(&gw.addr8, &ustack->default_route_addr6, sizeof(struct ipv6_addr)); else memset(&gw, 0, sizeof(gw)); if (ustack->linklocal_autocfg == IPV6_LL_AUTOCFG_OFF) memcpy(&ll.addr8, &ustack->linklocal6, sizeof(struct ipv6_addr)); else memset(&ll, 0, sizeof(ll)); ipv6_set_ip_params(ipv6c, &src, ustack->prefix_len, &gw, &ll); return 0; error2: free(ipv6c); s->ipv6_context = NULL; error1: free(s); ustack->ndpc = NULL; error: return -ENOMEM; } /*---------------------------------------------------------------------------*/ void ndpc_call(struct uip_stack *ustack) { handle_ndp(ustack, 0); } void ndpc_exit(struct ndpc_state *ndp) { LOG_DEBUG("NDP - Exit ndpc_state = %p", ndp); if (!ndp) return; if (ndp->ipv6_context) free(ndp->ipv6_context); if (ndp->dhcpv6_context) free(ndp->dhcpv6_context); free(ndp); } int ndpc_request(struct uip_stack *ustack, void *in, void *out, int request) { struct ndpc_state *s; struct ipv6_context *ipv6c; int ret = 0; if (!ustack) { LOG_DEBUG("NDP: ustack == NULL"); return -EINVAL; } s = ustack->ndpc; if (s == NULL) { LOG_DEBUG("NDP: Could not find ndpc state for request %d", request); return -EINVAL; } while (s->state != NDPC_STATE_BACKGROUND_LOOP) { LOG_DEBUG("%s: ndpc state not in background loop, run handler " "request = %d", s->nic->log_name, request); handle_ndp(ustack, 1); } ipv6c = s->ipv6_context; switch (request) { case NEIGHBOR_SOLICIT: *(int *)out = ipv6_send_nd_solicited_packet(ipv6c, (struct eth_hdr *)((struct ndpc_reqptr *)in)->eth, (struct ipv6_hdr *)((struct ndpc_reqptr *)in)->ipv6); break; case CHECK_LINK_LOCAL_ADDR: *(int *)out = ipv6_is_it_our_link_local_address(ipv6c, (struct ipv6_addr *)in); break; case CHECK_ARP_TABLE: *(int *)out = ipv6_ip_in_arp_table(ipv6c, (struct ipv6_addr *)((struct ndpc_reqptr *)in)->ipv6, (struct mac_address *)((struct ndpc_reqptr *)in)->eth); break; case GET_HOST_ADDR: *(struct ipv6_addr **)out = ipv6_find_longest_match(ipv6c, (struct ipv6_addr *)in); break; default: ret = -EINVAL; break; } return ret; } /*---------------------------------------------------------------------------*/ open-iscsi-2.0.874/iscsiuio/src/uip/ipv6_ndpc.h000066400000000000000000000054561277325716400212510ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai (eddie.wai@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ipv6_ndpc.h - Top level IPv6 Network Discovery Protocol Engine (RFC4861) * */ #ifndef __NDPC_H__ #define __NDPC_H__ #include #include "nic.h" #include "timer.h" #include "pt.h" struct ndpc_reqptr { void *eth; void *ipv6; }; struct ndpc_state { struct pt pt; nic_t *nic; struct uip_stack *ustack; char state; struct timer timer; u16_t ticks; void *mac_addr; int mac_len; int retry_count; time_t last_update; void *ipv6_context; void *dhcpv6_context; }; enum { NDPC_STATE_INIT, NDPC_STATE_RTR_SOL, NDPC_STATE_RTR_ADV, NDPC_STATE_DHCPV6_DIS, NDPC_STATE_DHCPV6_DONE, NDPC_STATE_BACKGROUND_LOOP }; int ndpc_init(nic_t *nic, struct uip_stack *ustack, const void *mac_addr, int mac_len); void ndpc_call(struct uip_stack *ustack); void ndpc_exit(struct ndpc_state *ndp); enum { NEIGHBOR_SOLICIT, CHECK_LINK_LOCAL_ADDR, GET_LINK_LOCAL_ADDR, GET_DEFAULT_ROUTER_ADDR, CHECK_ARP_TABLE, GET_HOST_ADDR }; int ndpc_request(struct uip_stack *ustack, void *in, void *out, int request); #define UIP_NDP_CALL ndpc_call #endif /* __NDPC_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/ipv6_pkt.h000066400000000000000000000044271277325716400211200ustar00rootroot00000000000000/* * Copyright (c) 2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Eddie Wai (eddie.wai@broadcom.com) * Based on Kevin Tran's iSCSI boot code * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ipv6_packet.h - IPv6 routine include file * */ #ifndef __IPV6_PKT_H__ #define __IPV6_PKT_H__ u16_t ipv6_process_rx(struct ipv6_hdr *ipv6); void ipv6_rx_packet(struct ipv6_context *context, u16_t len); void ipv6_setup_hdrs(struct ipv6_context *context, struct eth_hdr *eth, struct ipv6_hdr *ipv6, u16_t packet_len); int ipv6_send(struct ipv6_context *context, u16_t packet_len); void ipv6_send_udp_packet(struct ipv6_context *context, u16_t packet_len); #endif /* __IPV6_PKT_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/lc-addrlabels.h000066400000000000000000000052111277325716400220370ustar00rootroot00000000000000/* * Copyright (c) 2004-2005, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ /** * \addtogroup lc * @{ */ /** * \file * Implementation of local continuations based on the "Labels as * values" feature of gcc * \author * Adam Dunkels * * This implementation of local continuations is based on a special * feature of the GCC C compiler called "labels as values". This * feature allows assigning pointers with the address of the code * corresponding to a particular C label. * * For more information, see the GCC documentation: * http://gcc.gnu.org/onlinedocs/gcc/Labels-as-Values.html * * Thanks to dividuum for finding the nice local scope label * implementation. */ #ifndef __LC_ADDRLABELS_H__ #define __LC_ADDRLABELS_H__ /** \hideinitializer */ #define LC_INIT(s) (s = NULL) #define LC_RESUME(s) \ do { \ if (s != NULL) { \ goto *s; \ } \ } while (0) #define LC_SET(s) \ do { ({ __label__ resume; resume: (s) = &&resume; }); } while (0) #define LC_END(s) #endif /* __LC_ADDRLABELS_H__ */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/lc-switch.h000066400000000000000000000052221277325716400212450ustar00rootroot00000000000000/* * Copyright (c) 2004-2005, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ /** * \addtogroup lc * @{ */ /** * \file * Implementation of local continuations based on switch() statment * \author Adam Dunkels * * This implementation of local continuations uses the C switch() * statement to resume execution of a function somewhere inside the * function's body. The implementation is based on the fact that * switch() statements are able to jump directly into the bodies of * control structures such as if() or while() statmenets. * * This implementation borrows heavily from Simon Tatham's coroutines * implementation in C: * http://www.chiark.greenend.org.uk/~sgtatham/coroutines.html */ #ifndef __LC_SWITCH_H__ #define __LC_SWTICH_H__ /* WARNING! lc implementation using switch() does not work if an LC_SET() is done within another switch() statement! */ /** \hideinitializer */ #define LC_INIT(s) s = 0; #define LC_RESUME(s) switch (s) { case 0: #define LC_SET(s) s = __LINE__; case __LINE__: #define LC_END(s) } #endif /* __LC_SWITCH_H__ */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/lc.h000066400000000000000000000073351277325716400177550ustar00rootroot00000000000000/* * Copyright (c) 2004-2005, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ /** * \addtogroup pt * @{ */ /** * \defgroup lc Local continuations * @{ * * Local continuations form the basis for implementing protothreads. A * local continuation can be set in a specific function to * capture the state of the function. After a local continuation has * been set can be resumed in order to restore the state of the * function at the point where the local continuation was set. * * */ /** * \file lc.h * Local continuations * \author * Adam Dunkels * */ #ifdef DOXYGEN /** * Initialize a local continuation. * * This operation initializes the local continuation, thereby * unsetting any previously set continuation state. * * \hideinitializer */ #define LC_INIT(lc) /** * Set a local continuation. * * The set operation saves the state of the function at the point * where the operation is executed. As far as the set operation is * concerned, the state of the function does not include the * call-stack or local (automatic) variables, but only the program * counter and such CPU registers that needs to be saved. * * \hideinitializer */ #define LC_SET(lc) /** * Resume a local continuation. * * The resume operation resumes a previously set local continuation, thus * restoring the state in which the function was when the local * continuation was set. If the local continuation has not been * previously set, the resume operation does nothing. * * \hideinitializer */ #define LC_RESUME(lc) /** * Mark the end of local continuation usage. * * The end operation signifies that local continuations should not be * used any more in the function. This operation is not needed for * most implementations of local continuation, but is required by a * few implementations. * * \hideinitializer */ #define LC_END(lc) /** * \var typedef lc_t; * * The local continuation type. * * \hideinitializer */ #endif /* DOXYGEN */ #ifndef __LC_H__ #define __LC_H__ #ifdef LC_CONF_INCLUDE #include LC_CONF_INCLUDE #else #include "lc-switch.h" #endif /* LC_CONF_INCLUDE */ #endif /* __LC_H__ */ /** @} */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/psock.c000066400000000000000000000227361277325716400204730ustar00rootroot00000000000000/* * Copyright (c) 2004, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ #include #include #include "uipopt.h" #include "psock.h" #include "uip.h" #define STATE_NONE 0 #define STATE_ACKED 1 #define STATE_READ 2 #define STATE_BLOCKED_NEWDATA 3 #define STATE_BLOCKED_CLOSE 4 #define STATE_BLOCKED_SEND 5 #define STATE_DATA_SENT 6 /* * Return value of the buffering functions that indicates that a * buffer was not filled by incoming data. * */ #define BUF_NOT_FULL 0 #define BUF_NOT_FOUND 0 /* * Return value of the buffering functions that indicates that a * buffer was completely filled by incoming data. * */ #define BUF_FULL 1 /* * Return value of the buffering functions that indicates that an * end-marker byte was found. * */ #define BUF_FOUND 2 /*---------------------------------------------------------------------------*/ static void buf_setup(struct psock_buf *buf, u8_t *bufptr, u16_t bufsize) { buf->ptr = bufptr; buf->left = bufsize; } /*---------------------------------------------------------------------------*/ static u8_t buf_bufdata(struct psock_buf *buf, u16_t len, u8_t **dataptr, u16_t *datalen) { if (*datalen < buf->left) { memcpy(buf->ptr, *dataptr, *datalen); buf->ptr += *datalen; buf->left -= *datalen; *dataptr += *datalen; *datalen = 0; return BUF_NOT_FULL; } else if (*datalen == buf->left) { memcpy(buf->ptr, *dataptr, *datalen); buf->ptr += *datalen; buf->left = 0; *dataptr += *datalen; *datalen = 0; return BUF_FULL; } else { memcpy(buf->ptr, *dataptr, buf->left); buf->ptr += buf->left; *datalen -= buf->left; *dataptr += buf->left; buf->left = 0; return BUF_FULL; } } /*---------------------------------------------------------------------------*/ static u8_t buf_bufto(register struct psock_buf *buf, u8_t endmarker, register u8_t **dataptr, register u16_t *datalen) { u8_t c; while (buf->left > 0 && *datalen > 0) { c = *buf->ptr = **dataptr; ++*dataptr; ++buf->ptr; --*datalen; --buf->left; if (c == endmarker) return BUF_FOUND; } if (*datalen == 0) return BUF_NOT_FOUND; while (*datalen > 0) { c = **dataptr; --*datalen; ++*dataptr; if (c == endmarker) return BUF_FOUND | BUF_FULL; } return BUF_FULL; } /*---------------------------------------------------------------------------*/ static char send_data(register struct psock *s) { if (s->state != STATE_DATA_SENT || uip_rexmit(s->ustack)) { if (s->sendlen > uip_mss(s->ustack)) uip_appsend(s->ustack, s->sendptr, uip_mss(s->ustack)); else uip_appsend(s->ustack, s->sendptr, s->sendlen); s->state = STATE_DATA_SENT; return 1; } return 0; } /*---------------------------------------------------------------------------*/ static char data_acked(struct psock *s) { if (s->state == STATE_DATA_SENT && uip_acked(s->ustack)) { if (s->sendlen > uip_mss(s->ustack)) { s->sendlen -= uip_mss(s->ustack); s->sendptr += uip_mss(s->ustack); } else { s->sendptr += s->sendlen; s->sendlen = 0; } s->state = STATE_ACKED; return 1; } return 0; } /*---------------------------------------------------------------------------*/ PT_THREAD(psock_send(struct uip_stack *ustack, register struct psock *s, const u8_t *buf, unsigned int len)) { PT_BEGIN(&s->psockpt); /* If there is no data to send, we exit immediately. */ if (len == 0) { PT_EXIT(&s->psockpt); } /* Save the length of and a pointer to the data that is to be sent. */ s->sendptr = buf; s->sendlen = len; s->state = STATE_NONE; /* We loop here until all data is sent. The s->sendlen variable is updated by the data_sent() function. */ while (s->sendlen > 0) { /* * The condition for this PT_WAIT_UNTIL is a little tricky: the * protothread will wait here until all data has been acked * (data_acked() returns true) and until all data has been sent * (send_data() returns true). The two functions data_acked() * and send_data() must be called in succession to ensure that * all data is sent. Therefore the & operator is used instead of * the && operator, which would cause only the data_acked() * function to be called when it returns false. */ PT_WAIT_UNTIL(&s->psockpt, data_acked(s) & send_data(s)); } s->state = STATE_NONE; PT_END(&s->psockpt); } /*---------------------------------------------------------------------------*/ PT_THREAD(psock_generator_send(register struct psock *s, unsigned short (*generate) (void *), void *arg)) { PT_BEGIN(&s->psockpt); /* Ensure that there is a generator function to call. */ if (generate == NULL) { PT_EXIT(&s->psockpt); } /* Call the generator function to generate the data in the uip_appdata buffer. */ s->sendlen = generate(arg); s->sendptr = s->ustack->uip_appdata; s->state = STATE_NONE; do { /* Call the generator function again if we are called to perform a retransmission. */ if (uip_rexmit(s->ustack)) generate(arg); /* Wait until all data is sent and acknowledged. */ PT_WAIT_UNTIL(&s->psockpt, data_acked(s) & send_data(s)); } while (s->sendlen > 0); s->state = STATE_NONE; PT_END(&s->psockpt); } /*---------------------------------------------------------------------------*/ u16_t psock_datalen(struct psock *psock) { return psock->bufsize - psock->buf.left; } /*---------------------------------------------------------------------------*/ char psock_newdata(struct psock *s) { if (s->readlen > 0) { /* There is data in the uip_appdata buffer that has not yet been read with the PSOCK_READ functions. */ return 1; } else if (s->state == STATE_READ) { /* All data in uip_appdata buffer already consumed. */ s->state = STATE_BLOCKED_NEWDATA; return 0; } else if (uip_newdata(s->ustack)) { /* There is new data that has not been consumed. */ return 1; } else { /* There is no new data. */ return 0; } } /*---------------------------------------------------------------------------*/ PT_THREAD(psock_readto(register struct psock *psock, u8_t c)) { PT_BEGIN(&psock->psockpt); buf_setup(&psock->buf, psock->bufptr, psock->bufsize); /* XXX: Should add buf_checkmarker() before do{} loop, if incoming data has been handled while waiting for a write. */ do { if (psock->readlen == 0) { PT_WAIT_UNTIL(&psock->psockpt, psock_newdata(psock)); psock->state = STATE_READ; psock->readptr = (u8_t *) psock->ustack->uip_appdata; psock->readlen = uip_datalen(psock->ustack); } } while ((buf_bufto(&psock->buf, c, &psock->readptr, &psock->readlen) & BUF_FOUND) == 0); if (psock_datalen(psock) == 0) { psock->state = STATE_NONE; PT_RESTART(&psock->psockpt); } PT_END(&psock->psockpt); } /*---------------------------------------------------------------------------*/ PT_THREAD(psock_readbuf(register struct psock *psock)) { PT_BEGIN(&psock->psockpt); buf_setup(&psock->buf, psock->bufptr, psock->bufsize); /* XXX: Should add buf_checkmarker() before do{} loop, if incoming data has been handled while waiting for a write. */ do { if (psock->readlen == 0) { PT_WAIT_UNTIL(&psock->psockpt, psock_newdata(psock)); printf("Waited for newdata\n"); psock->state = STATE_READ; psock->readptr = (u8_t *) psock->ustack->uip_appdata; psock->readlen = uip_datalen(psock->ustack); } } while (buf_bufdata(&psock->buf, psock->bufsize, &psock->readptr, &psock->readlen) != BUF_FULL); if (psock_datalen(psock) == 0) { psock->state = STATE_NONE; PT_RESTART(&psock->psockpt); } PT_END(&psock->psockpt); } /*---------------------------------------------------------------------------*/ void psock_init(struct uip_stack *ustack, register struct psock *psock, u8_t *buffer, unsigned int buffersize) { psock->state = STATE_NONE; psock->readlen = 0; psock->bufptr = buffer; psock->bufsize = buffersize; psock->ustack = ustack; buf_setup(&psock->buf, buffer, buffersize); PT_INIT(&psock->pt); PT_INIT(&psock->psockpt); } /*---------------------------------------------------------------------------*/ open-iscsi-2.0.874/iscsiuio/src/uip/psock.h000066400000000000000000000276421277325716400205010ustar00rootroot00000000000000/* * Copyright (c) 2004, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ /** * \defgroup psock Protosockets library * @{ * * The protosocket library provides an interface to the uIP stack that is * similar to the traditional BSD socket interface. Unlike programs * written for the ordinary uIP event-driven interface, programs * written with the protosocket library are executed in a sequential * fashion and does not have to be implemented as explicit state * machines. * * Protosockets only work with TCP connections. * * The protosocket library uses \ref pt protothreads to provide * sequential control flow. This makes the protosockets lightweight in * terms of memory, but also means that protosockets inherits the * functional limitations of protothreads. Each protosocket lives only * within a single function. Automatic variables (stack variables) are * not retained across a protosocket library function call. * * \note Because the protosocket library uses protothreads, local * variables will not always be saved across a call to a protosocket * library function. It is therefore advised that local variables are * used with extreme care. * * The protosocket library provides functions for sending data without * having to deal with retransmissions and acknowledgements, as well * as functions for reading data without having to deal with data * being split across more than one TCP segment. * * Because each protosocket runs as a protothread, the protosocket has to be * started with a call to PSOCK_BEGIN() at the start of the function * in which the protosocket is used. Similarly, the protosocket protothread can * be terminated by a call to PSOCK_EXIT(). * */ /** * \file * Protosocket library header file * \author * Adam Dunkels * */ #ifndef __PSOCK_H__ #define __PSOCK_H__ #include "uip.h" #include "uipopt.h" #include "pt.h" /* * The structure that holds the state of a buffer. * * This structure holds the state of a uIP buffer. The structure has * no user-visible elements, but is used through the functions * provided by the library. * */ struct psock_buf { u8_t *ptr; unsigned short left; }; /** * The representation of a protosocket. * * The protosocket structrure is an opaque structure with no user-visible * elements. */ struct psock { struct pt pt, psockpt; /* Protothreads - one that's using the psock functions, and one that runs inside the psock functions. */ const u8_t *sendptr; /* Pointer to the next data to be sent. */ u8_t *readptr; /* Pointer to the next data to be read. */ u8_t *bufptr; /* Pointer to the buffer used for buffering incoming data. */ u16_t sendlen; /* The number of bytes left to be sent. */ u16_t readlen; /* The number of bytes left to be read. */ struct psock_buf buf; /* The structure holding the state of the input buffer. */ unsigned int bufsize; /* The size of the input buffer. */ unsigned char state; /* The state of the protosocket. */ struct uip_stack *ustack; }; void psock_init(struct uip_stack *ustack, struct psock *psock, u8_t *buffer, unsigned int buffersize); /** * Initialize a protosocket. * * This macro initializes a protosocket and must be called before the * protosocket is used. The initialization also specifies the input buffer * for the protosocket. * * \param psock (struct psock *) A pointer to the protosocket to be * initialized * * \param buffer (char *) A pointer to the input buffer for the * protosocket. * * \param buffersize (unsigned int) The size of the input buffer. * * \hideinitializer */ #define PSOCK_INIT(psock, buffer, buffersize) \ psock_init(psock, buffer, buffersize) /** * Start the protosocket protothread in a function. * * This macro starts the protothread associated with the protosocket and * must come before other protosocket calls in the function it is used. * * \param psock (struct psock *) A pointer to the protosocket to be * started. * * \hideinitializer */ #define PSOCK_BEGIN(psock) PT_BEGIN(&((psock)->pt)) PT_THREAD(psock_send(struct uip_stack *ustack, struct psock *psock, const u8_t *buf, unsigned int len)); /** * Send data. * * This macro sends data over a protosocket. The protosocket protothread blocks * until all data has been sent and is known to have been received by * the remote end of the TCP connection. * * \param psock (struct psock *) A pointer to the protosocket over which * data is to be sent. * * \param data (char *) A pointer to the data that is to be sent. * * \param datalen (unsigned int) The length of the data that is to be * sent. * * \hideinitializer */ #define PSOCK_SEND(psock, data, datalen) \ PT_WAIT_THREAD(&((psock)->pt), psock_send(psock, data, datalen)) /** * \brief Send a null-terminated string. * \param psock Pointer to the protosocket. * \param str The string to be sent. * * This function sends a null-terminated string over the * protosocket. * * \hideinitializer */ #define PSOCK_SEND_STR(psock, str) \ PT_WAIT_THREAD(&((psock)->pt), psock_send(psock, str, strlen(str))) PT_THREAD(psock_generator_send(struct psock *psock, unsigned short (*f) (void *), void *arg)); /** * \brief Generate data with a function and send it * \param psock Pointer to the protosocket. * \param generator Pointer to the generator function * \param arg Argument to the generator function * * This function generates data and sends it over the * protosocket. This can be used to dynamically generate * data for a transmission, instead of generating the data * in a buffer beforehand. This function reduces the need for * buffer memory. The generator function is implemented by * the application, and a pointer to the function is given * as an argument with the call to PSOCK_GENERATOR_SEND(). * * The generator function should place the generated data * directly in the uip_appdata buffer, and return the * length of the generated data. The generator function is * called by the protosocket layer when the data first is * sent, and once for every retransmission that is needed. * * \hideinitializer */ #define PSOCK_GENERATOR_SEND(psock, generator, arg) \ PT_WAIT_THREAD(&((psock)->pt), \ psock_generator_send(psock, generator, arg)) /** * Close a protosocket. * * This macro closes a protosocket and can only be called from within the * protothread in which the protosocket lives. * * \param psock (struct psock *) A pointer to the protosocket that is to * be closed. * * \hideinitializer */ #define PSOCK_CLOSE(psock) uip_close() PT_THREAD(psock_readbuf(struct psock *psock)); /** * Read data until the buffer is full. * * This macro will block waiting for data and read the data into the * input buffer specified with the call to PSOCK_INIT(). Data is read * until the buffer is full.. * * \param psock (struct psock *) A pointer to the protosocket from which * data should be read. * * \hideinitializer */ #define PSOCK_READBUF(psock) \ PT_WAIT_THREAD(&((psock)->pt), psock_readbuf(psock)) PT_THREAD(psock_readto(struct psock *psock, unsigned char c)); /** * Read data up to a specified character. * * This macro will block waiting for data and read the data into the * input buffer specified with the call to PSOCK_INIT(). Data is only * read until the specifieed character appears in the data stream. * * \param psock (struct psock *) A pointer to the protosocket from which * data should be read. * * \param c (char) The character at which to stop reading. * * \hideinitializer */ #define PSOCK_READTO(psock, c) \ PT_WAIT_THREAD(&((psock)->pt), psock_readto(psock, c)) /** * The length of the data that was previously read. * * This macro returns the length of the data that was previously read * using PSOCK_READTO() or PSOCK_READ(). * * \param psock (struct psock *) A pointer to the protosocket holding the data. * * \hideinitializer */ #define PSOCK_DATALEN(psock) psock_datalen(psock) u16_t psock_datalen(struct psock *psock); /** * Exit the protosocket's protothread. * * This macro terminates the protothread of the protosocket and should * almost always be used in conjunction with PSOCK_CLOSE(). * * \sa PSOCK_CLOSE_EXIT() * * \param psock (struct psock *) A pointer to the protosocket. * * \hideinitializer */ #define PSOCK_EXIT(psock) PT_EXIT(&((psock)->pt)) /** * Close a protosocket and exit the protosocket's protothread. * * This macro closes a protosocket and exits the protosocket's protothread. * * \param psock (struct psock *) A pointer to the protosocket. * * \hideinitializer */ #define PSOCK_CLOSE_EXIT(psock) \ do { \ PSOCK_CLOSE(psock); \ PSOCK_EXIT(psock); \ } while (0) /** * Declare the end of a protosocket's protothread. * * This macro is used for declaring that the protosocket's protothread * ends. It must always be used together with a matching PSOCK_BEGIN() * macro. * * \param psock (struct psock *) A pointer to the protosocket. * * \hideinitializer */ #define PSOCK_END(psock) PT_END(&((psock)->pt)) char psock_newdata(struct psock *s); /** * Check if new data has arrived on a protosocket. * * This macro is used in conjunction with the PSOCK_WAIT_UNTIL() * macro to check if data has arrived on a protosocket. * * \param psock (struct psock *) A pointer to the protosocket. * * \hideinitializer */ #define PSOCK_NEWDATA(psock) psock_newdata(psock) /** * Wait until a condition is true. * * This macro blocks the protothread until the specified condition is * true. The macro PSOCK_NEWDATA() can be used to check if new data * arrives when the protosocket is waiting. * * Typically, this macro is used as follows: * \code PT_THREAD(thread(struct psock *s, struct timer *t)) { PSOCK_BEGIN(s); PSOCK_WAIT_UNTIL(s, PSOCK_NEWADATA(s) || timer_expired(t)); if(PSOCK_NEWDATA(s)) { PSOCK_READTO(s, '\n'); } else { handle_timed_out(s); } PSOCK_END(s); } \endcode * * \param psock (struct psock *) A pointer to the protosocket. * \param condition The condition to wait for. * * \hideinitializer */ #define PSOCK_WAIT_UNTIL(psock, condition) \ PT_WAIT_UNTIL(&((psock)->pt), (condition)); #define PSOCK_WAIT_THREAD(psock, condition) \ PT_WAIT_THREAD(&((psock)->pt), (condition)) #endif /* __PSOCK_H__ */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/pt.h000066400000000000000000000171151277325716400177770ustar00rootroot00000000000000/* * Copyright (c) 2004-2005, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ /** * \addtogroup pt * @{ */ /** * \file * Protothreads implementation. * \author * Adam Dunkels * */ #ifndef __PT_H__ #define __PT_H__ #include "lc.h" struct pt { unsigned short lc; }; #define PT_WAITING 0 #define PT_EXITED 1 #define PT_ENDED 2 #define PT_YIELDED 3 /** * \name Initialization * @{ */ /** * Initialize a protothread. * * Initializes a protothread. Initialization must be done prior to * starting to execute the protothread. * * \param pt A pointer to the protothread control structure. * * \sa PT_SPAWN() * * \hideinitializer */ #define PT_INIT(pt) LC_INIT((pt)->lc) /** @} */ /** * \name Declaration and definition * @{ */ /** * Declaration of a protothread. * * This macro is used to declare a protothread. All protothreads must * be declared with this macro. * * \param name_args The name and arguments of the C function * implementing the protothread. * * \hideinitializer */ #define PT_THREAD(name_args) char name_args /** * Declare the start of a protothread inside the C function * implementing the protothread. * * This macro is used to declare the starting point of a * protothread. It should be placed at the start of the function in * which the protothread runs. All C statements above the PT_BEGIN() * invokation will be executed each time the protothread is scheduled. * * \param pt A pointer to the protothread control structure. * * \hideinitializer */ #define PT_BEGIN(pt) { char PT_YIELD_FLAG __attribute__((__unused__)) = 1; LC_RESUME((pt)->lc) /** * Declare the end of a protothread. * * This macro is used for declaring that a protothread ends. It must * always be used together with a matching PT_BEGIN() macro. * * \param pt A pointer to the protothread control structure. * * \hideinitializer */ #define PT_END(pt) LC_END((pt)->lc); PT_YIELD_FLAG = 0; \ PT_INIT(pt); return PT_ENDED; } /** @} */ /** * \name Blocked wait * @{ */ /** * Block and wait until condition is true. * * This macro blocks the protothread until the specified condition is * true. * * \param pt A pointer to the protothread control structure. * \param condition The condition. * * \hideinitializer */ #define PT_WAIT_UNTIL(pt, condition) \ do { \ LC_SET((pt)->lc); \ if (!(condition)) { \ return PT_WAITING; \ } \ } while (0) /** * Block and wait while condition is true. * * This function blocks and waits while condition is true. See * PT_WAIT_UNTIL(). * * \param pt A pointer to the protothread control structure. * \param cond The condition. * * \hideinitializer */ #define PT_WAIT_WHILE(pt, cond) PT_WAIT_UNTIL((pt), !(cond)) /** @} */ /** * \name Hierarchical protothreads * @{ */ /** * Block and wait until a child protothread completes. * * This macro schedules a child protothread. The current protothread * will block until the child protothread completes. * * \note The child protothread must be manually initialized with the * PT_INIT() function before this function is used. * * \param pt A pointer to the protothread control structure. * \param thread The child protothread with arguments * * \sa PT_SPAWN() * * \hideinitializer */ #define PT_WAIT_THREAD(pt, thread) PT_WAIT_WHILE((pt), PT_SCHEDULE(thread)) /** * Spawn a child protothread and wait until it exits. * * This macro spawns a child protothread and waits until it exits. The * macro can only be used within a protothread. * * \param pt A pointer to the protothread control structure. * \param child A pointer to the child protothread's control structure. * \param thread The child protothread with arguments * * \hideinitializer */ #define PT_SPAWN(pt, child, thread) \ do { \ PT_INIT((child)); \ PT_WAIT_THREAD((pt), (thread)); \ } while (0) /** @} */ /** * \name Exiting and restarting * @{ */ /** * Restart the protothread. * * This macro will block and cause the running protothread to restart * its execution at the place of the PT_BEGIN() call. * * \param pt A pointer to the protothread control structure. * * \hideinitializer */ #define PT_RESTART(pt) \ do { \ PT_INIT(pt); \ return PT_WAITING; \ } while (0) /** * Exit the protothread. * * This macro causes the protothread to exit. If the protothread was * spawned by another protothread, the parent protothread will become * unblocked and can continue to run. * * \param pt A pointer to the protothread control structure. * * \hideinitializer */ #define PT_EXIT(pt) \ do { \ PT_INIT(pt); \ return PT_EXITED; \ } while (0) /** @} */ /** * \name Calling a protothread * @{ */ /** * Schedule a protothread. * * This function shedules a protothread. The return value of the * function is non-zero if the protothread is running or zero if the * protothread has exited. * * \param f The call to the C function implementing the protothread to * be scheduled * * \hideinitializer */ #define PT_SCHEDULE(f) ((f) == PT_WAITING) /** @} */ /** * \name Yielding from a protothread * @{ */ /** * Yield from the current protothread. * * This function will yield the protothread, thereby allowing other * processing to take place in the system. * * \param pt A pointer to the protothread control structure. * * \hideinitializer */ #define PT_YIELD(pt) \ do { \ PT_YIELD_FLAG = 0; \ LC_SET((pt)->lc); \ if (PT_YIELD_FLAG == 0) { \ return PT_YIELDED; \ } \ } while (0) /** * \brief Yield from the protothread until a condition occurs. * \param pt A pointer to the protothread control structure. * \param cond The condition. * * This function will yield the protothread, until the * specified condition evaluates to true. * * * \hideinitializer */ #define PT_YIELD_UNTIL(pt, cond) \ do { \ PT_YIELD_FLAG = 0; \ LC_SET((pt)->lc); \ if ((PT_YIELD_FLAG == 0) || !(cond)) { \ return PT_YIELDED; \ } \ } while (0) /** @} */ #endif /* __PT_H__ */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/timer.c000066400000000000000000000076351277325716400204750ustar00rootroot00000000000000/** * \addtogroup timer * @{ */ /** * \file * Timer library implementation. * \author * Adam Dunkels */ /* * Copyright (c) 2004, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ #include "clock.h" #include "timer.h" /*---------------------------------------------------------------------------*/ /** * Set a timer. * * This function is used to set a timer for a time sometime in the * future. The function timer_expired() will evaluate to true after * the timer has expired. * * \param t A pointer to the timer * \param interval The interval before the timer expires. * */ void timer_set(struct timer *t, clock_time_t interval) { t->interval = interval; t->start = clock_time(); } /*---------------------------------------------------------------------------*/ /** * Reset the timer with the same interval. * * This function resets the timer with the same interval that was * given to the timer_set() function. The start point of the interval * is the exact time that the timer last expired. Therefore, this * function will cause the timer to be stable over time, unlike the * timer_rester() function. * * \param t A pointer to the timer. * * \sa timer_restart() */ void timer_reset(struct timer *t) { t->start += t->interval; } /*---------------------------------------------------------------------------*/ /** * Restart the timer from the current point in time * * This function restarts a timer with the same interval that was * given to the timer_set() function. The timer will start at the * current time. * * \note A periodic timer will drift if this function is used to reset * it. For preioric timers, use the timer_reset() function instead. * * \param t A pointer to the timer. * * \sa timer_reset() */ void timer_restart(struct timer *t) { t->start = clock_time(); } /*---------------------------------------------------------------------------*/ /** * Check if a timer has expired. * * This function tests if a timer has expired and returns true or * false depending on its status. * * \param t A pointer to the timer * * \return Non-zero if the timer has expired, zero otherwise. * */ int timer_expired(struct timer *t) { return (clock_time_t) (clock_time() - t->start) >= (clock_time_t) t->interval; } /*---------------------------------------------------------------------------*/ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/timer.h000066400000000000000000000054121277325716400204710ustar00rootroot00000000000000/** * \defgroup timer Timer library * * The timer library provides functions for setting, resetting and * restarting timers, and for checking if a timer has expired. An * application must "manually" check if its timers have expired; this * is not done automatically. * * A timer is declared as a \c struct \c timer and all access to the * timer is made by a pointer to the declared timer. * * \note The timer library uses the \ref clock "Clock library" to * measure time. Intervals should be specified in the format used by * the clock library. * * @{ */ /** * \file * Timer library header file. * \author * Adam Dunkels */ /* * Copyright (c) 2004, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * * Author: Adam Dunkels * */ #ifndef __TIMER_H__ #define __TIMER_H__ #include "clock.h" /** * A timer. * * This structure is used for declaring a timer. The timer must be set * with timer_set() before it can be used. * * \hideinitializer */ struct timer { clock_time_t start; clock_time_t interval; }; void timer_set(struct timer *t, clock_time_t interval); void timer_reset(struct timer *t); void timer_restart(struct timer *t); int timer_expired(struct timer *t); #endif /* __TIMER_H__ */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/uip-neighbor.c000066400000000000000000000153621277325716400217410ustar00rootroot00000000000000/* * Copyright (c) 2006, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * */ /** * \file * Database of link-local neighbors, used by IPv6 code and * to be used by a future ARP code rewrite. * \author * Adam Dunkels */ #include "logger.h" #include "uip.h" #include "uip-neighbor.h" #include #include #include /******************************************************************************* * Constants ******************************************************************************/ #define PFX "uip-neigh " #define MAX_TIME 128 /*---------------------------------------------------------------------------*/ void uip_neighbor_init(struct uip_stack *ustack) { int i; pthread_mutex_lock(&ustack->lock); for (i = 0; i < UIP_NEIGHBOR_ENTRIES; ++i) { memset(&(ustack->neighbor_entries[i].ipaddr), 0, sizeof(ustack->neighbor_entries[i].ipaddr)); memset(&(ustack->neighbor_entries[i].mac_addr), 0, sizeof(ustack->neighbor_entries[i].mac_addr)); ustack->neighbor_entries[i].time = MAX_TIME; } pthread_mutex_unlock(&ustack->lock); } void uip_neighbor_add(struct uip_stack *ustack, struct in6_addr *addr6, struct uip_eth_addr *addr) { int i, oldest; u8_t oldest_time; char buf[INET6_ADDRSTRLEN]; inet_ntop(AF_INET6, addr6, buf, sizeof(buf)); pthread_mutex_lock(&ustack->lock); /* Find the first unused entry or the oldest used entry. */ oldest_time = 0; oldest = 0; for (i = 0; i < UIP_NEIGHBOR_ENTRIES; ++i) { if (ustack->neighbor_entries[i].time == MAX_TIME) { oldest = i; break; } if (uip_ip6addr_cmp (ustack->neighbor_entries[i].ipaddr.s6_addr, addr6)) { oldest = i; break; } if (ustack->neighbor_entries[i].time > oldest_time) { oldest = i; oldest_time = ustack->neighbor_entries[i].time; } } /* Use the oldest or first free entry (either pointed to by the "oldest" variable). */ ustack->neighbor_entries[oldest].time = 0; uip_ip6addr_copy(ustack->neighbor_entries[oldest].ipaddr.s6_addr, addr6); memcpy(&ustack->neighbor_entries[oldest].mac_addr, addr, sizeof(struct uip_eth_addr)); LOG_DEBUG("Adding neighbor %s with " "mac address %02x:%02x:%02x:%02x:%02x:%02x at %d", buf, addr->addr[0], addr->addr[1], addr->addr[2], addr->addr[3], addr->addr[4], addr->addr[5], oldest); pthread_mutex_unlock(&ustack->lock); } /*---------------------------------------------------------------------------*/ static struct neighbor_entry *find_entry(struct uip_stack *ustack, struct in6_addr *addr6) { int i; for (i = 0; i < UIP_NEIGHBOR_ENTRIES; ++i) { if (uip_ip6addr_cmp (ustack->neighbor_entries[i].ipaddr.s6_addr, addr6->s6_addr)) { return &ustack->neighbor_entries[i]; } } return NULL; } /*---------------------------------------------------------------------------*/ void uip_neighbor_update(struct uip_stack *ustack, struct in6_addr *addr6) { struct neighbor_entry *e; pthread_mutex_lock(&ustack->lock); e = find_entry(ustack, addr6); if (e != NULL) e->time = 0; pthread_mutex_unlock(&ustack->lock); } /*---------------------------------------------------------------------------*/ int uip_neighbor_lookup(struct uip_stack *ustack, struct in6_addr *addr6, uint8_t *mac_addr) { struct neighbor_entry *e; pthread_mutex_lock(&ustack->lock); e = find_entry(ustack, addr6); if (e != NULL) { char addr6_str[INET6_ADDRSTRLEN]; uint8_t *entry_mac_addr; addr6_str[0] = '\0'; inet_ntop(AF_INET6, addr6->s6_addr, addr6_str, sizeof(addr6_str)); entry_mac_addr = (uint8_t *)&e->mac_addr.addr; LOG_DEBUG(PFX "Found %s at %02x:%02x:%02x:%02x:%02x:%02x", addr6_str, entry_mac_addr[0], entry_mac_addr[1], entry_mac_addr[2], entry_mac_addr[3], entry_mac_addr[4], entry_mac_addr[5]); memcpy(mac_addr, entry_mac_addr, sizeof(e->mac_addr)); pthread_mutex_unlock(&ustack->lock); return 0; } pthread_mutex_unlock(&ustack->lock); return -ENOENT; } void uip_neighbor_out(struct uip_stack *ustack) { struct neighbor_entry *e; struct uip_eth_hdr *eth_hdr = (struct uip_eth_hdr *)ustack->data_link_layer; struct uip_ipv6_hdr *ipv6_hdr = (struct uip_ipv6_hdr *)ustack->network_layer; pthread_mutex_lock(&ustack->lock); /* Find the destination IP address in the neighbor table and construct the Ethernet header. If the destination IP addres isn't on the local network, we use the default router's IP address instead. If not ARP table entry is found, we overwrite the original IP packet with an ARP request for the IP address. */ e = find_entry(ustack, (struct in6_addr *)ipv6_hdr->destipaddr); if (e == NULL) { struct uip_eth_addr eth_addr_tmp; memcpy(ð_addr_tmp, eth_hdr->src.addr, sizeof(eth_addr_tmp)); memcpy(eth_hdr->src.addr, ustack->uip_ethaddr.addr, sizeof(eth_hdr->src.addr)); memcpy(eth_hdr->dest.addr, ð_addr_tmp, sizeof(eth_hdr->dest.addr)); pthread_mutex_unlock(&ustack->lock); return; } memcpy(eth_hdr->dest.addr, &e->mac_addr, sizeof(eth_hdr->dest.addr)); memcpy(eth_hdr->src.addr, ustack->uip_ethaddr.addr, sizeof(eth_hdr->src.addr)); pthread_mutex_unlock(&ustack->lock); } /*---------------------------------------------------------------------------*/ open-iscsi-2.0.874/iscsiuio/src/uip/uip-neighbor.h000066400000000000000000000065741277325716400217530ustar00rootroot00000000000000/* * Copyright (c) 2006, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * */ /** * \file * Header file for database of link-local neighbors, used by * IPv6 code and to be used by future ARP code. * \author * Adam Dunkels */ #ifndef __UIP_NEIGHBOR_H__ #define __UIP_NEIGHBOR_H__ #include "uip.h" #include "uip_eth.h" /* ICMP types */ /* ICMPv6 error Messages */ #define ICMPV6_DEST_UNREACH 1 #define ICMPV6_PKT_TOOBIG 2 #define ICMPV6_TIME_EXCEED 3 #define ICMPV6_PARAMPROB 4 /* ICMPv6 Informational Messages */ #define ICMPV6_ECHO_REQUEST 128 #define ICMPV6_ECHO_REPLY 129 #define ICMPV6_MGM_QUERY 130 #define ICMPV6_MGM_REPORT 131 #define ICMPV6_MGM_REDUCTION 132 /* Codes for Destination Unreachable */ #define ICMPV6_NOROUTE 0 #define ICMPV6_ADM_PROHIBITED 1 #define ICMPV6_NOT_NEIGHBOUR 2 #define ICMPV6_ADDR_UNREACH 3 #define ICMPV6_PORT_UNREACH 4 /* Codes for Time Exceeded */ #define ICMPV6_EXC_HOPLIMIT 0 #define ICMPV6_EXC_FRAGTIME 1 /* Codes for Parameter Problem */ #define ICMPV6_HDR_FIELD 0 #define ICMPV6_UNK_NEXTHDR 1 #define ICMPV6_UNK_OPTION 2 #if 0 struct __attribute__ ((__packed__)) icmpv6_hdr { u8_t type; u8_t code; u16_t checksum; union { struct { u16_t id; u16_t sequence; } echo; u32_t gateway; struct { u16_t unused; u16_t mtu; } frag; } un; }; #endif void uip_neighbor_init(struct uip_stack *ustack); void uip_neighbor_add(struct uip_stack *ustack, struct in6_addr *addr6, struct uip_eth_addr *addr); void uip_neighbor_update(struct uip_stack *ustack, struct in6_addr *addr6); int uip_neighbor_lookup(struct uip_stack *ustack, struct in6_addr *ipaddr, uint8_t *mac_addr); void uip_neighbor_periodic(void); void uip_neighbor_out(struct uip_stack *ustack); #endif /* __UIP-NEIGHBOR_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/uip.c000066400000000000000000002112361277325716400201440ustar00rootroot00000000000000#include #include #include #include #include #include "uip.h" #include "dhcpc.h" #include "ipv6_ndpc.h" #include "brcm_iscsi.h" #include "ping.h" /** * \defgroup uip The uIP TCP/IP stack * @{ * * uIP is an implementation of the TCP/IP protocol stack intended for * small 8-bit and 16-bit microcontrollers. * * uIP provides the necessary protocols for Internet communication, * with a very small code footprint and RAM requirements - the uIP * code size is on the order of a few kilobytes and RAM usage is on * the order of a few hundred bytes. */ /** * \file * The uIP TCP/IP stack code. * \author Adam Dunkels */ /* * Copyright (c) 2001-2003, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack. * * */ /* * uIP is a small implementation of the IP, UDP and TCP protocols (as * well as some basic ICMP stuff). The implementation couples the IP, * UDP, TCP and the application layers very tightly. To keep the size * of the compiled code down, this code frequently uses the goto * statement. While it would be possible to break the uip_process() * function into many smaller functions, this would increase the code * size because of the overhead of parameter passing and the fact that * the optimier would not be as efficient. * * The principle is that we have a small buffer, called the uip_buf, * in which the device driver puts an incoming packet. The TCP/IP * stack parses the headers in the packet, and calls the * application. If the remote host has sent data to the application, * this data is present in the uip_buf and the application read the * data from there. It is up to the application to put this data into * a byte stream if needed. The application will not be fed with data * that is out of sequence. * * If the application whishes to send data to the peer, it should put * its data into the uip_buf. The uip_appdata pointer points to the * first available byte. The TCP/IP stack will calculate the * checksums, and fill in the necessary header fields and finally send * the packet back to the peer. */ #include "logger.h" #include "uip.h" #include "uipopt.h" #include "uip_arch.h" #include "uip_eth.h" #include "uip-neighbor.h" #include /******************************************************************************* * Constants ******************************************************************************/ #define PFX "uip " static const uip_ip6addr_t all_ones_addr6 = { 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff }; static const uip_ip4addr_t all_ones_addr4 = { 0xffff, 0xffff }; const uip_ip6addr_t all_zeroes_addr6 = { 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000 }; const uip_ip4addr_t all_zeroes_addr4 = { 0x0000, 0x0000 }; const uint8_t mutlicast_ipv6_prefix[16] = { 0xfc, 0x00, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; const uint8_t link_local_addres_prefix[16] = { 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; const uint32_t link_local_address_prefix_length = 10; /* Structures and definitions. */ #define TCP_FIN 0x01 #define TCP_SYN 0x02 #define TCP_RST 0x04 #define TCP_PSH 0x08 #define TCP_ACK 0x10 #define TCP_URG 0x20 #define TCP_CTL 0x3f #define TCP_OPT_END 0 /* End of TCP options list */ #define TCP_OPT_NOOP 1 /* "No-operation" TCP option */ #define TCP_OPT_MSS 2 /* Maximum segment size TCP option */ #define TCP_OPT_MSS_LEN 4 /* Length of TCP MSS option. */ #define ICMP_ECHO_REPLY 0 #define ICMP_ECHO 8 #define ICMP6_ECHO_REPLY 129 #define ICMP6_ECHO 128 #define ICMP6_NEIGHBOR_SOLICITATION 135 #define ICMP6_NEIGHBOR_ADVERTISEMENT 136 #define ICMP6_FLAG_S (1 << 6) #define ICMP6_OPTION_SOURCE_LINK_ADDRESS 1 #define ICMP6_OPTION_TARGET_LINK_ADDRESS 2 /* Macros. */ #define FBUF ((struct uip_tcpip_hdr *)&uip_reassbuf[0]) #define UDPBUF(ustack) ((struct uip_udpip_hdr *)ustack->network_layer) /****************************************************************************** * Utility Functions *****************************************************************************/ static int is_ipv6(struct uip_stack *ustack) { u16_t type; type = ETH_BUF(ustack->uip_buf)->type; type = ntohs(type); if (type == UIP_ETHTYPE_8021Q) type = ntohs(VLAN_ETH_BUF(ustack->uip_buf)->type); else type = ntohs(ETH_BUF(ustack->uip_buf)->type); return (type == UIP_ETHTYPE_IPv6); } int is_ipv6_link_local_address(uip_ip6addr_t *addr) { u8_t *test_adddr = (u8_t *) addr; u8_t test_remainder; if (test_adddr[0] != link_local_addres_prefix[0]) return 0; test_remainder = (test_adddr[1] & 0xC0) >> 6; if (test_remainder != 2) return 0; return 1; } void uip_sethostaddr4(struct uip_stack *ustack, uip_ip4addr_t *addr) { pthread_mutex_lock(&ustack->lock); uip_ip4addr_copy(ustack->hostaddr, (addr)); pthread_mutex_unlock(&ustack->lock); } void uip_setdraddr4(struct uip_stack *ustack, uip_ip4addr_t *addr) { pthread_mutex_lock(&ustack->lock); uip_ip4addr_copy(ustack->default_route_addr, (addr)); pthread_mutex_unlock(&ustack->lock); } void uip_setnetmask4(struct uip_stack *ustack, uip_ip4addr_t *addr) { pthread_mutex_lock(&ustack->lock); uip_ip4addr_copy(ustack->netmask, (addr)); pthread_mutex_unlock(&ustack->lock); } void uip_setethernetmac(struct uip_stack *ustack, uint8_t *mac) { pthread_mutex_lock(&ustack->lock); memcpy(ustack->uip_ethaddr.addr, (mac), 6); pthread_mutex_unlock(&ustack->lock); } void set_uip_stack(struct uip_stack *ustack, uip_ip4addr_t *ip, uip_ip4addr_t *netmask, uip_ip4addr_t *default_route, uint8_t *mac_addr) { if (ip) uip_sethostaddr4(ustack, ip); if (netmask) uip_setnetmask4(ustack, netmask); if (default_route) uip_setdraddr4(ustack, default_route); if (mac_addr) uip_setethernetmac(ustack, mac_addr); } #if !UIP_ARCH_ADD32 void uip_add32(u8_t *op32, u16_t op16, u8_t *uip_acc32) { uip_acc32[3] = op32[3] + (op16 & 0xff); uip_acc32[2] = op32[2] + (op16 >> 8); uip_acc32[1] = op32[1]; uip_acc32[0] = op32[0]; if (uip_acc32[2] < (op16 >> 8)) { ++uip_acc32[1]; if (uip_acc32[1] == 0) ++uip_acc32[0]; } if (uip_acc32[3] < (op16 & 0xff)) { ++uip_acc32[2]; if (uip_acc32[2] == 0) { ++uip_acc32[1]; if (uip_acc32[1] == 0) ++uip_acc32[0]; } } } #endif /* UIP_ARCH_ADD32 */ #if !UIP_ARCH_CHKSUM /*---------------------------------------------------------------------------*/ static u16_t chksum(u16_t sum, const u8_t *data, u16_t len) { u16_t t; const u8_t *dataptr; const u8_t *last_byte; dataptr = data; last_byte = data + len - 1; while (dataptr < last_byte) { /* At least two more bytes */ t = (dataptr[0] << 8) + dataptr[1]; sum += t; if (sum < t) sum++; /* carry */ dataptr += 2; } if (dataptr == last_byte) { t = (dataptr[0] << 8) + 0; sum += t; if (sum < t) sum++; /* carry */ } /* Return sum in host byte order. */ return sum; } /*---------------------------------------------------------------------------*/ u16_t uip_chksum(u16_t *data, u16_t len) { return htons(chksum(0, (u8_t *)data, len)); } /*---------------------------------------------------------------------------*/ #ifndef UIP_ARCH_IPCHKSUM u16_t uip_ipchksum(struct uip_stack *ustack) { u16_t sum; u16_t uip_iph_len; if (is_ipv6(ustack)) uip_iph_len = UIP_IPv6_H_LEN; else uip_iph_len = UIP_IPv4_H_LEN; sum = chksum(0, ustack->network_layer, uip_iph_len); return (sum == 0) ? 0xffff : htons(sum); } #endif /*---------------------------------------------------------------------------*/ static u16_t upper_layer_chksum_ipv4(struct uip_stack *ustack, u8_t proto) { u16_t upper_layer_len; u16_t sum; struct uip_tcp_ipv4_hdr *tcp_ipv4_hdr = NULL; tcp_ipv4_hdr = (struct uip_tcp_ipv4_hdr *)ustack->network_layer; upper_layer_len = (((u16_t) (tcp_ipv4_hdr->len[0]) << 8) + tcp_ipv4_hdr->len[1]) - UIP_IPv4_H_LEN; /* First sum pseudoheader. */ /* IP protocol and length fields. This addition cannot carry. */ sum = upper_layer_len + proto; sum = chksum(sum, (u8_t *)&tcp_ipv4_hdr->srcipaddr[0], 2 * sizeof(uip_ip4addr_t)); /* Sum TCP header and data. */ sum = chksum(sum, ustack->network_layer + UIP_IPv4_H_LEN, upper_layer_len); return (sum == 0) ? 0xffff : htons(sum); } /*---------------------------------------------------------------------------*/ static uint16_t upper_layer_checksum_ipv6(uint8_t *data, uint8_t proto) { uint16_t upper_layer_len; uint16_t sum; struct ip6_hdr *ipv6_hdr; uint8_t *upper_layer; uint32_t val; ipv6_hdr = (struct ip6_hdr *)data; upper_layer_len = ntohs(ipv6_hdr->ip6_plen); /* First sum pseudoheader. */ sum = 0; sum = chksum(sum, (const u8_t *)ipv6_hdr->ip6_src.s6_addr, sizeof(ipv6_hdr->ip6_src)); sum = chksum(sum, (const u8_t *)ipv6_hdr->ip6_dst.s6_addr, sizeof(ipv6_hdr->ip6_dst)); val = htons(upper_layer_len); sum = chksum(sum, (u8_t *)&val, sizeof(val)); val = htons(proto); sum = chksum(sum, (u8_t *)&val, sizeof(val)); upper_layer = (uint8_t *)(ipv6_hdr + 1); sum = chksum(sum, upper_layer, upper_layer_len); return (sum == 0) ? 0xffff : htons(sum); } /*---------------------------------------------------------------------------*/ u16_t uip_icmp6chksum(struct uip_stack *ustack) { uint8_t *data = ustack->network_layer; return upper_layer_checksum_ipv6(data, UIP_PROTO_ICMP6); } uint16_t icmpv6_checksum(uint8_t *data) { return upper_layer_checksum_ipv6(data, IPPROTO_ICMPV6); } /*---------------------------------------------------------------------------*/ u16_t uip_tcpchksum(struct uip_stack *ustack) { return upper_layer_chksum_ipv4(ustack, UIP_PROTO_TCP); } /*---------------------------------------------------------------------------*/ #if UIP_UDP_CHECKSUMS static u16_t uip_udpchksum_ipv4(struct uip_stack *ustack) { return upper_layer_chksum_ipv4(ustack, UIP_PROTO_UDP); } static u16_t uip_udpchksum_ipv6(struct uip_stack *ustack) { uint8_t *data = ustack->network_layer; return upper_layer_checksum_ipv6(data, UIP_PROTO_UDP); } u16_t uip_udpchksum(struct uip_stack *ustack) { if (is_ipv6(ustack)) return uip_udpchksum_ipv6(ustack); else return uip_udpchksum_ipv4(ustack); } #endif /* UIP_UDP_CHECKSUMS */ #endif /* UIP_ARCH_CHKSUM */ /*---------------------------------------------------------------------------*/ void uip_init(struct uip_stack *ustack, uint8_t ipv6_enabled) { u8_t c; for (c = 0; c < UIP_LISTENPORTS; ++c) ustack->uip_listenports[c] = 0; for (c = 0; c < UIP_CONNS; ++c) ustack->uip_conns[c].tcpstateflags = UIP_CLOSED; #if UIP_ACTIVE_OPEN ustack->lastport = 1024; #endif /* UIP_ACTIVE_OPEN */ #if UIP_UDP for (c = 0; c < UIP_UDP_CONNS; ++c) ustack->uip_udp_conns[c].lport = 0; #endif /* UIP_UDP */ /* IPv4 initialization. */ #if UIP_FIXEDADDR == 0 /* uip_hostaddr[0] = uip_hostaddr[1] = 0; */ #endif /* UIP_FIXEDADDR */ /* zero out the uIP statistics */ memset(&ustack->stats, 0, sizeof(ustack->stats)); /* prepare the uIP lock */ pthread_mutex_init(&ustack->lock, NULL); if (ipv6_enabled) ustack->enable_IPv6 = UIP_SUPPORT_IPv6_ENABLED; else ustack->enable_IPv6 = UIP_SUPPORT_IPv6_DISABLED; ustack->dhcpc = NULL; ustack->ndpc = NULL; ustack->ping_conf = NULL; } void uip_reset(struct uip_stack *ustack) { /* There was an associated DHCP object, this memory needs to be * freed */ if (ustack->dhcpc) free(ustack->dhcpc); ndpc_exit(ustack->ndpc); memset(ustack, 0, sizeof(*ustack)); } /*---------------------------------------------------------------------------*/ #if UIP_ACTIVE_OPEN struct uip_conn *uip_connect(struct uip_stack *ustack, uip_ip4addr_t *ripaddr, u16_t rport) { u8_t c; register struct uip_conn *conn, *cconn; /* Find an unused local port. */ again: ++ustack->lastport; if (ustack->lastport >= 32000) ustack->lastport = 4096; /* Check if this port is already in use, and if so try to find another one. */ for (c = 0; c < UIP_CONNS; ++c) { conn = &ustack->uip_conns[c]; if (conn->tcpstateflags != UIP_CLOSED && conn->lport == htons(ustack->lastport)) { goto again; } } conn = 0; for (c = 0; c < UIP_CONNS; ++c) { cconn = &ustack->uip_conns[c]; if (cconn->tcpstateflags == UIP_CLOSED) { conn = cconn; break; } if (cconn->tcpstateflags == UIP_TIME_WAIT) { if (conn == 0 || cconn->timer > conn->timer) conn = cconn; } } if (conn == 0) return 0; conn->tcpstateflags = UIP_SYN_SENT; conn->snd_nxt[0] = ustack->iss[0]; conn->snd_nxt[1] = ustack->iss[1]; conn->snd_nxt[2] = ustack->iss[2]; conn->snd_nxt[3] = ustack->iss[3]; conn->initialmss = conn->mss = UIP_TCP_MSS; conn->len = 1; /* TCP length of the SYN is one. */ conn->nrtx = 0; conn->timer = 1; /* Send the SYN next time around. */ conn->rto = UIP_RTO; conn->sa = 0; conn->sv = 16; /* Initial value of the RTT variance. */ conn->lport = htons(ustack->lastport); conn->rport = rport; uip_ip4addr_copy(&conn->ripaddr, ripaddr); return conn; } #endif /* UIP_ACTIVE_OPEN */ /*---------------------------------------------------------------------------*/ #if UIP_UDP struct uip_udp_conn *uip_udp_new(struct uip_stack *ustack, uip_ip4addr_t *ripaddr, u16_t rport) { u8_t c; register struct uip_udp_conn *conn; /* Find an unused local port. */ again: ++ustack->lastport; if (ustack->lastport >= 32000) ustack->lastport = 4096; for (c = 0; c < UIP_UDP_CONNS; ++c) { if (ustack->uip_udp_conns[c].lport == htons(ustack->lastport)) goto again; } conn = 0; for (c = 0; c < UIP_UDP_CONNS; ++c) { if (ustack->uip_udp_conns[c].lport == 0) { conn = &ustack->uip_udp_conns[c]; break; } } if (conn == 0) return 0; conn->lport = htons(ustack->lastport); conn->rport = rport; if (ripaddr == NULL) memset(conn->ripaddr, 0, sizeof(uip_ip4addr_t)); else uip_ip4addr_copy(&conn->ripaddr, ripaddr); conn->ttl = UIP_TTL; return conn; } #endif /* UIP_UDP */ /*---------------------------------------------------------------------------*/ void uip_unlisten(struct uip_stack *ustack, u16_t port) { u8_t c; for (c = 0; c < UIP_LISTENPORTS; ++c) { if (ustack->uip_listenports[c] == port) { ustack->uip_listenports[c] = 0; return; } } } /*---------------------------------------------------------------------------*/ void uip_listen(struct uip_stack *ustack, u16_t port) { u8_t c; for (c = 0; c < UIP_LISTENPORTS; ++c) { if (ustack->uip_listenports[c] == 0) { ustack->uip_listenports[c] = port; return; } } } /** * Is new incoming data available? * * Will reduce to non-zero if there is new data for the application * present at the uip_appdata pointer. The size of the data is * avaliable through the uip_len variable. * * \hideinitializer */ int uip_newdata(struct uip_stack *ustack) { return ustack->uip_flags & UIP_NEWDATA; } /** * Has previously sent data been acknowledged? * * Will reduce to non-zero if the previously sent data has been * acknowledged by the remote host. This means that the application * can send new data. * * \hideinitializer */ #define uip_acked() (uip_flags & UIP_ACKDATA) /** * Has the connection just been connected? * * Reduces to non-zero if the current connection has been connected to * a remote host. This will happen both if the connection has been * actively opened (with uip_connect()) or passively opened (with * uip_listen()). * * \hideinitializer */ int uip_connected(struct uip_stack *ustack) { return ustack->uip_flags & UIP_CONNECTED; } /** * Has the connection been closed by the other end? * * Is non-zero if the connection has been closed by the remote * host. The application may then do the necessary clean-ups. * * \hideinitializer */ int uip_closed(struct uip_stack *ustack) { return ustack->uip_flags & UIP_CLOSE; } /** * Has the connection been aborted by the other end? * * Non-zero if the current connection has been aborted (reset) by the * remote host. * * \hideinitializer */ int uip_aborted(struct uip_stack *ustack) { return ustack->uip_flags & UIP_ABORT; } /** * Has the connection timed out? * * Non-zero if the current connection has been aborted due to too many * retransmissions. * * \hideinitializer */ int uip_timedout(struct uip_stack *ustack) { return ustack->uip_flags & UIP_TIMEDOUT; } /** * Do we need to retransmit previously data? * * Reduces to non-zero if the previously sent data has been lost in * the network, and the application should retransmit it. The * application should send the exact same data as it did the last * time, using the uip_send() function. * * \hideinitializer */ int uip_rexmit(struct uip_stack *ustack) { return ustack->uip_flags & UIP_REXMIT; } /** * Is the connection being polled by uIP? * * Is non-zero if the reason the application is invoked is that the * current connection has been idle for a while and should be * polled. * * The polling event can be used for sending data without having to * wait for the remote host to send data. * * \hideinitializer */ int uip_poll(struct uip_stack *ustack) { return ustack->uip_flags & UIP_POLL; } int uip_initialmss(struct uip_stack *ustack) { return ustack->uip_conn->initialmss; } int uip_mss(struct uip_stack *ustack) { return ustack->uip_conn->mss; } /*---------------------------------------------------------------------------*/ /* XXX: IP fragment reassembly: not well-tested. */ #if UIP_REASSEMBLY && !UIP_CONF_IPV6 #define UIP_REASS_BUFSIZE (UIP_BUFSIZE - UIP_LLH_LEN) static u8_t uip_reassbuf[UIP_REASS_BUFSIZE]; static u8_t uip_reassbitmap[UIP_REASS_BUFSIZE / (8 * 8)]; static const u8_t bitmap_bits[8] = { 0xff, 0x7f, 0x3f, 0x1f, 0x0f, 0x07, 0x03, 0x01 }; static u16_t uip_reasslen; static u8_t uip_reassflags; #define UIP_REASS_FLAG_LASTFRAG 0x01 static u8_t uip_reasstmr; #define IP_MF 0x20 static u8_t uip_reass(void) { u16_t offset, len; u16_t i; /* If ip_reasstmr is zero, no packet is present in the buffer, so we write the IP header of the fragment into the reassembly buffer. The timer is updated with the maximum age. */ if (uip_reasstmr == 0) { memcpy(uip_reassbuf, &BUF(ustack)->vhl, uip_iph_len); uip_reasstmr = UIP_REASS_MAXAGE; uip_reassflags = 0; /* Clear the bitmap. */ memset(uip_reassbitmap, 0, sizeof(uip_reassbitmap)); } /* Check if the incoming fragment matches the one currently present in the reasembly buffer. If so, we proceed with copying the fragment into the buffer. */ if (BUF(ustack)->srcipaddr[0] == FBUF(ustack)->srcipaddr[0] && BUF(ustack)->srcipaddr[1] == FBUF(ustack)->srcipaddr[1] && BUF(ustack)->destipaddr[0] == FBUF(ustack)->destipaddr[0] && BUF(ustack)->destipaddr[1] == FBUF(ustack)->destipaddr[1] && BUF(ustack)->ipid[0] == FBUF(ustack)->ipid[0] && BUF(ustack)->ipid[1] == FBUF(ustack)->ipid[1]) { len = (BUF(ustack)->len[0] << 8) + BUF(ustack)->len[1] - (BUF(ustack)->vhl & 0x0f) * 4; offset = (((BUF(ustack)->ipoffset[0] & 0x3f) << 8) + BUF(ustack)->ipoffset[1]) * 8; /* If the offset or the offset + fragment length overflows the reassembly buffer, we discard the entire packet. */ if (offset > UIP_REASS_BUFSIZE || offset + len > UIP_REASS_BUFSIZE) { uip_reasstmr = 0; goto nullreturn; } /* Copy the fragment into the reassembly buffer, at the right offset. */ memcpy(&uip_reassbuf[uip_iph_len + offset], (char *)BUF + (int)((BUF(ustack)->vhl & 0x0f) * 4), len); /* Update the bitmap. */ if (offset / (8 * 8) == (offset + len) / (8 * 8)) { /* If the two endpoints are in the same byte, we only update that byte. */ uip_reassbitmap[offset / (8 * 8)] |= bitmap_bits[(offset / 8) & 7] & ~bitmap_bits[((offset + len) / 8) & 7]; } else { /* If the two endpoints are in different bytes, we update the bytes in the endpoints and fill the stuff inbetween with 0xff. */ uip_reassbitmap[offset / (8 * 8)] |= bitmap_bits[(offset / 8) & 7]; for (i = 1 + offset / (8 * 8); i < (offset + len) / (8 * 8); ++i) { uip_reassbitmap[i] = 0xff; } uip_reassbitmap[(offset + len) / (8 * 8)] |= ~bitmap_bits[((offset + len) / 8) & 7]; } /* If this fragment has the More Fragments flag set to zero, we know that this is the last fragment, so we can calculate the size of the entire packet. We also set the IP_REASS_FLAG_LASTFRAG flag to indicate that we have received the final fragment. */ if ((BUF(ustack)->ipoffset[0] & IP_MF) == 0) { uip_reassflags |= UIP_REASS_FLAG_LASTFRAG; uip_reasslen = offset + len; } /* Finally, we check if we have a full packet in the buffer. We do this by checking if we have the last fragment and if all bits in the bitmap are set. */ if (uip_reassflags & UIP_REASS_FLAG_LASTFRAG) { /* Check all bytes up to and including all but the last byte in the bitmap. */ for (i = 0; i < uip_reasslen / (8 * 8) - 1; ++i) { if (uip_reassbitmap[i] != 0xff) goto nullreturn; } /* Check the last byte in the bitmap. It should contain just the right amount of bits. */ if (uip_reassbitmap[uip_reasslen / (8 * 8)] != (u8_t) ~bitmap_bits[uip_reasslen / 8 & 7]) goto nullreturn; /* If we have come this far, we have a full packet in the buffer, so we allocate a pbuf and copy the packet into it. We also reset the timer. */ uip_reasstmr = 0; memcpy(BUF, FBUF, uip_reasslen); /* Pretend to be a "normal" (i.e., not fragmented) IP packet from now on. */ BUF(ustack)->ipoffset[0] = BUF(ustack)->ipoffset[1] = 0; BUF(ustack)->len[0] = uip_reasslen >> 8; BUF(ustack)->len[1] = uip_reasslen & 0xff; BUF(ustack)->ipchksum = 0; BUF(ustack)->ipchksum = ~(uip_ipchksum()); return uip_reasslen; } } nullreturn: return 0; } #endif /* UIP_REASSEMBLY */ /*---------------------------------------------------------------------------*/ static void uip_add_rcv_nxt(struct uip_stack *ustack, u16_t n) { u8_t uip_acc32[4]; uip_add32(ustack->uip_conn->rcv_nxt, n, uip_acc32); ustack->uip_conn->rcv_nxt[0] = uip_acc32[0]; ustack->uip_conn->rcv_nxt[1] = uip_acc32[1]; ustack->uip_conn->rcv_nxt[2] = uip_acc32[2]; ustack->uip_conn->rcv_nxt[3] = uip_acc32[3]; } /*---------------------------------------------------------------------------*/ /** @} */ /** * \defgroup uipdevfunc uIP device driver functions * @{ * * These functions are used by a network device driver for interacting * with uIP. */ /** * Process an incoming packet. * * This function should be called when the device driver has received * a packet from the network. The packet from the device driver must * be present in the uip_buf buffer, and the length of the packet * should be placed in the uip_len variable. * * When the function returns, there may be an outbound packet placed * in the uip_buf packet buffer. If so, the uip_len variable is set to * the length of the packet. If no packet is to be sent out, the * uip_len variable is set to 0. * * The usual way of calling the function is presented by the source * code below. \code uip_len = devicedriver_poll(); if(uip_len > 0) { uip_input(); if(uip_len > 0) { devicedriver_send(); } } \endcode * * \note If you are writing a uIP device driver that needs ARP * (Address Resolution Protocol), e.g., when running uIP over * Ethernet, you will need to call the uIP ARP code before calling * this function: \code #define BUF ((struct uip_eth_hdr *)&uip_buf[0]) uip_len = ethernet_devicedrver_poll(); if(uip_len > 0) { if (BUF(ustack)->type == HTONS(UIP_ETHTYPE_IP)) { uip_arp_ipin(); uip_input(); if (uip_len > 0) { uip_arp_out(); ethernet_devicedriver_send(); } } else if (BUF(ustack)->type == HTONS(UIP_ETHTYPE_ARP)) { uip_arp_arpin(); if (uip_len > 0) ethernet_devicedriver_send(); } \endcode * * \hideinitializer */ void uip_input(struct uip_stack *ustack) { uip_process(ustack, UIP_DATA); } /** * Periodic processing for a connection identified by its number. * * This function does the necessary periodic processing (timers, * polling) for a uIP TCP conneciton, and should be called when the * periodic uIP timer goes off. It should be called for every * connection, regardless of whether they are open of closed. * * When the function returns, it may have an outbound packet waiting * for service in the uIP packet buffer, and if so the uip_len * variable is set to a value larger than zero. The device driver * should be called to send out the packet. * * The ususal way of calling the function is through a for() loop like * this: \code for(i = 0; i < UIP_CONNS; ++i) { uip_periodic(i); if(uip_len > 0) { devicedriver_send(); } } \endcode * * \note If you are writing a uIP device driver that needs ARP * (Address Resolution Protocol), e.g., when running uIP over * Ethernet, you will need to call the uip_arp_out() function before * calling the device driver: \code for(i = 0; i < UIP_CONNS; ++i) { uip_periodic(i); if(uip_len > 0) { uip_arp_out(); ethernet_devicedriver_send(); } } \endcode * * \param conn The number of the connection which is to be periodically polled. * * \hideinitializer */ void uip_periodic(struct uip_stack *ustack, int conn) { ustack->uip_conn = &ustack->uip_conns[conn]; uip_process(ustack, UIP_TIMER); } #if UIP_UDP /** * Periodic processing for a UDP connection identified by its number. * * This function is essentially the same as uip_periodic(), but for * UDP connections. It is called in a similar fashion as the * uip_periodic() function: \code for(i = 0; i < UIP_UDP_CONNS; i++) { uip_udp_periodic(i); if(uip_len > 0) { devicedriver_send(); } } \endcode * * \note As for the uip_periodic() function, special care has to be * taken when using uIP together with ARP and Ethernet: \code for(i = 0; i < UIP_UDP_CONNS; i++) { uip_udp_periodic(i); if(uip_len > 0) { uip_arp_out(); ethernet_devicedriver_send(); } } \endcode * * \param conn The number of the UDP connection to be processed. * * \hideinitializer */ void uip_udp_periodic(struct uip_stack *ustack, int conn) { ustack->uip_udp_conn = &ustack->uip_udp_conns[conn]; uip_process(ustack, UIP_UDP_TIMER); } #endif void uip_ndp_periodic(struct uip_stack *ustack) { uip_process(ustack, UIP_NDP_TIMER); } void uip_process(struct uip_stack *ustack, u8_t flag) { u8_t c; u16_t tmp16; register struct uip_conn *uip_connr = ustack->uip_conn; u16_t uip_iph_len = 0; u16_t uip_ip_udph_len = 0; u16_t uip_ip_tcph_len = 0; struct ip6_hdr *ipv6_hdr = NULL; struct uip_tcp_ipv4_hdr *tcp_ipv4_hdr = NULL; struct uip_tcp_hdr *tcp_hdr = NULL; struct uip_icmpv4_hdr *icmpv4_hdr = NULL; struct uip_icmpv6_hdr *icmpv6_hdr __attribute__((__unused__)) = NULL; struct uip_udp_hdr *udp_hdr = NULL; /* Drop invalid packets */ if (ustack->uip_buf == NULL) { LOG_ERR(PFX "ustack->uip_buf == NULL."); return; } if (is_ipv6(ustack)) { uint8_t *buf; uip_iph_len = UIP_IPv6_H_LEN; uip_ip_udph_len = UIP_IPv6_UDPH_LEN; uip_ip_tcph_len = UIP_IPv6_TCPH_LEN; ipv6_hdr = (struct ip6_hdr *)ustack->network_layer; buf = ustack->network_layer; buf += sizeof(struct uip_ipv6_hdr); tcp_hdr = (struct uip_tcp_hdr *)buf; buf = ustack->network_layer; buf += sizeof(struct uip_ipv6_hdr); udp_hdr = (struct uip_udp_hdr *)buf; buf = ustack->network_layer; buf += sizeof(struct uip_ipv6_hdr); icmpv6_hdr = (struct uip_icmpv6_hdr *)buf; } else { uint8_t *buf; uip_iph_len = UIP_IPv4_H_LEN; uip_ip_udph_len = UIP_IPv4_UDPH_LEN; uip_ip_tcph_len = UIP_IPv4_TCPH_LEN; tcp_ipv4_hdr = (struct uip_tcp_ipv4_hdr *)ustack->network_layer; buf = ustack->network_layer; buf += sizeof(struct uip_ipv4_hdr); tcp_hdr = (struct uip_tcp_hdr *)buf; buf = ustack->network_layer; buf += sizeof(struct uip_ipv4_hdr); icmpv4_hdr = (struct uip_icmpv4_hdr *)buf; buf = ustack->network_layer; buf += sizeof(struct uip_ipv4_hdr); udp_hdr = (struct uip_udp_hdr *)buf; } /* End of ipv6 */ #if UIP_UDP if (flag == UIP_UDP_SEND_CONN) goto udp_send; #endif /* UIP_UDP */ ustack->uip_sappdata = ustack->uip_appdata = ustack->network_layer + uip_ip_tcph_len; /* Check if we were invoked because of a poll request for a particular connection. */ if (flag == UIP_POLL_REQUEST) { if ((uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_ESTABLISHED && !uip_outstanding(uip_connr)) { ustack->uip_flags = UIP_POLL; UIP_APPCALL(ustack); goto appsend; } goto drop; /* Check if we were invoked because of the perodic timer firing. */ } else if (flag == UIP_TIMER) { #if UIP_REASSEMBLY if (uip_reasstmr != 0) --uip_reasstmr; #endif /* UIP_REASSEMBLY */ /* Increase the initial sequence number. */ if (++ustack->iss[3] == 0) { if (++ustack->iss[2] == 0) { if (++ustack->iss[1] == 0) ++ustack->iss[0]; } } /* Reset the length variables. */ ustack->uip_len = 0; ustack->uip_slen = 0; /* Check if the connection is in a state in which we simply wait for the connection to time out. If so, we increase the connection's timer and remove the connection if it times out. */ if (uip_connr->tcpstateflags == UIP_TIME_WAIT || uip_connr->tcpstateflags == UIP_FIN_WAIT_2) { ++(uip_connr->timer); if (uip_connr->timer == UIP_TIME_WAIT_TIMEOUT) uip_connr->tcpstateflags = UIP_CLOSED; } else if (uip_connr->tcpstateflags != UIP_CLOSED) { /* If the connection has outstanding data, we increase the connection's timer and see if it has reached the RTO value in which case we retransmit. */ if (uip_outstanding(uip_connr)) { if (uip_connr->timer-- == 0) { if (uip_connr->nrtx == UIP_MAXRTX || ((uip_connr->tcpstateflags == UIP_SYN_SENT || uip_connr->tcpstateflags == UIP_SYN_RCVD) && uip_connr->nrtx == UIP_MAXSYNRTX)) { uip_connr->tcpstateflags = UIP_CLOSED; /* We call UIP_APPCALL() with uip_flags set to UIP_TIMEDOUT to inform the application that the connection has timed out. */ ustack->uip_flags = UIP_TIMEDOUT; UIP_APPCALL(ustack); /* We also send a reset packet to the remote host. */ tcp_hdr->flags = TCP_RST | TCP_ACK; goto tcp_send_nodata; } /* Exponential backoff. */ uip_connr->timer = UIP_RTO << (uip_connr->nrtx > 4 ? 4 : uip_connr-> nrtx); ++(uip_connr->nrtx); /* Ok, so we need to retransmit. We do this differently depending on which state we are in. In ESTABLISHED, we call upon the application so that it may prepare the data for the retransmit. In SYN_RCVD, we resend the SYNACK that we sent earlier and in LAST_ACK we have to retransmit our FINACK. */ ++ustack->stats.tcp.rexmit; switch (uip_connr-> tcpstateflags & UIP_TS_MASK) { case UIP_SYN_RCVD: /* In the SYN_RCVD state, we should retransmit our SYNACK */ goto tcp_send_synack; #if UIP_ACTIVE_OPEN case UIP_SYN_SENT: /* In the SYN_SENT state, we retransmit out SYN. */ tcp_hdr->flags = 0; goto tcp_send_syn; #endif /* UIP_ACTIVE_OPEN */ case UIP_ESTABLISHED: /* In the ESTABLISHED state, we call upon the application to do the actual retransmit after which we jump into the code for sending out the packet (the apprexmit label). */ ustack->uip_flags = UIP_REXMIT; UIP_APPCALL(ustack); goto apprexmit; case UIP_FIN_WAIT_1: case UIP_CLOSING: case UIP_LAST_ACK: /* In all these states we should retransmit a FINACK. */ goto tcp_send_finack; } } } else if ((uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_ESTABLISHED) { /* If there was no need for a retransmission, we poll the application for new data. */ ustack->uip_flags = UIP_POLL; UIP_APPCALL(ustack); goto appsend; } } goto drop; } /* End of UIP_TIMER */ #if UIP_UDP if (flag == UIP_UDP_TIMER) { /* This is for IPv4 DHCP only! */ if (ustack->uip_udp_conn->lport != 0) { ustack->uip_conn = NULL; ustack->uip_sappdata = ustack->uip_appdata = ustack->network_layer + uip_ip_udph_len; ustack->uip_len = ustack->uip_slen = 0; ustack->uip_flags = UIP_POLL; UIP_UDP_APPCALL(ustack); goto udp_send; } else { goto drop; } } #endif if (flag == UIP_NDP_TIMER) { /* This is for IPv6 NDP Only! */ if (1) { /* If NDP engine active */ ustack->uip_len = ustack->uip_slen = 0; ustack->uip_flags = UIP_POLL; goto ndp_send; } } /* This is where the input processing starts. */ ++ustack->stats.ip.recv; /* Start of IP input header processing code. */ if (is_ipv6(ustack)) { u8_t version = ((ipv6_hdr->ip6_vfc) & 0xf0) >> 4; /* Check validity of the IP header. */ if (version != 0x6) { /* IP version and header length. */ ++ustack->stats.ip.drop; ++ustack->stats.ip.vhlerr; LOG_DEBUG(PFX "ipv6: invalid version(0x%x).", version); goto drop; } } else { /* Check validity of the IP header. */ if (tcp_ipv4_hdr->vhl != 0x45) { /* IP version and header length. */ ++ustack->stats.ip.drop; ++ustack->stats.ip.vhlerr; LOG_DEBUG(PFX "ipv4: invalid version or header length: " "0x%x.", tcp_ipv4_hdr->vhl); goto drop; } } /* Check the size of the packet. If the size reported to us in uip_len is smaller the size reported in the IP header, we assume that the packet has been corrupted in transit. If the size of uip_len is larger than the size reported in the IP packet header, the packet has been padded and we set uip_len to the correct value.. */ if (is_ipv6(ustack)) { u16_t len = ntohs(ipv6_hdr->ip6_plen); if (len > ustack->uip_len) { LOG_DEBUG(PFX "ip: packet shorter than reported in IP header" ":IPv6_BUF(ustack)->len: %d ustack->uip_len: " "%d", len, ustack->uip_len); goto drop; } } else { if ((tcp_ipv4_hdr->len[0] << 8) + tcp_ipv4_hdr->len[1] <= ustack->uip_len) { ustack->uip_len = (tcp_ipv4_hdr->len[0] << 8) + tcp_ipv4_hdr->len[1]; } else { LOG_DEBUG(PFX "ip: packet shorter than reported in IP header" ":tcp_ipv4_hdr->len: %d ustack->uip_len:%d.", (tcp_ipv4_hdr->len[0] << 8) + tcp_ipv4_hdr->len[1], ustack->uip_len); goto drop; } } if (!is_ipv6(ustack)) { /* Check the fragment flag. */ if ((tcp_ipv4_hdr->ipoffset[0] & 0x3f) != 0 || tcp_ipv4_hdr->ipoffset[1] != 0) { #if UIP_REASSEMBLY uip_len = uip_reass(); if (uip_len == 0) goto drop; #else /* UIP_REASSEMBLY */ ++ustack->stats.ip.drop; ++ustack->stats.ip.fragerr; LOG_WARN(PFX "ip: fragment dropped."); goto drop; #endif /* UIP_REASSEMBLY */ } } if (!is_ipv6(ustack)) { /* ipv4 */ if (uip_ip4addr_cmp(ustack->hostaddr, all_zeroes_addr4)) { /* If we are configured to use ping IP address configuration and hasn't been assigned an IP address yet, we accept all ICMP packets. */ #if UIP_PINGADDRCONF && !UIP_CONF_IPV6 if (tcp_ipv4_hdr->proto == UIP_PROTO_ICMP) { LOG_WARN(PFX "ip: possible ping config packet " "received."); goto icmp_input; } else { LOG_WARN(PFX "ip: packet dropped since no " "address assigned."); goto drop; } #endif /* UIP_PINGADDRCONF */ } else { int broadcast_addr = 0xFFFFFFFF; /* If IP broadcast support is configured, we check for a broadcast UDP packet, which may be destined to us */ if ((tcp_ipv4_hdr->proto == UIP_PROTO_UDP) && (uip_ip4addr_cmp (tcp_ipv4_hdr->destipaddr, &broadcast_addr)) /*&& uip_ipchksum() == 0xffff */ ) { goto udp_input; } /* Check if the packet is destined for our IP address */ if (!uip_ip4addr_cmp(tcp_ipv4_hdr->destipaddr, ustack->hostaddr)) { ++ustack->stats.ip.drop; goto drop; } } if (uip_ipchksum(ustack) != 0xffff) { /* Compute and check the IP header checksum. */ ++ustack->stats.ip.drop; ++ustack->stats.ip.chkerr; LOG_ERR(PFX "ip: bad checksum."); goto drop; } } /* End of ipv4 */ if (is_ipv6(ustack)) { if (ipv6_hdr->ip6_nxt == UIP_PROTO_TCP) { /* Check for TCP packet. If so, proceed with TCP input processing. */ goto ndp_newdata; } #if UIP_UDP if (ipv6_hdr->ip6_nxt == UIP_PROTO_UDP) goto ndp_newdata; #endif /* UIP_UDP */ /* This is IPv6 ICMPv6 processing code. */ if (ipv6_hdr->ip6_nxt != UIP_PROTO_ICMP6) { /* We only allow ICMPv6 packets from here. */ ++ustack->stats.ip.drop; ++ustack->stats.ip.protoerr; goto drop; } ++ustack->stats.icmp.recv; ndp_newdata: /* This call is to handle the IPv6 Network Discovery Protocol */ ustack->uip_flags = UIP_NEWDATA; ustack->uip_slen = 0; ndp_send: UIP_NDP_CALL(ustack); if (ustack->uip_slen != 0) { ustack->uip_len = ustack->uip_slen; goto send; } else { goto drop; } } else { /* IPv4 Processing */ if (tcp_ipv4_hdr->proto == UIP_PROTO_TCP) { /* Check for TCP packet. If so, proceed with TCP input processing. */ goto tcp_input; } #if UIP_UDP if (tcp_ipv4_hdr->proto == UIP_PROTO_UDP) goto udp_input; #endif /* UIP_UDP */ /* ICMPv4 processing code follows. */ if (tcp_ipv4_hdr->proto != UIP_PROTO_ICMP) { /* We only allow ICMP packets from here. */ ++ustack->stats.ip.drop; ++ustack->stats.ip.protoerr; LOG_DEBUG(PFX "ip: neither tcp nor icmp."); goto drop; } #if UIP_PINGADDRCONF icmp_input: #endif /* UIP_PINGADDRCONF */ ++ustack->stats.icmp.recv; if (icmpv4_hdr->type == ICMP_ECHO_REPLY) { if (process_icmp_packet(icmpv4_hdr, ustack) == 0) goto drop; } /* ICMP echo (i.e., ping) processing. This is simple, we only change the ICMP type from ECHO to ECHO_REPLY and adjust the ICMP checksum before we return the packet. */ if (icmpv4_hdr->type != ICMP_ECHO) { ++ustack->stats.icmp.drop; ++ustack->stats.icmp.typeerr; LOG_DEBUG(PFX "icmp: not icmp echo."); goto drop; } /* If we are configured to use ping IP address assignment, we use the destination IP address of this ping packet and assign it to ourself. */ #if UIP_PINGADDRCONF if ((ustack->hostaddr[0] | ustack->hostaddr[1]) == 0) { ustack->hostaddr[0] = tcp_ipv4_hdr->destipaddr[0]; ustack->hostaddr[1] = tcp_ipv4_hdr->destipaddr[1]; } #endif /* UIP_PINGADDRCONF */ icmpv4_hdr->type = ICMP_ECHO_REPLY; if (icmpv4_hdr->icmpchksum >= htons(0xffff - (ICMP_ECHO << 8))) { icmpv4_hdr->icmpchksum += htons(ICMP_ECHO << 8) + 1; } else { icmpv4_hdr->icmpchksum += htons(ICMP_ECHO << 8); } /* Swap IP addresses. */ uip_ip4addr_copy(tcp_ipv4_hdr->destipaddr, tcp_ipv4_hdr->srcipaddr); uip_ip4addr_copy(tcp_ipv4_hdr->srcipaddr, ustack->hostaddr); ++ustack->stats.icmp.sent; goto send; /* End of IPv4 input header processing code. */ } #if UIP_UDP /* UDP input processing. */ udp_input: /* UDP processing is really just a hack. We don't do anything to the UDP/IP headers, but let the UDP application do all the hard work. If the application sets uip_slen, it has a packet to send. */ #if UIP_UDP_CHECKSUMS ustack->uip_len = ustack->uip_len - uip_ip_udph_len; ustack->uip_appdata = ustack->network_layer + uip_ip_udph_len; if (UDPBUF(ustack)->udpchksum != 0 && uip_udpchksum(ustack) != 0xffff) { ++ustack->stats.udp.drop; ++ustack->stats.udp.chkerr; LOG_DEBUG(PFX "udp: bad checksum."); goto drop; } #else /* UIP_UDP_CHECKSUMS */ uip_len = uip_len - uip_ip_udph_len; #endif /* UIP_UDP_CHECKSUMS */ if (is_ipv6(ustack)) goto udp_found; /* Demultiplex this UDP packet between the UDP "connections". */ for (ustack->uip_udp_conn = &ustack->uip_udp_conns[0]; ustack->uip_udp_conn < &ustack->uip_udp_conns[UIP_UDP_CONNS]; ++ustack->uip_udp_conn) { /* If the local UDP port is non-zero, the connection is considered to be used. If so, the local port number is checked against the destination port number in the received packet. If the two port numbers match, the remote port number is checked if the connection is bound to a remote port. Finally, if the connection is bound to a remote IP address, the source IP address of the packet is checked. */ if (ustack->uip_udp_conn->lport != 0 && UDPBUF(ustack)->destport == ustack->uip_udp_conn->lport && (ustack->uip_udp_conn->rport == 0 || UDPBUF(ustack)->srcport == ustack->uip_udp_conn->rport) && (uip_ip4addr_cmp(ustack->uip_udp_conn->ripaddr, all_zeroes_addr4) || uip_ip4addr_cmp(ustack->uip_udp_conn->ripaddr, all_ones_addr4) || uip_ip4addr_cmp(tcp_ipv4_hdr->srcipaddr, ustack->uip_udp_conn->ripaddr))) { goto udp_found; } } LOG_DEBUG(PFX "udp: no matching connection found: dest port: %d src port: " "%d", udp_hdr->destport, udp_hdr->srcport); goto drop; udp_found: ustack->uip_conn = NULL; ustack->uip_flags = UIP_NEWDATA; ustack->uip_sappdata = ustack->uip_appdata = ustack->network_layer + uip_ip_udph_len; ustack->uip_slen = 0; if (is_ipv6(ustack)) UIP_NDP_CALL(ustack); else UIP_UDP_APPCALL(ustack); udp_send: if (ustack->uip_slen == 0) goto drop; ustack->uip_len = ustack->uip_slen + uip_ip_udph_len; if (is_ipv6(ustack)) { goto ip_send_nolen; } else { tcp_ipv4_hdr->len[0] = (ustack->uip_len >> 8); tcp_ipv4_hdr->len[1] = (ustack->uip_len & 0xff); tcp_ipv4_hdr->ttl = ustack->uip_udp_conn->ttl; tcp_ipv4_hdr->proto = UIP_PROTO_UDP; } udp_hdr->udplen = htons(ustack->uip_slen + UIP_UDPH_LEN); udp_hdr->udpchksum = 0; udp_hdr->srcport = ustack->uip_udp_conn->lport; udp_hdr->destport = ustack->uip_udp_conn->rport; uip_ip4addr_copy(tcp_ipv4_hdr->srcipaddr, ustack->hostaddr); uip_ip4addr_copy(tcp_ipv4_hdr->destipaddr, ustack->uip_udp_conn->ripaddr); ustack->uip_appdata = ustack->network_layer + uip_ip_tcph_len; if (ustack->uip_buf == NULL) { LOG_WARN(PFX "uip_buf == NULL on udp send"); goto drop; } #if UIP_UDP_CHECKSUMS /* Calculate UDP checksum. */ udp_hdr->udpchksum = ~(uip_udpchksum(ustack)); if (udp_hdr->udpchksum == 0) udp_hdr->udpchksum = 0xffff; #endif /* UIP_UDP_CHECKSUMS */ goto ip_send_nolen; #endif /* UIP_UDP */ /* TCP input processing. */ tcp_input: ++ustack->stats.tcp.recv; /* Start of TCP input header processing code. */ if (uip_tcpchksum(ustack) != 0xffff) { /* Compute and check the TCP checksum. */ ++ustack->stats.tcp.drop; ++ustack->stats.tcp.chkerr; LOG_WARN(PFX "tcp: bad checksum."); goto drop; } if (is_ipv6(ustack)) { /* Demultiplex this segment. */ /* First check any active connections. */ for (uip_connr = &ustack->uip_conns[0]; uip_connr <= &ustack->uip_conns[UIP_CONNS - 1]; ++uip_connr) { if (uip_connr->tcpstateflags != UIP_CLOSED && tcp_hdr->destport == uip_connr->lport && tcp_hdr->srcport == uip_connr->rport && uip_ip6addr_cmp(IPv6_BUF(ustack)->srcipaddr, uip_connr->ripaddr)) { goto found; } } } else { /* Demultiplex this segment. */ /* First check any active connections. */ for (uip_connr = &ustack->uip_conns[0]; uip_connr <= &ustack->uip_conns[UIP_CONNS - 1]; ++uip_connr) { if (uip_connr->tcpstateflags != UIP_CLOSED && tcp_hdr->destport == uip_connr->lport && tcp_hdr->srcport == uip_connr->rport && uip_ip4addr_cmp(tcp_ipv4_hdr->srcipaddr, uip_connr->ripaddr)) { goto found; } } } /* If we didn't find and active connection that expected the packet, either this packet is an old duplicate, or this is a SYN packet destined for a connection in LISTEN. If the SYN flag isn't set, it is an old packet and we send a RST. */ if ((tcp_hdr->flags & TCP_CTL) != TCP_SYN) goto reset; tmp16 = tcp_hdr->destport; /* Next, check listening connections. */ for (c = 0; c < UIP_LISTENPORTS; ++c) { if (tmp16 == ustack->uip_listenports[c]) goto found_listen; } /* No matching connection found, so we send a RST packet. */ ++ustack->stats.tcp.synrst; reset: /* We do not send resets in response to resets. */ if (tcp_hdr->flags & TCP_RST) goto drop; ++ustack->stats.tcp.rst; tcp_hdr->flags = TCP_RST | TCP_ACK; ustack->uip_len = uip_ip_tcph_len; tcp_hdr->tcpoffset = 5 << 4; /* Flip the seqno and ackno fields in the TCP header. */ c = tcp_hdr->seqno[3]; tcp_hdr->seqno[3] = tcp_hdr->ackno[3]; tcp_hdr->ackno[3] = c; c = tcp_hdr->seqno[2]; tcp_hdr->seqno[2] = tcp_hdr->ackno[2]; tcp_hdr->ackno[2] = c; c = tcp_hdr->seqno[1]; tcp_hdr->seqno[1] = tcp_hdr->ackno[1]; tcp_hdr->ackno[1] = c; c = tcp_hdr->seqno[0]; tcp_hdr->seqno[0] = tcp_hdr->ackno[0]; tcp_hdr->ackno[0] = c; /* We also have to increase the sequence number we are acknowledging. If the least significant byte overflowed, we need to propagate the carry to the other bytes as well. */ if (++tcp_hdr->ackno[3] == 0) { if (++tcp_hdr->ackno[2] == 0) { if (++tcp_hdr->ackno[1] == 0) ++tcp_hdr->ackno[0]; } } /* Swap port numbers. */ tmp16 = tcp_hdr->srcport; tcp_hdr->srcport = tcp_hdr->destport; tcp_hdr->destport = tmp16; /* Swap IP addresses. */ if (is_ipv6(ustack)) { uip_ip6addr_copy(IPv6_BUF(ustack)->destipaddr, IPv6_BUF(ustack)->srcipaddr); uip_ip6addr_copy(IPv6_BUF(ustack)->srcipaddr, ustack->hostaddr6); } else { uip_ip4addr_copy(tcp_ipv4_hdr->destipaddr, tcp_ipv4_hdr->srcipaddr); uip_ip4addr_copy(tcp_ipv4_hdr->srcipaddr, ustack->hostaddr); } /* And send out the RST packet! */ goto tcp_send_noconn; /* This label will be jumped to if we matched the incoming packet with a connection in LISTEN. In that case, we should create a new connection and send a SYNACK in return. */ found_listen: /* First we check if there are any connections avaliable. Unused connections are kept in the same table as used connections, but unused ones have the tcpstate set to CLOSED. Also, connections in TIME_WAIT are kept track of and we'll use the oldest one if no CLOSED connections are found. Thanks to Eddie C. Dost for a very nice algorithm for the TIME_WAIT search. */ uip_connr = 0; for (c = 0; c < UIP_CONNS; ++c) { if (ustack->uip_conns[c].tcpstateflags == UIP_CLOSED) { uip_connr = &ustack->uip_conns[c]; break; } if (ustack->uip_conns[c].tcpstateflags == UIP_TIME_WAIT) { if (uip_connr == 0 || ustack->uip_conns[c].timer > uip_connr->timer) { uip_connr = &ustack->uip_conns[c]; } } } if (uip_connr == 0) { /* All connections are used already, we drop packet and hope that the remote end will retransmit the packet at a time when we have more spare connections. */ ++ustack->stats.tcp.syndrop; LOG_WARN(PFX "tcp: found no unused connections."); goto drop; } ustack->uip_conn = uip_connr; /* Fill in the necessary fields for the new connection. */ uip_connr->rto = uip_connr->timer = UIP_RTO; uip_connr->sa = 0; uip_connr->sv = 4; uip_connr->nrtx = 0; uip_connr->lport = tcp_hdr->destport; uip_connr->rport = tcp_hdr->srcport; if (is_ipv6(ustack)) { uip_ip6addr_copy(uip_connr->ripaddr, IPv6_BUF(ustack)->srcipaddr); } else { uip_ip4addr_copy(uip_connr->ripaddr, tcp_ipv4_hdr->srcipaddr); } uip_connr->tcpstateflags = UIP_SYN_RCVD; uip_connr->snd_nxt[0] = ustack->iss[0]; uip_connr->snd_nxt[1] = ustack->iss[1]; uip_connr->snd_nxt[2] = ustack->iss[2]; uip_connr->snd_nxt[3] = ustack->iss[3]; uip_connr->len = 1; /* rcv_nxt should be the seqno from the incoming packet + 1. */ uip_connr->rcv_nxt[3] = tcp_hdr->seqno[3]; uip_connr->rcv_nxt[2] = tcp_hdr->seqno[2]; uip_connr->rcv_nxt[1] = tcp_hdr->seqno[1]; uip_connr->rcv_nxt[0] = tcp_hdr->seqno[0]; uip_add_rcv_nxt(ustack, 1); /* Parse the TCP MSS option, if present. */ if ((tcp_hdr->tcpoffset & 0xf0) > 0x50) { for (c = 0; c < ((tcp_hdr->tcpoffset >> 4) - 5) << 2;) { ustack->opt = ustack->uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + c]; if (ustack->opt == TCP_OPT_END) { /* End of options. */ break; } else if (ustack->opt == TCP_OPT_NOOP) { ++c; /* NOP option. */ } else if (ustack->opt == TCP_OPT_MSS && ustack->uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 1 + c] == TCP_OPT_MSS_LEN) { /* An MSS option with the right option length.*/ tmp16 = ((u16_t) ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 2 + c] << 8) | (u16_t) ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 3 + c]; uip_connr->initialmss = uip_connr->mss = tmp16 > UIP_TCP_MSS ? UIP_TCP_MSS : tmp16; /* And we are done processing options. */ break; } else { /* All other options have a length field, so that we easily can skip past them. */ if (ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 1 + c] == 0) { /* If the length field is zero, the options are malformed and we don't process them further. */ break; } c += ustack->uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 1 + c]; } } } /* Our response will be a SYNACK. */ #if UIP_ACTIVE_OPEN tcp_send_synack: tcp_hdr->flags = TCP_ACK; tcp_send_syn: tcp_hdr->flags |= TCP_SYN; #else /* UIP_ACTIVE_OPEN */ tcp_send_synack: tcp_hdr->flags = TCP_SYN | TCP_ACK; #endif /* UIP_ACTIVE_OPEN */ /* We send out the TCP Maximum Segment Size option with our SYNACK. */ tcp_hdr->optdata[0] = TCP_OPT_MSS; tcp_hdr->optdata[1] = TCP_OPT_MSS_LEN; tcp_hdr->optdata[2] = (UIP_TCP_MSS) / 256; tcp_hdr->optdata[3] = (UIP_TCP_MSS) & 255; ustack->uip_len = uip_ip_tcph_len + TCP_OPT_MSS_LEN; tcp_hdr->tcpoffset = ((UIP_TCPH_LEN + TCP_OPT_MSS_LEN) / 4) << 4; goto tcp_send; /* This label will be jumped to if we found an active connection. */ found: ustack->uip_conn = uip_connr; ustack->uip_flags = 0; /* We do a very naive form of TCP reset processing; we just accept any RST and kill our connection. We should in fact check if the sequence number of this reset is wihtin our advertised window before we accept the reset. */ if (tcp_hdr->flags & TCP_RST) { uip_connr->tcpstateflags = UIP_CLOSED; LOG_WARN(PFX "tcp: got reset, aborting connection."); ustack->uip_flags = UIP_ABORT; UIP_APPCALL(ustack); goto drop; } /* Calculated the length of the data, if the application has sent any data to us. */ c = (tcp_hdr->tcpoffset >> 4) << 2; /* uip_len will contain the length of the actual TCP data. This is calculated by subtracing the length of the TCP header (in c) and the length of the IP header (20 bytes). */ ustack->uip_len = ustack->uip_len - c - uip_iph_len; /* First, check if the sequence number of the incoming packet is what we're expecting next. If not, we send out an ACK with the correct numbers in. */ if (!(((uip_connr->tcpstateflags & UIP_TS_MASK) == UIP_SYN_SENT) && ((tcp_hdr->flags & TCP_CTL) == (TCP_SYN | TCP_ACK)))) { if ((ustack->uip_len > 0 || ((tcp_hdr->flags & (TCP_SYN | TCP_FIN)) != 0)) && (tcp_hdr->seqno[0] != uip_connr->rcv_nxt[0] || tcp_hdr->seqno[1] != uip_connr->rcv_nxt[1] || tcp_hdr->seqno[2] != uip_connr->rcv_nxt[2] || tcp_hdr->seqno[3] != uip_connr->rcv_nxt[3])) { goto tcp_send_ack; } } { u8_t uip_acc32[4]; /* Next, check if the incoming segment acks any outstanding data. If so, we update the sequence number, reset the len of the outstanding data, calc RTT estimations, and reset the retransmission timer. */ if ((tcp_hdr->flags & TCP_ACK) && uip_outstanding(uip_connr)) { uip_add32(uip_connr->snd_nxt, uip_connr->len, uip_acc32); if (tcp_hdr->ackno[0] == uip_acc32[0] && tcp_hdr->ackno[1] == uip_acc32[1] && tcp_hdr->ackno[2] == uip_acc32[2] && tcp_hdr->ackno[3] == uip_acc32[3]) { /* Update sequence number. */ uip_connr->snd_nxt[0] = uip_acc32[0]; uip_connr->snd_nxt[1] = uip_acc32[1]; uip_connr->snd_nxt[2] = uip_acc32[2]; uip_connr->snd_nxt[3] = uip_acc32[3]; /* Do RTT estimation, unless we have done retransmissions. */ if (uip_connr->nrtx == 0) { signed char m; m = uip_connr->rto - uip_connr->timer; /* This is taken directly from VJs original code in his paper */ m = m - (uip_connr->sa >> 3); uip_connr->sa += m; if (m < 0) m = -m; m = m - (uip_connr->sv >> 2); uip_connr->sv += m; uip_connr->rto = (uip_connr->sa >> 3) + uip_connr->sv; } /* Set the acknowledged flag. */ ustack->uip_flags = UIP_ACKDATA; /* Reset the retransmission timer. */ uip_connr->timer = uip_connr->rto; /* Reset length of outstanding data. */ uip_connr->len = 0; } } } /* Do different things depending on in what state the connection is. */ switch (uip_connr->tcpstateflags & UIP_TS_MASK) { /* CLOSED and LISTEN are not handled here. CLOSE_WAIT is not implemented, since we force the application to close when the peer sends a FIN (hence the application goes directly from ESTABLISHED to LAST_ACK). */ case UIP_SYN_RCVD: /* In SYN_RCVD we have sent out a SYNACK in response to a SYN, and we are waiting for an ACK that acknowledges the data we sent out the last time. Therefore, we want to have the UIP_ACKDATA flag set. If so, we enter the ESTABLISHED state. */ if (ustack->uip_flags & UIP_ACKDATA) { uip_connr->tcpstateflags = UIP_ESTABLISHED; ustack->uip_flags = UIP_CONNECTED; uip_connr->len = 0; if (ustack->uip_len > 0) { ustack->uip_flags |= UIP_NEWDATA; uip_add_rcv_nxt(ustack, ustack->uip_len); } ustack->uip_slen = 0; UIP_APPCALL(ustack); goto appsend; } goto drop; #if UIP_ACTIVE_OPEN case UIP_SYN_SENT: /* In SYN_SENT, we wait for a SYNACK that is sent in response to our SYN. The rcv_nxt is set to sequence number in the SYNACK plus one, and we send an ACK. We move into the ESTABLISHED state. */ if ((ustack->uip_flags & UIP_ACKDATA) && (tcp_hdr->flags & TCP_CTL) == (TCP_SYN | TCP_ACK)) { /* Parse the TCP MSS option, if present. */ if ((tcp_hdr->tcpoffset & 0xf0) > 0x50) { for (c = 0; c < ((tcp_hdr->tcpoffset >> 4) - 5) << 2;) { ustack->opt = ustack->uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + c]; if (ustack->opt == TCP_OPT_END) { /* End of options. */ break; } else if (ustack->opt == TCP_OPT_NOOP) { ++c; /* NOP option. */ } else if (ustack->opt == TCP_OPT_MSS && ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 1 + c] == TCP_OPT_MSS_LEN) { /* An MSS option with the right option length. */ tmp16 = (ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 2 + c] << 8) | ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 3 + c]; uip_connr->initialmss = uip_connr->mss = tmp16 > UIP_TCP_MSS ? UIP_TCP_MSS : tmp16; /* And we are done processing options. */ break; } else { /* All other options have a length field, so that we easily can skip past them */ if (ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 1 + c] == 0) { /* If the length field is zero, the options are malformed and we don't process them further. */ break; } c += ustack-> uip_buf[uip_ip_tcph_len + UIP_LLH_LEN + 1 + c]; } } } uip_connr->tcpstateflags = UIP_ESTABLISHED; uip_connr->rcv_nxt[0] = tcp_hdr->seqno[0]; uip_connr->rcv_nxt[1] = tcp_hdr->seqno[1]; uip_connr->rcv_nxt[2] = tcp_hdr->seqno[2]; uip_connr->rcv_nxt[3] = tcp_hdr->seqno[3]; uip_add_rcv_nxt(ustack, 1); ustack->uip_flags = UIP_CONNECTED | UIP_NEWDATA; uip_connr->len = 0; ustack->uip_len = 0; ustack->uip_slen = 0; UIP_APPCALL(ustack); goto appsend; } /* Inform the application that the connection failed */ ustack->uip_flags = UIP_ABORT; UIP_APPCALL(ustack); /* The connection is closed after we send the RST */ ustack->uip_conn->tcpstateflags = UIP_CLOSED; goto reset; #endif /* UIP_ACTIVE_OPEN */ case UIP_ESTABLISHED: /* In the ESTABLISHED state, we call upon the application to feed data into the uip_buf. If the UIP_ACKDATA flag is set, the application should put new data into the buffer, otherwise we are retransmitting an old segment, and the application should put that data into the buffer. If the incoming packet is a FIN, we should close the connection on this side as well, and we send out a FIN and enter the LAST_ACK state. We require that there is no outstanding data; otherwise the sequence numbers will be screwed up. */ if (tcp_hdr->flags & TCP_FIN && !(uip_connr->tcpstateflags & UIP_STOPPED)) { if (uip_outstanding(uip_connr)) goto drop; uip_add_rcv_nxt(ustack, 1 + ustack->uip_len); ustack->uip_flags |= UIP_CLOSE; if (ustack->uip_len > 0) ustack->uip_flags |= UIP_NEWDATA; UIP_APPCALL(ustack); uip_connr->len = 1; uip_connr->tcpstateflags = UIP_LAST_ACK; uip_connr->nrtx = 0; tcp_send_finack: tcp_hdr->flags = TCP_FIN | TCP_ACK; goto tcp_send_nodata; } /* Check the URG flag. If this is set, the segment carries urgent data that we must pass to the application. */ if ((tcp_hdr->flags & TCP_URG) != 0) { #if UIP_URGDATA > 0 uip_urglen = (tcp_hdr->urgp[0] << 8) | tcp_hdr->urgp[1]; if (uip_urglen > uip_len) { /* There is more urgent data in the next segment to come. */ uip_urglen = uip_len; } uip_add_rcv_nxt(uip_urglen); uip_len -= uip_urglen; uip_urgdata = uip_appdata; uip_appdata += uip_urglen; } else { uip_urglen = 0; #else /* UIP_URGDATA > 0 */ ustack->uip_appdata = ((char *)ustack->uip_appdata) + ((tcp_hdr->urgp[0] << 8) | tcp_hdr->urgp[1]); ustack->uip_len -= (tcp_hdr->urgp[0] << 8) | tcp_hdr->urgp[1]; #endif /* UIP_URGDATA > 0 */ } /* If uip_len > 0 we have TCP data in the packet, and we flag this by setting the UIP_NEWDATA flag and update the sequence number we acknowledge. If the application has stopped the dataflow using uip_stop(), we must not accept any data packets from the remote host. */ if (ustack->uip_len > 0 && !(uip_connr->tcpstateflags & UIP_STOPPED)) { ustack->uip_flags |= UIP_NEWDATA; uip_add_rcv_nxt(ustack, ustack->uip_len); } /* Check if the available buffer space advertised by the other end is smaller than the initial MSS for this connection. If so, we set the current MSS to the window size to ensure that the application does not send more data than the other end can handle. If the remote host advertises a zero window, we set the MSS to the initial MSS so that the application will send an entire MSS of data. This data will not be acknowledged by the receiver, and the application will retransmit it. This is called the "persistent timer" and uses the retransmission mechanim. */ tmp16 = ((u16_t) tcp_hdr->wnd[0] << 8) + (u16_t) tcp_hdr->wnd[1]; if (tmp16 > uip_connr->initialmss || tmp16 == 0) tmp16 = uip_connr->initialmss; uip_connr->mss = tmp16; /* If this packet constitutes an ACK for outstanding data (flagged by the UIP_ACKDATA flag, we should call the application since it might want to send more data. If the incoming packet had data from the peer (as flagged by the UIP_NEWDATA flag), the application must also be notified. When the application is called, the global variable uip_len contains the length of the incoming data. The application can access the incoming data through the global pointer uip_appdata, which usually points uip_ip_tcph_len + UIP_LLH_LEN bytes into the uip_buf array. If the application wishes to send any data, this data should be put into the uip_appdata and the length of the data should be put into uip_len. If the application don't have any data to send, uip_len must be set to 0. */ if (ustack->uip_flags & (UIP_NEWDATA | UIP_ACKDATA)) { ustack->uip_slen = 0; UIP_APPCALL(ustack); appsend: if (ustack->uip_flags & UIP_ABORT) { ustack->uip_slen = 0; uip_connr->tcpstateflags = UIP_CLOSED; tcp_hdr->flags = TCP_RST | TCP_ACK; goto tcp_send_nodata; } if (ustack->uip_flags & UIP_CLOSE) { ustack->uip_slen = 0; uip_connr->len = 1; uip_connr->tcpstateflags = UIP_FIN_WAIT_1; uip_connr->nrtx = 0; tcp_hdr->flags = TCP_FIN | TCP_ACK; goto tcp_send_nodata; } /* If uip_slen > 0, the application has data to be sent */ if (ustack->uip_slen > 0) { /* If the connection has acknowledged data, the contents of the ->len variable should be discarded. */ if ((ustack->uip_flags & UIP_ACKDATA) != 0) uip_connr->len = 0; /* If the ->len variable is non-zero the connection has already data in transit and cannot send anymore right now. */ if (uip_connr->len == 0) { /* The application cannot send more than what is allowed by the mss (the minumum of the MSS and the available window). */ if (ustack->uip_slen > uip_connr->mss) { ustack->uip_slen = uip_connr->mss; } /* Remember how much data we send out now so that we know when everything has been acknowledged. */ uip_connr->len = ustack->uip_slen; } else { /* If the application already had unacknowledged data, we make sure that the application does not send (i.e., retransmit) out more than it previously sent out. */ ustack->uip_slen = uip_connr->len; } } uip_connr->nrtx = 0; apprexmit: ustack->uip_appdata = ustack->uip_sappdata; /* If the application has data to be sent, or if the incoming packet had new data in it, we must send out a packet. */ if (ustack->uip_slen > 0 && uip_connr->len > 0) { /* Add the length of the IP and TCP headers. */ ustack->uip_len = uip_connr->len + uip_ip_tcph_len; /* We always set the ACK flag in response packets. */ tcp_hdr->flags = TCP_ACK | TCP_PSH; /* Send the packet. */ goto tcp_send_noopts; } /* If there is no data to send, just send out a pure ACK if there is newdata. */ if (ustack->uip_flags & UIP_NEWDATA) { ustack->uip_len = uip_ip_tcph_len; tcp_hdr->flags = TCP_ACK; goto tcp_send_noopts; } } goto drop; case UIP_LAST_ACK: /* We can close this connection if the peer has acknowledged our FIN. This is indicated by the UIP_ACKDATA flag. */ if (ustack->uip_flags & UIP_ACKDATA) { uip_connr->tcpstateflags = UIP_CLOSED; ustack->uip_flags = UIP_CLOSE; UIP_APPCALL(ustack); } break; case UIP_FIN_WAIT_1: /* The application has closed the connection, but the remote host hasn't closed its end yet. Thus we do nothing but wait for a FIN from the other side. */ if (ustack->uip_len > 0) uip_add_rcv_nxt(ustack, ustack->uip_len); if (tcp_hdr->flags & TCP_FIN) { if (ustack->uip_flags & UIP_ACKDATA) { uip_connr->tcpstateflags = UIP_TIME_WAIT; uip_connr->timer = 0; uip_connr->len = 0; } else { uip_connr->tcpstateflags = UIP_CLOSING; } uip_add_rcv_nxt(ustack, 1); ustack->uip_flags = UIP_CLOSE; UIP_APPCALL(ustack); goto tcp_send_ack; } else if (ustack->uip_flags & UIP_ACKDATA) { uip_connr->tcpstateflags = UIP_FIN_WAIT_2; uip_connr->len = 0; goto drop; } if (ustack->uip_len > 0) goto tcp_send_ack; goto drop; case UIP_FIN_WAIT_2: if (ustack->uip_len > 0) uip_add_rcv_nxt(ustack, ustack->uip_len); if (tcp_hdr->flags & TCP_FIN) { uip_connr->tcpstateflags = UIP_TIME_WAIT; uip_connr->timer = 0; uip_add_rcv_nxt(ustack, 1); ustack->uip_flags = UIP_CLOSE; UIP_APPCALL(ustack); goto tcp_send_ack; } if (ustack->uip_len > 0) goto tcp_send_ack; goto drop; case UIP_TIME_WAIT: goto tcp_send_ack; case UIP_CLOSING: if (ustack->uip_flags & UIP_ACKDATA) { uip_connr->tcpstateflags = UIP_TIME_WAIT; uip_connr->timer = 0; } } goto drop; /* We jump here when we are ready to send the packet, and just want to set the appropriate TCP sequence numbers in the TCP header. */ tcp_send_ack: tcp_hdr->flags = TCP_ACK; tcp_send_nodata: ustack->uip_len = uip_ip_tcph_len; tcp_send_noopts: tcp_hdr->tcpoffset = (UIP_TCPH_LEN / 4) << 4; tcp_send: /* We're done with the input processing. We are now ready to send a reply. Our job is to fill in all the fields of the TCP and IP headers before calculating the checksum and finally send the packet. */ tcp_hdr->ackno[0] = uip_connr->rcv_nxt[0]; tcp_hdr->ackno[1] = uip_connr->rcv_nxt[1]; tcp_hdr->ackno[2] = uip_connr->rcv_nxt[2]; tcp_hdr->ackno[3] = uip_connr->rcv_nxt[3]; tcp_hdr->seqno[0] = uip_connr->snd_nxt[0]; tcp_hdr->seqno[1] = uip_connr->snd_nxt[1]; tcp_hdr->seqno[2] = uip_connr->snd_nxt[2]; tcp_hdr->seqno[3] = uip_connr->snd_nxt[3]; if (is_ipv6(ustack)) { IPv6_BUF(ustack)->proto = UIP_PROTO_TCP; uip_ip6addr_copy(IPv6_BUF(ustack)->srcipaddr, ustack->hostaddr6); uip_ip6addr_copy(IPv6_BUF(ustack)->destipaddr, uip_connr->ripaddr6); } else { tcp_ipv4_hdr->proto = UIP_PROTO_TCP; uip_ip4addr_copy(tcp_ipv4_hdr->srcipaddr, ustack->hostaddr); uip_ip4addr_copy(tcp_ipv4_hdr->destipaddr, uip_connr->ripaddr); } tcp_hdr->srcport = uip_connr->lport; tcp_hdr->destport = uip_connr->rport; if (uip_connr->tcpstateflags & UIP_STOPPED) { /* If the connection has issued uip_stop(), we advertise a zero window so that the remote host will stop sending data. */ tcp_hdr->wnd[0] = tcp_hdr->wnd[1] = 0; } else { tcp_hdr->wnd[0] = ((UIP_RECEIVE_WINDOW) >> 8); tcp_hdr->wnd[1] = ((UIP_RECEIVE_WINDOW) & 0xff); } tcp_send_noconn: if (is_ipv6(ustack)) { IPv6_BUF(ustack)->ttl = UIP_TTL; /* For IPv6, the IP length field does not include the IPv6 IP header length. */ IPv6_BUF(ustack)->len[0] = ((ustack->uip_len - uip_iph_len) >> 8); IPv6_BUF(ustack)->len[1] = ((ustack->uip_len - uip_iph_len) & 0xff); } else { tcp_ipv4_hdr->ttl = UIP_TTL; tcp_ipv4_hdr->len[0] = (ustack->uip_len >> 8); tcp_ipv4_hdr->len[1] = (ustack->uip_len & 0xff); } tcp_hdr->urgp[0] = tcp_hdr->urgp[1] = 0; /* Calculate TCP checksum. */ tcp_hdr->tcpchksum = 0; tcp_hdr->tcpchksum = ~(uip_tcpchksum(ustack)); ip_send_nolen: if (!is_ipv6(ustack)) { tcp_ipv4_hdr->vhl = 0x45; tcp_ipv4_hdr->tos = 0; tcp_ipv4_hdr->ipoffset[0] = tcp_ipv4_hdr->ipoffset[1] = 0; ++ustack->ipid; tcp_ipv4_hdr->ipid[0] = ustack->ipid >> 8; tcp_ipv4_hdr->ipid[1] = ustack->ipid & 0xff; /* Calculate IP checksum. */ tcp_ipv4_hdr->ipchksum = 0; tcp_ipv4_hdr->ipchksum = ~(uip_ipchksum(ustack)); } ++ustack->stats.tcp.sent; send: if (is_ipv6(ustack)) { LOG_DEBUG(PFX "Sending packet with length %d (%d)", ustack->uip_len, ipv6_hdr ? ipv6_hdr->ip6_plen : 0); } else { LOG_DEBUG(PFX "Sending packet with length %d (%d)", ustack->uip_len, (tcp_ipv4_hdr->len[0] << 8) | tcp_ipv4_hdr->len[1]); } ++ustack->stats.ip.sent; /* Return and let the caller do the actual transmission. */ ustack->uip_flags = 0; return; drop: ustack->uip_len = 0; ustack->uip_flags = 0; return; } /*---------------------------------------------------------------------------*/ void uip_send(struct uip_stack *ustack, const void *data, int len) { if (len > 0) { ustack->uip_slen = len; if (data != ustack->uip_buf) memcpy(ustack->uip_buf, (data), ustack->uip_slen); } } void uip_appsend(struct uip_stack *ustack, const void *data, int len) { if (len > 0) { ustack->uip_slen = len; if (data != ustack->uip_sappdata) memcpy(ustack->uip_sappdata, (data), ustack->uip_slen); } } u16_t uip_datalen(struct uip_stack *ustack) { return ustack->uip_len; } /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/uip.h000066400000000000000000001237331277325716400201550ustar00rootroot00000000000000 /** * \addtogroup uip * @{ */ /** * \file * Header file for the uIP TCP/IP stack. * \author Adam Dunkels * * The uIP TCP/IP stack header file contains definitions for a number * of C macros that are used by uIP programs as well as internal uIP * structures, TCP/IP header structures and function declarations. * */ /* * Copyright (c) 2001-2003, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack. * * */ #ifndef __UIP_H__ #define __UIP_H__ #include #include #include "uipopt.h" #include "debug.h" #include "uip_eth.h" /* Forware declaration */ struct uip_stack; /** * Repressentation of an IP address. * */ typedef u16_t uip_ip4addr_t[2]; typedef u16_t uip_ip6addr_t[8]; const uip_ip6addr_t all_zeroes_addr6; const uip_ip4addr_t all_zeroes_addr4; #define ETH_BUF(buf) ((struct uip_eth_hdr *)buf) #define VLAN_ETH_BUF(buf) ((struct uip_vlan_eth_hdr *)buf) #define IPv4_BUF(buf) ((struct uip_tcp_ipv4_hdr *)buf) #define IPv6_BUF(buf) ((struct uip_tcp_ipv6_hdr *)buf) /*---------------------------------------------------------------------------*/ /* First, the functions that should be called from the * system. Initialization, the periodic timer and incoming packets are * handled by the following three functions. */ /** * Set the IP address of this host. * * The IP address is represented as a 4-byte array where the first * octet of the IP address is put in the first member of the 4-byte * array. * * Example: \code uip_ipaddr_t addr; uip_ipaddr(&addr, 192,168,1,2); uip_sethostaddr(&addr); \endcode * \param addr A pointer to an IP address of type uip_ipaddr_t; * * \sa uip_ipaddr() * * \hideinitializer */ void uip_sethostaddr4(struct uip_stack *ustack, uip_ip4addr_t *addr); /** * Set the default router's IP address. * * \param addr A pointer to a uip_ipaddr_t variable containing the IP * address of the default router. * * \sa uip_ipaddr() * * \hideinitializer */ void uip_setdraddr4(struct uip_stack *ustack, uip_ip4addr_t *addr); /** * Set the netmask. * * \param addr A pointer to a uip_ipaddr_t variable containing the IP * address of the netmask. * * \sa uip_ipaddr() * * \hideinitializer */ void uip_setnetmask4(struct uip_stack *ustack, uip_ip4addr_t *addr); /** * Set the ethernet MAC address. * * \param addr A pointer to a uip_ipaddr_t variable containing the IP * address of the netmask. * * \sa uip_ipaddr() * * \hideinitializer */ void uip_setethernetmac(struct uip_stack *ustack, uint8_t *mac); /** * Get the default router's IP address. * * \param addr A pointer to a uip_ipaddr_t variable that will be * filled in with the IP address of the default router. * * \hideinitializer */ #define uip_getdraddr(addr) uip_ipaddr_copy((addr), uip_draddr) /** * Get the netmask. * * \param addr A pointer to a uip_ipaddr_t variable that will be * filled in with the value of the netmask. * * \hideinitializer */ #define uip_getnetmask(addr) uip_ipaddr_copy((addr), uip_netmask) void set_uip_stack(struct uip_stack *ustack, uip_ip4addr_t *ip, uip_ip4addr_t *netmask, uip_ip4addr_t *default_route, uint8_t *mac_addr); /** @} */ /** * \defgroup uipinit uIP initialization functions * @{ * * The uIP initialization functions are used for booting uIP. */ /** * uIP initialization function. * * This function should be called at boot up to initilize the uIP * TCP/IP stack. */ void uip_init(struct uip_stack *ustack, uint8_t enable_ipv6); /** * uIP reset function. * * This function should be called at to reset the uIP TCP/IP stack. */ void uip_reset(struct uip_stack *ustack); /** * uIP initialization function. * * This function may be used at boot time to set the initial ip_id. */ void uip_setipid(u16_t id); /** * * */ #define uip_conn_active(conn) (uip_conns[conn].tcpstateflags != UIP_CLOSED) #if UIP_UDP void uip_udp_periodic(struct uip_stack *ustack, int conn); #endif /* UIP_UDP */ void uip_ndp_periodic(struct uip_stack *ustack); /** * The uIP packet buffer. * * The uip_buf array is used to hold incoming and outgoing * packets. The device driver should place incoming data into this * buffer. When sending data, the device driver should read the link * level headers and the TCP/IP headers from this buffer. The size of * the link level headers is configured by the UIP_LLH_LEN define. * * \note The application data need not be placed in this buffer, so * the device driver must read it from the place pointed to by the * uip_appdata pointer as illustrated by the following example: \code void devicedriver_send(void) { hwsend(&uip_buf[0], UIP_LLH_LEN); if(uip_len <= UIP_LLH_LEN + UIP_TCPIP_HLEN) { hwsend(&uip_buf[UIP_LLH_LEN], uip_len - UIP_LLH_LEN); } else { hwsend(&uip_buf[UIP_LLH_LEN], UIP_TCPIP_HLEN); hwsend(uip_appdata, uip_len - UIP_TCPIP_HLEN - UIP_LLH_LEN); } } \endcode */ /*extern u8_t uip_buf[UIP_BUFSIZE+2]; */ /** @} */ /*---------------------------------------------------------------------------*/ /* Functions that are used by the uIP application program. Opening and * closing connections, sending and receiving data, etc. is all * handled by the functions below. */ /** * \defgroup uipappfunc uIP application functions * @{ * * Functions used by an application running of top of uIP. */ /** * Start listening to the specified port. * * \note Since this function expects the port number in network byte * order, a conversion using HTONS() or htons() is necessary. * \code uip_listen(HTONS(80)); \endcode * * \param port A 16-bit port number in network byte order. */ void uip_listen(struct uip_stack *ustack, u16_t port); /** * Stop listening to the specified port. * * \note Since this function expects the port number in network byte * order, a conversion using HTONS() or htons() is necessary. * \code uip_unlisten(HTONS(80)); \endcode * * \param port A 16-bit port number in network byte order. */ void uip_unlisten(struct uip_stack *ustack, u16_t port); /** * Connect to a remote host using TCP. * * This function is used to start a new connection to the specified * port on the specied host. It allocates a new connection identifier, * sets the connection to the SYN_SENT state and sets the * retransmission timer to 0. This will cause a TCP SYN segment to be * sent out the next time this connection is periodically processed, * which usually is done within 0.5 seconds after the call to * uip_connect(). * * \note This function is avaliable only if support for active open * has been configured by defining UIP_ACTIVE_OPEN to 1 in uipopt.h. * * \note Since this function requires the port number to be in network * byte order, a conversion using HTONS() or htons() is necessary. * \code uip_ipaddr_t ipaddr; uip_ipaddr(&ipaddr, 192,168,1,2); uip_connect(&ipaddr, HTONS(80)); \endcode * * \param ripaddr The IP address of the remote hot. * * \param port A 16-bit port number in network byte order. * * \return A pointer to the uIP connection identifier for the new connection, * or NULL if no connection could be allocated. * */ struct uip_conn *uip_connect(struct uip_stack *ustack, uip_ip4addr_t *ripaddr, u16_t port); /** * \internal * * Check if a connection has outstanding (i.e., unacknowledged) data. * * \param conn A pointer to the uip_conn structure for the connection. * * \hideinitializer */ #define uip_outstanding(conn) ((conn)->len) /** * Send data on the current connection. * * This function is used to send out a single segment of TCP * data. Only applications that have been invoked by uIP for event * processing can send data. * * The amount of data that actually is sent out after a call to this * funcion is determined by the maximum amount of data TCP allows. uIP * will automatically crop the data so that only the appropriate * amount of data is sent. The function uip_mss() can be used to query * uIP for the amount of data that actually will be sent. * * \note This function does not guarantee that the sent data will * arrive at the destination. If the data is lost in the network, the * application will be invoked with the uip_rexmit() event being * set. The application will then have to resend the data using this * function. * * \param data A pointer to the data which is to be sent. * * \param len The maximum amount of data bytes to be sent. * * \hideinitializer */ void uip_send(struct uip_stack *ustack, const void *data, int len); void uip_appsend(struct uip_stack *ustack, const void *data, int len); /** * The length of any incoming data that is currently avaliable (if avaliable) * in the uip_appdata buffer. * * The test function uip_data() must first be used to check if there * is any data available at all. * * \hideinitializer */ /*void uip_datalen(void);*/ u16_t uip_datalen(struct uip_stack *ustack); /** * The length of any out-of-band data (urgent data) that has arrived * on the connection. * * \note The configuration parameter UIP_URGDATA must be set for this * function to be enabled. * * \hideinitializer */ #define uip_urgdatalen() uip_urglen /** * Close the current connection. * * This function will close the current connection in a nice way. * * \hideinitializer */ #define uip_close() (uip_flags = UIP_CLOSE) /** * Abort the current connection. * * This function will abort (reset) the current connection, and is * usually used when an error has occured that prevents using the * uip_close() function. * * \hideinitializer */ #define uip_abort() (uip_flags = UIP_ABORT) /** * Tell the sending host to stop sending data. * * This function will close our receiver's window so that we stop * receiving data for the current connection. * * \hideinitializer */ #define uip_stop() (uip_conn->tcpstateflags |= UIP_STOPPED) /** * Find out if the current connection has been previously stopped with * uip_stop(). * * \hideinitializer */ #define uip_stopped(conn) ((conn)->tcpstateflags & UIP_STOPPED) /** * Restart the current connection, if is has previously been stopped * with uip_stop(). * * This function will open the receiver's window again so that we * start receiving data for the current connection. * * \hideinitializer */ #define uip_restart() do { uip_flags |= UIP_NEWDATA; \ uip_conn->tcpstateflags &= ~UIP_STOPPED; \ } while (0) /* uIP tests that can be made to determine in what state the current connection is, and what the application function should do. */ /** * Is the current connection a UDP connection? * * This function checks whether the current connection is a UDP connection. * * \hideinitializer * */ #define uip_udpconnection() (uip_conn == NULL) /** * Function declarations for hte uip_flags */ /** * Is new incoming data available? * * Will reduce to non-zero if there is new data for the application * present at the uip_appdata pointer. The size of the data is * avaliable through the uip_len variable. * * \hideinitializer */ int uip_newdata(struct uip_stack *ustack); /** * Has previously sent data been acknowledged? * * Will reduce to non-zero if the previously sent data has been * acknowledged by the remote host. This means that the application * can send new data. * * \hideinitializer */ int uip_acked(struct uip_stack *ustack); /** * Has the connection just been connected? * * Reduces to non-zero if the current connection has been connected to * a remote host. This will happen both if the connection has been * actively opened (with uip_connect()) or passively opened (with * uip_listen()). * * \hideinitializer */ int uip_connected(struct uip_stack *ustack); /** * Has the connection been closed by the other end? * * Is non-zero if the connection has been closed by the remote * host. The application may then do the necessary clean-ups. * * \hideinitializer */ int uip_closed(struct uip_stack *ustack); /** * Has the connection been aborted by the other end? * * Non-zero if the current connection has been aborted (reset) by the * remote host. * * \hideinitializer */ int uip_aborted(struct uip_stack *ustack); /** * Has the connection timed out? * * Non-zero if the current connection has been aborted due to too many * retransmissions. * * \hideinitializer */ int uip_timedout(struct uip_stack *ustack); /** * Do we need to retransmit previously data? * * Reduces to non-zero if the previously sent data has been lost in * the network, and the application should retransmit it. The * application should send the exact same data as it did the last * time, using the uip_send() function. * * \hideinitializer */ int uip_rexmit(struct uip_stack *ustack); /** * Is the connection being polled by uIP? * * Is non-zero if the reason the application is invoked is that the * current connection has been idle for a while and should be * polled. * * The polling event can be used for sending data without having to * wait for the remote host to send data. * * \hideinitializer */ int uip_poll(struct uip_stack *ustack); /** * Get the initial maxium segment size (MSS) of the current * connection. * * \hideinitializer */ int uip_initialmss(struct uip_stack *ustack); /** * Get the current maxium segment size that can be sent on the current * connection. * * The current maxiumum segment size that can be sent on the * connection is computed from the receiver's window and the MSS of * the connection (which also is available by calling * uip_initialmss()). * * \hideinitializer */ int uip_mss(struct uip_stack *ustack); /** * Set up a new UDP connection. * * This function sets up a new UDP connection. The function will * automatically allocate an unused local port for the new * connection. However, another port can be chosen by using the * uip_udp_bind() call, after the uip_udp_new() function has been * called. * * Example: \code uip_ipaddr_t addr; struct uip_udp_conn *c; uip_ipaddr(&addr, 192,168,2,1); c = uip_udp_new(&addr, HTONS(12345)); if(c != NULL) { uip_udp_bind(c, HTONS(12344)); } \endcode * \param ripaddr The IP address of the remote host. * * \param rport The remote port number in network byte order. * * \return The uip_udp_conn structure for the new connection or NULL * if no connection could be allocated. */ struct uip_udp_conn *uip_udp_new(struct uip_stack *ustack, uip_ip4addr_t *ripaddr, u16_t rport); /** * Removed a UDP connection. * * \param conn A pointer to the uip_udp_conn structure for the connection. * * \hideinitializer */ #define uip_udp_remove(conn) ((conn)->lport = 0) /** * Bind a UDP connection to a local port. * * \param conn A pointer to the uip_udp_conn structure for the * connection. * * \param port The local port number, in network byte order. * * \hideinitializer */ #define uip_udp_bind(conn, port) ((conn)->lport = port) /** * Send a UDP datagram of length len on the current connection. * * This function can only be called in response to a UDP event (poll * or newdata). The data must be present in the uip_buf buffer, at the * place pointed to by the uip_appdata pointer. * * \param len The length of the data in the uip_buf buffer. * * \hideinitializer */ #define uip_udp_send(len) uip_appsend((char *)uip_appdata, len) /** @} */ /* uIP convenience and converting functions. */ /** * \defgroup uipconvfunc uIP conversion functions * @{ * * These functions can be used for converting between different data * formats used by uIP. */ /** * Construct an IP address from four bytes. * * This function constructs an IP address of the type that uIP handles * internally from four bytes. The function is handy for specifying IP * addresses to use with e.g. the uip_connect() function. * * Example: \code uip_ipaddr_t ipaddr; struct uip_conn *c; uip_ipaddr(&ipaddr, 192,168,1,2); c = uip_connect(&ipaddr, HTONS(80)); \endcode * * \param addr A pointer to a uip_ipaddr_t variable that will be * filled in with the IP address. * * \param addr0 The first octet of the IP address. * \param addr1 The second octet of the IP address. * \param addr2 The third octet of the IP address. * \param addr3 The forth octet of the IP address. * * \hideinitializer */ #define uip_ipaddr(addr, addr0, addr1, addr2, addr3) do { \ ((u16_t *)(addr))[0] = const_htons(((addr0) << 8) | (addr1)); \ ((u16_t *)(addr))[1] = const_htons(((addr2) << 8) | (addr3)); \ } while (0) /** * Construct an IPv6 address from eight 16-bit words. * * This function constructs an IPv6 address. * * \hideinitializer */ #define uip_ip6addr(addr, addr0, addr1, addr2, addr3, addr4, addr5, addr6, \ addr7) \ do { \ ((u16_t *)(addr))[0] = HTONS((addr0)); \ ((u16_t *)(addr))[1] = HTONS((addr1)); \ ((u16_t *)(addr))[2] = HTONS((addr2)); \ ((u16_t *)(addr))[3] = HTONS((addr3)); \ ((u16_t *)(addr))[4] = HTONS((addr4)); \ ((u16_t *)(addr))[5] = HTONS((addr5)); \ ((u16_t *)(addr))[6] = HTONS((addr6)); \ ((u16_t *)(addr))[7] = HTONS((addr7)); \ } while (0) /** * Copy an IP address to another IP address. * * Copies an IP address from one place to another. * * Example: \code uip_ipaddr_t ipaddr1, ipaddr2; uip_ipaddr(&ipaddr1, 192,16,1,2); uip_ipaddr_copy(&ipaddr2, &ipaddr1); \endcode * * \param dest The destination for the copy. * \param src The source from where to copy. * * \hideinitializer */ #define uip_ip4addr_copy(dest, src) memcpy(dest, src, sizeof(uip_ip4addr_t)) #define uip_ip6addr_copy(dest, src) memcpy(dest, src, sizeof(uip_ip6addr_t)) /** * Compare two IP addresses * * Compares two IP addresses. * * Example: \code uip_ipaddr_t ipaddr1, ipaddr2; uip_ipaddr(&ipaddr1, 192,16,1,2); if(uip_ipaddr_cmp(&ipaddr2, &ipaddr1)) { printf("They are the same"); } \endcode * * \param addr1 The first IP address. * \param addr2 The second IP address. * * \hideinitializer */ #define uip_ip4addr_cmp(addr1, addr2) (memcmp(addr1, addr2, \ sizeof(uip_ip4addr_t)) == 0) #define uip_ip6addr_cmp(addr1, addr2) (memcmp(addr1, addr2, \ sizeof(uip_ip6addr_t)) == 0) /** * Compare two IP addresses with netmasks * * Compares two IP addresses with netmasks. The masks are used to mask * out the bits that are to be compared. * * Example: \code uip_ipaddr_t ipaddr1, ipaddr2, mask; uip_ipaddr(&mask, 255,255,255,0); uip_ipaddr(&ipaddr1, 192,16,1,2); uip_ipaddr(&ipaddr2, 192,16,1,3); if(uip_ipaddr_maskcmp(&ipaddr1, &ipaddr2, &mask)) { printf("They are the same"); } \endcode * * \param addr1 The first IP address. * \param addr2 The second IP address. * \param mask The netmask. * * \hideinitializer */ #define uip_ip4addr_maskcmp(addr1, addr2, mask) \ (((((u16_t *)addr1)[0] & ((u16_t *)mask)[0]) == \ (((u16_t *)addr2)[0] & ((u16_t *)mask)[0])) && \ ((((u16_t *)addr1)[1] & ((u16_t *)mask)[1]) == \ (((u16_t *)addr2)[1] & ((u16_t *)mask)[1]))) /** * Mask out the network part of an IP address. * * Masks out the network part of an IP address, given the address and * the netmask. * * Example: \code uip_ipaddr_t ipaddr1, ipaddr2, netmask; uip_ipaddr(&ipaddr1, 192,16,1,2); uip_ipaddr(&netmask, 255,255,255,0); uip_ipaddr_mask(&ipaddr2, &ipaddr1, &netmask); \endcode * * In the example above, the variable "ipaddr2" will contain the IP * address 192.168.1.0. * * \param dest Where the result is to be placed. * \param src The IP address. * \param mask The netmask. * * \hideinitializer */ #define uip_ip4addr_mask(dest, src, mask) do { \ ((u16_t *)dest)[0] = ((u16_t *)src)[0] & ((u16_t *)mask)[0]; \ ((u16_t *)dest)[1] = ((u16_t *)src)[1] & ((u16_t *)mask)[1]; \ } while (0) /** * Pick the first octet of an IP address. * * Picks out the first octet of an IP address. * * Example: \code uip_ipaddr_t ipaddr; u8_t octet; uip_ipaddr(&ipaddr, 1,2,3,4); octet = uip_ipaddr1(&ipaddr); \endcode * * In the example above, the variable "octet" will contain the value 1. * * \hideinitializer */ #define uip_ipaddr1(addr) (htons(((u16_t *)(addr))[0]) >> 8) /** * Pick the second octet of an IP address. * * Picks out the second octet of an IP address. * * Example: \code uip_ipaddr_t ipaddr; u8_t octet; uip_ipaddr(&ipaddr, 1,2,3,4); octet = uip_ipaddr2(&ipaddr); \endcode * * In the example above, the variable "octet" will contain the value 2. * * \hideinitializer */ #define uip_ipaddr2(addr) (htons(((u16_t *)(addr))[0]) & 0xff) /** * Pick the third octet of an IP address. * * Picks out the third octet of an IP address. * * Example: \code uip_ipaddr_t ipaddr; u8_t octet; uip_ipaddr(&ipaddr, 1,2,3,4); octet = uip_ipaddr3(&ipaddr); \endcode * * In the example above, the variable "octet" will contain the value 3. * * \hideinitializer */ #define uip_ipaddr3(addr) (htons(((u16_t *)(addr))[1]) >> 8) /** * Pick the fourth octet of an IP address. * * Picks out the fourth octet of an IP address. * * Example: \code uip_ipaddr_t ipaddr; u8_t octet; uip_ipaddr(&ipaddr, 1,2,3,4); octet = uip_ipaddr4(&ipaddr); \endcode * * In the example above, the variable "octet" will contain the value 4. * * \hideinitializer */ #define uip_ipaddr4(addr) (htons(((u16_t *)(addr))[1]) & 0xff) /** * Convert 16-bit quantity from host byte order to network byte order. * * This macro is primarily used for converting constants from host * byte order to network byte order. For converting variables to * network byte order, use the htons() function instead. * * \hideinitializer */ #if 0 #ifndef HTONS # if UIP_BYTE_ORDER == UIP_BIG_ENDIAN # define HTONS(n) (n) # else /* UIP_BYTE_ORDER == UIP_BIG_ENDIAN */ # define HTONS(n) (u16_t)((((u16_t) (n)) << 8) | (((u16_t) (n)) >> 8)) # endif /* UIP_BYTE_ORDER == UIP_BIG_ENDIAN */ #else #error "HTONS already defined!" #endif /* HTONS */ #endif #if UIP_BYTE_ORDER == UIP_BIG_ENDIAN # error "Should not be here" # define const_htons(n) (n) # else /* UIP_BYTE_ORDER == UIP_BIG_ENDIAN */ # define const_htons(n) (u16_t)((((u16_t) (n)) << 8) | (((u16_t) (n)) >> 8)) # endif /* UIP_BYTE_ORDER == UIP_BIG_ENDIAN */ /* BWL */ #if 0 /** * Convert 16-bit quantity from host byte order to network byte order. * * This function is primarily used for converting variables from host * byte order to network byte order. For converting constants to * network byte order, use the HTONS() macro instead. */ #ifndef htons u16_t htons(u16_t val); #endif /* htons */ #ifndef ntohs #define ntohs htons #endif #endif /** @} */ /** * Pointer to the application data in the packet buffer. * * This pointer points to the application data when the application is * called. If the application wishes to send data, the application may * use this space to write the data into before calling uip_send(). */ /* extern void *uip_appdata; */ #if UIP_URGDATA > 0 /* u8_t *uip_urgdata: * * This pointer points to any urgent data that has been received. Only * present if compiled with support for urgent data (UIP_URGDATA). */ extern void *uip_urgdata; #endif /* UIP_URGDATA > 0 */ /** * \defgroup uipdrivervars Variables used in uIP device drivers * @{ * * uIP has a few global variables that are used in device drivers for * uIP. */ /** * The length of the packet in the uip_buf buffer. * * The global variable uip_len holds the length of the packet in the * uip_buf buffer. * * When the network device driver calls the uIP input function, * uip_len should be set to the length of the packet in the uip_buf * buffer. * * When sending packets, the device driver should use the contents of * the uip_len variable to determine the length of the outgoing * packet. * */ /* extern u16_t uip_len; */ /** @} */ #if UIP_URGDATA > 0 extern u16_t uip_urglen, uip_surglen; #endif /* UIP_URGDATA > 0 */ /** * Representation of a uIP TCP connection. * * The uip_conn structure is used for identifying a connection. All * but one field in the structure are to be considered read-only by an * application. The only exception is the appstate field whos purpose * is to let the application store application-specific state (e.g., * file pointers) for the connection. The type of this field is * configured in the "uipopt.h" header file. */ struct __attribute__ ((__packed__)) uip_conn { uip_ip4addr_t ripaddr; uip_ip6addr_t ripaddr6; /**< The IP address of the remote host. */ u16_t lport; /**< The local TCP port, in network byte order. */ u16_t rport; /**< The local remote TCP port, in network byte order. */ u8_t rcv_nxt[4]; /**< The sequence number that we expect to receive next. */ u8_t snd_nxt[4]; /**< The sequence number that was last sent by us. */ u16_t len; /**< Length of the data that was previously sent. */ u16_t mss; /**< Current maximum segment size for the connection. */ u16_t initialmss; /**< Initial maximum segment size for the connection. */ u8_t sa; /**< Retransmission time-out calculation state variable. */ u8_t sv; /**< Retransmission time-out calculation state variable. */ u8_t rto; /**< Retransmission time-out. */ u8_t tcpstateflags; /**< TCP state and flags. */ u8_t timer; /**< The retransmission timer. */ u8_t nrtx; /**< The number of retransmissions for the last segment sent. */ }; /** * \addtogroup uiparch * @{ */ /** * 4-byte array used for the 32-bit sequence number calculations. */ extern u8_t uip_acc32[4]; /** @} */ #if UIP_UDP /** * Representation of a uIP UDP connection. */ struct uip_udp_conn { uip_ip4addr_t ripaddr; /**< The IP address of the remote peer. */ u16_t lport; /**< The local port number in network byte order. */ u16_t rport; /**< The remote port number in network byte order. */ u8_t ttl; /**< Default time-to-live. */ /** The application state. */ /* uip_udp_appstate_t appstate; */ }; #endif /* UIP_UDP */ /** * The structure holding the TCP/IP statistics that are gathered if * UIP_STATISTICS is set to 1. * */ struct uip_stats { struct { uip_stats_t drop; /**< Number of dropped packets at the IP layer. */ uip_stats_t recv; /**< Number of received packets at the IP layer. */ uip_stats_t sent; /**< Number of sent packets at the IP layer. */ uip_stats_t vhlerr; /**< Number of packets dropped due to wrong IP version or header length. */ uip_stats_t hblenerr; /**< Number of packets dropped due to wrong IP length, high byte. */ uip_stats_t lblenerr; /**< Number of packets dropped due to wrong IP length, low byte. */ uip_stats_t fragerr; /**< Number of packets dropped since they were IP fragments. */ uip_stats_t chkerr; /**< Number of packets dropped due to IP checksum errors. */ uip_stats_t protoerr; /**< Number of packets dropped since they were neither ICMP, UDP nor TCP. */ } ip; /**< IP statistics. */ struct { uip_stats_t drop; /**< Number of dropped ICMP packets. */ uip_stats_t recv; /**< Number of received ICMP packets. */ uip_stats_t sent; /**< Number of sent ICMP packets. */ uip_stats_t typeerr; /**< Number of ICMP packets with a wrong type. */ } icmp; /**< ICMP statistics. */ struct { uip_stats_t drop; /**< Number of dropped TCP segments. */ uip_stats_t recv; /**< Number of recived TCP segments. */ uip_stats_t sent; /**< Number of sent TCP segments. */ uip_stats_t chkerr; /**< Number of TCP segments with a bad checksum. */ uip_stats_t ackerr; /**< Number of TCP segments with a bad ACK number. */ uip_stats_t rst; /**< Number of recevied TCP RST (reset) segments. */ uip_stats_t rexmit; /**< Number of retransmitted TCP segments. */ uip_stats_t syndrop; /**< Number of dropped SYNs due to too few connections was avaliable. */ uip_stats_t synrst; /**< Number of SYNs for closed ports, triggering a RST. */ } tcp; /**< TCP statistics. */ #if UIP_UDP struct { uip_stats_t drop; /**< Number of dropped UDP segments. */ uip_stats_t recv; /**< Number of recived UDP segments. */ uip_stats_t sent; /**< Number of sent UDP segments. */ uip_stats_t chkerr; /**< Number of UDP segments with a bad checksum. */ } udp; /**< UDP statistics. */ #endif /* UIP_UDP */ }; /*---------------------------------------------------------------------------*/ /* All the stuff below this point is internal to uIP and should not be * used directly by an application or by a device driver. */ /*---------------------------------------------------------------------------*/ /* u8_t uip_flags: * * When the application is called, uip_flags will contain the flags * that are defined in this file. Please read below for more * infomation. */ /* extern u8_t uip_flags; */ /* The following flags may be set in the global variable uip_flags before calling the application callback. The UIP_ACKDATA, UIP_NEWDATA, and UIP_CLOSE flags may both be set at the same time, whereas the others are mutualy exclusive. Note that these flags should *NOT* be accessed directly, but only through the uIP functions/macros. */ #define UIP_ACKDATA 1 /* Signifies that the outstanding data was acked and the application should send out new data instead of retransmitting the last data. */ #define UIP_NEWDATA 2 /* Flags the fact that the peer has sent us new data. */ #define UIP_REXMIT 4 /* Tells the application to retransmit the data that was last sent. */ #define UIP_POLL 8 /* Used for polling the application, to check if the application has data that it wants to send. */ #define UIP_CLOSE 16 /* The remote host has closed the connection, thus the connection has gone away. Or the application signals that it wants to close the connection. */ #define UIP_ABORT 32 /* The remote host has aborted the connection, thus the connection has gone away. Or the application signals that it wants to abort the connection. */ #define UIP_CONNECTED 64 /* We have got a connection from a remote host and have set up a new connection for it, or an active connection has been successfully established. */ #define UIP_TIMEDOUT 128 /* The connection has been aborted due to too many retransmissions. */ void uip_input(struct uip_stack *ustack); void uip_periodic(struct uip_stack *ustack, int conn); /* uip_process(flag): * * The actual uIP function which does all the work. */ void uip_process(struct uip_stack *ustack, u8_t flag); /* The following flags are passed as an argument to the uip_process() function. They are used to distinguish between the two cases where uip_process() is called. It can be called either because we have incoming data that should be processed, or because the periodic timer has fired. These values are never used directly, but only in the macrose defined in this file. */ #define UIP_DATA 1 /* Tells uIP that there is incoming data in the uip_buf buffer. The length of the data is stored in the global variable uip_len. */ #define UIP_TIMER 2 /* Tells uIP that the periodic timer has fired. */ #define UIP_POLL_REQUEST 3 /* Tells uIP that a connection should be polled. */ #define UIP_UDP_SEND_CONN 4 /* Tells uIP that a UDP datagram should be constructed in the uip_buf buffer. */ #if UIP_UDP #define UIP_UDP_TIMER 5 #endif /* UIP_UDP */ #define UIP_NDP_TIMER 6 /* The TCP states used in the uip_conn->tcpstateflags. */ #define UIP_CLOSED 0 #define UIP_SYN_RCVD 1 #define UIP_SYN_SENT 2 #define UIP_ESTABLISHED 3 #define UIP_FIN_WAIT_1 4 #define UIP_FIN_WAIT_2 5 #define UIP_CLOSING 6 #define UIP_TIME_WAIT 7 #define UIP_LAST_ACK 8 #define UIP_TS_MASK 15 #define UIP_STOPPED 16 struct __attribute__ ((__packed__)) uip_tcp_hdr { /* TCP header. */ u16_t srcport, destport; u8_t seqno[4], ackno[4], tcpoffset, flags, wnd[2]; u16_t tcpchksum; u8_t urgp[2]; u8_t optdata[4]; }; struct __attribute__ ((__packed__)) uip_ipv4_hdr { /* IPv4 header. */ u8_t vhl, tos, len[2], ipid[2], ipoffset[2], ttl, proto; u16_t ipchksum; u16_t srcipaddr[2], destipaddr[2]; }; struct __attribute__ ((__packed__)) uip_ipv6_hdr { /* IPv6 header. */ u8_t vtc, tcflow; u16_t flow; u16_t len; u8_t proto, ttl; uip_ip6addr_t srcipaddr, destipaddr; }; /* The TCP and IPv4 headers. */ struct __attribute__ ((__packed__)) uip_tcp_ipv4_hdr { /* IPv4 header. */ u8_t vhl, tos, len[2], ipid[2], ipoffset[2], ttl, proto; u16_t ipchksum; u16_t srcipaddr[2], destipaddr[2]; /* TCP header. */ u16_t srcport, destport; u8_t seqno[4], ackno[4], tcpoffset, flags, wnd[2]; u16_t tcpchksum; u8_t urgp[2]; u8_t optdata[4]; }; /* The TCP and IP headers. */ struct __attribute__ ((__packed__)) uip_tcp_ipv6_hdr { /* IPv6 header. */ u8_t vtc, tcflow; u16_t flow; u8_t len[2]; u8_t proto, ttl; uip_ip6addr_t srcipaddr, destipaddr; /* TCP header. */ u16_t srcport, destport; u8_t seqno[4], ackno[4], tcpoffset, flags, wnd[2]; u16_t tcpchksum; u8_t urgp[2]; u8_t optdata[4]; }; /* The ICMPv4 */ struct __attribute__ ((__packed__)) uip_icmpv4_hdr { /* ICMP (echo) header. */ u8_t type, icode; u16_t icmpchksum; u16_t id, seqno; }; typedef struct uip_icmpv4_hdr uip_icmp_echo_hdr_t; /* The ICMPv6 */ struct __attribute__ ((__packed__)) uip_icmpv6_hdr { /* ICMP (echo) header. */ u8_t type, icode; u16_t icmpchksum; u8_t flags, reserved1, reserved2, reserved3; u8_t icmp6data[16]; u8_t options[1]; }; /* The ICMP and IP headers. */ struct __attribute__ ((__packed__)) uip_icmpip_hdr { #if UIP_CONF_IPV6 /* IPv6 header. */ u8_t vtc, tcf; u16_t flow; u8_t len[2]; u8_t proto, ttl; uip_ip6addr_t srcipaddr, destipaddr; #else /* UIP_CONF_IPV6 */ /* IPv4 header. */ u8_t vhl, tos, len[2], ipid[2], ipoffset[2], ttl, proto; u16_t ipchksum; u16_t srcipaddr[2], destipaddr[2]; #endif /* UIP_CONF_IPV6 */ /* ICMP (echo) header. */ u8_t type, icode; u16_t icmpchksum; #if !UIP_CONF_IPV6 u16_t id, seqno; #else /* !UIP_CONF_IPV6 */ u8_t flags, reserved1, reserved2, reserved3; u8_t icmp6data[16]; u8_t options[1]; #endif /* !UIP_CONF_IPV6 */ }; /* The UDP */ struct __attribute__ ((__packed__)) uip_udp_hdr { /* UDP header. */ u16_t srcport, destport; u16_t udplen; u16_t udpchksum; }; /* The UDP and IP headers. */ struct __attribute__ ((__packed__)) uip_udpip_hdr { #if UIP_CONF_IPV6 /* IPv6 header. */ u8_t vtc, tcf; u16_t flow; u8_t len[2]; u8_t proto, ttl; uip_ip6addr_t srcipaddr, destipaddr; #else /* UIP_CONF_IPV6 */ /* IP header. */ u8_t vhl, tos, len[2], ipid[2], ipoffset[2], ttl, proto; u16_t ipchksum; u16_t srcipaddr[2], destipaddr[2]; #endif /* UIP_CONF_IPV6 */ /* UDP header. */ u16_t srcport, destport; u16_t udplen; u16_t udpchksum; }; /** * The buffer size available for user data in the \ref uip_buf buffer. * * This macro holds the available size for user data in the \ref * uip_buf buffer. The macro is intended to be used for checking * bounds of available user data. * * Example: \code snprintf(uip_appdata, UIP_APPDATA_SIZE, "%u\n", i); \endcode * * \hideinitializer */ #define UIP_APPDATA_SIZE (UIP_BUFSIZE - UIP_LLH_LEN - UIP_TCPIP_HLEN) #define UIP_PROTO_ICMP 1 #define UIP_PROTO_TCP 6 #define UIP_PROTO_UDP 17 #define UIP_PROTO_ICMP6 58 /* Header sizes. */ #define UIP_IPv6_H_LEN 40 /* Size of IPv6 header */ #define UIP_IPv4_H_LEN 20 /* Size of IPv4 header */ #define UIP_UDPH_LEN 8 /* Size of UDP header */ #define UIP_TCPH_LEN 20 /* Size of TCP header */ #define UIP_IPv4_UDPH_LEN (UIP_UDPH_LEN + UIP_IPv4_H_LEN) /* Size of IPv4 + UDP header */ #define UIP_IPv4_TCPH_LEN (UIP_TCPH_LEN + UIP_IPv4_H_LEN) /* Size of IPv4 + TCP header */ #define UIP_TCP_IPv4_HLEN UIP_IPv4_TCPH_LEN #define UIP_IPv6_UDPH_LEN (UIP_UDPH_LEN + UIP_IPv6_H_LEN) /* Size of IPv6 + UDP header */ #define UIP_IPv6_TCPH_LEN (UIP_TCPH_LEN + UIP_IPv6_H_LEN) /* Size of IPv6 + TCP header */ #define UIP_TCP_IPv6_HLEN UIP_IPv6_TCPH_LEN /** * Calculate the Internet checksum over a buffer. * * The Internet checksum is the one's complement of the one's * complement sum of all 16-bit words in the buffer. * * See RFC1071. * * \param buf A pointer to the buffer over which the checksum is to be * computed. * * \param len The length of the buffer over which the checksum is to * be computed. * * \return The Internet checksum of the buffer. */ u16_t uip_chksum(u16_t *buf, u16_t len); /** * Calculate the IP header checksum of the packet header in uip_buf. * * The IP header checksum is the Internet checksum of the 20 bytes of * the IP header. * * \return The IP header checksum of the IP header in the uip_buf * buffer. */ u16_t uip_ipchksum(struct uip_stack *ustack); /** * Calculate the TCP checksum of the packet in uip_buf and uip_appdata. * * The TCP checksum is the Internet checksum of data contents of the * TCP segment, and a pseudo-header as defined in RFC793. * * \return The TCP checksum of the TCP segment in uip_buf and pointed * to by uip_appdata. */ u16_t uip_tcpchksum(struct uip_stack *ustack); /** * Calculate the UDP checksum of the packet in uip_buf and uip_appdata. * * The UDP checksum is the Internet checksum of data contents of the * UDP segment, and a pseudo-header as defined in RFC768. * * \return The UDP checksum of the UDP segment in uip_buf and pointed * to by uip_appdata. */ u16_t uip_udpchksum(struct uip_stack *ustack); /* IPv6 checksum */ uint16_t icmpv6_checksum(uint8_t *data); struct neighbor_entry { struct in6_addr ipaddr; struct uip_eth_addr mac_addr; u8_t time; }; struct uip_stack { struct uip_eth_addr uip_ethaddr; u8_t *uip_buf; uint8_t *data_link_layer; /* Pointer to the data link layer */ uint8_t *network_layer; /* Pointer to the network layer */ void *uip_appdata; /* The uip_appdata pointer points to application data. */ void *uip_sappdata; /* The uip_appdata pointer points to the application data which is to be sent. */ #if UIP_URGDATA > 0 void *uip_urgdata; /* The uip_urgdata pointer points to urgent data (out-of-band data), if present. */ u16_t uip_urglen, uip_surglen; #endif /* UIP_URGDATA > 0 */ u16_t uip_len, uip_slen; /* The uip_len is either 8 or 16 bits, depending on the maximum packet size. */ u8_t uip_flags; /* The uip_flags variable is used for communication between the TCP/IP stack and the application program. */ struct uip_conn *uip_conn; /* uip_conn always points to the current connection. */ struct uip_conn uip_conns[UIP_CONNS]; /* The uip_conns array holds all TCP connections. */ u16_t uip_listenports[UIP_LISTENPORTS]; /* The uip_listenports list all currently listning ports. */ #if UIP_UDP struct uip_udp_conn *uip_udp_conn; struct uip_udp_conn uip_udp_conns[UIP_UDP_CONNS]; #endif /* UIP_UDP */ u16_t ipid; /* This ipid variable is an increasing number that is used for the IP ID field. */ u8_t iss[4]; /* The iss variable is used for the TCP initial sequence number. */ #if UIP_ACTIVE_OPEN u16_t lastport; /* Keeps track of the last port used for a new connection. */ #endif /* UIP_ACTIVE_OPEN */ #define IP_CONFIG_OFF 0x00 #define IPV4_CONFIG_OFF 0x01 #define IPV4_CONFIG_STATIC 0x02 #define IPV4_CONFIG_DHCP 0x04 #define IPV6_CONFIG_OFF 0x10 #define IPV6_CONFIG_STATIC 0x20 #define IPV6_CONFIG_DHCP 0x40 u8_t ip_config; uip_ip4addr_t hostaddr, netmask, default_route_addr; uip_ip6addr_t hostaddr6, netmask6, default_route_addr6, linklocal6; int prefix_len; u8_t ipv6_autocfg; #define IPV6_AUTOCFG_DHCPV6 (1<<0) #define IPV6_AUTOCFG_ND (1<<1) #define IPV6_AUTOCFG_NOTSPEC (1<<6) #define IPV6_AUTOCFG_NOTUSED (1<<7) u8_t linklocal_autocfg; #define IPV6_LL_AUTOCFG_ON (1<<0) #define IPV6_LL_AUTOCFG_OFF (1<<1) #define IPV6_LL_AUTOCFG_NOTSPEC (1<<6) #define IPV6_LL_AUTOCFG_NOTUSED (1<<7) u8_t router_autocfg; #define IPV6_RTR_AUTOCFG_ON (1<<0) #define IPV6_RTR_AUTOCFG_OFF (1<<1) #define IPV6_RTR_AUTOCFG_NOTSPEC (1<<6) #define IPV6_RTR_AUTOCFG_NOTUSED (1<<7) #define UIP_NEIGHBOR_ENTRIES 8 struct neighbor_entry neighbor_entries[UIP_NEIGHBOR_ENTRIES]; struct uip_stats stats; u8_t opt; pthread_mutex_t lock; /* IPv6 support */ #define UIP_SUPPORT_IPv6_ENABLED 0x01 #define UIP_SUPPORT_IPv6_DISABLED 0x02 u8_t enable_IPv6; /* DHCPC client attached */ void *dhcpc; /* NDP client */ void *ndpc; void *ping_conf; }; /******************************************************************************* * IPv6 Support ******************************************************************************/ int set_ipv6_link_local_address(struct uip_stack *ustack); int is_ipv6_link_local_address(uip_ip6addr_t *addr); void dump_uip_packet(struct uip_stack *ustack); u16_t uip_icmp6chksum(struct uip_stack *ustack); #endif /* __UIP_H__ */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/uip_arch.h000066400000000000000000000106121277325716400211410ustar00rootroot00000000000000/** * \addtogroup uip * {@ */ /** * \defgroup uiparch Architecture specific uIP functions * @{ * * The functions in the architecture specific module implement the IP * check sum and 32-bit additions. * * The IP checksum calculation is the most computationally expensive * operation in the TCP/IP stack and it therefore pays off to * implement this in efficient assembler. The purpose of the uip-arch * module is to let the checksum functions to be implemented in * architecture specific assembler. * */ /** * \file * Declarations of architecture specific functions. * \author Adam Dunkels */ /* * Copyright (c) 2001, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack. * * */ #ifndef __UIP_ARCH_H__ #define __UIP_ARCH_H__ #include "uip.h" /** * Carry out a 32-bit addition. * * Because not all architectures for which uIP is intended has native * 32-bit arithmetic, uIP uses an external C function for doing the * required 32-bit additions in the TCP protocol processing. This * function should add the two arguments and place the result in the * global variable uip_acc32. * * \note The 32-bit integer pointed to by the op32 parameter and the * result in the uip_acc32 variable are in network byte order (big * endian). * * \param op32 A pointer to a 4-byte array representing a 32-bit * integer in network byte order (big endian). * * \param op16 A 16-bit integer in host byte order. */ void uip_add32(u8_t *op32, u16_t op16, u8_t *uip_add32); /** * Calculate the Internet checksum over a buffer. * * The Internet checksum is the one's complement of the one's * complement sum of all 16-bit words in the buffer. * * See RFC1071. * * \note This function is not called in the current version of uIP, * but future versions might make use of it. * * \param buf A pointer to the buffer over which the checksum is to be * computed. * * \param len The length of the buffer over which the checksum is to * be computed. * * \return The Internet checksum of the buffer. */ u16_t uip_chksum(u16_t *buf, u16_t len); /** * Calculate the IP header checksum of the packet header in uip_buf. * * The IP header checksum is the Internet checksum of the 20 bytes of * the IP header. * * \return The IP header checksum of the IP header in the uip_buf * buffer. */ u16_t uip_ipchksum(struct uip_stack *ustack); /** * Calculate the TCP checksum of the packet in uip_buf and uip_appdata. * * The TCP checksum is the Internet checksum of data contents of the * TCP segment, and a pseudo-header as defined in RFC793. * * \note The uip_appdata pointer that points to the packet data may * point anywhere in memory, so it is not possible to simply calculate * the Internet checksum of the contents of the uip_buf buffer. * * \return The TCP checksum of the TCP segment in uip_buf and pointed * to by uip_appdata. */ u16_t uip_tcpchksum(struct uip_stack *ustack); u16_t uip_udpchksum(struct uip_stack *ustack); /** @} */ /** @} */ #endif /* __UIP_ARCH_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/uip_arp.c000066400000000000000000000342531277325716400210100ustar00rootroot00000000000000#include #include #include #include "logger.h" #include "packet.h" /** * \addtogroup uip * @{ */ /** * \defgroup uiparp uIP Address Resolution Protocol * @{ * * The Address Resolution Protocol ARP is used for mapping between IP * addresses and link level addresses such as the Ethernet MAC * addresses. ARP uses broadcast queries to ask for the link level * address of a known IP address and the host which is configured with * the IP address for which the query was meant, will respond with its * link level address. * * \note This ARP implementation only supports Ethernet. */ /** * \file * Implementation of the ARP Address Resolution Protocol. * \author Adam Dunkels * */ /* * Copyright (c) 2001-2003, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack. * * */ #include "uip_arp.h" #include "uip_eth.h" #include #include static const struct uip_eth_addr broadcast_ethaddr = { {0xff, 0xff, 0xff, 0xff, 0xff, 0xff} }; static const u16_t broadcast_ipaddr[2] = { 0xffff, 0xffff }; pthread_mutex_t arp_table_mutex = PTHREAD_MUTEX_INITIALIZER; static struct arp_entry arp_table[UIP_ARPTAB_SIZE]; static u8_t arptime; /** * Initialize the ARP module. * */ /*----------------------------------------------------------------------------*/ void uip_arp_init(void) { u8_t i; for (i = 0; i < UIP_ARPTAB_SIZE; ++i) memset(&arp_table[i], 0, sizeof(arp_table[i])); pthread_mutex_init(&arp_table_mutex, NULL); } /*----------------------------------------------------------------------------*/ /** * Periodic ARP processing function. * * This function performs periodic timer processing in the ARP module * and should be called at regular intervals. The recommended interval * is 10 seconds between the calls. * */ /*----------------------------------------------------------------------------*/ void uip_arp_timer(void) { u8_t i; struct arp_entry *tabptr; ++arptime; for (i = 0; i < UIP_ARPTAB_SIZE; ++i) { tabptr = &arp_table[i]; if ((tabptr->ipaddr[0] | tabptr->ipaddr[1]) != 0 && (u8_t)(arptime - tabptr->time) >= UIP_ARP_MAXAGE) memset(tabptr->ipaddr, 0, 4); } } /*----------------------------------------------------------------------------*/ static void uip_arp_update(u16_t *ipaddr, struct uip_eth_addr *ethaddr) { u8_t i; struct arp_entry *tabptr; pthread_mutex_lock(&arp_table_mutex); /* Walk through the ARP mapping table and try to find an entry to update. If none is found, the IP -> MAC address mapping is inserted in the ARP table. */ for (i = 0; i < UIP_ARPTAB_SIZE; ++i) { tabptr = &arp_table[i]; /* Only check those entries that are actually in use. */ if (tabptr->ipaddr[0] != 0 && tabptr->ipaddr[1] != 0) { /* Check if the source IP address of the incoming packet matches the IP address in this ARP table entry. */ if (ipaddr[0] == tabptr->ipaddr[0] && ipaddr[1] == tabptr->ipaddr[1]) { tabptr->time = arptime; pthread_mutex_unlock(&arp_table_mutex); return; } } } /* If we get here, no existing ARP table entry was found, so we create one. */ /* First, we try to find an unused entry in the ARP table. */ for (i = 0; i < UIP_ARPTAB_SIZE; ++i) { tabptr = &arp_table[i]; if (tabptr->ipaddr[0] == 0 && tabptr->ipaddr[1] == 0) break; } /* If no unused entry is found, we try to find the oldest entry and throw it away. */ if (i == UIP_ARPTAB_SIZE) { u8_t c; u8_t tmpage = 0; c = 0; for (i = 0; i < UIP_ARPTAB_SIZE; ++i) { tabptr = &arp_table[i]; if ((u8_t)(arptime - tabptr->time) > tmpage) { tmpage = (u8_t)(arptime - tabptr->time); c = i; } } i = c; tabptr = &arp_table[i]; } /* Now, i is the ARP table entry which we will fill with the new information. */ memcpy(tabptr->ipaddr, ipaddr, 4); memcpy(tabptr->ethaddr.addr, ethaddr->addr, 6); tabptr->time = arptime; pthread_mutex_unlock(&arp_table_mutex); } /** * ARP processing for incoming ARP packets. * * This function should be called by the device driver when an ARP * packet has been received. The function will act differently * depending on the ARP packet type: if it is a reply for a request * that we previously sent out, the ARP cache will be filled in with * the values from the ARP reply. If the incoming ARP packet is an ARP * request for our IP address, an ARP reply packet is created and put * into the uip_buf[] buffer. * * When the function returns, the value of the global variable uip_len * indicates whether the device driver should send out a packet or * not. If uip_len is zero, no packet should be sent. If uip_len is * non-zero, it contains the length of the outbound packet that is * present in the uip_buf[] buffer. * * This function expects an ARP packet with a prepended Ethernet * header in the uip_buf[] buffer, and the length of the packet in the * global variable uip_len. */ void uip_arp_ipin(struct uip_stack *ustack, packet_t *pkt) { struct ip_hdr *ip; struct uip_eth_hdr *eth; eth = (struct uip_eth_hdr *)pkt->data_link_layer; ip = (struct ip_hdr *)pkt->network_layer; if (uip_ip4addr_cmp(ip->destipaddr, ustack->hostaddr)) { /* First, we register the one who made the request in our ARP table, since it is likely that we will do more communication with this host in the future. */ uip_arp_update(ip->srcipaddr, ð->src); } } void uip_arp_arpin(nic_interface_t *nic_iface, struct uip_stack *ustack, packet_t *pkt) { struct arp_hdr *arp; struct uip_eth_hdr *eth; if (pkt->buf_size < sizeof(struct arp_hdr)) { pkt->buf_size = 0; return; } pkt->buf_size = 0; eth = (struct uip_eth_hdr *)pkt->data_link_layer; arp = (struct arp_hdr *)pkt->network_layer; switch (arp->opcode) { case const_htons(ARP_REQUEST): /* ARP request. If it asked for our address, we send out a reply. */ if (uip_ip4addr_cmp(arp->dipaddr, ustack->hostaddr)) { /* First, we register the one who made the request in our ARP table, since it is likely that we will do more communication with this host in the future. */ uip_arp_update(arp->sipaddr, &arp->shwaddr); /* The reply opcode is 2. */ arp->opcode = htons(2); memcpy(arp->dhwaddr.addr, arp->shwaddr.addr, 6); memcpy(arp->shwaddr.addr, ustack->uip_ethaddr.addr, 6); memcpy(eth->src.addr, ustack->uip_ethaddr.addr, 6); memcpy(eth->dest.addr, arp->dhwaddr.addr, 6); arp->dipaddr[0] = arp->sipaddr[0]; arp->dipaddr[1] = arp->sipaddr[1]; arp->sipaddr[0] = ustack->hostaddr[0]; arp->sipaddr[1] = ustack->hostaddr[1]; if (nic_iface->vlan_id == 0) { eth->type = htons(UIP_ETHTYPE_ARP); pkt->buf_size = sizeof(*arp) + sizeof(*eth); } else { eth->type = htons(UIP_ETHTYPE_8021Q); pkt->buf_size = sizeof(*arp) + sizeof(struct uip_vlan_eth_hdr); } } break; case const_htons(ARP_REPLY): uip_arp_update(arp->sipaddr, &arp->shwaddr); break; default: LOG_WARN("Unknown ARP opcode: %d", ntohs(arp->opcode)); break; } return; } /** * Prepend Ethernet header to an outbound IP packet and see if we need * to send out an ARP request. * * This function should be called before sending out an IP packet. The * function checks the destination IP address of the IP packet to see * what Ethernet MAC address that should be used as a destination MAC * address on the Ethernet. * * If the destination IP address is in the local network (determined * by logical ANDing of netmask and our IP address), the function * checks the ARP cache to see if an entry for the destination IP * address is found. If so, an Ethernet header is prepended and the * function returns. If no ARP cache entry is found for the * destination IP address, the packet in the uip_buf[] is replaced by * an ARP request packet for the IP address. The IP packet is dropped * and it is assumed that they higher level protocols (e.g., TCP) * eventually will retransmit the dropped packet. * * If the destination IP address is not on the local network, the IP * address of the default router is used instead. * * When the function returns, a packet is present in the uip_buf[] * buffer, and the length of the packet is in the global variable * uip_len. */ dest_ipv4_addr_t uip_determine_dest_ipv4_addr(struct uip_stack *ustack, u16_t *ipaddr) { struct uip_eth_hdr *eth; struct ip_hdr *ip_buf; eth = (struct uip_eth_hdr *)ustack->data_link_layer; ip_buf = (struct ip_hdr *)ustack->network_layer; /* Find the destination IP address in the ARP table and construct the Ethernet header. If the destination IP addres isn't on the local network, we use the default router's IP address instead. If not ARP table entry is found, we overwrite the original IP packet with an ARP request for the IP address. */ /* First check if destination is a local broadcast. */ if (uip_ip4addr_cmp(ip_buf->destipaddr, broadcast_ipaddr)) { memcpy(ð->dest, broadcast_ethaddr.addr, 6); return LOCAL_BROADCAST; } else { /* Check if the destination address is on the local network. */ if (!uip_ip4addr_maskcmp(ip_buf->destipaddr, ustack->hostaddr, ustack->netmask)) { /* Destination address was not on the local network, so we need to use the default router's IP address instead of the destination address when determining the MAC address. */ uip_ip4addr_copy(ipaddr, ustack->default_route_addr); } else { /* Else, we use the destination IP address. */ uip_ip4addr_copy(ipaddr, ip_buf->destipaddr); } return NONLOCAL_BROADCAST; } } arp_out_t is_in_arp_table(u16_t *ipaddr, struct arp_entry **tabptr) { u8_t i; pthread_mutex_lock(&arp_table_mutex); for (i = 0; i < UIP_ARPTAB_SIZE; ++i) { if (uip_ip4addr_cmp(ipaddr, arp_table[i].ipaddr)) { *tabptr = &arp_table[i]; break; } } pthread_mutex_unlock(&arp_table_mutex); if (i == UIP_ARPTAB_SIZE) return NOT_IN_ARP_TABLE; else return IS_IN_ARP_TABLE; } void uip_build_arp_request(struct uip_stack *ustack, u16_t *ipaddr) { struct arp_hdr *arp; struct uip_eth_hdr *eth; arp = (struct arp_hdr *)ustack->network_layer; eth = (struct uip_eth_hdr *)ustack->data_link_layer; /* The destination address was not in our ARP table, so we overwrite the IP packet with an ARP request. */ memset(eth->dest.addr, 0xff, 6); memset(arp->dhwaddr.addr, 0x00, 6); memcpy(eth->src.addr, ustack->uip_ethaddr.addr, 6); memcpy(arp->shwaddr.addr, ustack->uip_ethaddr.addr, 6); uip_ip4addr_copy(arp->dipaddr, ipaddr); uip_ip4addr_copy(arp->sipaddr, ustack->hostaddr); arp->opcode = const_htons(ARP_REQUEST); /* ARP request. */ arp->hwtype = const_htons(ARP_HWTYPE_ETH); arp->protocol = const_htons(UIP_ETHTYPE_IPv4); arp->hwlen = 6; arp->protolen = 4; eth->type = const_htons(UIP_ETHTYPE_ARP); ustack->uip_appdata = &ustack->uip_buf[UIP_TCP_IPv4_HLEN + UIP_LLH_LEN]; ustack->uip_len = sizeof(*arp) + sizeof(*eth); } void uip_build_eth_header(struct uip_stack *ustack, u16_t *ipaddr, struct arp_entry *tabptr, struct packet *pkt, u16_t vlan_id) { struct uip_ipv4_hdr *ip_buf; struct uip_eth_hdr *eth; struct uip_vlan_eth_hdr *eth_vlan; ip_buf = (struct uip_ipv4_hdr *)ustack->network_layer; eth = (struct uip_eth_hdr *)ustack->data_link_layer; eth_vlan = (struct uip_vlan_eth_hdr *)ustack->data_link_layer; /* First check if destination is a local broadcast. */ if (uip_ip4addr_cmp(ip_buf->destipaddr, broadcast_ipaddr)) { memcpy(eth->dest.addr, broadcast_ethaddr.addr, 6); } else { /* Build an ethernet header. */ memcpy(eth->dest.addr, tabptr->ethaddr.addr, 6); } memcpy(eth->src.addr, ustack->uip_ethaddr.addr, 6); if (vlan_id == 0) { eth->type = htons(UIP_ETHTYPE_IPv4); ustack->uip_len += sizeof(struct uip_eth_hdr); pkt->buf_size += sizeof(struct uip_eth_hdr); } else { eth_vlan->tpid = htons(UIP_ETHTYPE_8021Q); eth_vlan->vid = htons(vlan_id); eth_vlan->type = htons(UIP_ETHTYPE_IPv4); ustack->uip_len += sizeof(struct uip_vlan_eth_hdr); pkt->buf_size += sizeof(struct uip_vlan_eth_hdr); } } static struct arp_entry *uip_get_arp_entry(int index) { return &arp_table[index]; } int uip_lookup_arp_entry(uint32_t ip_addr, uint8_t *mac_addr) { int i; int rc = -EINVAL; pthread_mutex_lock(&arp_table_mutex); for (i = 0; i < UIP_ARPTAB_SIZE; ++i) { struct arp_entry *entry = uip_get_arp_entry(i); if (((entry->ipaddr[1] << 16) == (ip_addr & 0xffff0000)) && ((entry->ipaddr[0]) == (ip_addr & 0x0000ffff))) { struct in_addr addr; char *addr_str; addr.s_addr = ip_addr; addr_str = inet_ntoa(addr); memcpy(mac_addr, entry->ethaddr.addr, 6); LOG_INFO("Found %s at %02x:%02x:%02x:%02x:%02x:%02x", addr_str, mac_addr[0], mac_addr[1], mac_addr[2], mac_addr[3], mac_addr[4], mac_addr[5]); rc = 0; break; } } pthread_mutex_unlock(&arp_table_mutex); return rc; } /*----------------------------------------------------------------------------*/ /** @} */ /** @} */ open-iscsi-2.0.874/iscsiuio/src/uip/uip_arp.h000066400000000000000000000137201277325716400210110ustar00rootroot00000000000000/** * \addtogroup uip * @{ */ /** * \addtogroup uiparp * @{ */ /** * \file * Macros and definitions for the ARP module. * \author Adam Dunkels */ /* * Copyright (c) 2001-2003, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack. * * */ #ifndef __UIP_ARP_H__ #define __UIP_ARP_H__ #include "packet.h" #include "uip.h" #include "uip_eth.h" #define ARP_REQUEST 1 #define ARP_REPLY 2 #define ARP_HWTYPE_ETH 1 struct __attribute__ ((__packed__)) arp_hdr { u16_t hwtype; u16_t protocol; u8_t hwlen; u8_t protolen; u16_t opcode; struct uip_eth_addr shwaddr; u16_t sipaddr[2]; struct uip_eth_addr dhwaddr; u16_t dipaddr[2]; }; struct __attribute__ ((__packed__)) ip_hdr { /* IP header. */ u8_t vhl, tos, len[2], ipid[2], ipoffset[2], ttl, proto; u16_t ipchksum; u16_t srcipaddr[2], destipaddr[2]; }; struct __attribute__ ((__packed__)) ethip_hdr { struct uip_eth_hdr ethhdr; /* IP header. */ u8_t vhl, tos, len[2], ipid[2], ipoffset[2], ttl, proto; u16_t ipchksum; u16_t srcipaddr[2], destipaddr[2]; }; struct arp_entry { u16_t ipaddr[2]; struct uip_eth_addr ethaddr; u8_t time; }; /* The uip_arp_init() function must be called before any of the other ARP functions. */ void uip_arp_init(void); /* The uip_arp_ipin() function should be called whenever an IP packet arrives from the Ethernet. This function refreshes the ARP table or inserts a new mapping if none exists. The function assumes that an IP packet with an Ethernet header is present in the uip_buf buffer and that the length of the packet is in the uip_len variable. */ /*void uip_arp_ipin(void);*/ /* #define uip_arp_ipin() */ void uip_arp_ipin(struct uip_stack *ustack, struct packet *pkt); /* The uip_arp_arpin() should be called when an ARP packet is received by the Ethernet driver. This function also assumes that the Ethernet frame is present in the uip_buf buffer. When the uip_arp_arpin() function returns, the contents of the uip_buf buffer should be sent out on the Ethernet if the uip_len variable is > 0. */ void uip_arp_arpin(nic_interface_t *nic_iface, struct uip_stack *ustack, struct packet *pkt); typedef enum { ARP_SENT = 1, ETH_HEADER_APPEDEND = 2, } arp_out_t; typedef enum { LOCAL_BROADCAST = 1, NONLOCAL_BROADCAST = 2, } dest_ipv4_addr_t; typedef enum { IS_IN_ARP_TABLE = 1, NOT_IN_ARP_TABLE = 2, } arp_table_query_t; dest_ipv4_addr_t uip_determine_dest_ipv4_addr(struct uip_stack *ustack, u16_t *ipaddr); arp_out_t is_in_arp_table(u16_t *ipaddr, struct arp_entry **tabptr); void uip_build_arp_request(struct uip_stack *ustack, u16_t *ipaddr); void uip_build_eth_header(struct uip_stack *ustack, u16_t *ipaddr, struct arp_entry *tabptr, struct packet *pkt, u16_t vlan_id); /* The uip_arp_out() function should be called when an IP packet should be sent out on the Ethernet. This function creates an Ethernet header before the IP header in the uip_buf buffer. The Ethernet header will have the correct Ethernet MAC destination address filled in if an ARP table entry for the destination IP address (or the IP address of the default router) is present. If no such table entry is found, the IP packet is overwritten with an ARP request and we rely on TCP to retransmit the packet that was overwritten. In any case, the uip_len variable holds the length of the Ethernet frame that should be transmitted. */ arp_out_t uip_arp_out(struct uip_stack *ustack); /* The uip_arp_timer() function should be called every ten seconds. It is responsible for flushing old entries in the ARP table. */ void uip_arp_timer(void); int uip_lookup_arp_entry(uint32_t ip_addr, uint8_t *mac_addr); /** @} */ /** * \addtogroup uipconffunc * @{ */ /** * Specifiy the Ethernet MAC address. * * The ARP code needs to know the MAC address of the Ethernet card in * order to be able to respond to ARP queries and to generate working * Ethernet headers. * * \note This macro only specifies the Ethernet MAC address to the ARP * code. It cannot be used to change the MAC address of the Ethernet * card. * * \param eaddr A pointer to a struct uip_eth_addr containing the * Ethernet MAC address of the Ethernet card. * * \hideinitializer */ #define uip_setethaddr(eaddr) do { \ uip_ethaddr.addr[0] = eaddr.addr[0]; \ uip_ethaddr.addr[1] = eaddr.addr[1]; \ uip_ethaddr.addr[2] = eaddr.addr[2]; \ uip_ethaddr.addr[3] = eaddr.addr[3]; \ uip_ethaddr.addr[4] = eaddr.addr[4]; \ uip_ethaddr.addr[5] = eaddr.addr[5]; \ } while (0) /** @} */ /** @} */ #endif /* __UIP_ARP_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/uip_eth.c000066400000000000000000000040111277325716400207730ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * uip_eth.c - CNIC UIO uIP user space stack * */ #include "uip.h" #include "uip_eth.h" int is_vlan_packet(struct uip_vlan_eth_hdr *hdr) { /* The TPID field in a 802.1Q Header must be 0x8100 */ if (hdr->tpid == const_htons(UIP_ETHTYPE_8021Q)) return 1; return 0; } open-iscsi-2.0.874/iscsiuio/src/uip/uip_eth.h000066400000000000000000000016001277325716400210010ustar00rootroot00000000000000#ifndef __UIP_ETH_H__ #define __UIP_ETH_H__ #include "uipopt.h" /******************************************************************************* * Ether types ******************************************************************************/ #define UIP_ETHTYPE_ARP 0x0806 #define UIP_ETHTYPE_IPv4 0x0800 #define UIP_ETHTYPE_8021Q 0x8100 #define UIP_ETHTYPE_IPv6 0x86dd /** * Representation of a 48-bit Ethernet address. */ struct uip_eth_addr { u8_t addr[6]; }; /** * The Ethernet header. */ struct __attribute__ ((__packed__)) uip_eth_hdr { struct uip_eth_addr dest; struct uip_eth_addr src; u16_t type; }; /** * The 802.1Q Ethernet header (VLAN). */ struct __attribute__ ((__packed__)) uip_vlan_eth_hdr { struct uip_eth_addr dest; struct uip_eth_addr src; u16_t tpid; u16_t vid; u16_t type; }; int is_vlan_packet(struct uip_vlan_eth_hdr *hdr); #endif /* __UIP_ETH_H__ */ open-iscsi-2.0.874/iscsiuio/src/uip/uipopt.h000066400000000000000000000341771277325716400207030ustar00rootroot00000000000000/** * \defgroup uipopt Configuration options for uIP * @{ * * uIP is configured using the per-project configuration file * uipopt.h. This file contains all compile-time options for uIP and * should be tweaked to match each specific project. The uIP * distribution contains a documented example "uipopt.h" that can be * copied and modified for each project. * * \note Most of the configuration options in the uipopt.h should not * be changed, but rather the per-project uip-conf.h file. */ /** * \file * Configuration options for uIP. * \author Adam Dunkels * * This file is used for tweaking various configuration options for * uIP. You should make a copy of this file into one of your project's * directories instead of editing this example "uipopt.h" file that * comes with the uIP distribution. */ /* * Copyright (c) 2001-2003, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack. * * */ #ifndef __UIPOPT_H__ #define __UIPOPT_H__ #ifndef UIP_LITTLE_ENDIAN #define UIP_LITTLE_ENDIAN 3412 #endif /* UIP_LITTLE_ENDIAN */ #ifndef UIP_BIG_ENDIAN #define UIP_BIG_ENDIAN 1234 #endif /* UIP_BIG_ENDIAN */ #include "uip-conf.h" /*----------------------------------------------------------------------------*/ /** * \name Static configuration options * @{ * * These configuration options can be used for setting the IP address * settings statically, but only if UIP_FIXEDADDR is set to 1. The * configuration options for a specific node includes IP address, * netmask and default router as well as the Ethernet address. The * netmask, default router and Ethernet address are appliciable only * if uIP should be run over Ethernet. * * All of these should be changed to suit your project. */ /** * Determines if uIP should use a fixed IP address or not. * * If uIP should use a fixed IP address, the settings are set in the * uipopt.h file. If not, the macros uip_sethostaddr(), * uip_setdraddr() and uip_setnetmask() should be used instead. * * \hideinitializer */ #define UIP_FIXEDADDR 0 /** * Ping IP address asignment. * * uIP uses a "ping" packets for setting its own IP address if this * option is set. If so, uIP will start with an empty IP address and * the destination IP address of the first incoming "ping" (ICMP echo) * packet will be used for setting the hosts IP address. * * \note This works only if UIP_FIXEDADDR is 0. * * \hideinitializer */ #ifdef UIP_CONF_PINGADDRCONF #define UIP_PINGADDRCONF UIP_CONF_PINGADDRCONF #else /* UIP_CONF_PINGADDRCONF */ #define UIP_PINGADDRCONF 0 #endif /* UIP_CONF_PINGADDRCONF */ /** * Specifies if the uIP ARP module should be compiled with a fixed * Ethernet MAC address or not. * * If this configuration option is 0, the macro uip_setethaddr() can * be used to specify the Ethernet address at run-time. * * \hideinitializer */ #define UIP_FIXEDETHADDR 0 /** @} */ /*------------------------------------------------------------------------------*/ /** * \name IP configuration options * @{ * */ /** * The IP TTL (time to live) of IP packets sent by uIP. * * This should normally not be changed. */ #define UIP_TTL 64 /** * Turn on support for IP packet reassembly. * * uIP supports reassembly of fragmented IP packets. This features * requires an additonal amount of RAM to hold the reassembly buffer * and the reassembly code size is approximately 700 bytes. The * reassembly buffer is of the same size as the uip_buf buffer * (configured by UIP_BUFSIZE). * * \note IP packet reassembly is not heavily tested. * * \hideinitializer */ #define UIP_REASSEMBLY 0 /** * The maximum time an IP fragment should wait in the reassembly * buffer before it is dropped. * */ #define UIP_REASS_MAXAGE 40 /** @} */ /*----------------------------------------------------------------------------*/ /** * \name UDP configuration options * @{ */ /** * Toggles wether UDP support should be compiled in or not. * * \hideinitializer */ #ifdef UIP_CONF_UDP #define UIP_UDP UIP_CONF_UDP #else /* UIP_CONF_UDP */ #define UIP_UDP 0 #endif /* UIP_CONF_UDP */ /** * Toggles if UDP checksums should be used or not. * * \note Support for UDP checksums is currently not included in uIP, * so this option has no function. * * \hideinitializer */ #ifdef UIP_CONF_UDP_CHECKSUMS #define UIP_UDP_CHECKSUMS UIP_CONF_UDP_CHECKSUMS #else #define UIP_UDP_CHECKSUMS 0 #endif /** * The maximum amount of concurrent UDP connections. * * \hideinitializer */ #ifdef UIP_CONF_UDP_CONNS #define UIP_UDP_CONNS UIP_CONF_UDP_CONNS #else /* UIP_CONF_UDP_CONNS */ #define UIP_UDP_CONNS 10 #endif /* UIP_CONF_UDP_CONNS */ /** * The name of the function that should be called when UDP datagrams arrive. * * \hideinitializer */ /** @} */ /*------------------------------------------------------------------------------*/ /** * \name TCP configuration options * @{ */ /** * Determines if support for opening connections from uIP should be * compiled in. * * If the applications that are running on top of uIP for this project * do not need to open outgoing TCP connections, this configration * option can be turned off to reduce the code size of uIP. * * \hideinitializer */ #define UIP_ACTIVE_OPEN 1 /** * The maximum number of simultaneously open TCP connections. * * Since the TCP connections are statically allocated, turning this * configuration knob down results in less RAM used. Each TCP * connection requires approximatly 30 bytes of memory. * * \hideinitializer */ #ifndef UIP_CONF_MAX_CONNECTIONS #define UIP_CONNS 10 #else /* UIP_CONF_MAX_CONNECTIONS */ #define UIP_CONNS UIP_CONF_MAX_CONNECTIONS #endif /* UIP_CONF_MAX_CONNECTIONS */ /** * The maximum number of simultaneously listening TCP ports. * * Each listening TCP port requires 2 bytes of memory. * * \hideinitializer */ #ifndef UIP_CONF_MAX_LISTENPORTS #define UIP_LISTENPORTS 20 #else /* UIP_CONF_MAX_LISTENPORTS */ #define UIP_LISTENPORTS UIP_CONF_MAX_LISTENPORTS #endif /* UIP_CONF_MAX_LISTENPORTS */ /** * Determines if support for TCP urgent data notification should be * compiled in. * * Urgent data (out-of-band data) is a rarely used TCP feature that * very seldom would be required. * * \hideinitializer */ #define UIP_URGDATA 0 /** * The initial retransmission timeout counted in timer pulses. * * This should not be changed. */ #define UIP_RTO 3 /** * The maximum number of times a segment should be retransmitted * before the connection should be aborted. * * This should not be changed. */ #define UIP_MAXRTX 8 /** * The maximum number of times a SYN segment should be retransmitted * before a connection request should be deemed to have been * unsuccessful. * * This should not need to be changed. */ #define UIP_MAXSYNRTX 5 /** * The TCP maximum segment size. * * This is should not be to set to more than * UIP_BUFSIZE - UIP_LLH_LEN - UIP_TCPIP_HLEN. */ #define UIP_TCP_MSS (UIP_BUFSIZE - UIP_LLH_LEN - UIP_TCP_IPv4_HLEN) /** * The size of the advertised receiver's window. * * Should be set low (i.e., to the size of the uip_buf buffer) is the * application is slow to process incoming data, or high (32768 bytes) * if the application processes data quickly. * * \hideinitializer */ #ifndef UIP_CONF_RECEIVE_WINDOW #define UIP_RECEIVE_WINDOW UIP_TCP_MSS #else #define UIP_RECEIVE_WINDOW UIP_CONF_RECEIVE_WINDOW #endif /** * How long a connection should stay in the TIME_WAIT state. * * This configiration option has no real implication, and it should be * left untouched. */ #define UIP_TIME_WAIT_TIMEOUT 120 /** @} */ /*------------------------------------------------------------------------------*/ /** * \name ARP configuration options * @{ */ /** * The size of the ARP table. * * This option should be set to a larger value if this uIP node will * have many connections from the local network. * * \hideinitializer */ #ifdef UIP_CONF_ARPTAB_SIZE #define UIP_ARPTAB_SIZE UIP_CONF_ARPTAB_SIZE #else #define UIP_ARPTAB_SIZE 16 #endif /** * The maxium age of ARP table entries measured in 10ths of seconds. * * An UIP_ARP_MAXAGE of 120 corresponds to 20 minutes (BSD * default). * Changed the default to 30 which corresponds to 5 minutes (Linux default) */ #define UIP_ARP_MAXAGE 30 /** @} */ /*----------------------------------------------------------------------------*/ /** * \name General configuration options * @{ */ /** * The size of the uIP packet buffer. * * The uIP packet buffer should not be smaller than 60 bytes, and does * not need to be larger than 1500 bytes. Lower size results in lower * TCP throughput, larger size results in higher TCP throughput. * * \hideinitializer */ #ifndef UIP_CONF_BUFFER_SIZE #define UIP_BUFSIZE 400 #else /* UIP_CONF_BUFFER_SIZE */ #define UIP_BUFSIZE UIP_CONF_BUFFER_SIZE #endif /* UIP_CONF_BUFFER_SIZE */ /** * Determines if statistics support should be compiled in. * * The statistics is useful for debugging and to show the user. * * \hideinitializer */ #ifndef UIP_CONF_STATISTICS #define UIP_STATISTICS 0 #else /* UIP_CONF_STATISTICS */ #define UIP_STATISTICS UIP_CONF_STATISTICS #endif /* UIP_CONF_STATISTICS */ /** * Determines if logging of certain events should be compiled in. * * This is useful mostly for debugging. The function uip_log() * must be implemented to suit the architecture of the project, if * logging is turned on. * * \hideinitializer */ #ifndef UIP_CONF_LOGGING #define UIP_LOGGING 0 #else /* UIP_CONF_LOGGING */ #define UIP_LOGGING UIP_CONF_LOGGING #endif /* UIP_CONF_LOGGING */ /** * Broadcast support. * * This flag configures IP broadcast support. This is useful only * together with UDP. * * \hideinitializer * */ #ifndef UIP_CONF_BROADCAST #define UIP_BROADCAST 0 #else /* UIP_CONF_BROADCAST */ #define UIP_BROADCAST UIP_CONF_BROADCAST #endif /* UIP_CONF_BROADCAST */ /** * Print out a uIP log message. * * This function must be implemented by the module that uses uIP, and * is called by uIP whenever a log message is generated. */ void uip_log(char *msg); /** * The link level header length. * * This is the offset into the uip_buf where the IP header can be * found. For Ethernet, this should be set to 14. For SLIP, this * should be set to 0. * * \hideinitializer */ #ifdef UIP_CONF_LLH_LEN #define UIP_LLH_LEN UIP_CONF_LLH_LEN #else /* UIP_CONF_LLH_LEN */ #define UIP_LLH_LEN 14 #endif /* UIP_CONF_LLH_LEN */ #if 0 /** @} */ /*------------------------------------------------------------------------------*/ /** * \name CPU architecture configuration * @{ * * The CPU architecture configuration is where the endianess of the * CPU on which uIP is to be run is specified. Most CPUs today are * little endian, and the most notable exception are the Motorolas * which are big endian. The BYTE_ORDER macro should be changed to * reflect the CPU architecture on which uIP is to be run. */ /** * The byte order of the CPU architecture on which uIP is to be run. * * This option can be either BIG_ENDIAN (Motorola byte order) or * LITTLE_ENDIAN (Intel byte order). * * \hideinitializer */ #ifdef UIP_CONF_BYTE_ORDER #define UIP_BYTE_ORDER UIP_CONF_BYTE_ORDER #else /* UIP_CONF_BYTE_ORDER */ #define UIP_BYTE_ORDER UIP_LITTLE_ENDIAN #endif /* UIP_CONF_BYTE_ORDER */ #endif /** @} */ /*------------------------------------------------------------------------------*/ /** * \name Appication specific configurations * @{ * * An uIP application is implemented using a single application * function that is called by uIP whenever a TCP/IP event occurs. The * name of this function must be registered with uIP at compile time * using the UIP_APPCALL definition. * * uIP applications can store the application state within the * uip_conn structure by specifying the type of the application * structure by typedef:ing the type uip_tcp_appstate_t and uip_udp_appstate_t. * * The file containing the definitions must be included in the * uipopt.h file. * * The following example illustrates how this can look. \code void httpd_appcall(void); #define UIP_APPCALL httpd_appcall struct httpd_state { u8_t state; u16_t count; char *dataptr; char *script; }; typedef struct httpd_state uip_tcp_appstate_t \endcode */ /** * \var #define UIP_APPCALL * * The name of the application function that uIP should call in * response to TCP/IP events. * */ /** * \var typedef uip_tcp_appstate_t * * The type of the application state that is to be stored in the * uip_conn structure. This usually is typedef:ed to a struct holding * application state information. */ /** * \var typedef uip_udp_appstate_t * * The type of the application state that is to be stored in the * uip_conn structure. This usually is typedef:ed to a struct holding * application state information. */ /** @} */ /** @} */ #endif /* __UIPOPT_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/000077500000000000000000000000001277325716400173645ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/src/unix/.gitignore000066400000000000000000000000321277325716400213470ustar00rootroot00000000000000build_date.c build_date.h open-iscsi-2.0.874/iscsiuio/src/unix/Makefile.am000066400000000000000000000015701277325716400214230ustar00rootroot00000000000000SUBDIRS= libs AM_CFLAGS = -I${top_srcdir}/src/uip \ -I${top_srcdir}/src/apps/brcm-iscsi \ -I${top_srcdir}/src/apps/dhcpc \ -I${top_srcdir}/src/unix/libs \ -I${top_srcdir}/../include \ -I${top_srcdir}/../usr sbin_PROGRAMS = iscsiuio iscsiuio_SOURCES = build_date.c \ main.c \ clock-arch.c \ logger.c \ nic.c \ nic_id.c \ nic_vlan.c \ nic_nl.c \ nic_utils.c \ packet.c \ iscsid_ipc.c \ ping.c iscsiuio_CFLAGS = $(AM_CFLAGS) \ $(LIBNL_CFLAGS) \ -DBYTE_ORDER=@ENDIAN@ iscsiuio_LDFLAGS= $(AM_LDADD) \ -ldl \ -rdynamic \ $(LIBNL_LIBS) \ -lpthread iscsiuio_LDADD = ${top_srcdir}/src/uip/lib_iscsi_uip.a \ ${top_srcdir}/src/apps/dhcpc/lib_apps_dhcpc.a\ ${top_srcdir}/src/apps/brcm-iscsi/lib_apps_brcm_iscsi.a \ ${top_srcdir}/src/unix/libs/lib_iscsiuio_hw_cnic.a iscsiuio_YFLAGS = -d open-iscsi-2.0.874/iscsiuio/src/unix/clock-arch.c000066400000000000000000000041241277325716400215370ustar00rootroot00000000000000/* * Copyright (c) 2006, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * */ /** * \file * Implementation of architecture-specific clock functionality * \author * Adam Dunkels */ #include "clock-arch.h" #include /*---------------------------------------------------------------------------*/ clock_time_t clock_time(void) { struct timeval tv; struct timezone tz; gettimeofday(&tv, &tz); return tv.tv_sec * 1000 + tv.tv_usec / 1000; } /*---------------------------------------------------------------------------*/ open-iscsi-2.0.874/iscsiuio/src/unix/clock-arch.h000066400000000000000000000033601277325716400215450ustar00rootroot00000000000000/* * Copyright (c) 2006, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * */ #ifndef __CLOCK_ARCH_H__ #define __CLOCK_ARCH_H__ typedef int clock_time_t; #define CLOCK_CONF_SECOND 1000 #endif /* __CLOCK_ARCH_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/iscsid_ipc.c000066400000000000000000000774641277325716400216630ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * iscsi_ipc.c - Generic NIC management/utility functions * */ #include #include #include #include #include #include #include #include #include #include #define PFX "iscsi_ipc " /* TODO fix me */ #define IFNAMSIZ 15 #include "nic.h" #include "nic_utils.h" #include "nic_vlan.h" #include "options.h" #include "mgmt_ipc.h" #include "iscsid_ipc.h" #include "uip.h" #include "uip_mgmt_ipc.h" #include "logger.h" #include "uip.h" #include "ping.h" /* private iscsid options stucture */ struct iscsid_options { int fd; pthread_t thread; }; struct iface_rec_decode { /* General */ int32_t iface_num; uint32_t ip_type; /* IPv4 */ struct in_addr ipv4_addr; struct in_addr ipv4_subnet_mask; struct in_addr ipv4_gateway; /* IPv6 */ struct in6_addr ipv6_addr; struct in6_addr ipv6_subnet_mask; uint32_t prefix_len; struct in6_addr ipv6_linklocal; struct in6_addr ipv6_router; uint8_t ipv6_autocfg; uint8_t linklocal_autocfg; uint8_t router_autocfg; uint8_t vlan_state; uint8_t vlan_priority; uint16_t vlan_id; #define MIN_MTU_SUPPORT 46 #define MAX_MTU_SUPPORT 9000 uint16_t mtu; }; /****************************************************************************** * iscsid_ipc Constants *****************************************************************************/ static const char uio_udev_path_template[] = "/dev/uio%d"; /****************************************************************************** * Globals *****************************************************************************/ static struct iscsid_options iscsid_opts = { .fd = INVALID_FD, .thread = INVALID_THREAD, }; /****************************************************************************** * iscsid Functions *****************************************************************************/ static void *enable_nic_thread(void *data) { nic_t *nic = (nic_t *) data; prepare_nic_thread(nic); LOG_INFO(PFX "%s: started NIC enable thread state: 0x%x", nic->log_name, nic->state) /* Enable the NIC */ nic_enable(nic); nic->enable_thread = INVALID_THREAD; pthread_exit(NULL); } static int decode_cidr(char *in_ipaddr_str, struct iface_rec_decode *ird) { int rc = 0, i; char *tmp, *tok; char ipaddr_str[NI_MAXHOST]; char str[INET6_ADDRSTRLEN]; int keepbits = 0; struct in_addr ia; struct in6_addr ia6; if (strlen(in_ipaddr_str) > NI_MAXHOST) strncpy(ipaddr_str, in_ipaddr_str, NI_MAXHOST); else strcpy(ipaddr_str, in_ipaddr_str); /* Find the CIDR if any */ tmp = strchr(ipaddr_str, '/'); if (tmp) { /* CIDR found, now decode, tmpbuf = ip, tmp = netmask */ tmp = ipaddr_str; tok = strsep(&tmp, "/"); LOG_INFO(PFX "in cidr: bitmask '%s' ip '%s'", tmp, tok); keepbits = atoi(tmp); strcpy(ipaddr_str, tok); } /* Determine if the IP address passed from the iface file is * an IPv4 or IPv6 address */ rc = inet_pton(AF_INET, ipaddr_str, &ird->ipv6_addr); if (rc == 0) { /* Test to determine if the addres is an IPv6 address */ rc = inet_pton(AF_INET6, ipaddr_str, &ird->ipv6_addr); if (rc == 0) { LOG_ERR(PFX "Could not parse IP address: '%s'", ipaddr_str); goto out; } ird->ip_type = AF_INET6; if (keepbits > 128) { LOG_ERR(PFX "CIDR netmask > 128 for IPv6: %d(%s)", keepbits, tmp); goto out; } if (!keepbits) { /* Default prefix mask to 64 */ memcpy(&ird->ipv6_subnet_mask.s6_addr, all_zeroes_addr6, sizeof(struct in6_addr)); ird->prefix_len = 64; for (i = 0; i < 2; i++) ird->ipv6_subnet_mask.s6_addr32[i] = 0xffffffff; goto out; } ird->prefix_len = keepbits; memcpy(&ia6.s6_addr, all_zeroes_addr6, sizeof(struct in6_addr)); for (i = 0; i < 4; i++) { if (keepbits < 32) { ia6.s6_addr32[i] = keepbits > 0 ? 0x00 - (1 << (32 - keepbits)) : 0; ia6.s6_addr32[i] = htonl(ia6.s6_addr32[i]); break; } else ia6.s6_addr32[i] = 0xFFFFFFFF; keepbits -= 32; } ird->ipv6_subnet_mask = ia6; if (inet_ntop(AF_INET6, &ia6, str, sizeof(str))) LOG_INFO(PFX "Using netmask: %s", str); } else { ird->ip_type = AF_INET; rc = inet_pton(AF_INET, ipaddr_str, &ird->ipv4_addr); if (keepbits > 32) { LOG_ERR(PFX "CIDR netmask > 32 for IPv4: %d(%s)", keepbits, tmp); goto out; } ia.s_addr = keepbits > 0 ? 0x00 - (1 << (32 - keepbits)) : 0; ird->ipv4_subnet_mask.s_addr = htonl(ia.s_addr); LOG_INFO(PFX "Using netmask: %s", inet_ntoa(ird->ipv4_subnet_mask)); } out: return rc; } static int decode_iface(struct iface_rec_decode *ird, struct iface_rec *rec) { int rc = 0; char ipaddr_str[NI_MAXHOST]; /* Decodes the rec contents */ memset(ird, 0, sizeof(struct iface_rec_decode)); /* Detect for CIDR notation and strip off the netmask if present */ rc = decode_cidr(rec->ipaddress, ird); if (rc && !ird->ip_type) { LOG_ERR(PFX "cidr decode err: rc=%d, ip_type=%d", rc, ird->ip_type); /* Can't decode address, just exit */ return rc; } rc = 0; ird->iface_num = rec->iface_num; ird->vlan_id = rec->vlan_id; if (rec->iface_num != IFACE_NUM_INVALID) { ird->mtu = rec->mtu; if (rec->vlan_id && strcmp(rec->vlan_state, "disable")) { ird->vlan_state = 1; ird->vlan_priority = rec->vlan_priority; ird->vlan_id = rec->vlan_id; } if (ird->ip_type == AF_INET6) { if (!strcmp(rec->ipv6_autocfg, "dhcpv6")) ird->ipv6_autocfg = IPV6_AUTOCFG_DHCPV6; else if (!strcmp(rec->ipv6_autocfg, "nd")) ird->ipv6_autocfg = IPV6_AUTOCFG_ND; else ird->ipv6_autocfg = IPV6_AUTOCFG_NOTSPEC; if (!strcmp(rec->linklocal_autocfg, "auto")) ird->linklocal_autocfg = IPV6_LL_AUTOCFG_ON; else if (!strcmp(rec->linklocal_autocfg, "off")) ird->linklocal_autocfg = IPV6_LL_AUTOCFG_OFF; else /* default */ ird->linklocal_autocfg = IPV6_LL_AUTOCFG_ON; if (!strcmp(rec->router_autocfg, "auto")) ird->router_autocfg = IPV6_RTR_AUTOCFG_ON; else if (!strcmp(rec->router_autocfg, "off")) ird->router_autocfg = IPV6_RTR_AUTOCFG_OFF; else /* default */ ird->router_autocfg = IPV6_RTR_AUTOCFG_ON; /* Decode the addresses based on the control flags */ /* For DHCP, ignore the IPv6 addr in the iface */ if (ird->ipv6_autocfg == IPV6_AUTOCFG_DHCPV6) memcpy(&ird->ipv6_addr, all_zeroes_addr6, sizeof(struct in6_addr)); /* Subnet mask priority: CIDR, then rec */ if (!ird->ipv6_subnet_mask.s6_addr) inet_pton(AF_INET6, rec->subnet_mask, &ird->ipv6_subnet_mask); /* For LL on, ignore the IPv6 addr in the iface */ if (ird->linklocal_autocfg == IPV6_LL_AUTOCFG_OFF) { if (strlen(rec->ipv6_linklocal) > NI_MAXHOST) strncpy(ipaddr_str, rec->ipv6_linklocal, NI_MAXHOST); else strcpy(ipaddr_str, rec->ipv6_linklocal); inet_pton(AF_INET6, ipaddr_str, &ird->ipv6_linklocal); } /* For RTR on, ignore the IPv6 addr in the iface */ if (ird->router_autocfg == IPV6_RTR_AUTOCFG_OFF) { if (strlen(rec->ipv6_router) > NI_MAXHOST) strncpy(ipaddr_str, rec->ipv6_router, NI_MAXHOST); else strcpy(ipaddr_str, rec->ipv6_router); inet_pton(AF_INET6, ipaddr_str, &ird->ipv6_router); } } else { /* Subnet mask priority: CIDR, rec, default */ if (!ird->ipv4_subnet_mask.s_addr) inet_pton(AF_INET, rec->subnet_mask, &ird->ipv4_subnet_mask); if (!ird->ipv4_subnet_mask.s_addr) ird->ipv4_subnet_mask.s_addr = calculate_default_netmask( ird->ipv4_addr.s_addr); if (strlen(rec->gateway) > NI_MAXHOST) strncpy(ipaddr_str, rec->gateway, NI_MAXHOST); else strcpy(ipaddr_str, rec->gateway); inet_pton(AF_INET, ipaddr_str, &ird->ipv4_gateway); } } else { ird->ipv6_autocfg = IPV6_AUTOCFG_NOTUSED; ird->linklocal_autocfg = IPV6_LL_AUTOCFG_NOTUSED; ird->router_autocfg = IPV6_RTR_AUTOCFG_NOTUSED; } return rc; } static void *perform_ping(void *arg) { struct ping_conf *png_c = (struct ping_conf *)arg; nic_interface_t *nic_iface = png_c->nic_iface; nic_t *nic = nic_iface->parent; iscsid_uip_broadcast_t *data; struct sockaddr_in *addr; struct sockaddr_in6 *addr6; uip_ip6addr_t dst_addr; int rc = 0; int datalen; struct timespec ts = {.tv_sec = 5, .tv_nsec = 0}; data = (iscsid_uip_broadcast_t *)png_c->data; datalen = data->u.ping_rec.datalen; memset(dst_addr, 0, sizeof(uip_ip6addr_t)); if (nic_iface->protocol == AF_INET) { /* IPv4 */ addr = (struct sockaddr_in *)&data->u.ping_rec.ipaddr; memcpy(dst_addr, &addr->sin_addr.s_addr, sizeof(uip_ip4addr_t)); } else { /* IPv6 */ addr6 = (struct sockaddr_in6 *)&data->u.ping_rec.ipaddr; memcpy(dst_addr, &addr6->sin6_addr.s6_addr, sizeof(uip_ip6addr_t)); } /* Ensure that the NIC is RUNNING */ if ((nic->state != NIC_RUNNING) || !(nic->flags & NIC_ENABLED)) { pthread_mutex_lock(&nic->nic_mutex); rc = pthread_cond_timedwait(&nic->enable_done_cond, &nic->nic_mutex, &ts); if ((rc == 0) && (nic->state == NIC_RUNNING)) { LOG_DEBUG(PFX "%s: nic running", nic->log_name); } else if (rc) { LOG_DEBUG(PFX "%s: err %d", nic->log_name, rc); rc = -EAGAIN; } pthread_mutex_unlock(&nic->nic_mutex); } if (rc || nic->state != NIC_RUNNING) { png_c->state = rc; goto ping_done; } ping_init(png_c, dst_addr, nic_iface->protocol, datalen); rc = do_ping_from_nic_iface(png_c); if (png_c->state == -1) png_c->state = rc; ping_done: LOG_INFO(PFX "ping thread end"); nic->ping_thread = INVALID_THREAD; pthread_exit(NULL); } static int parse_iface(void *arg, int do_ping) { int rc, i; nic_t *nic = NULL; nic_interface_t *nic_iface; char *transport_name; size_t transport_name_size; nic_lib_handle_t *handle; iscsid_uip_broadcast_t *data; char ipv6_buf_str[INET6_ADDRSTRLEN]; int request_type = 0; struct iface_rec *rec; struct iface_rec_decode ird; struct in_addr src_match, dst_match; pthread_attr_t attr; struct ping_conf *png_c; data = (iscsid_uip_broadcast_t *) arg; if (do_ping) rec = &data->u.ping_rec.ifrec; else rec = &data->u.iface_rec.rec; LOG_INFO(PFX "Received request for '%s' to set IP address: '%s' " "VLAN: '%d'", rec->netdev, rec->ipaddress, rec->vlan_id); rc = decode_iface(&ird, rec); if (ird.vlan_id && valid_vlan(ird.vlan_id) == 0) { LOG_ERR(PFX "Invalid VLAN tag: %d", ird.vlan_id); rc = -EIO; goto early_exit; } if (rc && !ird.ip_type) { LOG_ERR(PFX "iface err: rc=%d, ip_type=%d", rc, ird.ip_type); goto early_exit; } for (i = 0; i < 10; i++) { struct timespec sleep_req, sleep_rem; if (pthread_mutex_trylock(&nic_list_mutex) == 0) break; sleep_req.tv_sec = 0; sleep_req.tv_nsec = 100000; nanosleep(&sleep_req, &sleep_rem); } if (i >= 10) { LOG_WARN(PFX "Could not acquire nic_list_mutex lock"); rc = -EIO; goto early_exit; } /* nic_list_mutex locked */ /* Check if we can find the NIC device using the netdev * name */ rc = from_netdev_name_find_nic(rec->netdev, &nic); if (rc != 0) { LOG_WARN(PFX "Couldn't find NIC: %s, creating an instance", rec->netdev); nic = nic_init(); if (nic == NULL) { LOG_ERR(PFX "Couldn't allocate space for NIC %s", rec->netdev); rc = -ENOMEM; goto done; } strncpy(nic->eth_device_name, rec->netdev, sizeof(nic->eth_device_name)); nic->config_device_name = nic->eth_device_name; nic->log_name = nic->eth_device_name; if (nic_fill_name(nic) != 0) { free(nic); rc = -EIO; goto done; } nic_add(nic); } else { LOG_INFO(PFX " %s, using existing NIC", rec->netdev); } pthread_mutex_lock(&nic->nic_mutex); if (nic->flags & NIC_GOING_DOWN) { pthread_mutex_unlock(&nic->nic_mutex); rc = -EIO; LOG_INFO(PFX "nic->flags GOING DOWN"); goto done; } /* If we retry too many times allow iscsid to timeout */ if (nic->pending_count > 1000) { nic->pending_count = 0; nic->flags &= ~NIC_ENABLED_PENDING; pthread_mutex_unlock(&nic->nic_mutex); LOG_WARN(PFX "%s: pending count exceeded 1000", nic->log_name); rc = 0; goto done; } if (nic->flags & NIC_ENABLED_PENDING) { struct timespec sleep_req, sleep_rem; nic->pending_count++; pthread_mutex_unlock(&nic->nic_mutex); sleep_req.tv_sec = 2; sleep_req.tv_nsec = 0; nanosleep(&sleep_req, &sleep_rem); pthread_mutex_lock(&nic->nic_mutex); if (!(nic->flags & NIC_ENABLED) || nic->state != NIC_RUNNING) { pthread_mutex_unlock(&nic->nic_mutex); LOG_INFO(PFX "%s: enabled pending", nic->log_name); rc = -EAGAIN; goto done; } } pthread_mutex_unlock(&nic->nic_mutex); prepare_library(nic); /* Sanity Check to ensure the transport names are the same */ handle = nic->nic_library; if (handle != NULL) { (*handle->ops->lib_ops.get_transport_name) (&transport_name, &transport_name_size); if (strncmp(transport_name, rec->transport_name, transport_name_size) != 0) { LOG_ERR(PFX "%s Transport name is not equal " "expected: %s got: %s", nic->log_name, rec->transport_name, transport_name); } } else { LOG_ERR(PFX "%s Couldn't find nic library ", nic->log_name); rc = -EIO; goto done; } LOG_INFO(PFX "%s library set using transport_name %s", nic->log_name, transport_name); /* Determine how to configure the IP address */ if (ird.ip_type == AF_INET) { if (memcmp(&ird.ipv4_addr, all_zeroes_addr4, sizeof(uip_ip4addr_t)) == 0) { LOG_INFO(PFX "%s: requesting configuration using DHCP", nic->log_name); request_type = IPV4_CONFIG_DHCP; } else { LOG_INFO(PFX "%s: requesting configuration using " "static IP address", nic->log_name); request_type = IPV4_CONFIG_STATIC; } } else if (ird.ip_type == AF_INET6) { /* For the new 872_22, check ipv6_autocfg for DHCPv6 instead */ switch (ird.ipv6_autocfg) { case IPV6_AUTOCFG_DHCPV6: request_type = IPV6_CONFIG_DHCP; break; case IPV6_AUTOCFG_ND: request_type = IPV6_CONFIG_STATIC; break; case IPV6_AUTOCFG_NOTSPEC: /* Treat NOTSPEC the same as NOTUSED for now */ case IPV6_AUTOCFG_NOTUSED: /* For 871 */ default: /* Just the IP address to determine */ if (memcmp(&ird.ipv6_addr, all_zeroes_addr6, sizeof(struct in6_addr)) == 0) request_type = IPV6_CONFIG_DHCP; else request_type = IPV6_CONFIG_STATIC; } } else { LOG_ERR(PFX "%s: unknown ip_type to configure: 0x%x", nic->log_name, ird.ip_type); rc = -EIO; goto done; } pthread_mutex_lock(&nic->nic_mutex); nic_iface = nic_find_nic_iface(nic, ird.ip_type, ird.vlan_id, ird.iface_num, request_type); if (nic->flags & NIC_PATHREQ_WAIT) { if (!nic_iface || !(nic_iface->flags & NIC_IFACE_PATHREQ_WAIT)) { int pathreq_wait; if (nic_iface && (nic_iface->flags & NIC_IFACE_PATHREQ_WAIT2)) pathreq_wait = 12; else pathreq_wait = 10; if (nic->pathreq_pending_count < pathreq_wait) { struct timespec sleep_req, sleep_rem; pthread_mutex_unlock(&nic->nic_mutex); nic->pathreq_pending_count++; sleep_req.tv_sec = 0; sleep_req.tv_nsec = 100000; nanosleep(&sleep_req, &sleep_rem); /* Somebody else is waiting for PATH_REQ */ LOG_INFO(PFX "%s: path req pending cnt=%d", nic->log_name, nic->pathreq_pending_count); rc = -EAGAIN; goto done; } else { nic->pathreq_pending_count = 0; LOG_DEBUG(PFX "%s: path req pending cnt " "exceeded!", nic->log_name); /* Allow to fall thru */ } } } nic->flags |= NIC_PATHREQ_WAIT; /* Create the network interface if it doesn't exist */ if (nic_iface == NULL) { LOG_DEBUG(PFX "%s couldn't find interface with " "ip_type: 0x%x creating it", nic->log_name, ird.ip_type); nic_iface = nic_iface_init(); if (nic_iface == NULL) { pthread_mutex_unlock(&nic->nic_mutex); LOG_ERR(PFX "%s Couldn't allocate " "interface with ip_type: 0x%x", nic->log_name, ird.ip_type); goto done; } nic_iface->protocol = ird.ip_type; nic_iface->vlan_id = ird.vlan_id; nic_iface->vlan_priority = ird.vlan_priority; if (ird.mtu >= MIN_MTU_SUPPORT && ird.mtu <= MAX_MTU_SUPPORT) nic_iface->mtu = ird.mtu; nic_iface->iface_num = ird.iface_num; nic_iface->request_type = request_type; nic_add_nic_iface(nic, nic_iface); persist_all_nic_iface(nic); LOG_INFO(PFX "%s: created network interface", nic->log_name); } else { /* Move the nic_iface to the front */ set_nic_iface(nic, nic_iface); LOG_INFO(PFX "%s: using existing network interface", nic->log_name); } nic_iface->flags |= NIC_IFACE_PATHREQ_WAIT1; if (nic->nl_process_thread == INVALID_THREAD) { pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&nic->nl_process_thread, &attr, nl_process_handle_thread, nic); if (rc != 0) { LOG_ERR(PFX "%s: Could not create NIC NL " "processing thread [%s]", nic->log_name, strerror(rc)); nic->nl_process_thread = INVALID_THREAD; /* Reset both WAIT flags */ nic_iface->flags &= ~NIC_IFACE_PATHREQ_WAIT; nic->flags &= ~NIC_PATHREQ_WAIT; } } pthread_mutex_unlock(&nic->nic_mutex); if (nic_iface->ustack.ip_config == request_type) { /* Same request_type, check for STATIC address change */ if (request_type == IPV4_CONFIG_STATIC) { if (memcmp(nic_iface->ustack.hostaddr, &ird.ipv4_addr, sizeof(struct in_addr))) goto reacquire; } else if (request_type == IPV6_CONFIG_STATIC) { if (memcmp(nic_iface->ustack.hostaddr6, &ird.ipv6_addr, sizeof(struct in6_addr))) goto reacquire; else inet_ntop(AF_INET6, &ird.ipv6_addr, ipv6_buf_str, sizeof(ipv6_buf_str)); } LOG_INFO(PFX "%s: IP configuration didn't change using 0x%x", nic->log_name, nic_iface->ustack.ip_config); /* No need to acquire the IP address */ inet_ntop(AF_INET6, &ird.ipv6_addr, ipv6_buf_str, sizeof(ipv6_buf_str)); goto enable_nic; } reacquire: /* Config needs to re-acquire for this nic_iface */ pthread_mutex_lock(&nic->nic_mutex); nic_iface->flags |= NIC_IFACE_ACQUIRE; pthread_mutex_unlock(&nic->nic_mutex); /* Disable the nic loop from further processing, upon returned, the nic_iface should be cleared */ nic_disable(nic, 0); /* Check to see if this is using DHCP or if this is * a static IPv4 address. This is done by checking * if the IP address is equal to 0.0.0.0. If it is * then the user has specified to use DHCP. If not * then the user has spcicied to use a static IP address * an the default netmask will be used */ switch (request_type) { case IPV4_CONFIG_DHCP: memset(nic_iface->ustack.hostaddr, 0, sizeof(struct in_addr)); LOG_INFO(PFX "%s: configuring using DHCP", nic->log_name); nic_iface->ustack.ip_config = IPV4_CONFIG_DHCP; break; case IPV4_CONFIG_STATIC: memcpy(nic_iface->ustack.hostaddr, &ird.ipv4_addr, sizeof(struct in_addr)); LOG_INFO(PFX "%s: configuring using static IP " "IPv4 address :%s ", nic->log_name, inet_ntoa(ird.ipv4_addr)); if (ird.ipv4_subnet_mask.s_addr) memcpy(nic_iface->ustack.netmask, &ird.ipv4_subnet_mask, sizeof(struct in_addr)); LOG_INFO(PFX " netmask: %s", inet_ntoa(ird.ipv4_subnet_mask)); /* Default route */ if (ird.ipv4_gateway.s_addr) { /* Check for validity */ src_match.s_addr = ird.ipv4_addr.s_addr & ird.ipv4_subnet_mask.s_addr; dst_match.s_addr = ird.ipv4_gateway.s_addr & ird.ipv4_subnet_mask.s_addr; if (src_match.s_addr == dst_match.s_addr) memcpy(nic_iface->ustack.default_route_addr, &ird.ipv4_gateway, sizeof(struct in_addr)); } nic_iface->ustack.ip_config = IPV4_CONFIG_STATIC; break; case IPV6_CONFIG_DHCP: memset(nic_iface->ustack.hostaddr6, 0, sizeof(struct in6_addr)); nic_iface->ustack.prefix_len = ird.prefix_len; nic_iface->ustack.ipv6_autocfg = ird.ipv6_autocfg; nic_iface->ustack.linklocal_autocfg = ird.linklocal_autocfg; nic_iface->ustack.router_autocfg = ird.router_autocfg; if (memcmp(&ird.ipv6_subnet_mask, all_zeroes_addr6, sizeof(struct in6_addr))) memcpy(nic_iface->ustack.netmask6, &ird.ipv6_subnet_mask, sizeof(struct in6_addr)); if (ird.linklocal_autocfg == IPV6_LL_AUTOCFG_OFF) memcpy(nic_iface->ustack.linklocal6, &ird.ipv6_linklocal, sizeof(struct in6_addr)); if (ird.router_autocfg == IPV6_RTR_AUTOCFG_OFF) memcpy(nic_iface->ustack.default_route_addr6, &ird.ipv6_router, sizeof(struct in6_addr)); inet_ntop(AF_INET6, &ird.ipv6_addr, ipv6_buf_str, sizeof(ipv6_buf_str)); LOG_INFO(PFX "%s: configuring using DHCPv6", nic->log_name); nic_iface->ustack.ip_config = IPV6_CONFIG_DHCP; break; case IPV6_CONFIG_STATIC: memcpy(nic_iface->ustack.hostaddr6, &ird.ipv6_addr, sizeof(struct in6_addr)); nic_iface->ustack.prefix_len = ird.prefix_len; nic_iface->ustack.ipv6_autocfg = ird.ipv6_autocfg; nic_iface->ustack.linklocal_autocfg = ird.linklocal_autocfg; nic_iface->ustack.router_autocfg = ird.router_autocfg; if (memcmp(&ird.ipv6_subnet_mask, all_zeroes_addr6, sizeof(struct in6_addr))) memcpy(nic_iface->ustack.netmask6, &ird.ipv6_subnet_mask, sizeof(struct in6_addr)); if (ird.linklocal_autocfg == IPV6_LL_AUTOCFG_OFF) memcpy(nic_iface->ustack.linklocal6, &ird.ipv6_linklocal, sizeof(struct in6_addr)); if (ird.router_autocfg == IPV6_RTR_AUTOCFG_OFF) memcpy(nic_iface->ustack.default_route_addr6, &ird.ipv6_router, sizeof(struct in6_addr)); inet_ntop(AF_INET6, &ird.ipv6_addr, ipv6_buf_str, sizeof(ipv6_buf_str)); LOG_INFO(PFX "%s: configuring using static IP " "IPv6 address: '%s'", nic->log_name, ipv6_buf_str); nic_iface->ustack.ip_config = IPV6_CONFIG_STATIC; break; default: LOG_INFO(PFX "%s: Unknown request type: 0x%x", nic->log_name, request_type); } enable_nic: switch (nic->state) { case NIC_STOPPED: /* This thread will be thrown away when completed */ if (nic->enable_thread != INVALID_THREAD) { rc = pthread_cancel(nic->enable_thread); if (rc != 0) { LOG_INFO(PFX "%s: failed to cancel enable NIC " "thread\n", nic->log_name); goto eagain; } } pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&nic->enable_thread, &attr, enable_nic_thread, (void *)nic); if (rc != 0) LOG_WARN(PFX "%s: failed starting enable NIC thread\n", nic->log_name); eagain: rc = -EAGAIN; break; case NIC_RUNNING: LOG_INFO(PFX "%s: NIC already enabled " "flags: 0x%x state: 0x%x\n", nic->log_name, nic->flags, nic->state); rc = 0; break; default: LOG_INFO(PFX "%s: NIC enable still in progress " "flags: 0x%x state: 0x%x\n", nic->log_name, nic->flags, nic->state); rc = -EAGAIN; } LOG_INFO(PFX "ISCSID_UIP_IPC_GET_IFACE: command: %x " "name: %s, netdev: %s ipaddr: %s vlan: %d transport_name:%s", data->header.command, rec->name, rec->netdev, (ird.ip_type == AF_INET) ? inet_ntoa(ird.ipv4_addr) : ipv6_buf_str, ird.vlan_id, rec->transport_name); if (do_ping) { if (nic->ping_thread != INVALID_THREAD) { rc = pthread_cancel(nic->ping_thread); if (rc != 0) { LOG_INFO(PFX "%s: failed to cancel ping thread", nic->log_name); rc = -EAGAIN; goto done; } } png_c = malloc(sizeof(struct ping_conf)); if (!png_c) { LOG_ERR(PFX "Memory alloc failed for ping conf"); rc = -ENOMEM; goto done; } memset(png_c, 0, sizeof(struct ping_conf)); png_c->nic_iface = nic_iface; png_c->data = arg; nic_iface->ustack.ping_conf = png_c; /* Spawn a thread to perform ping operation. * This thread will exit when done. */ rc = pthread_create(&nic->ping_thread, NULL, perform_ping, (void *)png_c); if (rc != 0) { LOG_WARN(PFX "%s: failed starting ping thread\n", nic->log_name); } else { pthread_join(nic->ping_thread, NULL); rc = png_c->state; if (rc == -EAGAIN) png_c->state = 0; } free(png_c); nic_iface->ustack.ping_conf = NULL; } done: pthread_mutex_unlock(&nic_list_mutex); early_exit: return rc; } /** * process_iscsid_broadcast() - This function is used to process the * broadcast messages from iscsid */ int process_iscsid_broadcast(int s2) { int rc = 0; iscsid_uip_broadcast_t *data; iscsid_uip_rsp_t rsp; FILE *fd; size_t size; iscsid_uip_cmd_e cmd; uint32_t payload_len; fd = fdopen(s2, "r+"); if (fd == NULL) { LOG_ERR(PFX "Couldn't open file descriptor: %d(%s)", errno, strerror(errno)); return -EIO; } /* This will be freed by parse_iface_thread() */ data = (iscsid_uip_broadcast_t *) calloc(1, sizeof(*data)); if (data == NULL) { LOG_ERR(PFX "Couldn't allocate memory for iface data"); rc = -ENOMEM; goto error; } memset(data, 0, sizeof(*data)); size = fread(data, sizeof(iscsid_uip_broadcast_header_t), 1, fd); if (!size) { LOG_ERR(PFX "Could not read request: %d(%s)", errno, strerror(errno)); rc = ferror(fd); goto error; } cmd = data->header.command; payload_len = data->header.payload_len; LOG_DEBUG(PFX "recv iscsid request: cmd: %d, payload_len: %d", cmd, payload_len); switch (cmd) { case ISCSID_UIP_IPC_GET_IFACE: size = fread(&data->u.iface_rec, payload_len, 1, fd); if (!size) { LOG_ERR(PFX "Could not read data: %d(%s)", errno, strerror(errno)); goto error; } rc = parse_iface(data, 0); switch (rc) { case 0: rsp.command = cmd; rsp.err = ISCSID_UIP_MGMT_IPC_DEVICE_UP; break; case -EAGAIN: rsp.command = cmd; rsp.err = ISCSID_UIP_MGMT_IPC_DEVICE_INITIALIZING; break; default: rsp.command = cmd; rsp.err = ISCSID_UIP_MGMT_IPC_ERR; } break; case ISCSID_UIP_IPC_PING: size = fread(&data->u.ping_rec, payload_len, 1, fd); if (!size) { LOG_ERR(PFX "Could not read data: %d(%s)", errno, strerror(errno)); goto error; } rc = parse_iface(data, 1); rsp.command = cmd; rsp.ping_sc = rc; switch (rc) { case 0: rsp.err = ISCSID_UIP_MGMT_IPC_DEVICE_UP; break; case -EAGAIN: rsp.err = ISCSID_UIP_MGMT_IPC_DEVICE_INITIALIZING; break; default: rsp.err = ISCSID_UIP_MGMT_IPC_ERR; } break; default: LOG_WARN(PFX "Unknown iscsid broadcast command: %x", data->header.command); /* Send a response back to iscsid to tell it the operation succeeded */ rsp.command = cmd; rsp.err = ISCSID_UIP_MGMT_IPC_OK; break; } size = fwrite(&rsp, sizeof(rsp), 1, fd); if (size == -1) { LOG_ERR(PFX "Could not send response: %d(%s)", errno, strerror(errno)); rc = ferror(fd); } error: free(data); fclose(fd); return rc; } static void iscsid_loop_close(void *arg) { close(iscsid_opts.fd); LOG_INFO(PFX "iSCSI daemon socket closed"); } /** * iscsid_loop() - This is the function which will process the broadcast * messages from iscsid * */ static void *iscsid_loop(void *arg) { int rc; sigset_t set; pthread_cleanup_push(iscsid_loop_close, arg); sigfillset(&set); rc = pthread_sigmask(SIG_BLOCK, &set, NULL); if (rc != 0) { LOG_ERR(PFX "Couldn't set signal mask for the iscisd listening " "thread"); } LOG_DEBUG(PFX "Started iscsid listening thread"); while (1) { struct sockaddr_un remote; socklen_t sock_len; int s2; LOG_DEBUG(PFX "Waiting for iscsid command"); sock_len = sizeof(remote); s2 = accept(iscsid_opts.fd, (struct sockaddr *)&remote, &sock_len); if (s2 == -1) { if (errno == EAGAIN) { LOG_DEBUG("Got EAGAIN from accept"); sleep(1); continue; } else if (errno == EINTR) { LOG_DEBUG("Got EINTR from accept"); /* The program is terminating, time to exit */ break; } LOG_ERR(PFX "Could not accept: %d(%s)", s2, strerror(errno)); continue; } process_iscsid_broadcast(s2); close(s2); } pthread_cleanup_pop(0); LOG_ERR(PFX "exit iscsid listening thread"); pthread_exit(NULL); } #define SD_SOCKET_FDS_START 3 static int ipc_systemd(void) { char *env; env = getenv("LISTEN_PID"); if (!env || (strtoul(env, NULL, 10) != getpid())) return -EINVAL; env = getenv("LISTEN_FDS"); if (!env) return -EINVAL; if (strtoul(env, NULL, 10) != 1) { LOG_ERR("Did not receive exactly one IPC socket from systemd"); return -EINVAL; } return SD_SOCKET_FDS_START; } /****************************************************************************** * Initialize/Cleanup routines ******************************************************************************/ /** * iscsid_init() - This function will setup the thread used to listen for * the iscsid broadcast messages * @return 0 on success, <0 on failure */ int iscsid_init() { int rc, addr_len; struct sockaddr_un addr; iscsid_opts.fd = ipc_systemd(); if (iscsid_opts.fd >= 0) return 0; iscsid_opts.fd = socket(AF_LOCAL, SOCK_STREAM, 0); if (iscsid_opts.fd < 0) { LOG_ERR(PFX "Can not create IPC socket"); return iscsid_opts.fd; } addr_len = offsetof(struct sockaddr_un, sun_path) + strlen(ISCSID_UIP_NAMESPACE) + 1; memset(&addr, 0, sizeof(addr)); addr.sun_family = AF_LOCAL; memcpy((char *)&addr.sun_path + 1, ISCSID_UIP_NAMESPACE, strlen(ISCSID_UIP_NAMESPACE)); rc = bind(iscsid_opts.fd, (struct sockaddr *)&addr, addr_len); if (rc < 0) { LOG_ERR(PFX "Can not bind IPC socket: %s", strerror(errno)); goto error; } rc = listen(iscsid_opts.fd, 32); if (rc < 0) { LOG_ERR(PFX "Can not listen IPC socket: %s", strerror(errno)); goto error; } return 0; error: close(iscsid_opts.fd); iscsid_opts.fd = INVALID_FD; return rc; } /** * iscsid_start() - This function will start the thread used to listen for * the iscsid broadcast messages * @return 0 on success, <0 on failure */ int iscsid_start() { pthread_attr_t attr; int rc; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&iscsid_opts.thread, &attr, iscsid_loop, NULL); if (rc != 0) { LOG_ERR(PFX "Could not start iscsid listening thread rc=%d", rc); goto error; } return 0; error: close(iscsid_opts.fd); iscsid_opts.fd = INVALID_FD; return rc; } /** * iscsid_cleanup() - This is called when stoping the thread listening * for the iscsid broadcast messages */ void iscsid_cleanup() { int rc; if (iscsid_opts.fd != INVALID_FD) { rc = pthread_cancel(iscsid_opts.thread); if (rc != 0) { LOG_ERR("Could not cancel iscsid listening thread: %s", strerror(rc)); } } LOG_INFO(PFX "iscsid listening thread has shutdown"); } open-iscsi-2.0.874/iscsiuio/src/unix/iscsid_ipc.h000066400000000000000000000041201277325716400216430ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * iscsid_ipc.h: Generic NIC management/utility functions * */ #ifndef __ISCSID_IPC_H__ #define __ISCSID_IPC_H__ #include "uip.h" #include "mgmt_ipc.h" enum mgmt_ipc_err iscsid_connect(int *fd); int iscsid_get_ipaddr(int fd, uip_ip4addr_t *ipaddr); int iscsid_init(); int iscsid_start(); void iscsid_cleanup(); #endif /* __ISCSID_IPC_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/libs/000077500000000000000000000000001277325716400203155ustar00rootroot00000000000000open-iscsi-2.0.874/iscsiuio/src/unix/libs/Makefile.am000066400000000000000000000005551277325716400223560ustar00rootroot00000000000000AM_CFLAGS = -I${top_srcdir}/src/uip \ -I${top_srcdir}/src/unix \ -I${top_srcdir}/src/unix/libs \ -I${top_srcdir}/src/apps/dhcpc \ -I${top_srcdir}/../include \ -I${top_srcdir}/../usr noinst_LIBRARIES = lib_iscsiuio_hw_cnic.a lib_iscsiuio_hw_cnic_a_SOURCES = ../build_date.c \ cnic.c \ bnx2.c \ bnx2x.c open-iscsi-2.0.874/iscsiuio/src/unix/libs/bnx2.c000066400000000000000000001026601277325716400213370ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * bnx2.c - bnx2 user space driver * */ #include #include #include #include #include #include #include #include #include #include #include "config.h" #include "build_date.h" #include "bnx2.h" #include "cnic.h" #include "logger.h" #include "nic.h" #include "nic_utils.h" #include "options.h" #define PFX "bnx2 " /* Foward struct declarations */ struct nic_ops bnx2_op; /******************************************************************************* * NIC Library Strings ******************************************************************************/ static const char library_name[] = "bnx2"; static const char library_version[] = PACKAGE_VERSION; static const char library_uio_name[] = "bnx2_cnic"; /* The name that should be returned from /sys/class/uio/uio0/name */ static const char cnic_uio_sysfs_name_tempate[] = "/sys/class/uio/uio%i/name"; static const char cnic_uio_sysfs_name[] = "bnx2_cnic"; /******************************************************************************* * String constants used to display human readable adapter name ******************************************************************************/ static const char brcm_5706C[] = "QLogic NetXtreme II BCM5706 1000Base-T"; static const char hp_NC370T[] = "HP NC370T Multifunction Gigabit Server Adapter"; static const char hp_NC370I[] = "HP NC370i Multifunction Gigabit Server Adapter"; static const char brcm_5706S[] = "QLogic NetXtreme II BCM5706 1000Base-SX"; static const char hp_NC370F[] = "HP NC370F Multifunction Gigabit Server Adapter"; static const char brcm_5708C[] = "QLogic NetXtreme II BCM5708 1000Base-T"; static const char brcm_5708S[] = "QLogic NetXtreme II BCM5708 1000Base-SX"; static const char brcm_5709C[] = "QLogic NetXtreme II BCM5709 1000Base-T"; static const char brcm_5709S[] = "QLogic NetXtreme II BCM5709 1000Base-SX"; static const char brcm_5716C[] = "QLogic NetXtreme II BCM5716 1000Base-T"; static const char brcm_5716S[] = "QLogic NetXtreme II BCM5716 1000Base-SX"; /******************************************************************************* * PCI ID constants ******************************************************************************/ #define PCI_VENDOR_ID_BROADCOM 0x14e4 #define PCI_DEVICE_ID_NX2_5709 0x1639 #define PCI_DEVICE_ID_NX2_5709S 0x163a #define PCI_DEVICE_ID_NX2_5706 0x164a #define PCI_DEVICE_ID_NX2_5708 0x164c #define PCI_DEVICE_ID_NX2_5706S 0x16aa #define PCI_DEVICE_ID_NX2_5708S 0x16ac #define PCI_VENDOR_ID_HP 0x103c #define PCI_ANY_ID (~0) /* This is the table used to match PCI vendor and device ID's to the * human readable string names of the devices */ static const struct pci_device_id bnx2_pci_tbl[] = { {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5706, PCI_VENDOR_ID_HP, 0x3101, hp_NC370T}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5706, PCI_VENDOR_ID_HP, 0x3106, hp_NC370I}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5706, PCI_ANY_ID, PCI_ANY_ID, brcm_5706S}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5708, PCI_ANY_ID, PCI_ANY_ID, brcm_5708C}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5706S, PCI_VENDOR_ID_HP, 0x3102, hp_NC370F}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5706S, PCI_ANY_ID, PCI_ANY_ID, brcm_5706S}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5708S, PCI_ANY_ID, PCI_ANY_ID, brcm_5708S}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5709, PCI_ANY_ID, PCI_ANY_ID, brcm_5709C}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_5709S, PCI_ANY_ID, PCI_ANY_ID, brcm_5709S}, {PCI_VENDOR_ID_BROADCOM, 0x163b, PCI_ANY_ID, PCI_ANY_ID, brcm_5716C}, {PCI_VENDOR_ID_BROADCOM, 0x163c, PCI_ANY_ID, PCI_ANY_ID, brcm_5716S}, }; /******************************************************************************* * bnx2 Library Functions ******************************************************************************/ /** * bnx2_get_library_name() - Used to get the name of this NIC libary * @param name - This function will return the pointer to this NIC * library name * @param name_size */ static void bnx2_get_library_name(char **name, size_t *name_size) { *name = (char *)library_name; *name_size = sizeof(library_name); } /** * bnx2_get_library_version() - Used to get the version string of this * NIC libary * @param version - This function will return the pointer to this NIC * library version string * @param version_size - This will be set with the version size */ static void bnx2_get_library_version(char **version, size_t *version_size) { *version = (char *)library_version; *version_size = sizeof(library_version); } /** * bnx2_get_build_date() - Used to get the build date string of this library * @param version - This function will return the pointer to this NIC * library build date string * @param version_size - This will be set with the build date string size */ static void bnx2_get_build_date(char **build, size_t *build_size) { *build = (char *)build_date; *build_size = sizeof(build_date); } /** * bnx2_get_transport_name() - Used to get the transport name associated * with this this NIC libary * @param transport_name - This function will return the pointer to this NIC * library's associated transport string * @param transport_name_size - This will be set with the transport name size */ static void bnx2_get_transport_name(char **transport_name, size_t *transport_name_size) { *transport_name = (char *)bnx2i_library_transport_name; *transport_name_size = bnx2i_library_transport_name_size; } /** * bnx2_get_uio_name() - Used to get the uio name associated with this this * NIC libary * @param uio_name - This function will return the pointer to this NIC * library's associated uio string * @param transport_name_size - This will be set with the uio name size */ static void bnx2_get_uio_name(char **uio_name, size_t *uio_name_size) { *uio_name = (char *)library_uio_name; *uio_name_size = sizeof(library_uio_name); } /** * bnx2_get_pci_table() - Used to get the PCI table for this NIC libary * to determine which NIC's based off of PCI ID's * are supported * @param table - This function will return the pointer to the PCI table * @param entries - This function will return the number of entries in the NIC * library's PCI table */ static void bnx2_get_pci_table(struct pci_device_id **table, uint32_t *entries) { *table = (struct pci_device_id *)bnx2_pci_tbl; *entries = (uint32_t) (sizeof(bnx2_pci_tbl) / sizeof(bnx2_pci_tbl[0])); } /** * bnx2_get_ops() - Used to get the NIC library op table * @param op - The op table of this NIC library */ struct nic_ops *bnx2_get_ops() { return &bnx2_op; } /******************************************************************************* * bnx2 Utility Functions ******************************************************************************/ /******************************************************************************* * Utility Functions Used to read register from the bnx2 device ******************************************************************************/ static void bnx2_wr32(bnx2_t *bp, __u32 off, __u32 val) { *((volatile __u32 *)(bp->reg + off)) = val; } static void bnx2_wr16(bnx2_t *bp, __u32 off, __u16 val) { *((volatile __u16 *)(bp->reg + off)) = val; } static __u32 bnx2_rd32(bnx2_t *bp, __u32 off) { return *((volatile __u32 *)(bp->reg + off)); } static int bnx2_reg_sync(bnx2_t *bp, __u32 off, __u16 length) { return msync(bp->reg + off, length, MS_SYNC); } /** * bnx2_get_chip_id() - Used to retrive the chip ID from the nic * @param dev - Device used to determin NIC type * @return Chip ID read from the MISC ID register */ static int bnx2_get_chip_id(bnx2_t *bp) { return bnx2_rd32(bp, BNX2_MISC_ID); } /** * bnx2_uio_verify() * */ static int bnx2_uio_verify(nic_t *nic) { char *raw = NULL, *raw_tmp; uint32_t raw_size = 0; char temp_path[sizeof(cnic_uio_sysfs_name_tempate) + 8]; int rc = 0; /* Build the path to determine uio name */ snprintf(temp_path, sizeof(temp_path), cnic_uio_sysfs_name_tempate, nic->uio_minor); rc = capture_file(&raw, &raw_size, temp_path); if (rc != 0) goto error; /* sanitize name string by replacing newline with null termination */ raw_tmp = raw; while (*raw_tmp != '\n') raw_tmp++; *raw_tmp = '\0'; if (strncmp(raw, cnic_uio_sysfs_name, sizeof(cnic_uio_sysfs_name)) != 0) { LOG_ERR(PFX "%s: uio names not equal: " "expecting %s got %s from %s", nic->log_name, cnic_uio_sysfs_name, raw, temp_path); rc = -EIO; } free(raw); LOG_INFO(PFX "%s: Verified is a cnic_uio device", nic->log_name); error: return rc; } /******************************************************************************* * bnx2 Utility Functions to get to the hardware consumer indexes ******************************************************************************/ static __u16 bnx2_get_rx_msix(bnx2_t *bp) { struct status_block_msix *sblk = bp->status_blk.msix; __u16 rx_cons; msync(sblk, sizeof(*sblk), MS_SYNC); rx_cons = sblk->status_rx_quick_consumer_index; barrier(); if ((rx_cons & (MAX_RX_DESC_CNT)) == (MAX_RX_DESC_CNT)) rx_cons++; return rx_cons; } static __u16 bnx2_get_rx_msi(bnx2_t *bp) { struct status_block *sblk = bp->status_blk.msi; __u16 rx_cons; msync(sblk, sizeof(*sblk), MS_SYNC); rx_cons = BNX2_SBLK_EVEN_IDX(sblk->rx2); barrier(); if ((rx_cons & (MAX_RX_DESC_CNT)) == (MAX_RX_DESC_CNT)) rx_cons++; return rx_cons; } static __u16 bnx2_get_tx_msix(bnx2_t *bp) { struct status_block_msix *sblk = bp->status_blk.msix; __u16 tx_cons; msync(sblk, sizeof(*sblk), MS_SYNC); tx_cons = sblk->status_tx_quick_consumer_index; barrier(); if ((tx_cons & (MAX_TX_DESC_CNT)) == (MAX_TX_DESC_CNT)) tx_cons++; return tx_cons; } static __u16 bnx2_get_tx_msi(bnx2_t *bp) { struct status_block *sblk = bp->status_blk.msi; __u16 tx_cons; msync(sblk, sizeof(*sblk), MS_SYNC); tx_cons = BNX2_SBLK_EVEN_IDX(sblk->tx2); barrier(); if ((tx_cons & (MAX_TX_DESC_CNT)) == (MAX_TX_DESC_CNT)) tx_cons++; return tx_cons; } typedef enum { CNIC_VLAN_STRIPPING_ENABLED = 1, CNIC_VLAN_STRIPPING_DISABLED = 2, } CNIC_VLAN_STRIPPING_MODE; /** * bnx2_strip_vlan_enabled() - This will query the device to determine whether * VLAN tag stripping is enabled or not * @param dev - device to check stripping or not * @ return CNIC_VLAN_STRIPPING_ENABLED stripping is enabled * CNIC_VLAN_STRIPPING_DISABLED stripping is not enabled */ static CNIC_VLAN_STRIPPING_MODE bnx2_strip_vlan_enabled(bnx2_t *bp) { uint32_t val; val = bnx2_rd32(bp, BNX2_EMAC_RX_MODE); if (val & BNX2_EMAC_RX_MODE_KEEP_VLAN_TAG) return CNIC_VLAN_STRIPPING_DISABLED; else return CNIC_VLAN_STRIPPING_ENABLED; } /** * bnx2_free() - Used to free a bnx2 structure */ static void bnx2_free(nic_t *nic) { if (nic->priv) free(nic->priv); nic->priv = NULL; } /** * bnx2_alloc() - Used to allocate a bnx2 structure */ static bnx2_t *bnx2_alloc(nic_t *nic) { bnx2_t *bp = malloc(sizeof(*bp)); if (bp == NULL) { LOG_ERR(PFX "%s: Could not allocate bnx2 space", nic->log_name); return NULL; } /* Clear out the bnx2 contents */ memset(bp, 0, sizeof(*bp)); bp->bar0_fd = INVALID_FD; bp->flags = BNX2_UIO_TX_HAS_SENT; bp->parent = nic; nic->priv = (void *)bp; return bp; } /** * bnx2_open() - This will initialize all the hardware resources * @param dev - The struct nic device to open * @return 0 on success, on failure a errno will be returned */ static int bnx2_open(nic_t *nic) { bnx2_t *bp; struct stat uio_stat; int i, rc; __u32 val; uint32_t tx_cid; __u32 msix_vector = 0; char sysfs_resc_path[80]; /* Sanity Check: validate the parameters */ if (nic == NULL) { LOG_ERR(PFX "bnx2_open(): nic == NULL"); return -EINVAL; } if ((nic->priv) != NULL && (((bnx2_t *) (nic->priv))->flags & BNX2_OPENED)) { return 0; } bp = bnx2_alloc(nic); if (bp == NULL) { LOG_ERR(PFX "bnx2_open(): Couldn't allocate bp priv struct", nic->log_name); return -ENOMEM; } while (nic->fd < 0) { nic->fd = open(nic->uio_device_name, O_RDWR | O_NONBLOCK); if (nic->fd != INVALID_FD) { LOG_ERR(PFX "%s: uio device has been brought up via pid: " "%d on fd: %d", nic->uio_device_name, getpid(), nic->fd); rc = bnx2_uio_verify(nic); if (rc != 0) continue; break; } else { LOG_WARN(PFX "%s: Could not open device: %s, [%s]", nic->log_name, nic->uio_device_name, strerror(errno)); manually_trigger_uio_event(nic, nic->uio_minor); /* udev might not have created the file yet */ pthread_mutex_unlock(&nic->nic_mutex); sleep(1); pthread_mutex_lock(&nic->nic_mutex); } } if (fstat(nic->fd, &uio_stat) < 0) { LOG_ERR(PFX "%s: Could not fstat device", nic->log_name); errno = -ENODEV; goto error_alloc_rx_ring; } nic->uio_minor = minor(uio_stat.st_rdev); cnic_get_sysfs_pci_resource_path(nic, 0, sysfs_resc_path, 80); bp->bar0_fd = open(sysfs_resc_path, O_RDWR | O_SYNC); if (bp->bar0_fd < 0) { LOG_ERR(PFX "%s: Could not open %s", nic->log_name, sysfs_resc_path); errno = -ENODEV; goto error_alloc_rx_ring; } /* TODO: hardcoded with the cnic driver */ bp->rx_ring_size = 3; bp->rx_buffer_size = 0x400; LOG_DEBUG(PFX "%s: using rx ring size: %d, rx buffer size: %d", nic->log_name, bp->rx_ring_size, bp->rx_buffer_size); /* Determine the number of UIO events that have already occured */ rc = detemine_initial_uio_events(nic, &nic->intr_count); if (rc != 0) { LOG_ERR("Could not determine the number ofinitial UIO events"); nic->intr_count = 0; } /* Allocate space for rx ring pointer */ bp->rx_ring = malloc(sizeof(struct l2_fhdr *) * bp->rx_ring_size); if (bp->rx_ring == NULL) { LOG_ERR(PFX "%s: Could not allocate space for rx_ring", nic->log_name); errno = -ENOMEM; goto error_alloc_rx_ring; } mlock(bp->rx_ring, sizeof(struct l2_fhdr *) * bp->rx_ring_size); /* Allocate space for rx pkt ring */ bp->rx_pkt_ring = malloc(sizeof(void *) * bp->rx_ring_size); if (bp->rx_pkt_ring == NULL) { LOG_ERR(PFX "%s: Could not allocate space for rx_pkt_ring", nic->log_name); errno = -ENOMEM; goto error_alloc_rx_pkt_ring; } mlock(bp->rx_pkt_ring, sizeof(void *) * bp->rx_ring_size); bp->reg = mmap(NULL, 0x12800, PROT_READ | PROT_WRITE, MAP_SHARED, bp->bar0_fd, (off_t) 0); if (bp->reg == MAP_FAILED) { LOG_INFO(PFX "%s: Couldn't mmap registers: %s", nic->log_name, strerror(errno)); bp->reg = NULL; goto error_regs; } msync(bp->reg, 0x12800, MS_SYNC); LOG_DEBUG(PFX "Chip ID: %x", bnx2_get_chip_id(bp)); /* on a 5709 when using MSI-X the status block is at an offset */ if (BNX2_CHIP_NUM(bnx2_get_chip_id(bp)) == CHIP_NUM_5709) { /* determine if we are using MSI-X */ val = bnx2_rd32(bp, BNX2_TSCH_TSS_CFG); if (val) { /* We are in MSI-X mode */ uint32_t base_cid = ((val >> 10) & 0x7ff) << 3; msix_vector = (val >> 24) & 0xf; bp->status_blk_size = (128 * 9); tx_cid = base_cid + msix_vector - 1; bp->flags |= BNX2_UIO_MSIX_ENABLED; bp->get_tx_cons = bnx2_get_tx_msix; bp->get_rx_cons = bnx2_get_rx_msix; LOG_DEBUG(PFX "%s: tss_cfg: 0x%x tx cid: %d", nic->log_name, val, tx_cid); LOG_INFO(PFX "%s: detected using MSI-X vector: %d", nic->log_name, msix_vector); } else { /* We are not in MSI-X mode */ bp->status_blk_size = 64; tx_cid = 20; bp->get_tx_cons = bnx2_get_tx_msi; bp->get_rx_cons = bnx2_get_rx_msi; } } else { bp->status_blk_size = 64; tx_cid = 20; bp->get_tx_cons = bnx2_get_tx_msi; bp->get_rx_cons = bnx2_get_rx_msi; } bp->sblk_map = mmap(NULL, bp->status_blk_size, PROT_READ | PROT_WRITE, MAP_SHARED, nic->fd, (off_t) nic->page_size); if (bp->sblk_map == MAP_FAILED) { LOG_INFO(PFX "%s: Could not mmap status block: %s", nic->log_name, strerror(errno)); goto error_sblk; } if (bp->flags & BNX2_UIO_MSIX_ENABLED) { uint8_t *status_blk = (uint8_t *) bp->sblk_map; status_blk += (msix_vector * 128); bp->status_blk.msix = (struct status_block_msix *)status_blk; LOG_DEBUG(PFX "%s: msix initial cons: tx:%d rx:%d", nic->log_name, bp->status_blk.msix->status_tx_quick_consumer_index, bp->status_blk.msix->status_rx_quick_consumer_index); } else { bp->status_blk.msi = (struct status_block *)bp->sblk_map; LOG_DEBUG(PFX "%s: msi initial tx:%d rx:%d", nic->log_name, BNX2_SBLK_EVEN_IDX(bp->status_blk.msi->tx2), BNX2_SBLK_EVEN_IDX(bp->status_blk.msi->rx2)); } bp->tx_ring = mmap(NULL, 2 * nic->page_size, PROT_READ | PROT_WRITE, MAP_SHARED, nic->fd, (off_t) 2 * nic->page_size); if (bp->tx_ring == MAP_FAILED) { LOG_INFO(PFX "%s: Could not mmap tx ring: %s", nic->log_name, strerror(errno)); bp->tx_ring = NULL; goto error_tx_ring; } bp->bufs = mmap(NULL, (bp->rx_ring_size + 1) * bp->rx_buffer_size, PROT_READ | PROT_WRITE, MAP_SHARED, nic->fd, (off_t) 3 * nic->page_size); if (bp->bufs == MAP_FAILED) { LOG_INFO(PFX "%s: Could not mmap buffers: %s", nic->log_name, strerror(errno)); bp->bufs = NULL; goto error_bufs; } bp->tx_bidx_io = MB_GET_CID_ADDR(tx_cid) + BNX2_L2CTX_TX_HOST_BIDX; bp->tx_bseq_io = MB_GET_CID_ADDR(tx_cid) + BNX2_L2CTX_TX_HOST_BSEQ; LOG_INFO(PFX "%s: tx_bidx_io: 0x%x tx_bseq_io: 0x%x", nic->log_name, bp->tx_bidx_io, bp->tx_bseq_io); bp->rx_bidx_io = MB_GET_CID_ADDR(2) + BNX2_L2CTX_HOST_BDIDX; bp->rx_bseq_io = MB_GET_CID_ADDR(2) + BNX2_L2CTX_HOST_BSEQ; bp->tx_cons = 0; bp->tx_prod = 0; bp->tx_pkt = bp->bufs; bp->rx_index = 0; bp->rx_cons = 0; bp->rx_prod = bp->rx_ring_size; bp->rx_bseq = bp->rx_prod * bp->rx_buffer_size; bnx2_wr16(bp, bp->rx_bidx_io, bp->rx_prod); bnx2_wr32(bp, bp->rx_bseq_io, bp->rx_bseq); bnx2_reg_sync(bp, bp->rx_bidx_io, sizeof(__u16)); bnx2_reg_sync(bp, bp->rx_bseq_io, sizeof(__u32)); for (i = 0; i < bp->rx_ring_size; i++) { void *ptr = bp->bufs + (bp->rx_buffer_size * (i + 1)); bp->rx_ring[i] = (struct l2_fhdr *)ptr; bp->rx_pkt_ring[i] = ptr + sizeof(struct l2_fhdr) + 2; } /* Read the MAC address used for the iSCSI interface */ val = bnx2_rd32(bp, BNX2_EMAC_MAC_MATCH4); nic->mac_addr[0] = (__u8) (val >> 8); nic->mac_addr[1] = (__u8) val; val = bnx2_rd32(bp, BNX2_EMAC_MAC_MATCH5); nic->mac_addr[2] = (__u8) (val >> 24); nic->mac_addr[3] = (__u8) (val >> 16); nic->mac_addr[4] = (__u8) (val >> 8); nic->mac_addr[5] = (__u8) val; LOG_INFO(PFX "%s: Using mac address: %2x:%2x:%2x:%2x:%2x:%2x", nic->log_name, nic->mac_addr[0], nic->mac_addr[1], nic->mac_addr[2], nic->mac_addr[3], nic->mac_addr[4], nic->mac_addr[5]); /* Determine if Hardware VLAN tag stripping is enabled or not */ if (CNIC_VLAN_STRIPPING_ENABLED == bnx2_strip_vlan_enabled(bp)) nic->flags |= NIC_VLAN_STRIP_ENABLED; /* Prepare the multicast addresses */ val = 4 | BNX2_RPM_SORT_USER2_BC_EN | BNX2_RPM_SORT_USER2_MC_EN; if (BNX2_CHIP_NUM(bnx2_get_chip_id(bp)) != CHIP_NUM_5709) val |= BNX2_RPM_SORT_USER2_PROM_VLAN; bnx2_wr32(bp, BNX2_RPM_SORT_USER2, 0x0); bnx2_wr32(bp, BNX2_RPM_SORT_USER2, val); bnx2_wr32(bp, BNX2_RPM_SORT_USER2, val | BNX2_RPM_SORT_USER2_ENA); rc = enable_multicast(nic); if (rc != 0) { errno = rc; goto error_bufs; } msync(bp->reg, 0x12800, MS_SYNC); LOG_INFO("%s: bnx2 uio initialized", nic->log_name); bp->flags |= BNX2_OPENED; return 0; error_bufs: munmap(bp->tx_ring, 2 * nic->page_size); error_tx_ring: munmap(bp->status_blk.msi, bp->status_blk_size); error_sblk: munmap(bp->reg, 0x12800); error_regs: munlock(bp->rx_pkt_ring, sizeof(void *) * bp->rx_ring_size); free(bp->rx_pkt_ring); bp->rx_pkt_ring = NULL; error_alloc_rx_pkt_ring: munlock(bp->rx_ring, sizeof(struct l2_fhdr *) * bp->rx_ring_size); free(bp->rx_ring); bp->rx_ring = NULL; error_alloc_rx_ring: if (nic->fd != INVALID_FD) { close(nic->fd); nic->fd = INVALID_FD; } bnx2_free(nic); return errno; } /** * bnx2_uio_close_resources() - Used to free resource for the bnx2 NIC * @param nic - NIC device to free resource * @param graceful - whether to wait to close gracefully * @return 0 on success, <0 on failure */ static int bnx2_uio_close_resources(nic_t *nic, NIC_SHUTDOWN_T graceful) { bnx2_t *bp = (bnx2_t *) nic->priv; int rc = 0; /* Remove the multicast addresses if added */ if ((nic->flags & NIC_ADDED_MULICAST) && (graceful == ALLOW_GRACEFUL_SHUTDOWN)) disable_multicast(nic); /* Check if there is an assoicated bnx2 device */ if (bp == NULL) { LOG_WARN(PFX "%s: when closing resources there is " "no assoicated bnx2", nic->log_name); return -EIO; } /* Clean up allocated memory */ if (bp->rx_ring != NULL) { free(bp->rx_ring); bp->rx_ring = NULL; } if (bp->rx_pkt_ring != NULL) { free(bp->rx_pkt_ring); bp->rx_pkt_ring = NULL; } /* Clean up mapped registers */ if (bp->bufs != NULL) { rc = munmap(bp->bufs, (bp->rx_ring_size + 1) * bp->rx_buffer_size); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap bufs", nic->log_name); bp->bufs = NULL; } if (bp->tx_ring != NULL) { rc = munmap(bp->tx_ring, 2 * nic->page_size); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap tx_rings", nic->log_name); bp->tx_ring = NULL; } if (bp->status_blk.msix != NULL || bp->status_blk.msi != NULL) { rc = munmap(bp->sblk_map, bp->status_blk_size); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap status block", nic->log_name); bp->sblk_map = NULL; bp->status_blk.msix = NULL; bp->status_blk.msi = NULL; } if (bp->reg != NULL) { rc = munmap(bp->reg, 0x12800); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap regs", nic->log_name); bp->reg = NULL; } if (bp->bar0_fd != INVALID_FD) { close(bp->bar0_fd); bp->bar0_fd = INVALID_FD; } if (nic->fd != INVALID_FD) { rc = close(nic->fd); if (rc != 0) { LOG_WARN(PFX "%s: Couldn't close uio file descriptor: %d", nic->log_name, nic->fd); } else { LOG_DEBUG(PFX "%s: Closed uio file descriptor: %d", nic->log_name, nic->fd); } nic->fd = INVALID_FD; } else { LOG_WARN(PFX "%s: Invalid uio file descriptor: %d", nic->log_name, nic->fd); } LOG_INFO(PFX "%s: Closed all resources", nic->log_name); return 0; } /** * bnx2_close() - Used to close the NIC device * @param nic - NIC device to close * @param graceful - whether to wait to close gracefully * @return 0 if successful, <0 if there is an error */ static int bnx2_close(nic_t *nic, NIC_SHUTDOWN_T graceful) { /* Sanity Check: validate the parameters */ if (nic == NULL) { LOG_ERR(PFX "bnx2_close(): nic == NULL"); return -EINVAL; } LOG_INFO(PFX "Closing NIC device: %s", nic->log_name); bnx2_uio_close_resources(nic, graceful); bnx2_free(nic); return 0; } static void bnx2_prepare_xmit_packet(nic_t *nic, nic_interface_t *nic_iface, struct packet *pkt) { bnx2_t *bp = (bnx2_t *) nic->priv; struct uip_vlan_eth_hdr *eth_vlan = (struct uip_vlan_eth_hdr *)pkt->buf; struct uip_eth_hdr *eth = (struct uip_eth_hdr *)bp->tx_pkt; if (eth_vlan->tpid == htons(UIP_ETHTYPE_8021Q)) { memcpy(bp->tx_pkt, pkt->buf, sizeof(struct uip_eth_hdr)); eth->type = eth_vlan->type; pkt->buf_size -= (sizeof(struct uip_vlan_eth_hdr) - sizeof(struct uip_eth_hdr)); memcpy(bp->tx_pkt + sizeof(struct uip_eth_hdr), pkt->buf + sizeof(struct uip_vlan_eth_hdr), pkt->buf_size - sizeof(struct uip_eth_hdr)); } else memcpy(bp->tx_pkt, pkt->buf, pkt->buf_size); msync(bp->tx_pkt, pkt->buf_size, MS_SYNC); } /** * bnx2_get_tx_pkt() - This function is used to a TX packet from the NIC * @param nic - The NIC device to send the packet * */ void *bnx2_get_tx_pkt(nic_t *nic) { bnx2_t *bp = (bnx2_t *) nic->priv; return bp->tx_pkt; } /** * bnx2_start_xmit() - This function is used to send a packet of data * @param nic - The NIC device to send the packet * @param len - the length of the TX packet * */ void bnx2_start_xmit(nic_t *nic, size_t len, u16_t vlan_id) { bnx2_t *bp = (bnx2_t *) nic->priv; uint16_t ring_prod; struct tx_bd *txbd; struct rx_bd *rxbd; rxbd = (struct rx_bd *)(((__u8 *) bp->tx_ring) + nic->page_size); if ((rxbd->rx_bd_haddr_hi == 0) && (rxbd->rx_bd_haddr_lo == 0)) { LOG_PACKET(PFX "%s: trying to transmit when device is closed", nic->log_name); pthread_mutex_unlock(&nic->xmit_mutex); return; } ring_prod = TX_RING_IDX(bp->tx_prod); txbd = &bp->tx_ring[ring_prod]; txbd->tx_bd_mss_nbytes = len; if (vlan_id) { txbd->tx_bd_vlan_tag_flags = (vlan_id << 16) | TX_BD_FLAGS_VLAN_TAG | TX_BD_FLAGS_END | TX_BD_FLAGS_START; } else txbd->tx_bd_vlan_tag_flags = TX_BD_FLAGS_END | TX_BD_FLAGS_START; bp->tx_bseq += len; bp->tx_prod = NEXT_TX_BD(bp->tx_prod); bnx2_wr16(bp, bp->tx_bidx_io, bp->tx_prod); bnx2_wr32(bp, bp->tx_bseq_io, bp->tx_bseq); bnx2_reg_sync(bp, bp->tx_bidx_io, sizeof(__u16)); bnx2_reg_sync(bp, bp->tx_bseq_io, sizeof(__u32)); LOG_PACKET(PFX "%s: sent %d bytes using dev->tx_prod: %d", nic->log_name, len, bp->tx_prod); } /** * bnx2_write() - Used to write the data to the hardware * @param nic - NIC hardware to read from * @param pkt - The packet which will hold the data to be sent on the wire * @return 0 if successful, <0 if failed */ int bnx2_write(nic_t *nic, nic_interface_t *nic_iface, packet_t *pkt) { bnx2_t *bp; struct uip_stack *uip; /* Sanity Check: validate the parameters */ if (nic == NULL || nic_iface == NULL || pkt == NULL) { LOG_ERR(PFX "%s: bnx2_write() nic == 0x%p || " " nic_iface == 0x%p || " " pkt == 0x%x", nic, nic_iface, pkt); return -EINVAL; } bp = (bnx2_t *)nic->priv; uip = &nic_iface->ustack; if (pkt->buf_size == 0) { LOG_ERR(PFX "%s: Trying to transmitted 0 sized packet", nic->log_name); return -EINVAL; } if (pthread_mutex_trylock(&nic->xmit_mutex) != 0) { LOG_PACKET(PFX "%s: Dropped previous transmitted packet", nic->log_name); return -EINVAL; } bnx2_prepare_xmit_packet(nic, nic_iface, pkt); bnx2_start_xmit(nic, pkt->buf_size, (nic_iface->vlan_priority << 12) | nic_iface->vlan_id); /* bump the bnx2 dev send statistics */ nic->stats.tx.packets++; nic->stats.tx.bytes += uip->uip_len; LOG_PACKET(PFX "%s: transmitted %d bytes " "dev->tx_cons: %d, dev->tx_prod: %d, dev->tx_bseq:%d", nic->log_name, pkt->buf_size, bp->tx_cons, bp->tx_prod, bp->tx_bseq); return 0; } /** * bnx2_read() - Used to read the data from the hardware * @param nic - NIC hardware to read from * @param pkt - The packet which will hold the data * @return 0 if successful, <0 if failed */ static int bnx2_read(nic_t *nic, packet_t *pkt) { bnx2_t *bp; int rc = 0; uint16_t hw_cons, sw_cons; /* Sanity Check: validate the parameters */ if (unlikely(nic == NULL || pkt == NULL)) { LOG_ERR(PFX "%s: bnx2_write() nic == 0x%p || " " pkt == 0x%x", nic, pkt); return -EINVAL; } bp = (bnx2_t *)nic->priv; hw_cons = bp->get_rx_cons(bp); sw_cons = bp->rx_cons; if (sw_cons != hw_cons) { uint8_t rx_index = bp->rx_index % 3; struct l2_fhdr *rx_hdr = bp->rx_ring[rx_index]; void *rx_pkt = bp->rx_pkt_ring[rx_index]; int len; uint16_t errors; LOG_PACKET(PFX "%s: clearing rx interrupt: %d %d %d", nic->log_name, sw_cons, hw_cons, rx_index); msync(rx_hdr, sizeof(struct l2_fhdr), MS_SYNC); errors = ((rx_hdr->l2_fhdr_status & 0xffff0000) >> 16); len = ((rx_hdr->l2_fhdr_vtag_len & 0xffff0000) >> 16) - 4; if (unlikely((errors & (L2_FHDR_ERRORS_BAD_CRC | L2_FHDR_ERRORS_PHY_DECODE | L2_FHDR_ERRORS_ALIGNMENT | L2_FHDR_ERRORS_TOO_SHORT | L2_FHDR_ERRORS_GIANT_FRAME)) || (len <= 0) || (len > (bp->rx_buffer_size - (sizeof(struct l2_fhdr) + 2))) || (len > pkt->max_buf_size))) { /* One of the fields in the BD is bad */ uint16_t status = ((rx_hdr->l2_fhdr_status & 0x0000ffff)); LOG_ERR(PFX "%s: Recv error: 0x%x status: 0x%x " "len: %d", nic->log_name, errors, status, len); if ((len < (bp->rx_buffer_size - (sizeof(struct l2_fhdr) + 2))) && (len < pkt->max_buf_size)) dump_packet_to_log(pkt->nic_iface, rx_pkt, len); } else { if (len < (bp->rx_buffer_size - (sizeof(struct l2_fhdr) + 2))) { msync(rx_pkt, len, MS_SYNC); /* Copy the data */ memcpy(pkt->buf, rx_pkt, len); pkt->buf_size = len; /* Properly set the packet flags */ /* check if there is VLAN tagging on the * packet */ if (rx_hdr->l2_fhdr_status & L2_FHDR_STATUS_VLAN_TAG) { pkt->vlan_tag = rx_hdr->l2_fhdr_vtag_len & 0x0FFF; pkt->flags |= VLAN_TAGGED; } else { pkt->vlan_tag = 0; } rc = 1; LOG_PACKET(PFX "%s: processing packet " "length: %d", nic->log_name, len); } else { /* If the NIC passes up a packet bigger * then the RX buffer, flag it */ LOG_ERR(PFX "%s: invalid packet length %d " "receive ", nic->log_name, len); } } bp->rx_index++; sw_cons = NEXT_RX_BD(sw_cons); bp->rx_prod = NEXT_RX_BD(bp->rx_prod); bp->rx_bseq += 0x400; bp->rx_cons = sw_cons; bnx2_wr16(bp, bp->rx_bidx_io, bp->rx_prod); bnx2_wr32(bp, bp->rx_bseq_io, bp->rx_bseq); bnx2_reg_sync(bp, bp->rx_bidx_io, sizeof(__u16)); bnx2_reg_sync(bp, bp->rx_bseq_io, sizeof(__u32)); /* bump the bnx2 dev recv statistics */ nic->stats.rx.packets++; nic->stats.rx.bytes += pkt->buf_size; } return rc; } /******************************************************************************* * Clearing TX interrupts ******************************************************************************/ /** * bnx2_clear_tx_intr() - This routine is called when a TX interrupt occurs * @param nic - the nic the interrupt occured on * @return 0 on success */ static int bnx2_clear_tx_intr(nic_t *nic) { bnx2_t *bp; uint16_t hw_cons; /* Sanity check: ensure the parameters passed in are valid */ if (unlikely(nic == NULL)) { LOG_ERR(PFX "bnx2_read() nic == NULL"); return -EINVAL; } bp = (bnx2_t *) nic->priv; hw_cons = bp->get_tx_cons(bp); if (bp->flags & BNX2_UIO_TX_HAS_SENT) bp->flags &= ~BNX2_UIO_TX_HAS_SENT; LOG_PACKET(PFX "%s: clearing tx interrupt [%d %d]", nic->log_name, bp->tx_cons, hw_cons); bp->tx_cons = hw_cons; /* There is a queued TX packet that needs to be sent out. The usual * case is when stack will send an ARP packet out before sending the * intended packet */ if (nic->tx_packet_queue != NULL) { packet_t *pkt; LOG_PACKET(PFX "%s: sending queued tx packet", nic->log_name); pkt = nic_dequeue_tx_packet(nic); /* Got a TX packet buffer of the TX queue and put it onto * the hardware */ if (pkt != NULL) { bnx2_prepare_xmit_packet(nic, pkt->nic_iface, pkt); bnx2_start_xmit(nic, pkt->buf_size, (pkt->nic_iface->vlan_priority << 12) | pkt->nic_iface->vlan_id); LOG_PACKET(PFX "%s: transmitted queued packet %d bytes " "dev->tx_cons: %d, dev->tx_prod: %d, " "dev->tx_bseq:%d", nic->log_name, pkt->buf_size, bp->tx_cons, bp->tx_prod, bp->tx_bseq); return -EAGAIN; } } pthread_mutex_unlock(&nic->xmit_mutex); return 0; } /******************************************************************************* * bnx2 NIC op's table ******************************************************************************/ struct nic_ops bnx2_op = { .description = "bnx2", .open = bnx2_open, .close = bnx2_close, .write = bnx2_write, .get_tx_pkt = bnx2_get_tx_pkt, .start_xmit = bnx2_start_xmit, .read = bnx2_read, .clear_tx_intr = bnx2_clear_tx_intr, .handle_iscsi_path_req = cnic_handle_iscsi_path_req, .lib_ops = { .get_library_name = bnx2_get_library_name, .get_pci_table = bnx2_get_pci_table, .get_library_version = bnx2_get_library_version, .get_build_date = bnx2_get_build_date, .get_transport_name = bnx2_get_transport_name, .get_uio_name = bnx2_get_uio_name, }, }; open-iscsi-2.0.874/iscsiuio/src/unix/libs/bnx2.h000066400000000000000000000226401277325716400213430ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * bnx2.h - bnx2 user space driver * */ #ifndef __BNX2_H__ #define __BNX2_H__ #include "nic.h" /****************************************************************************** * Default BNX2 values ******************************************************************************/ #define DEFAULT_NUM_RXBD 3 #define DEFAULT_RX_LEN 0x400 /****************************************************************************** * BNX2 Hardware structures ******************************************************************************/ /* status_block definition for MSI */ struct status_block { volatile __u32 status_attn_bits; volatile __u32 status_attn_bits_ack; volatile __u32 tx0; volatile __u32 tx2; volatile __u32 rx0; volatile __u32 rx2; volatile __u32 rx4; volatile __u32 rx6; volatile __u32 rx8; volatile __u32 rx10; volatile __u32 rx12; volatile __u32 rx14; volatile __u32 cmd; volatile __u32 idx; }; /* status_block definition for MSI-X */ struct status_block_msix { #if 0 #if defined(__BIG_ENDIAN) __u16 status_tx_quick_consumer_index; __u16 status_rx_quick_consumer_index; __u16 status_completion_producer_index; __u16 status_cmd_consumer_index; __u32 status_unused; __u16 status_idx; __u8 status_unused2; __u8 status_blk_num; #elif defined(__LITTLE_ENDIAN) __u16 status_rx_quick_consumer_index; __u16 status_tx_quick_consumer_index; __u16 status_cmd_consumer_index; __u16 status_completion_producer_index; __u32 status_unused; __u8 status_blk_num; __u8 status_unused2; __u16 status_idx; #endif #endif __u16 status_rx_quick_consumer_index; __u16 status_tx_quick_consumer_index; __u16 status_cmd_consumer_index; __u16 status_completion_producer_index; __u32 status_unused; __u8 status_blk_num; __u8 status_unused2; __u16 status_idx; }; /* TX Buffer descriptor */ struct tx_bd { __u32 tx_bd_haddr_hi; __u32 tx_bd_haddr_lo; __u32 tx_bd_mss_nbytes; __u32 tx_bd_vlan_tag_flags; #define TX_BD_FLAGS_VLAN_TAG (1<<3) #define TX_BD_FLAGS_END (1<<6) #define TX_BD_FLAGS_START (1<<7) }; /* RX Buffer descriptor */ struct rx_bd { __u32 rx_bd_haddr_hi; __u32 rx_bd_haddr_lo; __u32 rx_bd_len; __u32 rx_bd_flags; #define RX_BD_FLAGS_END (1<<2) #define RX_BD_FLAGS_START (1<<3) }; /* This is the RX L2 Frame header */ struct l2_fhdr { __u32 l2_fhdr_status; #define L2_FHDR_ERRORS_BAD_CRC (1<<17) #define L2_FHDR_ERRORS_PHY_DECODE (1<<18) #define L2_FHDR_ERRORS_ALIGNMENT (1<<19) #define L2_FHDR_ERRORS_TOO_SHORT (1<<20) #define L2_FHDR_ERRORS_GIANT_FRAME (1<<21) #define L2_FHDR_ERRORS_TCP_XSUM (1<<28) #define L2_FHDR_ERRORS_UDP_XSUM (1<<31) #define L2_FHDR_STATUS_UDP_DATAGRAM (1<<15) #define L2_FHDR_STATUS_TCP_DATAGRAM (1<<14) #define L2_FHDR_STATUS_IP_DATAGRAM (1<<13) #define L2_FHDR_STATUS_LLC_SNAP (1<<7) #define L2_FHDR_STATUS_VLAN_TAG (1<<6) __u32 l2_fhdr_hash; __u32 l2_fhdr_vtag_len; __u32 l2_fhdr_xsum; }; /****************************************************************************** * BNX2 Registers Defitions/Values ******************************************************************************/ #define BNX2_MISC_ID 0x00000808 #define BNX2_EMAC_MAC_MATCH4 0x00001420 #define BNX2_EMAC_MAC_MATCH5 0x00001424 #define BNX2_EMAC_RX_MODE 0x000014c8 #define BNX2_EMAC_RX_MODE_RESET (1L<<0) #define BNX2_EMAC_RX_MODE_FLOW_EN (1L<<2) #define BNX2_EMAC_RX_MODE_KEEP_MAC_CONTROL (1L<<3) #define BNX2_EMAC_RX_MODE_KEEP_PAUSE (1L<<4) #define BNX2_EMAC_RX_MODE_ACCEPT_OVERSIZE (1L<<5) #define BNX2_EMAC_RX_MODE_ACCEPT_RUNTS (1L<<6) #define BNX2_EMAC_RX_MODE_LLC_CHK (1L<<7) #define BNX2_EMAC_RX_MODE_PROMISCUOUS (1L<<8) #define BNX2_EMAC_RX_MODE_NO_CRC_CHK (1L<<9) #define BNX2_EMAC_RX_MODE_KEEP_VLAN_TAG (1L<<10) #define BNX2_EMAC_RX_MODE_FILT_BROADCAST (1L<<11) #define BNX2_EMAC_RX_MODE_SORT_MODE (1L<<12) #define BNX2_RPM_SORT_USER2 0x00001828 #define BNX2_RPM_SORT_USER2_PM_EN (0xffffL<<0) #define BNX2_RPM_SORT_USER2_BC_EN (1L<<16) #define BNX2_RPM_SORT_USER2_MC_EN (1L<<17) #define BNX2_RPM_SORT_USER2_MC_HSH_EN (1L<<18) #define BNX2_RPM_SORT_USER2_PROM_EN (1L<<19) #define BNX2_RPM_SORT_USER2_VLAN_EN (0xfL<<20) #define BNX2_RPM_SORT_USER2_PROM_VLAN (1L<<24) #define BNX2_RPM_SORT_USER2_ENA (1L<<31) /* * tsch_reg definition * offset: 0x4c00 */ #define BNX2_TSCH_TSS_CFG 0x00004c1c #define BNX2_TSCH_TSS_CFG_TSS_START_CID (0x7ffL<<8) #define BNX2_TSCH_TSS_CFG_NUM_OF_TSS_CON (0xfL<<24) #define CNIC_UIO_INVALID_FD -1 #define BNX2_L2CTX_TX_HOST_BIDX 0x00000088 #define BNX2_L2CTX_TX_HOST_BSEQ 0x00000090 #define BNX2_L2CTX_HOST_BDIDX 0x00000004 #define BNX2_L2CTX_HOST_BSEQ 0x00000008 /* Used to determin the CHIP ID */ /* chip num:16-31, rev:12-15, metal:4-11, bond_id:0-3 */ #define BNX2_CHIP_NUM(bp) ((bp) & 0xffff0000) #define CHIP_NUM_5706 0x57060000 #define CHIP_NUM_5708 0x57080000 #define CHIP_NUM_5709 0x57090000 #define CHIP_REV(bp) ((bp) & 0x0000f000) #define CHIP_REV_Ax 0x00000000 #define CHIP_REV_Bx 0x00001000 #define CHIP_REV_Cx 0x00002000 #define CHIP_METAL(bp) ((bp) & 0x00000ff0) #define CHIP_BONDING(bp) ((bp) & 0x0000000f) #define CHIP_ID(bp) ((bp) & 0xfffffff0) #define CHIP_ID_5706_A0 0x57060000 #define CHIP_ID_5706_A1 0x57060010 #define CHIP_ID_5706_A2 0x57060020 #define CHIP_ID_5708_A0 0x57080000 #define CHIP_ID_5708_B0 0x57081000 #define CHIP_ID_5708_B1 0x57081010 #define CHIP_ID_5709_A0 0x57090000 #define CHIP_ID_5709_A1 0x57090010 #define CHIP_BOND_ID(bp) ((bp) & 0xf) #define BNX2_SBLK_EVEN_IDX(x) (((x) & 0xffff0000) >> 16) #define TX_DESC_CNT (4096 / sizeof(struct tx_bd)) #define MAX_TX_DESC_CNT (TX_DESC_CNT - 1) #define NEXT_TX_BD(x) ((((x) & (MAX_TX_DESC_CNT - 1)) == \ (MAX_TX_DESC_CNT - 1)) ? \ (x) + 2 : (x) + 1) #define TX_RING_IDX(x) ((x) & MAX_TX_DESC_CNT) #define RX_DESC_CNT (4096 / sizeof(struct rx_bd)) #define MAX_RX_DESC_CNT (RX_DESC_CNT - 1) #define NEXT_RX_BD(x) ((((x) & (MAX_RX_DESC_CNT - 1)) == \ (MAX_RX_DESC_CNT - 1)) ? \ (x) + 2 : (x) + 1) #define MB_KERNEL_CTX_SHIFT 8 #define MB_KERNEL_CTX_SIZE (1 << MB_KERNEL_CTX_SHIFT) #define MB_KERNEL_CTX_MASK (MB_KERNEL_CTX_SIZE - 1) #define MB_GET_CID_ADDR(_cid) (0x10000 + ((_cid) << MB_KERNEL_CTX_SHIFT)) typedef struct bnx2 { nic_t *parent; uint16_t flags; #define BNX2_UIO_MSIX_ENABLED 0x0001 #define BNX2_UIO_TX_HAS_SENT 0x0002 #define BNX2_OPENED 0x0004 int bar0_fd; void *reg; /* Pointer to the mapped registers */ __u32 tx_bidx_io; __u32 tx_bseq_io; __u16 tx_prod; __u16 tx_cons; __u32 tx_bseq; __u32 rx_bidx_io; __u32 rx_bseq_io; __u16 rx_prod; __u16 rx_cons; __u32 rx_bseq; /* RX ring parameters */ uint32_t rx_ring_size; uint32_t rx_buffer_size; void *bufs; /* Pointer to the mapped buffer space */ /* Hardware Status Block locations */ void *sblk_map; union { struct status_block *msi; struct status_block_msix *msix; } status_blk; size_t status_blk_size; __u16(*get_rx_cons) (struct bnx2 *); __u16(*get_tx_cons) (struct bnx2 *); uint16_t rx_index; struct l2_fhdr **rx_ring; void **rx_pkt_ring; struct tx_bd *tx_ring; void *tx_pkt; struct l2_fhdr rcv_l2_fhdr; __u8 rcv_buf[1500 + 2]; __u32 rcv_size; } bnx2_t; /****************************************************************************** * bnx2 Function Declarations ******************************************************************************/ struct nic_ops *bnx2_get_ops(); #endif /* __BNX2_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/libs/bnx2x.c000066400000000000000000001341771277325716400215370ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * bnx2x.c - bnx2x user space driver * */ #include #include #include #include #include /* Needed for linux/ethtool.h on RHEL 5.x */ #include #include #include #include #include #include #include #include #include #include "config.h" #include "build_date.h" #include "bnx2x.h" #include "cnic.h" #include "logger.h" #include "nic.h" #include "nic_id.h" #include "nic_utils.h" #include "options.h" #define PFX "bnx2x " /* Foward struct declarations */ struct nic_ops bnx2x_op; /******************************************************************************* * NIC Library Strings ******************************************************************************/ static const char library_name[] = "bnx2x"; static const char library_version[] = PACKAGE_VERSION; static const char library_uio_name[] = "bnx2x_cnic"; /* The name that should be returned from /sys/class/uio/uio0/name */ static const char cnic_uio_sysfs_name_tempate[] = "/sys/class/uio/uio%i/name"; static const char bnx2x_uio_sysfs_name[] = "bnx2x_cnic"; /******************************************************************************* * String constants used to display human readable adapter name ******************************************************************************/ static const char brcm_57710[] = "QLogic NetXtreme II BCM57710 10-Gigabit"; static const char brcm_57711[] = "QLogic NetXtreme II BCM57711 10-Gigabit"; static const char brcm_57711e[] = "QLogic NetXtreme II BCM57711E 10-Gigabit"; static const char brcm_57712[] = "QLogic NetXtreme II BCM57712 10-Gigabit"; static const char brcm_57712_MF[] = "QLogic NetXtreme II BCM57712 MF " "10-Gigabit"; static const char brcm_57712_VF[] = "QLogic NetXtreme II BCM57712 VF " "10-Gigabit"; static const char brcm_57713[] = "QLogic NetXtreme II BCM57713 10-Gigabit"; static const char brcm_57713e[] = "QLogic NetXtreme II BCM57713E 10-Gigabit"; static const char brcm_57800[] = "QLogic NetXtreme II BCM57800 10-Gigabit"; static const char brcm_57800_MF[] = "QLogic NetXtreme II BCM57800 MF " "10-Gigabit"; static const char brcm_57800_VF[] = "QLogic NetXtreme II BCM57800 VF " "10-Gigabit"; static const char brcm_57810[] = "QLogic NetXtreme II BCM57810 10-Gigabit"; static const char brcm_57810_MF[] = "QLogic NetXtreme II BCM57810 MF " "10-Gigabit"; static const char brcm_57810_VF[] = "QLogic NetXtreme II BCM57810 VF " "10-Gigabit"; static const char brcm_57811[] = "QLogic NetXtreme II BCM57811 10-Gigabit"; static const char brcm_57811_MF[] = "QLogic NetXtreme II BCM57811 MF " "10-Gigabit"; static const char brcm_57811_VF[] = "QLogic NetXtreme II BCM57811 VF " "10-Gigabit"; static const char brcm_57840[] = "QLogic NetXtreme II BCM57840 10-Gigabit"; static const char brcm_57840_MF[] = "QLogic NetXtreme II BCM57840 MF " "10-Gigabit"; static const char brcm_57840_VF[] = "QLogic NetXtreme II BCM57840 VF " "10-Gigabit"; static const char brcm_57840_4_10[] = "QLogic NetXtreme II BCM57840 4x" "10-Gigabit"; static const char brcm_57840_2_20[] = "QLogic NetXtreme II BCM57840 2x" "20-Gigabit"; /******************************************************************************* * PCI ID constants ******************************************************************************/ #define PCI_VENDOR_ID_BROADCOM 0x14e4 #define PCI_VENDOR_ID_QLOGIC 0x1077 #define PCI_DEVICE_ID_NX2_57710 0x164e #define PCI_DEVICE_ID_NX2_57711 0x164f #define PCI_DEVICE_ID_NX2_57711E 0x1650 #define PCI_DEVICE_ID_NX2_57712 0x1662 #define PCI_DEVICE_ID_NX2_57712_MF 0x1663 #define PCI_DEVICE_ID_NX2_57712_VF 0x166f #define PCI_DEVICE_ID_NX2_57713 0x1651 #define PCI_DEVICE_ID_NX2_57713E 0x1652 #define PCI_DEVICE_ID_NX2_57800 0x168a #define PCI_DEVICE_ID_NX2_57800_MF 0x16a5 #define PCI_DEVICE_ID_NX2_57800_VF 0x16a9 #define PCI_DEVICE_ID_NX2_57810 0x168e #define PCI_DEVICE_ID_NX2_57810_MF 0x16ae #define PCI_DEVICE_ID_NX2_57810_VF 0x16af #define PCI_DEVICE_ID_NX2_57811 0x163d #define PCI_DEVICE_ID_NX2_57811_MF 0x163e #define PCI_DEVICE_ID_NX2_57811_VF 0x163f #define PCI_DEVICE_ID_NX2_57840_OBSOLETE 0x168d #define PCI_DEVICE_ID_NX2_57840_MF_OBSOLETE 0x16ab #define PCI_DEVICE_ID_NX2_57840_4_10 0x16a1 #define PCI_DEVICE_ID_NX2_57840_2_20 0x16a2 #define PCI_DEVICE_ID_NX2_57840_MF 0x16a4 #define PCI_DEVICE_ID_NX2_57840_VF 0x16ad #define PCI_ANY_ID (~0) /* This is the table used to match PCI vendor and device ID's to the * human readable string names of the devices */ static const struct pci_device_id bnx2x_pci_tbl[] = { {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57710, PCI_ANY_ID, PCI_ANY_ID, brcm_57710}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57711, PCI_ANY_ID, PCI_ANY_ID, brcm_57711}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57711E, PCI_ANY_ID, PCI_ANY_ID, brcm_57711e}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57712, PCI_ANY_ID, PCI_ANY_ID, brcm_57712}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57712_MF, PCI_ANY_ID, PCI_ANY_ID, brcm_57712_MF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57712_VF, PCI_ANY_ID, PCI_ANY_ID, brcm_57712_VF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57713, PCI_ANY_ID, PCI_ANY_ID, brcm_57713}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57713E, PCI_ANY_ID, PCI_ANY_ID, brcm_57713e}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57800, PCI_ANY_ID, PCI_ANY_ID, brcm_57800}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57800_MF, PCI_ANY_ID, PCI_ANY_ID, brcm_57800_MF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57800_VF, PCI_ANY_ID, PCI_ANY_ID, brcm_57800_VF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57810, PCI_ANY_ID, PCI_ANY_ID, brcm_57810}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57810_MF, PCI_ANY_ID, PCI_ANY_ID, brcm_57810_MF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57810_VF, PCI_ANY_ID, PCI_ANY_ID, brcm_57810_VF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57811, PCI_ANY_ID, PCI_ANY_ID, brcm_57811}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57811_MF, PCI_ANY_ID, PCI_ANY_ID, brcm_57811_MF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57811_VF, PCI_ANY_ID, PCI_ANY_ID, brcm_57811_VF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57840_OBSOLETE, PCI_ANY_ID, PCI_ANY_ID, brcm_57840}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57840_MF_OBSOLETE, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_MF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57840_4_10, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_4_10}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57840_2_20, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_2_20}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57840_MF, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_MF}, {PCI_VENDOR_ID_BROADCOM, PCI_DEVICE_ID_NX2_57840_VF, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_VF}, {PCI_VENDOR_ID_QLOGIC, PCI_DEVICE_ID_NX2_57840_4_10, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_4_10}, {PCI_VENDOR_ID_QLOGIC, PCI_DEVICE_ID_NX2_57840_2_20, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_2_20}, {PCI_VENDOR_ID_QLOGIC, PCI_DEVICE_ID_NX2_57840_MF, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_MF}, {PCI_VENDOR_ID_QLOGIC, PCI_DEVICE_ID_NX2_57840_VF, PCI_ANY_ID, PCI_ANY_ID, brcm_57840_VF}, }; static struct iro e1_iro[2] = { {0x45a0, 0x90, 0x8, 0x0, 0x8}, /* T6.0 */ {0x50c8, 0x90, 0x8, 0x0, 0x8}, /* T6.4 */ }; static struct iro e1h_iro[2] = { {0x1c40, 0xe0, 0x8, 0x0, 0x8}, /* T6.0 */ {0x1e00, 0xe0, 0x8, 0x0, 0x8}, /* T6.4 */ }; static struct iro e2_iro[2] = { {0x6000, 0x20, 0x0, 0x0, 0x8}, /* T6.0 */ {0x6000, 0x20, 0x0, 0x0, 0x8}, /* T6.4 */ }; struct bnx2x_driver_version bnx2x_version = { BNX2X_UNKNOWN_MAJOR_VERSION, BNX2X_UNKNOWN_MINOR_VERSION, BNX2X_UNKNOWN_SUB_MINOR_VERSION, }; static int bnx2x_clear_tx_intr(nic_t *nic); /******************************************************************************* * BNX2X Library Functions ******************************************************************************/ /** * bnx2x_get_library_name() - Used to get the name of this NIC libary * @param name - This function will return the pointer to this NIC * library name * @param name_size */ static void bnx2x_get_library_name(char **name, size_t *name_size) { *name = (char *)library_name; *name_size = sizeof(library_name); } /** * bnx2x_get_library_version() - Used to get the version string of this * NIC libary * @param version - This function will return the pointer to this NIC * library version string * @param version_size - This will be set with the version size */ static void bnx2x_get_library_version(char **version, size_t *version_size) { *version = (char *)library_version; *version_size = sizeof(library_version); } /** * bnx2x_get_build_date() - Used to get the build date string of this library * @param version - This function will return the pointer to this NIC * library build date string * @param version_size - This will be set with the build date string size */ static void bnx2x_get_build_date(char **build, size_t *build_size) { *build = (char *)build_date; *build_size = sizeof(build_date); } /** * bnx2x_get_transport_name() - Used to get the transport name associated * with this this NIC libary * @param transport_name - This function will return the pointer to this NIC * library's associated transport string * @param transport_name_size - This will be set with the transport name size */ static void bnx2x_get_transport_name(char **transport_name, size_t *transport_name_size) { *transport_name = (char *)bnx2i_library_transport_name; *transport_name_size = bnx2i_library_transport_name_size; } /** * bnx2x_get_uio_name() - Used to get the uio name associated with this this * NIC libary * @param uio_name - This function will return the pointer to this NIC * library's associated uio string * @param transport_name_size - This will be set with the uio name size */ static void bnx2x_get_uio_name(char **uio_name, size_t *uio_name_size) { *uio_name = (char *)library_uio_name; *uio_name_size = sizeof(library_uio_name); } /** * bnx2x_get_pci_table() - Used to get the PCI table for this NIC libary to * determine which NIC's based off of PCI ID's are * supported * @param table - This function will return the pointer to the PCI table * @param entries - This function will return the number of entries in the NIC * library's PCI table */ static void bnx2x_get_pci_table(struct pci_device_id **table, uint32_t *entries) { *table = (struct pci_device_id *)bnx2x_pci_tbl; *entries = (uint32_t) (sizeof(bnx2x_pci_tbl) / sizeof(bnx2x_pci_tbl[0])); } /** * bnx2x_get_ops() - Used to get the NIC library op table * @param op - The op table of this NIC library */ struct nic_ops *bnx2x_get_ops() { return &bnx2x_op; } /******************************************************************************* * bnx2x Utility Functions ******************************************************************************/ /******************************************************************************* * Utility Functions Used to read register from the bnx2x device ******************************************************************************/ static void bnx2x_set_drv_version_unknown(bnx2x_t *bp) { bp->version.major = BNX2X_UNKNOWN_MAJOR_VERSION; bp->version.minor = BNX2X_UNKNOWN_MINOR_VERSION; bp->version.sub_minor = BNX2X_UNKNOWN_SUB_MINOR_VERSION; } /* Return: 1 = Unknown, 0 = Known */ static int bnx2x_is_drv_version_unknown(struct bnx2x_driver_version *version) { if ((version->major == (uint16_t)BNX2X_UNKNOWN_MAJOR_VERSION) && (version->minor == (uint16_t)BNX2X_UNKNOWN_MINOR_VERSION) && (version->sub_minor == (uint16_t)BNX2X_UNKNOWN_SUB_MINOR_VERSION)) { return 1; } return 0; } /** * bnx2x_get_drv_version() - Used to determine the driver version * @param bp - Device used to determine bnx2x driver version */ static int bnx2x_get_drv_version(bnx2x_t *bp) { nic_t *nic = bp->parent; int fd, rc; struct ifreq ifr; struct ethtool_drvinfo drvinfo; char *tok, *save_ptr = NULL; /* Setup our control structures. */ memset(&ifr, 0, sizeof(ifr)); strcpy(ifr.ifr_name, nic->eth_device_name); /* Open control socket. */ fd = socket(AF_INET, SOCK_DGRAM, 0); if (fd < 0) { LOG_ERR(PFX "%s: Cannot get socket to determine version " "[0x%x %s]", nic->log_name, errno, strerror(errno)); return -EIO; } memset(&drvinfo, 0, sizeof(drvinfo)); drvinfo.cmd = ETHTOOL_GDRVINFO; ifr.ifr_data = (caddr_t) &drvinfo; rc = ioctl(fd, SIOCETHTOOL, &ifr); if (rc < 0) { LOG_ERR(PFX "%s: call to ethool IOCTL failed [0x%x %s]", nic->log_name, errno, strerror(errno)); goto error; } tok = strtok_r(drvinfo.version, ".", &save_ptr); if (tok == NULL) { rc = -EIO; goto error; } bp->version.major = atoi(tok); tok = strtok_r(NULL, ".", &save_ptr); if (tok == NULL) { rc = -EIO; goto error; } bp->version.minor = atoi(tok); tok = strtok_r(NULL, ".", &save_ptr); if (tok == NULL) { rc = -EIO; goto error; } bp->version.sub_minor = atoi(tok); LOG_INFO(PFX "%s: bnx2x driver using version %d.%d.%d", nic->log_name, bp->version.major, bp->version.minor, bp->version.sub_minor); close(fd); return 0; error: close(fd); bnx2x_set_drv_version_unknown(bp); LOG_ERR(PFX "%s: error parsing driver string: '%s'", nic->log_name, drvinfo.version); return rc; } static inline int bnx2x_is_ver70(bnx2x_t *bp) { return (bp->version.major == 1 && bp->version.minor >= 70); } static inline int bnx2x_is_ver60(bnx2x_t *bp) { return (bp->version.major == 1 && (bp->version.minor == 60 || bp->version.minor == 62 || bp->version.minor == 64)); } static inline int bnx2x_is_ver60_plus(bnx2x_t *bp) { return bnx2x_is_ver60(bp) || bnx2x_is_ver70(bp); } static inline int bnx2x_is_ver52(bnx2x_t *bp) { return (bp->version.major == 1 && bp->version.minor == 52); } static void bnx2x_wr32(bnx2x_t *bp, __u32 off, __u32 val) { *((volatile __u32 *)(bp->reg + off)) = val; } static void bnx2x_doorbell(bnx2x_t *bp, __u32 off, __u32 val) { *((volatile __u32 *)(bp->reg2 + off)) = val; } static void bnx2x_flush_doorbell(bnx2x_t *bp, __u32 off) { volatile __u32 tmp __attribute__((__unused__)); barrier(); tmp = *((volatile __u32 *)(bp->reg2 + off)); } static __u32 bnx2x_rd32(bnx2x_t *bp, __u32 off) { return *((volatile __u32 *)(bp->reg + off)); } static int bnx2x_reg_sync(bnx2x_t *bp, __u32 off, __u16 length) { return msync(bp->reg + off, length, MS_SYNC); } static void bnx2x_update_rx_prod(bnx2x_t *bp) { struct ustorm_eth_rx_producers rx_prods = { 0 }; int i; rx_prods.bd_prod = bp->rx_bd_prod; rx_prods.cqe_prod = bp->rx_prod; barrier(); for (i = 0; i < sizeof(struct ustorm_eth_rx_producers) / 4; i++) bnx2x_wr32(bp, bp->rx_prod_io + i * 4, ((__u32 *)&rx_prods)[i]); barrier(); bnx2x_reg_sync(bp, bp->rx_prod_io, sizeof(struct ustorm_eth_rx_producers)); } /** * bnx2x_get_chip_id() - Used to retrive the chip ID from the nic * @param dev - Device used to determin NIC type * @return Chip ID read from the MISC ID register */ static int bnx2x_get_chip_id(bnx2x_t *bp) { int val, id; /* Get the chip revision id and number. */ /* chip num:16-31, rev:12-15, metal:4-11, bond_id:0-3 */ val = bnx2x_rd32(bp, BNX2X_MISC_REG_CHIP_NUM); id = ((val & 0xffff) << 16); val = bnx2x_rd32(bp, BNX2X_MISC_REG_CHIP_REV); id |= ((val & 0xf) << 12); val = bnx2x_rd32(bp, BNX2X_MISC_REG_CHIP_METAL); id |= ((val & 0xff) << 4); val = bnx2x_rd32(bp, BNX2X_MISC_REG_BOND_ID); id |= (val & 0xf); return id; } /** * bnx2x_uio_verify() * */ static int bnx2x_uio_verify(nic_t *nic) { char *raw = NULL, *raw_tmp; uint32_t raw_size = 0; char temp_path[sizeof(cnic_uio_sysfs_name_tempate) + 8]; int rc = 0; /* Build the path to determine uio name */ snprintf(temp_path, sizeof(temp_path), cnic_uio_sysfs_name_tempate, nic->uio_minor); rc = capture_file(&raw, &raw_size, temp_path); if (rc != 0) goto error; /* sanitize name string by replacing newline with null termination */ raw_tmp = raw; while (*raw_tmp != '\n') raw_tmp++; *raw_tmp = '\0'; if (strncmp(raw, bnx2x_uio_sysfs_name, sizeof(bnx2x_uio_sysfs_name)) != 0) { LOG_ERR(PFX "%s: uio names not equal: " "expecting %s got %s from %s", nic->log_name, bnx2x_uio_sysfs_name, raw, temp_path); rc = -EIO; } free(raw); LOG_INFO(PFX "%s: Verified is a cnic_uio device", nic->log_name); error: return rc; } /******************************************************************************* * bnx2x Utility Functions to get to the hardware consumer indexes ******************************************************************************/ static __u16 bnx2x_get_rx(bnx2x_t *bp) { struct host_def_status_block *sblk = bp->status_blk.def; __u16 rx_comp_cons; msync(sblk, sizeof(*sblk), MS_SYNC); rx_comp_cons = sblk->u_def_status_block. index_values[HC_INDEX_DEF_U_ETH_ISCSI_RX_CQ_CONS]; if ((rx_comp_cons & BNX2X_MAX_RCQ_DESC_CNT(bp)) == BNX2X_MAX_RCQ_DESC_CNT(bp)) rx_comp_cons++; return rx_comp_cons; } static __u16 bnx2x_get_rx_60(bnx2x_t *bp) { struct host_sp_status_block *sblk = bp->status_blk.sp; __u16 rx_comp_cons; msync(sblk, sizeof(*sblk), MS_SYNC); rx_comp_cons = sblk->sp_sb.index_values[HC_SP_INDEX_ETH_ISCSI_RX_CQ_CONS]; if ((rx_comp_cons & BNX2X_MAX_RCQ_DESC_CNT(bp)) == BNX2X_MAX_RCQ_DESC_CNT(bp)) rx_comp_cons++; return rx_comp_cons; } static __u16 bnx2x_get_tx(bnx2x_t *bp) { struct host_def_status_block *sblk = bp->status_blk.def; __u16 tx_cons; msync(sblk, sizeof(*sblk), MS_SYNC); tx_cons = sblk->c_def_status_block. index_values[HC_INDEX_DEF_C_ETH_ISCSI_CQ_CONS]; return tx_cons; } static __u16 bnx2x_get_tx_60(bnx2x_t *bp) { struct host_sp_status_block *sblk = bp->status_blk.sp; __u16 tx_cons; msync(sblk, sizeof(*sblk), MS_SYNC); tx_cons = sblk->sp_sb.index_values[HC_SP_INDEX_ETH_ISCSI_CQ_CONS]; return tx_cons; } typedef enum { CNIC_VLAN_STRIPPING_ENABLED = 1, CNIC_VLAN_STRIPPING_DISABLED = 2, } CNIC_VLAN_STRIPPING_MODE; /** * bnx2x_strip_vlan_enabled() - This will query the device to determine whether * VLAN tag stripping is enabled or not * @param dev - device to check stripping or not * @ return CNIC_VLAN_STRIPPING_ENABLED stripping is enabled * CNIC_VLAN_STRIPPING_DISABLED stripping is not enabled */ static CNIC_VLAN_STRIPPING_MODE bnx2x_strip_vlan_enabled(bnx2x_t *bp) { return CNIC_VLAN_STRIPPING_DISABLED; } /** * bnx2x_free() - Used to free a bnx2x structure */ static void bnx2x_free(nic_t *nic) { if (nic->priv) free(nic->priv); nic->priv = NULL; } /** * bnx2x_alloc() - Used to allocate a bnx2x structure */ static bnx2x_t *bnx2x_alloc(nic_t *nic) { bnx2x_t *bp = malloc(sizeof(*bp)); if (bp == NULL) { LOG_ERR(PFX "%s: Could not allocate BNX2X space", nic->log_name); return NULL; } /* Clear out the CNIC contents */ memset(bp, 0, sizeof(*bp)); bp->bar0_fd = INVALID_FD; bp->bar2_fd = INVALID_FD; bp->parent = nic; nic->priv = (void *)bp; bnx2x_set_drv_version_unknown(bp); return bp; } /** * bnx2x_open() - This will initialize all the hardware resources underneath * a struct cnic_uio device * @param dev - The struct cnic_uio device to attach the hardware with * @return 0 on success, on failure a errno will be returned */ static int bnx2x_open(nic_t *nic) { bnx2x_t *bp; struct stat uio_stat; int i, rc; __u32 val; int count; char sysfs_resc_path[80]; uint32_t bus; uint32_t slot; uint32_t func; uint32_t mode; __u32 proto_offset; __u32 ovtag_offset; /* Sanity Check: validate the parameters */ if (nic == NULL) { LOG_ERR(PFX "nic == NULL"); return -EINVAL; } if ((nic->priv) != NULL && (((bnx2x_t *) (nic->priv))->flags & BNX2X_OPENED)) { return 0; } bp = bnx2x_alloc(nic); if (bp == NULL) return -ENOMEM; if (bnx2x_is_drv_version_unknown(&bnx2x_version)) { /* If version is unknown, go read from ethtool */ rc = bnx2x_get_drv_version(bp); if (rc) goto open_error; } else { /* Version is not unknown, just use it */ bnx2x_version.major = bp->version.major; bnx2x_version.minor = bp->version.minor; bnx2x_version.sub_minor = bp->version.sub_minor; } count = 0; while ((nic->fd < 0) && count < 15) { /* udev might not have created the file yet */ pthread_mutex_unlock(&nic->nic_mutex); sleep(1); pthread_mutex_lock(&nic->nic_mutex); nic->fd = open(nic->uio_device_name, O_RDWR | O_NONBLOCK); if (nic->fd != INVALID_FD) { LOG_ERR(PFX "%s: uio device has been brought up " "via pid: %d on fd: %d", nic->uio_device_name, getpid(), nic->fd); rc = bnx2x_uio_verify(nic); if (rc != 0) continue; break; } else { LOG_WARN(PFX "%s: Could not open device: %s, [%s]", nic->log_name, nic->uio_device_name, strerror(errno)); manually_trigger_uio_event(nic, nic->uio_minor); /* udev might not have created the file yet */ pthread_mutex_unlock(&nic->nic_mutex); sleep(1); pthread_mutex_lock(&nic->nic_mutex); count++; } } if (fstat(nic->fd, &uio_stat) < 0) { LOG_ERR(PFX "%s: Could not fstat device", nic->log_name); rc = -ENODEV; goto open_error; } nic->uio_minor = minor(uio_stat.st_rdev); cnic_get_sysfs_pci_resource_path(nic, 0, sysfs_resc_path, 80); bp->bar0_fd = open(sysfs_resc_path, O_RDWR | O_SYNC); if (bp->bar0_fd < 0) { LOG_ERR(PFX "%s: Could not open %s", nic->log_name, sysfs_resc_path); rc = -ENODEV; goto open_error; } bp->reg = mmap(NULL, BNX2X_BAR_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, bp->bar0_fd, (off_t) 0); if (bp->reg == MAP_FAILED) { LOG_INFO(PFX "%s: Couldn't mmap BAR registers: %s", nic->log_name, strerror(errno)); bp->reg = NULL; rc = errno; goto open_error; } msync(bp->reg, BNX2X_BAR_SIZE, MS_SYNC); cnic_get_sysfs_pci_resource_path(nic, 2, sysfs_resc_path, 80); bp->bar2_fd = open(sysfs_resc_path, O_RDWR | O_SYNC); if (bp->bar2_fd < 0) { LOG_ERR(PFX "%s: Could not open %s", nic->log_name, sysfs_resc_path); rc = -ENODEV; goto open_error; } bp->reg2 = mmap(NULL, BNX2X_BAR2_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, bp->bar2_fd, (off_t) 0); if (bp->reg2 == MAP_FAILED) { LOG_INFO(PFX "%s: Couldn't mmap BAR2 registers: %s", nic->log_name, strerror(errno)); bp->reg2 = NULL; rc = errno; goto open_error; } /* TODO: hardcoded with the cnic driver */ bp->rx_ring_size = 15; bp->rx_buffer_size = 0x400; LOG_DEBUG(PFX "%s: using rx ring size: %d, rx buffer size: %d", nic->log_name, bp->rx_ring_size, bp->rx_buffer_size); /* Determine the number of UIO events that have already occured */ rc = detemine_initial_uio_events(nic, &nic->intr_count); if (rc != 0) { LOG_ERR("Could not determine the number ofinitial UIO events"); nic->intr_count = 0; } /* Allocate space for rx pkt ring */ bp->rx_pkt_ring = malloc(sizeof(void *) * bp->rx_ring_size); if (bp->rx_pkt_ring == NULL) { LOG_ERR(PFX "%s: Could not allocate space for rx_pkt_ring", nic->log_name); rc = errno; goto open_error; } if (bnx2x_is_ver60_plus(bp)) bp->status_blk_size = sizeof(struct host_sp_status_block); else if (bnx2x_is_ver52(bp)) bp->status_blk_size = sizeof(struct host_def_status_block); else { LOG_INFO(PFX "%s: Unsupported bnx2x driver [%d.%d]", nic->log_name, bp->version.major, bp->version.minor); rc = -ENOTSUP; goto open_error; } bp->status_blk.def = mmap(NULL, bp->status_blk_size, PROT_READ | PROT_WRITE, MAP_SHARED, nic->fd, (off_t) nic->page_size); if (bp->status_blk.def == MAP_FAILED) { LOG_INFO(PFX "%s: Could not mmap status block: %s", nic->log_name, strerror(errno)); bp->status_blk.def = NULL; rc = errno; goto open_error; } bp->tx_ring = mmap(NULL, 4 * nic->page_size, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_LOCKED, nic->fd, (off_t) 2 * nic->page_size); if (bp->tx_ring == MAP_FAILED) { LOG_INFO(PFX "%s: Could not mmap tx ring: %s", nic->log_name, strerror(errno)); bp->tx_ring = NULL; rc = errno; goto open_error; } bp->rx_comp_ring.cqe = (union eth_rx_cqe *) (((__u8 *) bp->tx_ring) + 2 * nic->page_size); bp->bufs = mmap(NULL, (bp->rx_ring_size + 1) * bp->rx_buffer_size, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_LOCKED, nic->fd, (off_t) 3 * nic->page_size); if (bp->bufs == MAP_FAILED) { LOG_INFO(PFX "%s: Could not mmap buffers: %s", nic->log_name, strerror(errno)); bp->bufs = NULL; rc = errno; goto open_error; } bp->chip_id = bnx2x_get_chip_id(bp); LOG_DEBUG(PFX "Chip ID: %x", bp->chip_id); rc = get_bus_slot_func_num(nic, &bus, &slot, &func); if (rc != 0) { LOG_INFO(PFX "%s: Couldn't determine bus:slot.func", nic->log_name); goto open_error; } /* In E1/E1H use pci device function as read from sysfs. * In E2/E3 read physical function from ME register since these chips * support Physical Device Assignment where kernel BDF maybe arbitrary * (depending on hypervisor). */ if (CHIP_IS_E2_PLUS(bp)) { func = (bnx2x_rd32(bp, BAR_ME_REGISTER) & ME_REG_ABS_PF_NUM) >> ME_REG_ABS_PF_NUM_SHIFT; } bp->func = func; bp->port = bp->func % PORT_MAX; if (CHIP_IS_E2_PLUS(bp)) { __u32 val = bnx2x_rd32(bp, MISC_REG_PORT4MODE_EN_OVWR); if (!(val & 1)) val = bnx2x_rd32(bp, MISC_REG_PORT4MODE_EN); else val = (val >> 1) & 1; if (val) bp->pfid = func >> 1; else bp->pfid = func & 0x6; } else { bp->pfid = func; } if (bnx2x_is_ver60_plus(bp)) bp->port = bp->pfid & 1; bp->cid = 17; bp->client_id = 17; if (bnx2x_is_ver60_plus(bp)) { struct client_init_general_data *data = bp->bufs; bp->client_id = data->client_id; if (data->uid.cid) bp->cid = data->uid.cid; if (bp->version.minor >= 78 && bp->version.sub_minor >= 55 && data->uid.cid_override_key == UIO_USE_TX_DOORBELL) { bp->tx_doorbell = data->uid.tx_db_off; LOG_INFO(PFX "%s: tx doorbell override offset = 0x%x", nic->log_name, bp->tx_doorbell); } } LOG_INFO(PFX "%s: func 0x%x, pfid 0x%x, client_id 0x%x, cid 0x%x", nic->log_name, bp->func, bp->pfid, bp->client_id, bp->cid); if (CHIP_IS_E1(bp)) bp->iro = e1_iro; else if (CHIP_IS_E1H(bp)) bp->iro = e1h_iro; else if (CHIP_IS_E2_PLUS(bp)) bp->iro = e2_iro; if (bnx2x_is_ver60_plus(bp)) { __u32 cl_qzone_id = BNX2X_CL_QZONE_ID(bp, bp->client_id); bp->iro_idx = 0; if (bp->version.minor >= 64) { bp->iro_idx = 1; cl_qzone_id = BNX2X_CL_QZONE_ID_64(bp, bp->client_id); } bp->rx_prod_io = BAR_USTRORM_INTMEM + (CHIP_IS_E2_PLUS(bp) ? USTORM_RX_PRODS_E2_OFFSET(cl_qzone_id) : USTORM_RX_PRODS_E1X_OFFSET(bp->port, bp->client_id)); if (!bp->tx_doorbell) bp->tx_doorbell = bp->cid * 0x80 + 0x40; bp->get_rx_cons = bnx2x_get_rx_60; bp->get_tx_cons = bnx2x_get_tx_60; bp->tx_vlan_tag_bit = ETH_TX_BD_FLAGS_VLAN_TAG_T6X; } else { bp->rx_prod_io = BAR_USTRORM_INTMEM + USTORM_RX_PRODS_OFFSET(bp->port, bp->client_id); bp->tx_doorbell = bp->cid * nic->page_size + 0x40; bp->get_rx_cons = bnx2x_get_rx; bp->get_tx_cons = bnx2x_get_tx; bp->tx_vlan_tag_bit = ETH_TX_BD_FLAGS_VLAN_TAG_T5X; } bp->tx_cons = 0; bp->tx_prod = 0; bp->tx_bd_prod = 0; bp->tx_pkt = bp->bufs; bp->rx_index = 0; bp->rx_cons = 0; bp->rx_bd_cons = 0; bp->rx_prod = 127; bp->rx_bd_prod = bp->rx_ring_size; for (i = 0; i < bp->rx_ring_size; i++) { void *ptr = bp->bufs + (bp->rx_buffer_size * (i + 1)); bp->rx_pkt_ring[i] = ptr; } val = bnx2x_rd32(bp, MISC_REG_SHARED_MEM_ADDR); bp->shmem_base = val; val = bnx2x_rd32(bp, bp->shmem_base + SHMEM_ISCSI_MAC_UPPER(bp)); nic->mac_addr[0] = (__u8) (val >> 8); nic->mac_addr[1] = (__u8) val; val = bnx2x_rd32(bp, bp->shmem_base + SHMEM_ISCSI_MAC_LOWER(bp)); nic->mac_addr[2] = (__u8) (val >> 24); nic->mac_addr[3] = (__u8) (val >> 16); nic->mac_addr[4] = (__u8) (val >> 8); nic->mac_addr[5] = (__u8) val; if (bnx2x_is_ver60_plus(bp) && CHIP_IS_E2_PLUS(bp)) { __u32 mf_cfg_addr = 0; __u32 mac_offset; __u8 mac[6]; val = bnx2x_rd32(bp, (BNX2X_PATH(bp) ? MISC_REG_GENERIC_CR_1 : MISC_REG_GENERIC_CR_0)); bp->shmem_base2 = val; if (bp->shmem_base2) { /* size */ val = bnx2x_rd32(bp, bp->shmem_base2); if (val > 0x10) mf_cfg_addr = bnx2x_rd32(bp, bp->shmem_base2 + 0x10); } if (!mf_cfg_addr) mf_cfg_addr = bp->shmem_base + 0x7e4; /* shared_feat_cfg.config */ mode = bnx2x_rd32(bp, bp->shmem_base + 0x354); mode &= 0x700; LOG_DEBUG(PFX "%s: mode = 0x%x", nic->log_name, mode); switch (mode) { case 0x300: /* SI mode */ mac_offset = 0xe4 + (bp->func * 0x28) + 4; val = bnx2x_rd32(bp, mf_cfg_addr + mac_offset); mac[0] = (__u8) (val >> 8); mac[1] = (__u8) val; mac_offset += 4; val = bnx2x_rd32(bp, mf_cfg_addr + mac_offset); mac[2] = (__u8) (val >> 24); mac[3] = (__u8) (val >> 16); mac[4] = (__u8) (val >> 8); mac[5] = (__u8) val; if (mac[0] != 0xff) { memcpy(nic->mac_addr, mac, 6); } else if (bp->func > 1) { LOG_INFO(PFX "%s: Invalid mac address: " "%02x:%02x:%02x:%02x:%02x:%02x, abort", nic->log_name, mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]); rc = -ENOTSUP; goto open_error; } break; case 0x0: /* MF SD mode */ case 0x500: case 0x600: proto_offset = 0x24 + (bp->func * 0x18); ovtag_offset = proto_offset + 0xc; rc = -ENOTSUP; val = bnx2x_rd32(bp, mf_cfg_addr + ovtag_offset); val &= 0xffff; /* SD mode, check for valid outer VLAN */ if (val == 0xffff) { LOG_ERR(PFX "%s: Invalid OV detected for SD, " " fallback to SF mode!\n", nic->log_name); goto SF; } /* Check for iSCSI protocol */ val = bnx2x_rd32(bp, mf_cfg_addr + proto_offset); if ((val & 6) != 6) goto open_error; mac_offset = proto_offset + 0x4; val = bnx2x_rd32(bp, mf_cfg_addr + mac_offset); mac[0] = (__u8) (val >> 8); mac[1] = (__u8) val; mac_offset += 4; val = bnx2x_rd32(bp, mf_cfg_addr + mac_offset); mac[2] = (__u8) (val >> 24); mac[3] = (__u8) (val >> 16); mac[4] = (__u8) (val >> 8); mac[5] = (__u8) val; memcpy(nic->mac_addr, mac, 6); break; } } SF: LOG_INFO(PFX "%s: Using mac address: %02x:%02x:%02x:%02x:%02x:%02x", nic->log_name, nic->mac_addr[0], nic->mac_addr[1], nic->mac_addr[2], nic->mac_addr[3], nic->mac_addr[4], nic->mac_addr[5]); /* Determine if Hardware VLAN tag stripping is enabled or not */ if (CNIC_VLAN_STRIPPING_ENABLED == bnx2x_strip_vlan_enabled(bp)) nic->flags |= NIC_VLAN_STRIP_ENABLED; msync(bp->reg, BNX2X_BAR_SIZE, MS_SYNC); LOG_INFO("%s: bnx2x initialized", nic->log_name); bnx2x_update_rx_prod(bp); bp->flags |= BNX2X_OPENED; return 0; open_error: if (bp->tx_ring) { munmap(bp->tx_ring, 4 * nic->page_size); bp->tx_ring = NULL; } if (bp->status_blk.def) { munmap(bp->status_blk.def, bp->status_blk_size); bp->status_blk.def = NULL; } if (bp->reg) { munmap(bp->reg, BNX2X_BAR_SIZE); bp->reg = NULL; } if (bp->reg2) { munmap(bp->reg2, BNX2X_BAR2_SIZE); bp->reg2 = NULL; } if (bp->rx_pkt_ring) { free(bp->rx_pkt_ring); bp->rx_pkt_ring = NULL; } if (bp->bar2_fd != INVALID_FD) { close(bp->bar2_fd); bp->bar2_fd = INVALID_FD; } if (bp->bar0_fd != INVALID_FD) { close(bp->bar0_fd); bp->bar0_fd = INVALID_FD; } if (nic->fd != INVALID_FD) { close(nic->fd); nic->fd = INVALID_FD; } bnx2x_free(nic); return rc; } /** * bnx2x_uio_close_resources() - Used to free resource for the NIC/CNIC * @param nic - NIC device to free resource * @param graceful - whether to wait to close gracefully * @return 0 on success, <0 on failure */ static int bnx2x_uio_close_resources(nic_t *nic, NIC_SHUTDOWN_T graceful) { bnx2x_t *bp = (bnx2x_t *) nic->priv; int rc = 0; /* Check if there is an assoicated bnx2x device */ if (bp == NULL) { LOG_WARN(PFX "%s: when closing resources there is " "no assoicated bnx2x", nic->log_name); return -EIO; } /* Clean up allocated memory */ if (bp->rx_pkt_ring != NULL) { free(bp->rx_pkt_ring); bp->rx_pkt_ring = NULL; } /* Clean up mapped registers */ if (bp->bufs != NULL) { rc = munmap(bp->bufs, (bp->rx_ring_size + 1) * bp->rx_buffer_size); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap bufs", nic->log_name); bp->bufs = NULL; } if (bp->tx_ring != NULL) { rc = munmap(bp->tx_ring, 4 * nic->page_size); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap tx_rings", nic->log_name); bp->tx_ring = NULL; } if (bp->status_blk.def != NULL) { rc = munmap(bp->status_blk.def, bp->status_blk_size); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap status block", nic->log_name); bp->status_blk.def = NULL; } if (bp->reg != NULL) { rc = munmap(bp->reg, BNX2X_BAR_SIZE); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap regs", nic->log_name); bp->reg = NULL; } if (bp->reg2 != NULL) { rc = munmap(bp->reg2, BNX2X_BAR2_SIZE); if (rc != 0) LOG_WARN(PFX "%s: Couldn't unmap regs", nic->log_name); bp->reg2 = NULL; } if (bp->bar2_fd != INVALID_FD) { close(bp->bar2_fd); bp->bar2_fd = INVALID_FD; } if (bp->bar0_fd != INVALID_FD) { close(bp->bar0_fd); bp->bar0_fd = INVALID_FD; } if (nic->fd != INVALID_FD) { rc = close(nic->fd); if (rc != 0) { LOG_WARN(PFX "%s: Couldn't close uio file descriptor: %d", nic->log_name, nic->fd); } else { LOG_DEBUG(PFX "%s: Closed uio file descriptor: %d", nic->log_name, nic->fd); } nic->fd = INVALID_FD; } else { LOG_WARN(PFX "%s: Invalid uio file descriptor: %d", nic->log_name, nic->fd); } bnx2x_set_drv_version_unknown(bp); LOG_INFO(PFX "%s: Closed all resources", nic->log_name); return 0; } /** * bnx2x_close() - Used to close the NIC device * @param nic - NIC device to close * @param graceful - whether to wait to close gracefully * @return 0 if successful, <0 if there is an error */ static int bnx2x_close(nic_t *nic, NIC_SHUTDOWN_T graceful) { /* Sanity Check: validate the parameters */ if (nic == NULL) { LOG_ERR(PFX "bnx2x_close(): nic == NULL"); return -EINVAL; } if (nic->priv == NULL) { LOG_ERR(PFX "bnx2x_close(): nic->priv == NULL"); return -EINVAL; } LOG_INFO(PFX "Closing NIC device: %s", nic->log_name); bnx2x_uio_close_resources(nic, graceful); bnx2x_free(nic); return 0; } static void bnx2x_prepare_xmit_packet(nic_t *nic, nic_interface_t *nic_iface, struct packet *pkt) { bnx2x_t *bp = (bnx2x_t *) nic->priv; struct uip_vlan_eth_hdr *eth_vlan = (struct uip_vlan_eth_hdr *)pkt->buf; struct uip_eth_hdr *eth = (struct uip_eth_hdr *)bp->tx_pkt; if (eth_vlan->tpid == htons(UIP_ETHTYPE_8021Q)) { memcpy(bp->tx_pkt, pkt->buf, sizeof(struct uip_eth_hdr)); eth->type = eth_vlan->type; pkt->buf_size -= (sizeof(struct uip_vlan_eth_hdr) - sizeof(struct uip_eth_hdr)); memcpy(bp->tx_pkt + sizeof(struct uip_eth_hdr), pkt->buf + sizeof(struct uip_vlan_eth_hdr), pkt->buf_size - sizeof(struct uip_eth_hdr)); } else memcpy(bp->tx_pkt, pkt->buf, pkt->buf_size); msync(bp->tx_pkt, pkt->buf_size, MS_SYNC); } /** * bnx2x_get_tx_pkt() - This function is used to a TX packet from the NIC * @param nic - The NIC device to send the packet */ void *bnx2x_get_tx_pkt(nic_t *nic) { bnx2x_t *bp = (bnx2x_t *) nic->priv; return bp->tx_pkt; } /** * bnx2x_start_xmit() - This function is used to send a packet of data * @param nic - The NIC device to send the packet * @param len - the length of the TX packet * */ void bnx2x_start_xmit(nic_t *nic, size_t len, u16_t vlan_id) { bnx2x_t *bp = (bnx2x_t *) nic->priv; uint16_t ring_prod; struct eth_tx_start_bd *txbd; struct eth_tx_bd *txbd2; struct eth_rx_bd *rx_bd; rx_bd = (struct eth_rx_bd *)(((__u8 *) bp->tx_ring) + nic->page_size); if ((rx_bd->addr_hi == 0) && (rx_bd->addr_lo == 0)) { LOG_PACKET(PFX "%s: trying to transmit when device is closed", nic->log_name); pthread_mutex_unlock(&nic->xmit_mutex); return; } ring_prod = BNX2X_TX_RING_IDX(bp->tx_bd_prod); txbd = &bp->tx_ring[ring_prod]; BNX2X_SET_TX_VLAN(bp, txbd, vlan_id); bp->tx_prod++; bp->tx_bd_prod = BNX2X_NEXT_TX_BD(bp->tx_bd_prod); bp->tx_bd_prod = BNX2X_NEXT_TX_BD(bp->tx_bd_prod); ring_prod = BNX2X_TX_RING_IDX(bp->tx_bd_prod); txbd2 = (struct eth_tx_bd *)&bp->tx_ring[ring_prod]; txbd2->nbytes = len - 0x10; txbd2->total_pkt_bytes = len; bp->tx_bd_prod = BNX2X_NEXT_TX_BD(bp->tx_bd_prod); barrier(); if (nic->nl_process_if_down == 0) { bnx2x_doorbell(bp, bp->tx_doorbell, 0x02 | (bp->tx_bd_prod << 16)); bnx2x_flush_doorbell(bp, bp->tx_doorbell); } else { /* If the doorbell is not rung, the packet will not get sent. Hence, the xmit_mutex lock will not get freed. */ pthread_mutex_unlock(&nic->xmit_mutex); } LOG_PACKET(PFX "%s: sent %d bytes using bp->tx_prod: %d", nic->log_name, len, bp->tx_prod); } /** * bnx2x_write() - Used to write the data to the hardware * @param nic - NIC hardware to read from * @param pkt - The packet which will hold the data to be sent on the wire * @return 0 if successful, <0 if failed */ int bnx2x_write(nic_t *nic, nic_interface_t *nic_iface, packet_t *pkt) { bnx2x_t *bp; struct uip_stack *uip; int i = 0; /* Sanity Check: validate the parameters */ if (nic == NULL || nic_iface == NULL || pkt == NULL) { LOG_ERR(PFX "%s: bnx2x_write() nic == 0x%p || " " nic_iface == 0x%p || " " pkt == 0x%x", nic, nic_iface, pkt); return -EINVAL; } bp = (bnx2x_t *) nic->priv; uip = &nic_iface->ustack; if (pkt->buf_size == 0) { LOG_ERR(PFX "%s: Trying to transmitted 0 sized packet", nic->log_name); return -EINVAL; } /* Try to wait for a TX completion */ for (i = 0; i < 15; i++) { struct timespec sleep_req = {.tv_sec = 0, .tv_nsec = 5000000 }, sleep_rem; if (bnx2x_clear_tx_intr(nic) == 0) break; nanosleep(&sleep_req, &sleep_rem); } if (pthread_mutex_trylock(&nic->xmit_mutex) != 0) { LOG_PACKET(PFX "%s: Dropped previous transmitted packet", nic->log_name); return -EINVAL; } bnx2x_prepare_xmit_packet(nic, nic_iface, pkt); bnx2x_start_xmit(nic, pkt->buf_size, (nic_iface->vlan_priority << 12) | nic_iface->vlan_id); /* bump the cnic dev send statistics */ nic->stats.tx.packets++; nic->stats.tx.bytes += uip->uip_len; LOG_PACKET(PFX "%s: transmitted %d bytes " "dev->tx_cons: %d, dev->tx_prod: %d, dev->tx_bd_prod:%d", nic->log_name, pkt->buf_size, bp->tx_cons, bp->tx_prod, bp->tx_bd_prod); return 0; } static inline int bnx2x_get_rx_pad(bnx2x_t *bp, union eth_rx_cqe *cqe) { int pad = 0; if (bnx2x_is_ver70(bp)) pad = ((union eth_rx_cqe_70 *)cqe)->fast_path_cqe_70. \ placement_offset; else if (bnx2x_is_ver60(bp)) { if (bp->version.minor >= 64) pad = cqe->fast_path_cqe_64.placement_offset; else pad = cqe->fast_path_cqe.placement_offset; } return pad; } /** * bnx2x_read() - Used to read the data from the hardware * @param nic - NIC hardware to read from * @param pkt - The packet which will hold the data * @return 0 if successful, <0 if failed */ static int bnx2x_read(nic_t *nic, packet_t *pkt) { bnx2x_t *bp; int rc = 0; uint16_t hw_cons, sw_cons, bd_cons, bd_prod; /* Sanity Check: validate the parameters */ if (nic == NULL || pkt == NULL) { LOG_ERR(PFX "%s: bnx2x_read() nic == 0x%p || " " pkt == 0x%x", nic, pkt); return -EINVAL; } bp = (bnx2x_t *) nic->priv; hw_cons = bp->get_rx_cons(bp); sw_cons = bp->rx_cons; bd_cons = BNX2X_RX_BD(bp->rx_bd_cons); bd_prod = BNX2X_RX_BD(bp->rx_bd_prod); if (sw_cons != hw_cons) { uint16_t comp_ring_index = sw_cons & BNX2X_MAX_RCQ_DESC_CNT(bp); uint8_t ring_index; union eth_rx_cqe *cqe; __u8 cqe_fp_flags; void *rx_pkt; int len, pad, cqe_size, max_len; rc = 1; if (bnx2x_is_ver70(bp)) { cqe = (union eth_rx_cqe *) &bp->rx_comp_ring.cqe70[comp_ring_index]; cqe_size = sizeof(union eth_rx_cqe_70); } else { cqe = &bp->rx_comp_ring.cqe[comp_ring_index]; cqe_size = sizeof(union eth_rx_cqe); } cqe_fp_flags = cqe->fast_path_cqe.type_error_flags; LOG_PACKET(PFX "%s: clearing rx interrupt: %d %d", nic->log_name, sw_cons, hw_cons); msync(cqe, cqe_size, MS_SYNC); if (!(cqe_fp_flags & ETH_FAST_PATH_RX_CQE_TYPE)) { ring_index = bd_cons % 15; len = cqe->fast_path_cqe.pkt_len; pad = bnx2x_get_rx_pad(bp, cqe); rx_pkt = bp->rx_pkt_ring[ring_index] + pad; /* Doto query MTU size of physical device */ /* Ensure len is valid */ max_len = pkt->max_buf_size < bp->rx_buffer_size ? pkt->max_buf_size : bp->rx_buffer_size; if (len + pad > max_len) { LOG_DEBUG(PFX "%s: bad BD length: %d", nic->log_name, len); len = max_len - pad; } if (len > 0) { msync(rx_pkt, len, MS_SYNC); /* Copy the data */ memcpy(pkt->buf, rx_pkt, len); pkt->buf_size = len; /* Properly set the packet flags */ /* check if there is VLAN tagging */ if (cqe->fast_path_cqe.vlan_tag != 0) { pkt->vlan_tag = cqe->fast_path_cqe.vlan_tag; pkt->flags |= VLAN_TAGGED; } else { pkt->vlan_tag = 0; } LOG_PACKET(PFX "%s: processing packet length: %d", nic->log_name, len); /* bump the cnic dev recv statistics */ nic->stats.rx.packets++; nic->stats.rx.bytes += pkt->buf_size; } bd_cons = BNX2X_NEXT_RX_IDX(bd_cons); bd_prod = BNX2X_NEXT_RX_IDX(bd_prod); } sw_cons = BNX2X_NEXT_RCQ_IDX(bp, sw_cons); bp->rx_prod = BNX2X_NEXT_RCQ_IDX(bp, bp->rx_prod); } bp->rx_cons = sw_cons; bp->rx_bd_cons = bd_cons; bp->rx_bd_prod = bd_prod; bp->rx_hw_prod = hw_cons; if (rc) bnx2x_update_rx_prod(bp); return rc; } /******************************************************************************* * Clearing TX interrupts ******************************************************************************/ /** * bnx2x_clear_tx_intr() - This routine is called when a TX interrupt occurs * @param nic - the nic the interrupt occured on * @return 0 on success */ static int bnx2x_clear_tx_intr(nic_t *nic) { bnx2x_t *bp; uint16_t hw_cons; /* Sanity check: ensure the parameters passed in are valid */ if (unlikely(nic == NULL)) { LOG_ERR(PFX "bnx2x_read() nic == NULL"); return -EINVAL; } bp = (bnx2x_t *) nic->priv; hw_cons = bp->get_tx_cons(bp); if (bp->tx_cons == hw_cons) { if (bp->tx_cons == bp->tx_prod) { /* Make sure the xmit_mutex lock is unlock */ if (pthread_mutex_trylock(&nic->xmit_mutex)) LOG_ERR(PFX "bnx2x tx lock with prod == cons"); pthread_mutex_unlock(&nic->xmit_mutex); return 0; } return -EAGAIN; } LOG_PACKET(PFX "%s: clearing tx interrupt [%d %d]", nic->log_name, bp->tx_cons, hw_cons); bp->tx_cons = hw_cons; /* There is a queued TX packet that needs to be sent out. The usual * case is when stack will send an ARP packet out before sending the * intended packet */ if (nic->tx_packet_queue != NULL) { packet_t *pkt; int i; LOG_PACKET(PFX "%s: sending queued tx packet", nic->log_name); pkt = nic_dequeue_tx_packet(nic); /* Got a TX packet buffer of the TX queue and put it onto * the hardware */ if (pkt != NULL) { bnx2x_prepare_xmit_packet(nic, pkt->nic_iface, pkt); bnx2x_start_xmit(nic, pkt->buf_size, (pkt->nic_iface->vlan_priority << 12) | pkt->nic_iface->vlan_id); LOG_PACKET(PFX "%s: transmitted queued packet %d bytes " "dev->tx_cons: %d, dev->tx_prod: %d, " "dev->tx_bd_prod:%d", nic->log_name, pkt->buf_size, bp->tx_cons, bp->tx_prod, bp->tx_bd_prod); return 0; } /* Try to wait for a TX completion */ for (i = 0; i < 15; i++) { struct timespec sleep_req = {.tv_sec = 0, .tv_nsec = 5000000 }, sleep_rem; hw_cons = bp->get_tx_cons(bp); if (bp->tx_cons != hw_cons) { LOG_PACKET(PFX "%s: clearing tx interrupt [%d %d]", nic->log_name, bp->tx_cons, hw_cons); bp->tx_cons = hw_cons; break; } nanosleep(&sleep_req, &sleep_rem); } } pthread_mutex_unlock(&nic->xmit_mutex); return 0; } /******************************************************************************* * bnx2x NIC op's table ******************************************************************************/ struct nic_ops bnx2x_op = { .description = "bnx2x", .open = bnx2x_open, .close = bnx2x_close, .write = bnx2x_write, .get_tx_pkt = bnx2x_get_tx_pkt, .start_xmit = bnx2x_start_xmit, .read = bnx2x_read, .clear_tx_intr = bnx2x_clear_tx_intr, .handle_iscsi_path_req = cnic_handle_iscsi_path_req, .lib_ops = { .get_library_name = bnx2x_get_library_name, .get_pci_table = bnx2x_get_pci_table, .get_library_version = bnx2x_get_library_version, .get_build_date = bnx2x_get_build_date, .get_transport_name = bnx2x_get_transport_name, .get_uio_name = bnx2x_get_uio_name, }, }; open-iscsi-2.0.874/iscsiuio/src/unix/libs/bnx2x.h000066400000000000000000000535011277325716400215330ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * bnx2x.h - bnx2x user space driver * */ #ifndef __BNX2X_H__ #define __BNX2X_H__ #include "nic.h" /****************************************************************************** * Default CNIC values ******************************************************************************/ #define DEFAULT_BNX2X_NUM_RXBD 15 #define DEFAULT_BNX2X_RX_LEN 0x400 /****************************************************************************** * BNX2X Hardware structures ******************************************************************************/ #define HC_USTORM_DEF_SB_NUM_INDICES 8 #define HC_CSTORM_DEF_SB_NUM_INDICES 8 #define HC_XSTORM_DEF_SB_NUM_INDICES 4 #define HC_TSTORM_DEF_SB_NUM_INDICES 4 struct atten_def_status_block { volatile __u32 attn_bits; volatile __u32 attn_bits_ack; volatile __u8 status_block_id; volatile __u8 reserved0; volatile __u16 attn_bits_index; volatile __u32 reserved1; }; struct cstorm_def_status_block_u { volatile __u16 index_values[HC_USTORM_DEF_SB_NUM_INDICES]; volatile __u16 status_block_index; volatile __u8 func; volatile __u8 status_block_id; volatile __u32 __flags; }; struct cstorm_def_status_block_c { volatile __u16 index_values[HC_CSTORM_DEF_SB_NUM_INDICES]; volatile __u16 status_block_index; volatile __u8 func; volatile __u8 status_block_id; volatile __u32 __flags; }; struct xstorm_def_status_block { volatile __u16 index_values[HC_XSTORM_DEF_SB_NUM_INDICES]; volatile __u16 status_block_index; volatile __u8 func; volatile __u8 status_block_id; volatile __u32 __flags; }; struct tstorm_def_status_block { volatile __u16 index_values[HC_TSTORM_DEF_SB_NUM_INDICES]; volatile __u16 status_block_index; volatile __u8 func; volatile __u8 status_block_id; volatile __u32 __flags; }; struct host_def_status_block { struct atten_def_status_block atten_status_block; struct cstorm_def_status_block_u u_def_status_block; struct cstorm_def_status_block_c c_def_status_block; struct xstorm_def_status_block x_def_status_block; struct tstorm_def_status_block t_def_status_block; }; #define HC_INDEX_DEF_U_ETH_ISCSI_RX_CQ_CONS 1 #define HC_INDEX_DEF_U_ETH_ISCSI_RX_BD_CONS 3 #define HC_INDEX_DEF_C_ETH_ISCSI_CQ_CONS 5 struct atten_sp_status_block { __u32 attn_bits; __u32 attn_bits_ack; __u8 status_block_id; __u8 reserved0; __u16 attn_bits_index; __u32 reserved1; }; #define HC_SP_SB_MAX_INDICES 16 struct hc_sp_status_block { __u16 index_values[HC_SP_SB_MAX_INDICES]; __u16 running_index; __u16 rsrv; __u32 rsrv1; }; struct host_sp_status_block { struct atten_sp_status_block atten_status_block; struct hc_sp_status_block sp_sb; }; #define HC_SP_INDEX_ETH_ISCSI_CQ_CONS 5 #define HC_SP_INDEX_ETH_ISCSI_RX_CQ_CONS 1 /* * VLAN mode on TX BDs */ enum eth_tx_vlan_type { X_ETH_NO_VLAN = 0, X_ETH_OUTBAND_VLAN = 1, X_ETH_INBAND_VLAN = 2, X_ETH_FW_ADDED_VLAN = 3, MAX_ETH_TX_VLAN_TYPE }; /* TX Buffer descriptor */ struct eth_tx_bd_flags { __u8 as_bitfield; /* t6.X HSI */ #define ETH_TX_BD_FLAGS_IP_CSUM_T6X (0x1<<0) #define ETH_TX_BD_FLAGS_IP_CSUM_SHIFT_T6X 0 #define ETH_TX_BD_FLAGS_L4_CSUM_T6X (0x1<<1) #define ETH_TX_BD_FLAGS_L4_CSUM_SHIFT_T6X 1 #define ETH_TX_BD_FLAGS_VLAN_MODE_T6X (0x3<<2) #define ETH_TX_BD_FLAGS_VLAN_MODE_SHIFT_T6X 2 #define ETH_TX_BD_FLAGS_START_BD_T6X (0x1<<4) #define ETH_TX_BD_FLAGS_START_BD_SHIFT_T6X 4 #define ETH_TX_BD_FLAGS_IS_UDP_T6X (0x1<<5) #define ETH_TX_BD_FLAGS_IS_UDP_SHIFT_T6X 5 #define ETH_TX_BD_FLAGS_SW_LSO_T6X (0x1<<6) #define ETH_TX_BD_FLAGS_SW_LSO_SHIFT_T6X 6 #define ETH_TX_BD_FLAGS_IPV6_T6X (0x1<<7) #define ETH_TX_BD_FLAGS_IPV6_SHIFT_T6X 7 /* Legacy t5.2 HSI defines */ #define ETH_TX_BD_FLAGS_VLAN_TAG_T5X (0x1<<0) #define ETH_TX_BD_FLAGS_VLAN_TAG_SHIFT_T5X 0 #define ETH_TX_BD_FLAGS_IP_CSUM_T5X (0x1<<1) #define ETH_TX_BD_FLAGS_IP_CSUM_SHIFT_T5X 1 #define ETH_TX_BD_FLAGS_L4_CSUM_T5X (0x1<<2) #define ETH_TX_BD_FLAGS_L4_CSUM_SHIFT_T5X 2 #define ETH_TX_BD_FLAGS_END_BD_T5X (0x1<<3) #define ETH_TX_BD_FLAGS_END_BD_SHIFT_T5X 3 #define ETH_TX_BD_FLAGS_START_BD_T5X (0x1<<4) #define ETH_TX_BD_FLAGS_START_BD_SHIFT_T5X 4 #define ETH_TX_BD_FLAGS_HDR_POOL_T5X (0x1<<5) #define ETH_TX_BD_FLAGS_HDR_POOL_SHIFT_T5X 5 #define ETH_TX_BD_FLAGS_SW_LSO_T5X (0x1<<6) #define ETH_TX_BD_FLAGS_SW_LSO_SHIFT_T5X 6 #define ETH_TX_BD_FLAGS_IPV6_T5X (0x1<<7) #define ETH_TX_BD_FLAGS_IPV6_SHIFT_T5X 7 }; #define ETH_TX_BD_FLAGS_VLAN_TAG_T6X \ (X_ETH_OUTBAND_VLAN << ETH_TX_BD_FLAGS_VLAN_MODE_SHIFT_T6X) #define BNX2X_SET_TX_VLAN(bp, txbd, vlan_id) \ do { \ if (vlan_id) { \ (txbd)->vlan = vlan_id; \ (txbd)->bd_flags.as_bitfield |= \ (bp)->tx_vlan_tag_bit; \ } else { \ (txbd)->vlan = (bp)->tx_prod; \ (txbd)->bd_flags.as_bitfield &= \ ~(bp)->tx_vlan_tag_bit; \ } \ } while (0) struct eth_tx_start_bd { __u32 addr_lo; __u32 addr_hi; __u16 nbd; __u16 nbytes; __u16 vlan; struct eth_tx_bd_flags bd_flags; __u8 general_data; #define ETH_TX_START_BD_HDR_NBDS (0x3F<<0) #define ETH_TX_START_BD_HDR_NBDS_SHIFT 0 #define ETH_TX_START_BD_ETH_ADDR_TYPE (0x3<<6) #define ETH_TX_START_BD_ETH_ADDR_TYPE_SHIFT 6 }; struct eth_tx_bd { __u32 addr_lo; __u32 addr_hi; __u16 total_pkt_bytes; __u16 nbytes; __u8 reserved[4]; }; /* RX Buffer descriptor */ struct eth_rx_bd { __u32 addr_lo; __u32 addr_hi; }; struct ramrod_data { volatile __u32 data_lo; volatile __u32 data_hi; }; struct common_ramrod_eth_rx_cqe { volatile __u8 ramrod_type; #define COMMON_RAMROD_ETH_RX_CQE_TYPE (0x1<<0) #define COMMON_RAMROD_ETH_RX_CQE_TYPE_SHIFT 0 #define COMMON_RAMROD_ETH_RX_CQE_RESERVED0 (0x7F<<1) #define COMMON_RAMROD_ETH_RX_CQE_RESERVED0_SHIFT 1 volatile __u8 conn_type; volatile __u16 reserved1; volatile __u32 conn_and_cmd_data; #define COMMON_RAMROD_ETH_RX_CQE_CID (0xFFFFFF<<0) #define COMMON_RAMROD_ETH_RX_CQE_CID_SHIFT 0 #define COMMON_RAMROD_ETH_RX_CQE_CMD_ID (0xFF<<24) #define COMMON_RAMROD_ETH_RX_CQE_CMD_ID_SHIFT 24 struct ramrod_data protocol_data; __u32 reserved2[4]; }; struct common_ramrod_eth_rx_cqe_70 { volatile __u8 ramrod_type; volatile __u8 conn_type; volatile __u16 reserved1; volatile __u32 conn_and_cmd_data; struct ramrod_data protocol_data; __u32 echo; __u32 reserved2[11]; }; struct parsing_flags { volatile __u16 flags; }; struct eth_fast_path_rx_cqe { volatile __u8 type_error_flags; #define ETH_FAST_PATH_RX_CQE_TYPE (0x1<<0) #define ETH_FAST_PATH_RX_CQE_TYPE_SHIFT 0 #define ETH_FAST_PATH_RX_CQE_PHY_DECODE_ERR_FLG (0x1<<1) #define ETH_FAST_PATH_RX_CQE_PHY_DECODE_ERR_FLG_SHIFT 1 #define ETH_FAST_PATH_RX_CQE_IP_BAD_XSUM_FLG (0x1<<2) #define ETH_FAST_PATH_RX_CQE_IP_BAD_XSUM_FLG_SHIFT 2 #define ETH_FAST_PATH_RX_CQE_L4_BAD_XSUM_FLG (0x1<<3) #define ETH_FAST_PATH_RX_CQE_L4_BAD_XSUM_FLG_SHIFT 3 #define ETH_FAST_PATH_RX_CQE_START_FLG (0x1<<4) #define ETH_FAST_PATH_RX_CQE_START_FLG_SHIFT 4 #define ETH_FAST_PATH_RX_CQE_END_FLG (0x1<<5) #define ETH_FAST_PATH_RX_CQE_END_FLG_SHIFT 5 #define ETH_FAST_PATH_RX_CQE_RESERVED0 (0x3<<6) #define ETH_FAST_PATH_RX_CQE_RESERVED0_SHIFT 6 volatile __u8 status_flags; #define ETH_FAST_PATH_RX_CQE_RSS_HASH_TYPE (0x7<<0) #define ETH_FAST_PATH_RX_CQE_RSS_HASH_TYPE_SHIFT 0 #define ETH_FAST_PATH_RX_CQE_RSS_HASH_FLG (0x1<<3) #define ETH_FAST_PATH_RX_CQE_RSS_HASH_FLG_SHIFT 3 #define ETH_FAST_PATH_RX_CQE_BROADCAST_FLG (0x1<<4) #define ETH_FAST_PATH_RX_CQE_BROADCAST_FLG_SHIFT 4 #define ETH_FAST_PATH_RX_CQE_MAC_MATCH_FLG (0x1<<5) #define ETH_FAST_PATH_RX_CQE_MAC_MATCH_FLG_SHIFT 5 #define ETH_FAST_PATH_RX_CQE_IP_XSUM_NO_VALIDATION_FLG (0x1<<6) #define ETH_FAST_PATH_RX_CQE_IP_XSUM_NO_VALIDATION_FLG_SHIFT 6 #define ETH_FAST_PATH_RX_CQE_L4_XSUM_NO_VALIDATION_FLG (0x1<<7) #define ETH_FAST_PATH_RX_CQE_L4_XSUM_NO_VALIDATION_FLG_SHIFT 7 volatile __u8 placement_offset; volatile __u8 queue_index; volatile __u32 rss_hash_result; volatile __u16 vlan_tag; volatile __u16 pkt_len; volatile __u16 len_on_bd; struct parsing_flags pars_flags; volatile __u16 sgl[8]; }; union eth_sgl_or_raw_data { volatile __u16 sgl[8]; volatile __u32 raw_data[4]; }; struct eth_fast_path_rx_cqe_64 { volatile __u8 type_error_flags; #define ETH_FAST_PATH_RX_CQE_TYPE_64 (0x3<<0) #define ETH_FAST_PATH_RX_CQE_TYPE_SHIFT_64 0 #define ETH_FAST_PATH_RX_CQE_SGL_RAW_SEL (0x1<<2) #define ETH_FAST_PATH_RX_CQE_SGL_RAW_SEL_SHIFT 2 #define ETH_FAST_PATH_RX_CQE_PHY_DECODE_ERR_FLG_64 (0x1<<3) #define ETH_FAST_PATH_RX_CQE_PHY_DECODE_ERR_FLG_SHIFT_64 3 #define ETH_FAST_PATH_RX_CQE_IP_BAD_XSUM_FLG_64 (0x1<<4) #define ETH_FAST_PATH_RX_CQE_IP_BAD_XSUM_FLG_SHIFT_64 4 #define ETH_FAST_PATH_RX_CQE_L4_BAD_XSUM_FLG_64 (0x1<<5) #define ETH_FAST_PATH_RX_CQE_L4_BAD_XSUM_FLG_SHIFT_64 5 #define ETH_FAST_PATH_RX_CQE_RESERVED0_64 (0x3<<6) #define ETH_FAST_PATH_RX_CQE_RESERVED0_SHIFT_64 6 volatile __u8 status_flags; #define ETH_FAST_PATH_RX_CQE_RSS_HASH_TYPE (0x7<<0) #define ETH_FAST_PATH_RX_CQE_RSS_HASH_TYPE_SHIFT 0 #define ETH_FAST_PATH_RX_CQE_RSS_HASH_FLG (0x1<<3) #define ETH_FAST_PATH_RX_CQE_RSS_HASH_FLG_SHIFT 3 #define ETH_FAST_PATH_RX_CQE_BROADCAST_FLG (0x1<<4) #define ETH_FAST_PATH_RX_CQE_BROADCAST_FLG_SHIFT 4 #define ETH_FAST_PATH_RX_CQE_MAC_MATCH_FLG (0x1<<5) #define ETH_FAST_PATH_RX_CQE_MAC_MATCH_FLG_SHIFT 5 #define ETH_FAST_PATH_RX_CQE_IP_XSUM_NO_VALIDATION_FLG (0x1<<6) #define ETH_FAST_PATH_RX_CQE_IP_XSUM_NO_VALIDATION_FLG_SHIFT 6 #define ETH_FAST_PATH_RX_CQE_L4_XSUM_NO_VALIDATION_FLG (0x1<<7) #define ETH_FAST_PATH_RX_CQE_L4_XSUM_NO_VALIDATION_FLG_SHIFT 7 volatile __u8 queue_index; volatile __u8 placement_offset; volatile __u32 rss_hash_result; volatile __u16 vlan_tag; volatile __u16 pkt_len; volatile __u16 len_on_bd; struct parsing_flags pars_flags; union eth_sgl_or_raw_data sgl_or_raw_data; }; struct eth_fast_path_rx_cqe_70 { volatile __u8 type_error_flags; volatile __u8 status_flags; volatile __u8 queue_index; volatile __u8 placement_offset; volatile __u32 rss_hash_result; volatile __u16 vlan_tag; volatile __u16 pkt_len; volatile __u16 len_on_bd; struct parsing_flags pars_flags; union eth_sgl_or_raw_data sgl_or_raw_data; __u32 reserved1[8]; }; struct eth_rx_cqe_next_page { __u32 addr_lo; __u32 addr_hi; __u32 reserved[6]; }; struct eth_rx_cqe_next_page_70 { __u32 addr_lo; __u32 addr_hi; __u32 reserved[14]; }; union eth_rx_cqe { struct eth_fast_path_rx_cqe fast_path_cqe; struct eth_fast_path_rx_cqe_64 fast_path_cqe_64; struct common_ramrod_eth_rx_cqe ramrod_cqe; struct eth_rx_cqe_next_page next_page_cqe; }; union eth_rx_cqe_70 { struct eth_fast_path_rx_cqe_70 fast_path_cqe_70; struct common_ramrod_eth_rx_cqe_70 ramrod_cqe_70; struct eth_rx_cqe_next_page_70 next_page_cqe_70; }; struct uio_init_data { __u32 cid; __u32 tx_db_off; __u32 cid_override_key; #define UIO_USE_TX_DOORBELL 0x017855DB }; struct client_init_general_data { __u8 client_id; __u8 statistics_counter_id; __u8 statistics_en_flg; __u8 is_fcoe_flg; __u8 activate_flg; __u8 sp_client_id; __u16 mtu; __u8 statistics_zero_flg; __u8 func_id; __u8 cos; __u8 traffic_type; struct uio_init_data uid; }; /****************************************************************************** * BNX2X Registers and HSI ******************************************************************************/ #define BNX2X_BAR_SIZE 0x500000 #define BNX2X_BAR2_SIZE 0x12000 #define BNX2X_CHIP_ID(bp) (bp->chip_id & 0xfffffff0) #define PORT_MAX 2 /* [R 4] This field indicates the type of the device. '0' - 2 Ports; '1' - 1 * Port. */ #define BNX2X_MISC_REG_BOND_ID 0xa400 /* [R 8] These bits indicate the metal revision of the chip. This value * starts at 0x00 for each all-layer tape-out and increments by one for each * tape-out. */ #define BNX2X_MISC_REG_CHIP_METAL 0xa404 /* [R 16] These bits indicate the part number for the chip. */ #define BNX2X_MISC_REG_CHIP_NUM 0xa408 /* [R 4] These bits indicate the base revision of the chip. This value * starts at 0x0 for the A0 tape-out and increments by one for each * all-layer tape-out. */ #define BNX2X_MISC_REG_CHIP_REV 0xa40c /* From the bnx2x driver */ #define CHIP_NUM(bp) (bp->chip_id >> 16) #define CHIP_NUM_57710 0x164e #define CHIP_NUM_57711 0x164f #define CHIP_NUM_57711E 0x1650 #define CHIP_NUM_57712 0x1662 #define CHIP_NUM_57712_MF 0x1663 #define CHIP_NUM_57712_VF 0x166f #define CHIP_NUM_57713 0x1651 #define CHIP_NUM_57713E 0x1652 #define CHIP_NUM_57800 0x168a #define CHIP_NUM_57800_MF 0x16a5 #define CHIP_NUM_57800_VF 0x16a9 #define CHIP_NUM_57810 0x168e #define CHIP_NUM_57810_MF 0x16ae #define CHIP_NUM_57810_VF 0x16af #define CHIP_NUM_57811 0x163d #define CHIP_NUM_57811_MF 0x163e #define CHIP_NUM_57811_VF 0x163f #define CHIP_NUM_57840_OBSOLETE 0x168d #define CHIP_NUM_57840_MF_OBSOLETE 0x16ab #define CHIP_NUM_57840_4_10 0x16a1 #define CHIP_NUM_57840_2_20 0x16a2 #define CHIP_NUM_57840_MF 0x16a4 #define CHIP_NUM_57840_VF 0x16ad #define CHIP_IS_E1(bp) (CHIP_NUM(bp) == CHIP_NUM_57710) #define CHIP_IS_57711(bp) (CHIP_NUM(bp) == CHIP_NUM_57711) #define CHIP_IS_57711E(bp) (CHIP_NUM(bp) == CHIP_NUM_57711E) #define CHIP_IS_57712(bp) (CHIP_NUM(bp) == CHIP_NUM_57712) #define CHIP_IS_57712_VF(bp) (CHIP_NUM(bp) == CHIP_NUM_57712_VF) #define CHIP_IS_57712_MF(bp) (CHIP_NUM(bp) == CHIP_NUM_57712_MF) #define CHIP_IS_57800(bp) (CHIP_NUM(bp) == CHIP_NUM_57800) #define CHIP_IS_57800_VF(bp) (CHIP_NUM(bp) == CHIP_NUM_57800_MF) #define CHIP_IS_57800_MF(bp) (CHIP_NUM(bp) == CHIP_NUM_57800_VF) #define CHIP_IS_57810(bp) (CHIP_NUM(bp) == CHIP_NUM_57810) #define CHIP_IS_57810_VF(bp) (CHIP_NUM(bp) == CHIP_NUM_57810_MF) #define CHIP_IS_57810_MF(bp) (CHIP_NUM(bp) == CHIP_NUM_57810_VF) #define CHIP_IS_57811(bp) (CHIP_NUM(bp) == CHIP_NUM_57811) #define CHIP_IS_57811_VF(bp) (CHIP_NUM(bp) == CHIP_NUM_57811_MF) #define CHIP_IS_57811_MF(bp) (CHIP_NUM(bp) == CHIP_NUM_57811_VF) #define CHIP_IS_57840(bp) \ ((CHIP_NUM(bp) == CHIP_NUM_57840_4_10) || \ (CHIP_NUM(bp) == CHIP_NUM_57840_2_20) || \ (CHIP_NUM(bp) == CHIP_NUM_57840_OBSOLETE)) #define CHIP_IS_57840_MF(bp) ((CHIP_NUM(bp) == CHIP_NUM_57840_MF) || \ (CHIP_NUM(bp) == CHIP_NUM_57840_MF_OBSOLETE)) #define CHIP_IS_57840_VF(bp) (CHIP_NUM(bp) == CHIP_NUM_57840_VF) #define CHIP_IS_E1H(bp) (CHIP_IS_57711(bp) || \ CHIP_IS_57711E(bp)) #define CHIP_IS_E2(bp) (CHIP_IS_57712(bp) || \ CHIP_IS_57712_MF(bp) || \ CHIP_IS_57712_VF(bp)) #define CHIP_IS_E3(bp) (CHIP_IS_57800(bp) || \ CHIP_IS_57800_MF(bp) || \ CHIP_IS_57800_VF(bp) || \ CHIP_IS_57810(bp) || \ CHIP_IS_57810_MF(bp) || \ CHIP_IS_57810_VF(bp) || \ CHIP_IS_57840(bp) || \ CHIP_IS_57840_MF(bp) || \ CHIP_IS_57840_VF(bp) || \ CHIP_IS_57811(bp) || \ CHIP_IS_57811_MF(bp) || \ CHIP_IS_57811_VF(bp)) #define CHIP_IS_E1x(bp) (CHIP_IS_E1((bp)) || CHIP_IS_E1H((bp))) #define USES_WARPCORE(bp) (CHIP_IS_E3(bp)) #define IS_E1H_OFFSET (!CHIP_IS_E1H(bp)) /* End of From the bnx2x driver */ #define CHIP_IS_E2_PLUS(bp) (CHIP_IS_E2(bp) || CHIP_IS_E3(bp)) #define MISC_REG_SHARED_MEM_ADDR 0xa2b4 #define MISC_REG_BOND_ID 0xa400 #define MISC_REG_CHIP_METAL 0xa404 #define MISC_REG_CHIP_NUM 0xa408 #define MISC_REG_CHIP_REV 0xa40c #define MISC_REG_PORT4MODE_EN 0xa750 #define MISC_REG_PORT4MODE_EN_OVWR 0xa720 #define MISC_REG_GENERIC_CR_0 0xa460 #define MISC_REG_GENERIC_CR_1 0xa464 #define BAR_USTRORM_INTMEM 0x400000 #define BAR_CSTRORM_INTMEM 0x410000 #define BAR_XSTRORM_INTMEM 0x420000 #define BAR_TSTRORM_INTMEM 0x430000 #define BAR_ME_REGISTER 0x450000 #define ME_REG_PF_NUM_SHIFT 0 #define ME_REG_PF_NUM\ (7L<iro[bp->iro_idx]) #define USTORM_RX_PRODS_E1X_OFFSET(port, client_id) \ (IRO_ENT.base + ((port) * IRO_ENT.m1) + ((client_id) * IRO_ENT.m2)) #define USTORM_RX_PRODS_E2_OFFSET(qzone_id) \ (IRO_ENT.base + ((qzone_id) * IRO_ENT.m1)) #define ETH_MAX_RX_CLIENTS_E1H 28 #define ETH_MAX_RX_CLIENTS_E2 28 #define BNX2X_CL_QZONE_ID(bp, cli) \ (cli + (bp->port * (CHIP_IS_E2(bp) ? \ ETH_MAX_RX_CLIENTS_E2 : \ ETH_MAX_RX_CLIENTS_E1H))) #define BNX2X_CL_QZONE_ID_64(bp, cli) \ (CHIP_IS_E2_PLUS(bp) ? (cli) : \ (cli + (bp->port * ETH_MAX_RX_CLIENTS_E1H))) #define BNX2X_PATH(bp) (!CHIP_IS_E2_PLUS(bp) ? 0 : (bp)->func & 1) #define SHMEM_P0_ISCSI_MAC_UPPER 0x4c #define SHMEM_P0_ISCSI_MAC_LOWER 0x50 #define SHMEM_P1_ISCSI_MAC_UPPER 0x1dc #define SHMEM_P1_ISCSI_MAC_LOWER 0x1e0 #define SHMEM_ISCSI_MAC_UPPER(bp) \ (((bp)->port == 0) ? \ SHMEM_P0_ISCSI_MAC_UPPER : SHMEM_P1_ISCSI_MAC_UPPER) #define SHMEM_ISCSI_MAC_LOWER(bp) \ (((bp)->port == 0) ? \ SHMEM_P0_ISCSI_MAC_LOWER : SHMEM_P1_ISCSI_MAC_LOWER) #define BNX2X_RCQ_DESC_CNT (4096 / sizeof(union eth_rx_cqe)) #define BNX2X_RCQ_DESC_CNT_70 (4096 / sizeof(union eth_rx_cqe_70)) #define BNX2X_MAX_RCQ_DESC_CNT(bp) \ ((bnx2x_is_ver70(bp) ? BNX2X_RCQ_DESC_CNT_70 : BNX2X_RCQ_DESC_CNT) - 1) #define BNX2X_RX_DESC_CNT (4096 / sizeof(struct eth_rx_bd)) #define BNX2X_MAX_RX_DESC_CNT (BNX2X_RX_DESC_CNT - 2) #define BNX2X_NUM_RX_BD (BNX2X_RX_DESC_CNT * 1) #define BNX2X_MAX_RX_BD (BNX2X_NUM_RX_BD - 1) #define BNX2X_TX_DESC_CNT (4096 / sizeof(struct eth_tx_start_bd)) #define BNX2X_MAX_TX_DESC_CNT (BNX2X_TX_DESC_CNT - 1) #define BNX2X_NEXT_RX_IDX(x) ((((x) & (BNX2X_RX_DESC_CNT - 1)) == \ (BNX2X_MAX_RX_DESC_CNT - 1)) ? \ (x) + 3 : (x) + 1) #define BNX2X_NEXT_RCQ_IDX(bp, x) \ ((((x) & BNX2X_MAX_RCQ_DESC_CNT(bp)) == \ (BNX2X_MAX_RCQ_DESC_CNT(bp) - 1)) ? (x) + 2 : (x) + 1) #define BNX2X_RX_BD(x) ((x) & BNX2X_MAX_RX_BD) #define BNX2X_NEXT_TX_BD(x) ((((x) & (BNX2X_MAX_TX_DESC_CNT - 1)) == \ (BNX2X_MAX_TX_DESC_CNT - 1)) ? \ (x) + 2 : (x) + 1) #define BNX2X_TX_RING_IDX(x) ((x) & BNX2X_MAX_TX_DESC_CNT) struct ustorm_eth_rx_producers { __u16 cqe_prod; __u16 bd_prod; __u16 sge_prod; __u16 reserved; }; #define BNX2X_UNKNOWN_MAJOR_VERSION -1 #define BNX2X_UNKNOWN_MINOR_VERSION -1 #define BNX2X_UNKNOWN_SUB_MINOR_VERSION -1 struct bnx2x_driver_version { uint16_t major; uint16_t minor; uint16_t sub_minor; }; typedef struct bnx2x { nic_t *parent; struct bnx2x_driver_version version; uint16_t flags; #define CNIC_UIO_UNITIALIZED 0x0001 #define CNIC_UIO_INITIALIZED 0x0002 #define CNIC_UIO_ENABLED 0x0004 #define CNIC_UIO_DISABLED 0x0008 #define CNIC_UIO_IPv6_ENABLED 0x0010 #define CNIC_UIO_ADDED_MULICAST 0x0020 #define CNIC_UIO_MSIX_ENABLED 0x0200 #define CNIC_UIO_TX_HAS_SENT 0x0400 #define BNX2X_OPENED 0x0800 void *reg; /* Pointer to the BAR1 mapped registers */ void *reg2; /* Pointer to the BAR2 mapped registers */ int bar0_fd; int bar2_fd; __u32 chip_id; __u32 shmem_base; __u32 shmem_base2; int func; int port; int pfid; __u32 cid; __u32 client_id; struct iro *iro; int iro_idx; __u32 tx_doorbell; __u16 tx_prod; __u16 tx_bd_prod; __u16 tx_cons; __u8 tx_vlan_tag_bit; __u32 rx_prod_io; __u16 rx_prod; __u16 rx_bd_prod; __u16 rx_cons; __u16 rx_bd_cons; __u16 rx_hw_prod; __u16(*get_rx_cons) (struct bnx2x *); __u16(*get_tx_cons) (struct bnx2x *); /* RX ring parameters */ uint32_t rx_ring_size; uint32_t rx_buffer_size; void *bufs; /* Pointer to the mapped buffer space */ /* Hardware Status Block locations */ void *sblk_map; union { struct host_def_status_block *def; struct host_sp_status_block *sp; } status_blk; int status_blk_size; uint16_t rx_index; union { union eth_rx_cqe *cqe; union eth_rx_cqe_70 *cqe70; } rx_comp_ring; void **rx_pkt_ring; struct eth_tx_start_bd *tx_ring; void *tx_pkt; } bnx2x_t; /****************************************************************************** * bnx2x Function Declarations ******************************************************************************/ void bnx2x_start_xmit(nic_t *nic, size_t len, u16_t vlan_id); struct nic_ops *bnx2x_get_ops(); #endif /* __BNX2X_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/libs/cnic.c000066400000000000000000000471771277325716400214150ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * cnic.c - CNIC UIO uIP user space stack * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "uip_arp.h" #include "nic.h" #include "nic_utils.h" #include "logger.h" #include "options.h" #include "cnic.h" #include "iscsi_if.h" #include "ipv6_ndpc.h" /******************************************************************************* * Constants ******************************************************************************/ #define PFX "CNIC " static const uip_ip6addr_t all_ones_addr6 = { 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff }; /******************************************************************************* * Constants shared between the bnx2 and bnx2x modules ******************************************************************************/ const char bnx2i_library_transport_name[] = "bnx2i"; const size_t bnx2i_library_transport_name_size = sizeof(bnx2i_library_transport_name); /****************************************************************************** * Netlink Functions ******************************************************************************/ static int cnic_arp_send(nic_t *nic, nic_interface_t *nic_iface, int fd, __u8 *mac_addr, __u32 ip_addr, char *addr_str) { struct ether_header *eth; struct ether_arp *arp; __u32 dst_ip = ip_addr; int pkt_size = sizeof(*eth) + sizeof(*arp); int rc; struct in_addr addr; static const uint8_t multicast_mac[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff }; rc = pthread_mutex_trylock(&nic->xmit_mutex); if (rc != 0) { LOG_DEBUG(PFX "%s: could not get xmit_mutex", nic->log_name); return -EAGAIN; } eth = (*nic->ops->get_tx_pkt) (nic); if (eth == NULL) { LOG_WARN(PFX "%s: couldn't get tx packet", nic->log_name); return -EAGAIN; } nic_fill_ethernet_header(nic_iface, eth, nic->mac_addr, (void *)multicast_mac, &pkt_size, (void *)&arp, ETHERTYPE_ARP); arp->arp_hrd = htons(ARPHRD_ETHER); arp->arp_pro = htons(ETHERTYPE_IP); arp->arp_hln = ETH_ALEN; arp->arp_pln = 4; arp->arp_op = htons(ARPOP_REQUEST); memcpy(arp->arp_sha, nic->mac_addr, ETH_ALEN); memset(arp->arp_tha, 0, ETH_ALEN); /* Copy the IP address's into the ARP response */ memcpy(arp->arp_spa, nic_iface->ustack.hostaddr, 4); memcpy(arp->arp_tpa, &dst_ip, 4); (*nic->nic_library->ops->start_xmit) (nic, pkt_size, (nic_iface->vlan_priority << 12) | nic_iface->vlan_id); memcpy(&addr.s_addr, &dst_ip, sizeof(addr.s_addr)); LOG_DEBUG(PFX "%s: Sent cnic arp request for IP: %s", nic->log_name, addr_str); return 0; } static int cnic_neigh_soliciation_send(nic_t *nic, nic_interface_t *nic_iface, int fd, __u8 *mac_addr, struct in6_addr *addr6_dst, char *addr_str) { struct ether_header *eth; struct ip6_hdr *ipv6_hdr; int rc, pkt_size; char buf[INET6_ADDRSTRLEN]; struct ndpc_reqptr req_ptr; rc = pthread_mutex_trylock(&nic->xmit_mutex); if (rc != 0) { LOG_WARN(PFX "%s: could not get xmit_mutex", nic->log_name); return -EAGAIN; } /* Build the ethernet header */ eth = (*nic->ops->get_tx_pkt) (nic); if (eth == NULL) { LOG_WARN(PFX "%s: couldn't get tx packet", nic->log_name); return -EAGAIN; } /* Copy the requested target address to the ipv6.dst */ ipv6_hdr = (struct ip6_hdr *)((u8_t *) eth + sizeof(struct ether_header)); memcpy(ipv6_hdr->ip6_dst.s6_addr, addr6_dst->s6_addr, sizeof(struct in6_addr)); nic_fill_ethernet_header(nic_iface, eth, nic->mac_addr, nic->mac_addr, &pkt_size, (void *)&ipv6_hdr, ETHERTYPE_IPV6); req_ptr.eth = (void *)eth; req_ptr.ipv6 = (void *)ipv6_hdr; if (ndpc_request(&nic_iface->ustack, &req_ptr, &pkt_size, NEIGHBOR_SOLICIT)) return -EAGAIN; /* Debug to print out the pkt context */ inet_ntop(AF_INET6, ipv6_hdr->ip6_dst.s6_addr, buf, sizeof(buf)); LOG_DEBUG(PFX "%s: ipv6 dst addr: %s", nic->log_name, buf); LOG_DEBUG(PFX "neighbor sol content " "dst mac %02x:%02x:%02x:%02x:%02x:%02x", eth->ether_dhost[0], eth->ether_dhost[1], eth->ether_dhost[2], eth->ether_dhost[3], eth->ether_dhost[4], eth->ether_dhost[5]); LOG_DEBUG(PFX "src mac %02x:%02x:%02x:%02x:%02x:%02x", eth->ether_shost[0], eth->ether_shost[1], eth->ether_shost[2], eth->ether_shost[3], eth->ether_shost[4], eth->ether_shost[5]); (*nic->nic_library->ops->start_xmit) (nic, pkt_size, (nic_iface->vlan_priority << 12) | nic_iface->vlan_id); LOG_DEBUG(PFX "%s: Sent cnic ICMPv6 neighbor request %s", nic->log_name, addr_str); return 0; } static int cnic_nl_neigh_rsp(nic_t *nic, int fd, struct iscsi_uevent *ev, struct iscsi_path *path_req, __u8 *mac_addr, nic_interface_t *nic_iface, int status, int type) { int rc; uint8_t *ret_buf; struct iscsi_uevent *ret_ev; struct iscsi_path *path_rsp; struct sockaddr_nl dest_addr; char addr_dst_str[INET6_ADDRSTRLEN]; memset(&dest_addr, 0, sizeof(dest_addr)); dest_addr.nl_family = AF_NETLINK; dest_addr.nl_pid = 0; dest_addr.nl_groups = 0; /* unicast */ ret_buf = calloc(1, NLMSG_SPACE(sizeof(struct iscsi_uevent) + 256)); if (ret_buf == NULL) { LOG_ERR(PFX "Could not allocate memory for path req resposne"); return -ENOMEM; } memset(ret_buf, 0, NLMSG_SPACE(sizeof(struct iscsi_uevent) + 256)); /* prepare the iscsi_uevent buffer */ ret_ev = (struct iscsi_uevent *)ret_buf; ret_ev->type = ISCSI_UEVENT_PATH_UPDATE; ret_ev->transport_handle = ev->transport_handle; ret_ev->u.set_path.host_no = ev->r.req_path.host_no; /* Prepare the iscsi_path buffer */ path_rsp = (struct iscsi_path *)(ret_buf + sizeof(*ret_ev)); path_rsp->handle = path_req->handle; if (type == AF_INET) { path_rsp->ip_addr_len = 4; memcpy(&path_rsp->src.v4_addr, nic_iface->ustack.hostaddr, sizeof(nic_iface->ustack.hostaddr)); inet_ntop(AF_INET, &path_rsp->src.v4_addr, addr_dst_str, sizeof(addr_dst_str)); } else { u8_t *src_ipv6; int ret; /* Depending on the IPv6 address of the target we will need to * determine whether we use the assigned IPv6 address or the * link local IPv6 address */ if (ndpc_request(&nic_iface->ustack, &path_req->dst.v6_addr, &ret, CHECK_LINK_LOCAL_ADDR)) { src_ipv6 = (u8_t *)all_zeroes_addr6; LOG_DEBUG(PFX "RSP Check LL failed"); goto src_done; } if (ret) { /* Get link local IPv6 address */ src_ipv6 = (u8_t *)&nic_iface->ustack.linklocal6; } else { if (ndpc_request(&nic_iface->ustack, &path_req->dst.v6_addr, &src_ipv6, GET_HOST_ADDR)) { src_ipv6 = (u8_t *)all_zeroes_addr6; LOG_DEBUG(PFX "RSP Get host addr failed"); } if (src_ipv6 == NULL) { src_ipv6 = (u8_t *)all_zeroes_addr6; LOG_DEBUG(PFX "RSP no Best matched addr found"); } } src_done: path_rsp->ip_addr_len = 16; memcpy(&path_rsp->src.v6_addr, src_ipv6, sizeof(nic_iface->ustack.hostaddr6)); inet_ntop(AF_INET6, &path_rsp->src.v6_addr, addr_dst_str, sizeof(addr_dst_str)); } memcpy(path_rsp->mac_addr, mac_addr, 6); path_rsp->vlan_id = (nic_iface->vlan_priority << 12) | nic_iface->vlan_id; path_rsp->pmtu = nic_iface->mtu ? nic_iface->mtu : path_req->pmtu; rc = __kipc_call(fd, ret_ev, sizeof(*ret_ev) + sizeof(*path_rsp)); if (rc > 0) { LOG_DEBUG(PFX "neighbor reply sent back to kernel " "%s at %02x:%02x:%02x:%02x:%02x:%02x with vlan %d", addr_dst_str, mac_addr[0], mac_addr[1], mac_addr[2], mac_addr[3], mac_addr[4], mac_addr[5], nic_iface->vlan_id); } else { LOG_ERR(PFX "send neighbor reply failed: %d", rc); } free(ret_buf); return rc; } static const struct timeval tp_wait = { .tv_sec = 0, .tv_usec = 250000, }; /** * cnic_handle_ipv4_iscsi_path_req() - This function will handle the IPv4 * path req calls the bnx2i kernel module * @param nic - The nic the message is directed towards * @param fd - The file descriptor to be used to extract the private data * @param ev - The iscsi_uevent * @param buf - The private message buffer */ int cnic_handle_ipv4_iscsi_path_req(nic_t *nic, int fd, struct iscsi_uevent *ev, struct iscsi_path *path, nic_interface_t *nic_iface) { struct in_addr src_addr, dst_addr, src_matching_addr, dst_matching_addr, netmask; __u8 mac_addr[6]; int rc; uint16_t arp_retry; int status = 0; #define MAX_ARP_RETRY 4 memset(mac_addr, 0, sizeof(mac_addr)); memcpy(&dst_addr, &path->dst.v4_addr, sizeof(dst_addr)); memcpy(&src_addr, nic_iface->ustack.hostaddr, sizeof(src_addr)); if (nic_iface->ustack.netmask[0] | nic_iface->ustack.netmask[1]) memcpy(&netmask.s_addr, nic_iface->ustack.netmask, sizeof(src_addr)); else netmask.s_addr = calculate_default_netmask(dst_addr.s_addr); src_matching_addr.s_addr = src_addr.s_addr & netmask.s_addr; dst_matching_addr.s_addr = dst_addr.s_addr & netmask.s_addr; LOG_DEBUG(PFX "%s: src=%s", nic->log_name, inet_ntoa(src_addr)); LOG_DEBUG(PFX "%s: dst=%s", nic->log_name, inet_ntoa(dst_addr)); LOG_DEBUG(PFX "%s: nm=%s", nic->log_name, inet_ntoa(netmask)); if (src_matching_addr.s_addr != dst_matching_addr.s_addr) { /* If there is an assigned gateway address then use it * if the source address doesn't match */ if (nic_iface->ustack.default_route_addr[0] | nic_iface->ustack.default_route_addr[1]) { memcpy(&dst_addr, &nic_iface->ustack.default_route_addr, sizeof(dst_addr)); } else { arp_retry = MAX_ARP_RETRY; LOG_DEBUG(PFX "%s: no default", nic->log_name); goto done; } } arp_retry = 0; rc = uip_lookup_arp_entry(dst_addr.s_addr, mac_addr); if (rc != 0) { while ((arp_retry < MAX_ARP_RETRY) && (event_loop_stop == 0)) { char *dst_addr_str; int count; struct timespec ts; struct timeval tp; struct timeval tp_abs; dst_addr_str = inet_ntoa(dst_addr); LOG_INFO(PFX "%s: Didn't find IPv4: '%s' in ARP table", nic->log_name, dst_addr_str); rc = cnic_arp_send(nic, nic_iface, fd, mac_addr, dst_addr.s_addr, dst_addr_str); if (rc != 0) { status = -EIO; goto done; } for (count = 0; count < 8; count++) { /* Convert from timeval to timespec */ rc = gettimeofday(&tp, NULL); timeradd(&tp, &tp_wait, &tp_abs); ts.tv_sec = tp_abs.tv_sec; ts.tv_nsec = tp_abs.tv_usec * 1000; /* Wait 1s for if_down */ pthread_mutex_lock(&nic->nl_process_mutex); rc = pthread_cond_timedwait (&nic->nl_process_if_down_cond, &nic->nl_process_mutex, &ts); if (rc == ETIMEDOUT) { pthread_mutex_unlock (&nic->nl_process_mutex); rc = uip_lookup_arp_entry(dst_addr. s_addr, mac_addr); if (rc == 0) goto done; } else { nic->nl_process_if_down = 0; pthread_mutex_unlock (&nic->nl_process_mutex); arp_retry = MAX_ARP_RETRY; goto done; } } arp_retry++; } } done: if (arp_retry >= MAX_ARP_RETRY) { status = -EIO; rc = -EIO; } if (status != 0 || rc != 0) pthread_mutex_unlock(&nic->xmit_mutex); if (ev) { cnic_nl_neigh_rsp(nic, fd, ev, path, mac_addr, nic_iface, status, AF_INET); } return rc; } /** * cnic_handle_ipv6_iscsi_path_req() - This function will handle the IPv4 * path req calls the bnx2i kernel module * @param nic - The nic the message is directed towards * @param fd - The file descriptor to be used to extract the private data * @param ev - The iscsi_uevent * @param buf - The private message buffer */ int cnic_handle_ipv6_iscsi_path_req(nic_t *nic, int fd, struct iscsi_uevent *ev, struct iscsi_path *path, nic_interface_t *nic_iface) { __u8 mac_addr[6]; int rc, i; uint16_t neighbor_retry; int status = 0; char addr_dst_str[INET6_ADDRSTRLEN]; struct in6_addr src_addr, dst_addr, src_matching_addr, dst_matching_addr, netmask; struct in6_addr *addr; struct ndpc_reqptr req_ptr; memset(mac_addr, 0, sizeof(mac_addr)); inet_ntop(AF_INET6, &path->dst.v6_addr, addr_dst_str, sizeof(addr_dst_str)); /* Depending on the IPv6 address of the target we will need to * determine whether we use the assigned IPv6 address or the * link local IPv6 address */ memcpy(&dst_addr, &path->dst.v6_addr, sizeof(struct in6_addr)); if (ndpc_request(&nic_iface->ustack, &dst_addr, &rc, CHECK_LINK_LOCAL_ADDR)) { neighbor_retry = MAX_ARP_RETRY; LOG_DEBUG(PFX "Check LL failed"); goto done; } if (rc) { LOG_DEBUG(PFX "Use LL"); /* Get link local IPv6 address */ addr = (struct in6_addr *)&nic_iface->ustack.linklocal6; } else { LOG_DEBUG(PFX "Use Best matched"); if (ndpc_request(&nic_iface->ustack, &dst_addr, &addr, GET_HOST_ADDR)) { neighbor_retry = MAX_ARP_RETRY; LOG_DEBUG(PFX "Use Best matched failed"); goto done; } if (addr == NULL) { neighbor_retry = MAX_ARP_RETRY; LOG_DEBUG(PFX "No Best matched found"); goto done; } } /* Got the best matched src IP address */ memcpy(&src_addr, addr, sizeof(struct in6_addr)); if (nic_iface->ustack.netmask6[0] | nic_iface->ustack.netmask6[1] | nic_iface->ustack.netmask6[2] | nic_iface->ustack.netmask6[3] | nic_iface->ustack.netmask6[4] | nic_iface->ustack.netmask6[5] | nic_iface->ustack.netmask6[6] | nic_iface->ustack.netmask6[7]) memcpy(&netmask.s6_addr, nic_iface->ustack.netmask6, sizeof(struct in6_addr)); else memcpy(&netmask.s6_addr, all_zeroes_addr6, sizeof(struct in6_addr)); inet_ntop(AF_INET6, &src_addr.s6_addr16, addr_dst_str, sizeof(addr_dst_str)); LOG_DEBUG(PFX "src IP addr %s", addr_dst_str); inet_ntop(AF_INET6, &dst_addr.s6_addr16, addr_dst_str, sizeof(addr_dst_str)); LOG_DEBUG(PFX "dst IP addr %s", addr_dst_str); inet_ntop(AF_INET6, &netmask.s6_addr16, addr_dst_str, sizeof(addr_dst_str)); LOG_DEBUG(PFX "prefix mask %s", addr_dst_str); for (i = 0; i < 4; i++) { src_matching_addr.s6_addr32[i] = src_addr.s6_addr32[i] & netmask.s6_addr32[i]; dst_matching_addr.s6_addr32[i] = dst_addr.s6_addr32[i] & netmask.s6_addr32[i]; if (src_matching_addr.s6_addr32[i] != dst_matching_addr.s6_addr32[i]) { /* No match with the prefix mask, use default route */ if (memcmp(nic_iface->ustack.default_route_addr6, all_zeroes_addr6, sizeof(*addr))) { memcpy(&dst_addr, nic_iface->ustack.default_route_addr6, sizeof(dst_addr)); inet_ntop(AF_INET6, &dst_addr.s6_addr16, addr_dst_str, sizeof(addr_dst_str)); LOG_DEBUG(PFX "Use default router IP addr %s", addr_dst_str); break; } else { neighbor_retry = MAX_ARP_RETRY; goto done; } } } #define MAX_ARP_RETRY 4 neighbor_retry = 0; req_ptr.eth = (void *)mac_addr; req_ptr.ipv6 = (void *)&dst_addr; if (ndpc_request(&nic_iface->ustack, &req_ptr, &rc, CHECK_ARP_TABLE)) { /* ndpc request failed, skip neighbor solicit send */ neighbor_retry = MAX_ARP_RETRY; goto done; } if (!rc) { inet_ntop(AF_INET6, &dst_addr.s6_addr16, addr_dst_str, sizeof(addr_dst_str)); LOG_DEBUG(PFX "%s: Preparing to send IPv6 neighbor solicitation " "to dst: '%s'", nic->log_name, addr_dst_str); while ((neighbor_retry < MAX_ARP_RETRY) && (event_loop_stop == 0)) { int count; struct timespec ts; struct timeval tp; struct timeval tp_abs; LOG_INFO(PFX "%s: Didn't find IPv6: '%s'\n", nic->log_name, addr_dst_str); rc = cnic_neigh_soliciation_send(nic, nic_iface, fd, mac_addr, &dst_addr, addr_dst_str); if (rc != 0) { status = -EIO; goto done; } for (count = 0; count < 8; count++) { /* Convert from timeval to timespec */ rc = gettimeofday(&tp, NULL); timeradd(&tp, &tp_wait, &tp_abs); ts.tv_sec = tp_abs.tv_sec; ts.tv_nsec = tp_abs.tv_usec * 1000; pthread_mutex_lock(&nic->nl_process_mutex); rc = pthread_cond_timedwait (&nic->nl_process_if_down_cond, &nic->nl_process_mutex, &ts); if (rc == ETIMEDOUT) { pthread_mutex_unlock (&nic->nl_process_mutex); req_ptr.eth = (void *)mac_addr; req_ptr.ipv6 = (void *)&dst_addr; if (ndpc_request (&nic_iface->ustack, &req_ptr, &rc, CHECK_ARP_TABLE)) { /* ndpc request failed, force retry */ rc = 0; } if (rc) goto done; } else { nic->nl_process_if_down = 0; pthread_mutex_unlock (&nic->nl_process_mutex); neighbor_retry = MAX_ARP_RETRY; goto done; } } neighbor_retry++; } } done: if (neighbor_retry >= MAX_ARP_RETRY) { status = -EIO; rc = -EIO; } if (status != 0 || rc != 0) pthread_mutex_unlock(&nic->xmit_mutex); if (ev) { cnic_nl_neigh_rsp(nic, fd, ev, path, mac_addr, nic_iface, status, AF_INET6); } return rc; } /** * cnic_handle_iscsi_path_req() - This function will handle the path req calls * the bnx2i kernel module * @param nic - The nic the message is directed towards * @param fd - The file descriptor to be used to extract the private data * @param ev - The iscsi_uevent * @param path - The private message buffer * @param nic_iface - The nic_iface to use for this connection request */ int cnic_handle_iscsi_path_req(nic_t *nic, int fd, struct iscsi_uevent *ev, struct iscsi_path *path, nic_interface_t *nic_iface) { LOG_DEBUG(PFX "%s: Netlink message with VLAN ID: %d, path MTU: %d " "minor: %d ip_addr_len: %d", nic->log_name, path->vlan_id, path->pmtu, 0 /* TODO FIX */ , path->ip_addr_len); if (path->ip_addr_len == 4) return cnic_handle_ipv4_iscsi_path_req(nic, fd, ev, path, nic_iface); else if (path->ip_addr_len == 16) return cnic_handle_ipv6_iscsi_path_req(nic, fd, ev, path, nic_iface); else { LOG_DEBUG(PFX "%s: unknown ip_addr_len: %d size dropping ", nic->log_name, path->ip_addr_len); return -EIO; } } open-iscsi-2.0.874/iscsiuio/src/unix/libs/cnic.h000066400000000000000000000045561277325716400214140ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * cnic.h - CNIC UIO uIP user space stack * */ #ifndef __CNIC_NL_H__ #define __CNIC_NL_H__ /******************************************************************************* * Constants shared between the bnx2 and bnx2x modules ******************************************************************************/ extern const char bnx2i_library_transport_name[]; extern const size_t bnx2i_library_transport_name_size; int cnic_nl_open(); void cnic_nl_close(); int cnic_handle_iscsi_path_req(nic_t *nic, int, struct iscsi_uevent *, struct iscsi_path *path, nic_interface_t *nic_iface); #endif /* __CNIC_NL_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/logger.c000066400000000000000000000116701277325716400210140ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * logger.c - Logging Utilities * */ #include #include #include #include #include #include "options.h" #include "logger.h" /****************************************************************************** * Default logger values ******************************************************************************/ static const char default_logger_filename[] = "/var/log/iscsiuio.log"; struct logger main_log = { .enabled = LOGGER_ENABLED, .fp = NULL, .log_file = (char *)default_logger_filename, .level = LOG_LEVEL_INFO, .lock = PTHREAD_MUTEX_INITIALIZER, .stats = { .debug = 0, .info = 0, .warn = 0, .error = 0, .last_log_time = 0, }, }; /****************************************************************************** * Logger Functions ******************************************************************************/ /** * log_uip() - Main logging function * @param level_str - log level string * @param fmt - log format */ void log_uip(char *level_str, char *fmt, ...) { char time_buf[32]; va_list ap, ap2; pthread_mutex_lock(&main_log.lock); va_start(ap, fmt); if (main_log.fp == NULL) goto end; main_log.stats.last_log_time = time(NULL); strftime(time_buf, 26, "%a %b %d %T %Y", localtime(&main_log.stats.last_log_time)); va_copy(ap2, ap); if (main_log.enabled == LOGGER_ENABLED) { fprintf(main_log.fp, "%s [%s]", level_str, time_buf); vfprintf(main_log.fp, fmt, ap); fprintf(main_log.fp, "\n"); } if (opt.debug == DEBUG_ON) { fprintf(stdout, "%s [%s]", level_str, time_buf); vfprintf(stdout, fmt, ap2); fprintf(stdout, "\n"); /* Force the printing of the log file */ fflush(main_log.fp); /* Force the printing of the log out to standard output */ fflush(stdout); } end: va_end(ap2); va_end(ap); pthread_mutex_unlock(&main_log.lock); } /****************************************************************************** * Initialize/Clean up routines ******************************************************************************/ /** * init_logger() - Prepare the logger * @param filename - path to where the log will be written to * @return 0 on success, <0 on failure */ int init_logger(char *filename) { int rc = 0; pthread_mutex_lock(&main_log.lock); if (opt.debug != DEBUG_ON) { rc = -EIO; goto disable; } main_log.fp = fopen(filename, "a"); if (main_log.fp == NULL) { printf("Could not create log file: %s <%s>\n", filename, strerror(errno)); rc = -EIO; } disable: if (rc) main_log.enabled = LOGGER_DISABLED; else main_log.enabled = LOGGER_ENABLED; pthread_mutex_unlock(&main_log.lock); if (!rc) LOG_INFO("Initialize logger using log file: %s", filename); return rc; } void fini_logger(int type) { pthread_mutex_lock(&main_log.lock); if (main_log.fp != NULL) { fclose(main_log.fp); main_log.fp = NULL; if (opt.debug == DEBUG_ON) { printf("Closed logger\n"); fflush(stdout); } } if (type == SHUTDOWN_LOGGER) { if ((main_log.log_file != NULL) && (main_log.log_file != default_logger_filename)) { free(main_log.log_file); main_log.log_file = NULL; } } main_log.enabled = LOGGER_DISABLED; pthread_mutex_unlock(&main_log.lock); } open-iscsi-2.0.874/iscsiuio/src/unix/logger.h000066400000000000000000000102761277325716400210220ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * logger.h - Logging Utilities * */ #ifndef __LOGGER_H__ #define __LOGGER_H__ #include #include #include #include #include /******************************************************************************* * Logger Levels ******************************************************************************/ #define LOG_LEVEL_PACKET 5 #define LOG_LEVEL_DEBUG 4 #define LOG_LEVEL_INFO 3 #define LOG_LEVEL_WARN 2 #define LOG_LEVEL_ERR 1 #define LOG_LEVEL_UNKNOWN 0 #define LOG_LEVEL_PACKET_STR "PKT " #define LOG_LEVEL_DEBUG_STR "DBG " #define LOG_LEVEL_INFO_STR "INFO " #define LOG_LEVEL_WARN_STR "WARN " #define LOG_LEVEL_ERR_STR "ERR " #define LOG_LEVEL_UNKNOWN_STR "? " /******************************************************************************* * Logging Macro's ******************************************************************************/ #define LOG_PACKET(fmt, args...) { if (LOG_LEVEL_PACKET <= \ main_log.level) { \ log_uip(LOG_LEVEL_PACKET_STR, fmt,\ ##args);\ } } #define LOG_DEBUG(fmt, args...) { if (LOG_LEVEL_DEBUG <= main_log.level) { \ log_uip(LOG_LEVEL_DEBUG_STR, fmt,\ ##args);\ } } #define LOG_INFO(fmt, args...) { if (LOG_LEVEL_INFO <= main_log.level) { \ log_uip(LOG_LEVEL_INFO_STR, fmt,\ ##args); \ } } #define LOG_WARN(fmt, args...) { if (LOG_LEVEL_WARN <= main_log.level) { \ log_uip(LOG_LEVEL_WARN_STR, fmt,\ ##args); \ } } #define LOG_ERR(fmt, args...) { if (LOG_LEVEL_ERR <= main_log.level) { \ log_uip(LOG_LEVEL_ERR_STR, fmt,\ ##args); \ } } /******************************************************************************* * Logging Statistics ******************************************************************************/ struct logger_stats { uint64_t debug; uint64_t info; uint64_t warn; uint64_t error; time_t last_log_time; }; /******************************************************************************* * Logger Structure ******************************************************************************/ struct logger { FILE *fp; char *log_file; int8_t level; #define LOGGER_ENABLED 0x01 #define LOGGER_DISABLED 0x02 int8_t enabled; pthread_mutex_t lock; struct logger_stats stats; }; extern struct logger main_log; int init_logger(char *); void log_uip(char *level_str, char *fmt, ...); void fini_logger(int); #define CLOSE_LOGGER 0x01 #define SHUTDOWN_LOGGER 0x02 #endif open-iscsi-2.0.874/iscsiuio/src/unix/main.c000066400000000000000000000231641277325716400204620ustar00rootroot00000000000000/* * Copyright (c) 2001, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack. * * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "uip.h" #include "uip_arp.h" #include "uip_eth.h" #include "timer.h" #include "build_date.h" #include "config.h" #include "iscsid_ipc.h" #include "logger.h" #include "nic.h" #include "nic_id.h" #include "nic_nl.h" #include "nic_utils.h" #include "options.h" #include "packet.h" #include "dhcpc.h" #include "iscsid_ipc.h" #include "brcm_iscsi.h" /******************************************************************************* * Constants ******************************************************************************/ #define PFX "main " static const char default_pid_filepath[] = "/var/run/iscsiuio.pid"; /******************************************************************************* * Global Variables ******************************************************************************/ static const struct option long_options[] = { {"debug", 0, 0, 0}, {"version", 0, 0, 0}, {"help", 0, 0, 0}, {0, 0, 0, 0} }; struct options opt = { .debug = DEBUG_OFF, }; int event_loop_stop; extern nic_t *nic_list; struct utsname cur_utsname; /** * cleanup() - This function is called when this program is to be closed * This function will clean up all the cnic uio interfaces and * flush/close the logger */ static void cleanup() { iscsid_cleanup(); nic_remove_all(); unload_all_nic_libraries(); LOG_INFO("Done waiting for cnic's/stacks to gracefully close"); fini_logger(SHUTDOWN_LOGGER); } /** * signal_handle_thread() - This is the signal handling thread of this program * This is the only thread which will handle signals. * All signals are routed here and handled here to * provide consistant handling. */ static pthread_t signal_thread; static void *signal_handle_thread(void *arg) { sigset_t set; int rc; int signal; sigfillset(&set); LOG_INFO("signal handling thread ready"); signal_wait: rc = sigwait(&set, &signal); switch (signal) { case SIGINT: LOG_INFO("Caught SIGINT signal"); break; case SIGUSR1: LOG_INFO("Caught SIGUSR1 signal, rotate log"); fini_logger(SHUTDOWN_LOGGER); rc = init_logger(main_log.log_file); if (rc != 0) printf("Could not initialize the logger in " "signal!\n"); goto signal_wait; default: break; } event_loop_stop = 1; LOG_INFO("terminating..."); cleanup(); exit(EXIT_SUCCESS); } static void show_version() { printf("%s: Version '%s', Build Date: '%s'\n", APP_NAME, PACKAGE_VERSION, build_date); } static void main_usage() { show_version(); printf("\nUsage: %s [OPTION]\n", APP_NAME); printf("iscsiuio daemon.\n" "-f, --foreground make the program run in the foreground\n" "-d, --debug debuglevel print debugging information\n" "-p, --pid=pidfile use pid file (default %s).\n" "-h, --help display this help and exit\n" "-v, --version display version and exit\n", default_pid_filepath); } static void daemon_init() { int fd; fd = open("/dev/null", O_RDWR); if (fd == -1) exit(-1); dup2(fd, 0); dup2(fd, 1); dup2(fd, 2); setsid(); chdir("/"); } #define ISCSI_OOM_PATH_LEN 48 int oom_adjust(void) { int fd; char path[ISCSI_OOM_PATH_LEN]; struct stat statb; if (nice(-10) < 0) LOG_DEBUG("Could not increase process priority: %s", strerror(errno)); snprintf(path, ISCSI_OOM_PATH_LEN, "/proc/%d/oom_score_adj", getpid()); if (stat(path, &statb)) { /* older kernel so use old oom_adj file */ snprintf(path, ISCSI_OOM_PATH_LEN, "/proc/%d/oom_adj", getpid()); } fd = open(path, O_WRONLY); if (fd < 0) return -1; if (write(fd, "-16", 3) < 0) /* for 2.6.11 */ LOG_DEBUG("Could not set oom score to -16: %s", strerror(errno)); if (write(fd, "-17", 3) < 0) /* for Andrea's patch */ LOG_DEBUG("Could not set oom score to -17: %s", strerror(errno)); close(fd); return 0; } /******************************************************************************* * Main routine ******************************************************************************/ int main(int argc, char *argv[]) { int rc; sigset_t set; const char *pid_file = default_pid_filepath; int fd; int foreground = 0; pid_t pid; pthread_attr_t attr; /* Record the start time for the user space daemon */ opt.start_time = time(NULL); /* parse the parameters */ while (1) { int c, option_index; c = getopt_long(argc, argv, "fd:p:vh", long_options, &option_index); if (c == -1) break; switch (c) { case 'f': foreground = 1; break; /* Enable debugging mode */ case 'd': main_log.level = atoi(optarg); opt.debug = DEBUG_ON; break; case 'p': pid_file = optarg; break; case 'v': show_version(); exit(EXIT_SUCCESS); case 'h': default: main_usage(); exit(EXIT_SUCCESS); } } if (main_log.enabled == LOGGER_ENABLED) { /* initialize the logger */ rc = init_logger(main_log.log_file); if (rc != 0 && opt.debug == DEBUG_ON) printf("WARN: Could not initialize the logger\n"); } LOG_INFO("Started iSCSI uio stack: Ver " PACKAGE_VERSION); LOG_INFO("Build date: %s", build_date); if (opt.debug == DEBUG_ON) LOG_INFO("Debug mode enabled"); event_loop_stop = 0; nic_list = NULL; /* Determine the current kernel version */ memset(&cur_utsname, 0, sizeof(cur_utsname)); rc = uname(&cur_utsname); if (rc == 0) { LOG_INFO("Running on sysname: '%s', release: '%s', " "version '%s' machine: '%s'", cur_utsname.sysname, cur_utsname.release, cur_utsname.version, cur_utsname.machine); } else LOG_WARN("Could not determine kernel version"); /* Initialze the iscsid listener */ rc = iscsid_init(); if (rc != 0) goto error; if (!foreground) { char buf[64]; ssize_t written_bytes; fd = open(pid_file, O_WRONLY | O_CREAT, 0644); if (fd < 0) { printf("Unable to create pid file: %s", pid_file); exit(1); } pid = fork(); if (pid < 0) { printf("Starting daemon failed"); exit(1); } else if (pid) { exit(0); } rc = chdir("/"); if (rc == -1) printf("Unable to chdir(\") [%s]", strerror(errno)); if (lockf(fd, F_TLOCK, 0) < 0) { printf("Unable to lock pid file: %s [%s]", pid_file, strerror(errno)); exit(1); } rc = ftruncate(fd, 0); if (rc == -1) printf("ftruncate(%d, 0) failed [%s]", fd, strerror(errno)); sprintf(buf, "%d\n", getpid()); written_bytes = write(fd, buf, strlen(buf)); if (written_bytes == -1) printf("Could not write lock file [%s]", strerror(errno)); daemon_init(); } /* Load the NIC libraries */ rc = load_all_nic_libraries(); if (rc != 0) goto error; brcm_iscsi_init(); /* ensure we don't see any signals */ sigemptyset(&set); sigaddset(&set, SIGINT); sigaddset(&set, SIGQUIT); sigaddset(&set, SIGTERM); sigaddset(&set, SIGUSR1); rc = pthread_sigmask(SIG_SETMASK, &set, NULL); /* Spin off the signal handling thread */ pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&signal_thread, &attr, signal_handle_thread, NULL); if (rc != 0) LOG_ERR("Could not create signal handling thread"); /* Using sysfs to discover iSCSI hosts */ nic_discover_iscsi_hosts(); /* oom-killer will not kill us at the night... */ if (oom_adjust()) LOG_DEBUG("Can not adjust oom-killer's pardon"); /* we don't want our active sessions to be paged out... */ if (mlockall(MCL_CURRENT | MCL_FUTURE)) { LOG_ERR("failed to mlockall, exiting..."); goto error; } /* Start the iscsid listener */ rc = iscsid_start(); if (rc != 0) goto error; /* NetLink connection to listen to NETLINK_ISCSI private messages */ nic_nl_open(); error: cleanup(); exit(EXIT_FAILURE); } open-iscsi-2.0.874/iscsiuio/src/unix/nic.c000066400000000000000000001212271277325716400203060ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic.c - Generic NIC management/utility functions * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dhcpc.h" #include "ipv6_ndpc.h" #include "logger.h" #include "nic.h" #include "nic_utils.h" #include "options.h" #include "uip.h" #include "uip_arp.h" #include "uip_eth.h" #include "uip-neighbor.h" #include "bnx2.h" #include "bnx2x.h" #include "ipv6.h" /****************************************************************************** * Constants *****************************************************************************/ #define PFX "nic " #define PCI_ANY_ID (~0) /****************************************************************************** * Global variables *****************************************************************************/ /* Used to store a list of NIC libraries */ pthread_mutex_t nic_lib_list_mutex = PTHREAD_MUTEX_INITIALIZER; nic_lib_handle_t *nic_lib_list; /* Used to store a list of active cnic devices */ pthread_mutex_t nic_list_mutex = PTHREAD_MUTEX_INITIALIZER; nic_t *nic_list; /****************************************************************************** * Functions to handle NIC libraries *****************************************************************************/ /** * alloc_nic_library_handle() - Used to allocate a NIC library handle * @return NULL if memory couldn't be allocated, pointer to the handle * to the NIC library handle */ static nic_lib_handle_t *alloc_nic_library_handle() { nic_lib_handle_t *handle; handle = malloc(sizeof(*handle)); if (handle == NULL) { LOG_ERR("Could not allocate memory for library handle"); return NULL; } memset(handle, 0, sizeof(*handle)); handle->ops = NULL; pthread_mutex_init(&handle->mutex, NULL); return handle; } static void free_nic_library_handle(nic_lib_handle_t *handle) { free(handle); } /** * load_nic_library() - This function is used to load a NIC library * @param handle - This is the library handle to load * @return 0 = Success; <0 = failure */ static int load_nic_library(nic_lib_handle_t *handle) { int rc; char *library_name; size_t library_name_size; char *library_version; size_t library_version_size; char *build_date_str; size_t build_date_str_size; pthread_mutex_lock(&handle->mutex); /* Validate the NIC ops table ensure that all the fields are not NULL */ if ((handle->ops->open) == NULL || (handle->ops->close) == NULL || (handle->ops->read) == NULL || (handle->ops->write) == NULL || (handle->ops->clear_tx_intr == NULL)) { LOG_ERR("Invalid NIC ops table: open: 0x%x, close: 0x%x," "read: 0x%x, write: 0x%x clear_tx_intr: 0x%x " "lib_ops: 0x%x", handle->ops->open, handle->ops->close, handle->ops->read, handle->ops->write, handle->ops->clear_tx_intr, handle->ops->lib_ops); rc = -EINVAL; handle->ops = NULL; goto error; } /* Validate the NIC library ops table to ensure that all the proper * fields are filled */ if ((handle->ops->lib_ops.get_library_name == NULL) || (handle->ops->lib_ops.get_library_version == NULL) || (handle->ops->lib_ops.get_build_date == NULL) || (handle->ops->lib_ops.get_transport_name == NULL)) { rc = -EINVAL; goto error; } (*handle->ops->lib_ops.get_library_name) (&library_name, &library_name_size); (*handle->ops->lib_ops.get_library_version) (&library_version, &library_version_size); (*handle->ops->lib_ops.get_build_date) (&build_date_str, &build_date_str_size); LOG_DEBUG("Loaded nic library '%s' Version: '%s' build on %s'", library_name, library_version, build_date_str); pthread_mutex_unlock(&handle->mutex); return 0; error: pthread_mutex_unlock(&handle->mutex); return rc; } static struct nic_ops *(*nic_get_ops[]) () = { bnx2_get_ops, bnx2x_get_ops,}; int load_all_nic_libraries() { int rc, i = 0; nic_lib_handle_t *handle; for (i = 0; i < sizeof(nic_get_ops) / sizeof(nic_get_ops[0]); i++) { /* Add the CNIC library */ handle = alloc_nic_library_handle(); if (handle == NULL) { LOG_ERR("Could not allocate memory for CNIC nic lib"); return -ENOMEM; } handle->ops = (*nic_get_ops[i]) (); rc = load_nic_library(handle); if (rc != 0) { free_nic_library_handle(handle); return rc; } /* Add the CNIC library to the list of library handles */ pthread_mutex_lock(&nic_lib_list_mutex); /* Add this library to the list of nic libraries we * know about */ if (nic_lib_list == NULL) { nic_lib_list = handle; } else { nic_lib_handle_t *current = nic_lib_list; while (current->next != NULL) current = current->next; current->next = handle; } pthread_mutex_unlock(&nic_lib_list_mutex); LOG_DEBUG("Added '%s' nic library", handle->ops->description); } return rc; } int unload_all_nic_libraries() { nic_lib_handle_t *current, *next; pthread_mutex_lock(&nic_lib_list_mutex); current = nic_lib_list; while (current != NULL) { next = current->next; free_nic_library_handle(current); current = next; } pthread_mutex_unlock(&nic_lib_list_mutex); nic_lib_list = NULL; return 0; } NIC_LIBRARY_EXIST_T does_nic_uio_name_exist(char *name, nic_lib_handle_t **handle) { NIC_LIBRARY_EXIST_T rc; nic_lib_handle_t *current; pthread_mutex_lock(&nic_lib_list_mutex); current = nic_lib_list; while (current != NULL) { char *uio_name; size_t uio_name_size; (*current->ops->lib_ops.get_uio_name) (&uio_name, &uio_name_size); if (strncmp(name, uio_name, uio_name_size) == 0) { if (handle) *handle = current; rc = NIC_LIBRARY_EXSITS; goto done; } current = current->next; } rc = NIC_LIBRARY_DOESNT_EXIST; done: pthread_mutex_unlock(&nic_lib_list_mutex); return rc; } NIC_LIBRARY_EXIST_T does_nic_library_exist(char *name, nic_lib_handle_t **handle) { NIC_LIBRARY_EXIST_T rc; nic_lib_handle_t *current; pthread_mutex_lock(&nic_lib_list_mutex); current = nic_lib_list; while (current != NULL) { char *library_name; size_t library_name_size; (*current->ops->lib_ops.get_library_name) (&library_name, &library_name_size); if (strncmp(name, library_name, library_name_size) == 0) { if (handle) *handle = current; rc = NIC_LIBRARY_EXSITS; goto done; } current = current->next; } rc = NIC_LIBRARY_DOESNT_EXIST; done: pthread_mutex_unlock(&nic_lib_list_mutex); return rc; } /** * find_nic_lib_using_pci_id() - Find the proper NIC library using the * PCI ID's * @param vendor - PCI vendor ID to search on * @param device - PCI device ID to search on * @param subvendor - PCI subvendor ID to search on * @param subdevice - PCI subdevice ID to search on * @param handle - This function will return the nic lib handle if found * @return 0 if found, <0 not found */ int find_nic_lib_using_pci_id(uint32_t vendor, uint32_t device, uint32_t subvendor, uint32_t subdevice, nic_lib_handle_t **handle, struct pci_device_id **pci_entry) { int rc; nic_lib_handle_t *current; pthread_mutex_lock(&nic_lib_list_mutex); current = nic_lib_list; while (current != NULL) { struct pci_device_id *pci_table; uint32_t entries; int i; if (current->ops->lib_ops.get_pci_table != NULL) { current->ops->lib_ops.get_pci_table(&pci_table, &entries); } else { current = current->next; continue; } /* Sanity check the the pci table coming from the * hardware library */ if (entries > MAX_PCI_DEVICE_ENTRIES) { LOG_WARN(PFX "Too many pci_table entries(%d) skipping", entries); continue; } for (i = 0; i < entries; i++) { LOG_DEBUG(PFX "Checking against: " "vendor: 0x%x device:0x%x " "subvendor:0x%x subdevice:0x%x", pci_table[i].vendor, pci_table[i].device, pci_table[i].subvendor, pci_table[i].subdevice); if ((pci_table[i].vendor == vendor) && (pci_table[i].device == device) && (pci_table[i].subvendor == PCI_ANY_ID || pci_table[i].subvendor == subvendor) && (pci_table[i].subdevice == PCI_ANY_ID || pci_table[i].subdevice == subdevice)) { *handle = current; *pci_entry = &pci_table[i]; rc = 0; goto done; } } current = current->next; } rc = -EINVAL; done: pthread_mutex_unlock(&nic_lib_list_mutex); return rc; } /** * nic_init() - This will properly initialize a struct cnic_uio device * @return NULL is there is a failure and pointer to an allocated/initialized * struct cnic_uio on success */ nic_t *nic_init() { nic_t *nic; nic = malloc(sizeof(*nic)); if (nic == NULL) { LOG_ERR("Couldn't malloc space for nic"); return NULL; } memset(nic, 0, sizeof(*nic)); nic->uio_minor = -1; nic->fd = INVALID_FD; nic->next = NULL; nic->thread = INVALID_THREAD; nic->enable_thread = INVALID_THREAD; nic->flags |= NIC_DISABLED; nic->state = NIC_STOPPED; nic->free_packet_queue = NULL; nic->tx_packet_queue = NULL; nic->nic_library = NULL; nic->pci_id = NULL; nic->page_size = getpagesize(); /* nic_mutex is used to protect nic ops */ pthread_mutex_init(&nic->nic_mutex, NULL); pthread_mutex_init(&nic->xmit_mutex, NULL); pthread_mutex_init(&nic->free_packet_queue_mutex, NULL); pthread_cond_init(&nic->enable_wait_cond, NULL); pthread_cond_init(&nic->enable_done_cond, NULL); pthread_cond_init(&nic->nic_loop_started_cond, NULL); pthread_cond_init(&nic->disable_wait_cond, NULL); nic->rx_poll_usec = DEFAULT_RX_POLL_USEC; pthread_mutex_init(&nic->nl_process_mutex, NULL); pthread_cond_init(&nic->nl_process_if_down_cond, NULL); pthread_cond_init(&nic->nl_process_cond, NULL); nic->nl_process_thread = INVALID_THREAD; nic->nl_process_if_down = 0; nic->nl_process_head = 0; nic->nl_process_tail = 0; memset(&nic->nl_process_ring, 0, sizeof(nic->nl_process_ring)); nic->ping_thread = INVALID_THREAD; return nic; } void nic_add(nic_t *nic) { /* Add this device to our list of nics */ if (nic_list == NULL) { nic_list = nic; } else { nic_t *current = nic_list; while (current->next != NULL) current = current->next; current->next = nic; } } /** * nic_remove() - Used to remove the NIC for the nic list * @param nic - the nic to remove */ int nic_remove(nic_t *nic) { int rc; nic_t *prev, *current; struct stat file_stat; nic_interface_t *nic_iface, *next_nic_iface, *vlan_iface; pthread_mutex_lock(&nic->nic_mutex); /* Check if the file node exists before closing */ if (nic->uio_device_name) { rc = stat(nic->uio_device_name, &file_stat); if ((rc == 0) && (nic->ops)) nic->ops->close(nic, 0); } pthread_mutex_unlock(&nic->nic_mutex); nic->state = NIC_EXIT; if (nic->enable_thread != INVALID_THREAD) { LOG_DEBUG(PFX "%s: Canceling nic enable thread", nic->log_name); rc = pthread_cancel(nic->enable_thread); if (rc != 0) LOG_DEBUG(PFX "%s: Couldn't send cancel to nic enable " "thread", nic->log_name); nic->enable_thread = INVALID_THREAD; LOG_DEBUG(PFX "%s: nic enable thread cleaned", nic->log_name); } else { LOG_DEBUG(PFX "%s: NIC enable thread already canceled", nic->log_name); } if (nic->thread != INVALID_THREAD) { LOG_DEBUG(PFX "%s: Canceling nic thread", nic->log_name); rc = pthread_cancel(nic->thread); if (rc != 0) LOG_DEBUG(PFX "%s: Couldn't send cancel to nic", nic->log_name); nic->thread = INVALID_THREAD; LOG_DEBUG(PFX "%s: nic thread cleaned", nic->log_name); } else { LOG_DEBUG(PFX "%s: NIC thread already canceled", nic->log_name); } if (nic->nl_process_thread != INVALID_THREAD) { LOG_DEBUG(PFX "%s: Canceling nic nl thread", nic->log_name); rc = pthread_cancel(nic->nl_process_thread); if (rc != 0) LOG_DEBUG(PFX "%s: Couldn't send cancel to nic nl " "thread", nic->log_name); nic->nl_process_thread = INVALID_THREAD; LOG_DEBUG(PFX "%s: nic nl thread cleaned", nic->log_name); } else { LOG_DEBUG(PFX "%s: NIC nl thread already canceled", nic->log_name); } current = prev = nic_list; while (current != NULL) { if (current == nic) break; prev = current; current = current->next; } if (current != NULL) { if (current == nic_list) nic_list = current->next; else prev->next = current->next; /* Before freeing the nic, must free all the associated nic_iface */ nic_iface = current->nic_iface; while (nic_iface != NULL) { vlan_iface = nic_iface->vlan_next; while (vlan_iface != NULL) { next_nic_iface = vlan_iface->vlan_next; free(vlan_iface); vlan_iface = next_nic_iface; } next_nic_iface = nic_iface->next; free(nic_iface); nic_iface = next_nic_iface; } free(nic); } else { LOG_ERR(PFX "%s: Couldn't find nic to remove", nic->log_name); } return 0; } /** * nic_close() - Used to indicate to a NIC that it should close * Must be called with nic->nic_mutex * @param nic - the nic to close * @param graceful - ALLOW_GRACEFUL_SHUTDOWN will check the nic state * before proceeding to close() * FORCE_SHUTDOWN will force the nic to close() * reguardless of the state * @param clean - this will free the proper strings assoicated * with the NIC * */ void nic_close(nic_t *nic, NIC_SHUTDOWN_T graceful, int clean) { int rc; nic_interface_t *nic_iface, *vlan_iface; struct stat file_stat; /* The NIC could be configured by the uIP config file * but not assoicated with a hardware library just yet * we will need to check for this */ if (nic->ops == NULL) { LOG_WARN(PFX "%s: when closing nic->ops == NULL", nic->log_name); goto error; } /* Check if the file node exists */ rc = stat(nic->uio_device_name, &file_stat); if ((rc == 0) && (nic->ops)) rc = (*nic->ops->close) (nic, graceful); if (rc != 0) { LOG_ERR(PFX "%s: Could not close nic", nic->log_name); } else { nic->state = NIC_STOPPED; nic->flags &= ~NIC_ENABLED; nic->flags |= NIC_DISABLED; } nic_iface = nic->nic_iface; while (nic_iface != NULL) { if (!((nic_iface->flags & NIC_IFACE_PERSIST) == NIC_IFACE_PERSIST)) { uip_reset(&nic_iface->ustack); vlan_iface = nic_iface->vlan_next; while (vlan_iface != NULL) { uip_reset(&vlan_iface->ustack); vlan_iface = vlan_iface->vlan_next; } } nic_iface = nic_iface->next; } /* The NIC must be destroyed and init'ed once again, * POSIX defines that the mutex will be undefined it * init'ed twice without a destroy */ pthread_mutex_destroy(&nic->xmit_mutex); pthread_mutex_init(&nic->xmit_mutex, NULL); if (clean & FREE_CONFIG_NAME) { /* Free any named strings we might be holding onto */ if (nic->flags & NIC_CONFIG_NAME_MALLOC) { free(nic->config_device_name); nic->flags &= ~NIC_CONFIG_NAME_MALLOC; } nic->config_device_name = NULL; } if (clean & FREE_UIO_NAME) { if (nic->flags & NIC_UIO_NAME_MALLOC) { free(nic->uio_device_name); nic->uio_device_name = NULL; nic->flags &= ~NIC_UIO_NAME_MALLOC; } } LOG_ERR(PFX "%s: nic closed", nic->log_name); error: return; } /** * nic_iface_init() - This function is used to add an interface to the * structure cnic_uio * @return 0 on success, <0 on failure */ nic_interface_t *nic_iface_init() { nic_interface_t *nic_iface = malloc(sizeof(*nic_iface)); if (nic_iface == NULL) { LOG_ERR("Could not allocate space for nic iface"); return NULL; } memset(nic_iface, 0, sizeof(*nic_iface)); nic_iface->next = NULL; nic_iface->vlan_next = NULL; nic_iface->iface_num = IFACE_NUM_INVALID; nic_iface->request_type = IP_CONFIG_OFF; return nic_iface; } /** * nic_add_nic_iface() - This function is used to add an interface to the * nic structure * Called with nic_mutex held * @param nic - struct nic device to add the interface to * @param nic_iface - network interface used to add to the nic * @return 0 on success, <0 on failure */ int nic_add_nic_iface(nic_t *nic, nic_interface_t *nic_iface) { nic_interface_t *current, *prev; /* Make sure it doesn't already exist */ current = nic_find_nic_iface(nic, nic_iface->protocol, nic_iface->vlan_id, nic_iface->iface_num, nic_iface->request_type); if (current) { LOG_DEBUG(PFX "%s: nic interface for VLAN: %d, protocol: %d" " already exist", nic->log_name, nic_iface->vlan_id, nic_iface->protocol); return 0; } prev = NULL; current = nic->nic_iface; while (current != NULL) { if (current->protocol == nic_iface->protocol) { /* Replace parent */ nic_iface->vlan_next = current; nic_iface->next = current->next; current->next = NULL; if (prev) prev->next = nic_iface; else nic->nic_iface = nic_iface; goto done; } prev = current; current = current->next; } nic_iface->next = nic->nic_iface; nic->nic_iface = nic_iface; done: /* Set nic_interface common fields */ nic_iface->parent = nic; memcpy(&nic_iface->ustack.uip_ethaddr.addr, nic->mac_addr, ETH_ALEN); nic->num_of_nic_iface++; LOG_INFO(PFX "%s: Added nic interface for VLAN: %d, protocol: %d", nic->log_name, nic_iface->vlan_id, nic_iface->protocol); return 0; } /****************************************************************************** * Routine to process interrupts from the NIC device ******************************************************************************/ /** * nic_process_intr() - Routine used to process interrupts from the hardware * @param nic - NIC hardware to process the interrupt on * @return 0 on success, <0 on failure */ int nic_process_intr(nic_t *nic, int discard_check) { fd_set fdset; int ret; int count; struct timeval tv; /* Simple sanity checks */ if (discard_check != 1 && nic->state != NIC_RUNNING) { LOG_ERR(PFX "%s: Couldn't process interrupt NIC not running", nic->log_name); return -EBUSY; } if (discard_check != 1 && nic->fd == INVALID_FD) { LOG_ERR(PFX "%s: NIC fd not valid", nic->log_name); return -EIO; } FD_ZERO(&fdset); FD_SET(nic->fd, &fdset); tv.tv_sec = 0; pthread_mutex_lock(&nic->nic_mutex); if (nic->flags & NIC_LONG_SLEEP) tv.tv_usec = 1000; else tv.tv_usec = nic->rx_poll_usec; pthread_mutex_unlock(&nic->nic_mutex); /* Wait for an interrupt to come in or timeout */ ret = select(nic->fd + 1, &fdset, NULL, NULL, &tv); switch (ret) { case 1: /* Usually there should only be one file descriptor ready * to read */ break; case 0: return ret; case -1: LOG_ERR(PFX "%s: error waiting for interrupt: %s", nic->log_name, strerror(errno)); return 0; default: LOG_ERR(PFX "%s: unknown number of FD's, ignoring: %d ret", nic->log_name, ret); return 0; } ret = read(nic->fd, &count, sizeof(count)); pthread_mutex_lock(&nic->nic_mutex); if (ret > 0) { nic->stats.interrupts++; LOG_PACKET(PFX "%s: interrupt count: %d prev: %d", nic->log_name, count, nic->intr_count); if (count == nic->intr_count) { LOG_PACKET(PFX "%s: got interrupt but count still the " "same", nic->log_name, count); } /* Check if we missed an interrupt. With UIO, * the count should be incremental */ if (count != nic->intr_count + 1) { nic->stats.missed_interrupts++; LOG_PACKET(PFX "%s: Missed interrupt! on %d not %d", nic->log_name, count, nic->intr_count); } nic->intr_count = count; (*nic->ops->clear_tx_intr) (nic); ret = 1; } pthread_mutex_unlock(&nic->nic_mutex); return ret; } void prepare_ipv4_packet(nic_t *nic, nic_interface_t *nic_iface, struct uip_stack *ustack, packet_t *pkt) { u16_t ipaddr[2]; arp_table_query_t arp_query; dest_ipv4_addr_t dest_ipv4_addr; struct arp_entry *tabptr; int queue_rc; int vlan_id = 0; /* If the rx vlan tag is not stripped and vlan is present in the pkt, manual stripping is required because tx is using hw vlan tag! */ if (pkt->network_layer == pkt->data_link_layer + sizeof(struct uip_vlan_eth_hdr)) { /* VLAN is detected in the pkt buf */ memcpy(pkt->data_link_layer + 12, pkt->network_layer - 2, pkt->buf_size - sizeof(struct uip_vlan_eth_hdr) + 2); } dest_ipv4_addr = uip_determine_dest_ipv4_addr(ustack, ipaddr); if (dest_ipv4_addr == LOCAL_BROADCAST) { uip_build_eth_header(ustack, ipaddr, NULL, pkt, vlan_id); return; } arp_query = is_in_arp_table(ipaddr, &tabptr); switch (arp_query) { case IS_IN_ARP_TABLE: uip_build_eth_header(ustack, ipaddr, tabptr, pkt, vlan_id); break; case NOT_IN_ARP_TABLE: queue_rc = nic_queue_tx_packet(nic, nic_iface, pkt); if (queue_rc) { LOG_ERR("could not queue TX packet: %d", queue_rc); } else { uip_build_arp_request(ustack, ipaddr); } break; default: LOG_ERR("Unknown arp state"); break; } } void prepare_ipv6_packet(nic_t *nic, nic_interface_t *nic_iface, struct uip_stack *ustack, packet_t *pkt) { struct uip_eth_hdr *eth; struct uip_vlan_eth_hdr *eth_vlan; int vlan_id = 0; if (pkt->network_layer == pkt->data_link_layer + sizeof(struct uip_vlan_eth_hdr)) { /* VLAN is detected in the pkt buf */ memcpy(pkt->data_link_layer + 12, pkt->network_layer - 2, pkt->buf_size - sizeof(struct uip_vlan_eth_hdr) + 2); } eth = (struct uip_eth_hdr *)ustack->data_link_layer; eth_vlan = (struct uip_vlan_eth_hdr *)ustack->data_link_layer; if (vlan_id == 0) { eth->type = htons(UIP_ETHTYPE_IPv6); } else { eth_vlan->tpid = htons(UIP_ETHTYPE_8021Q); eth_vlan->vid = htons(vlan_id); eth_vlan->type = htons(UIP_ETHTYPE_IPv6); } } void prepare_ustack(nic_t *nic, nic_interface_t *nic_iface, struct uip_stack *ustack, struct packet *pkt) { struct ether_header *eth = NULL; ustack->uip_buf = pkt->buf; ustack->uip_len = pkt->buf_size; pkt->nic = nic; pkt->nic_iface = nic_iface; ustack->data_link_layer = pkt->buf; /* Adjust the network layer pointer depending if * there is a VLAN tag or not, or if the hardware * has stripped out the * VLAN tag */ ustack->network_layer = ustack->data_link_layer + sizeof(struct uip_eth_hdr); /* Init buffer to be IPv6 */ if (nic_iface->ustack.ip_config == IPV6_CONFIG_DHCP || nic_iface->ustack.ip_config == IPV6_CONFIG_STATIC) { eth = (struct ether_header *)ustack->data_link_layer; eth->ether_type = htons(UIP_ETHTYPE_IPv6); } } int do_timers_per_nic_iface(nic_t *nic, nic_interface_t *nic_iface, struct timer *arp_timer) { packet_t *pkt; struct uip_stack *ustack = &nic_iface->ustack; int i; pkt = get_next_free_packet(nic); if (pkt == NULL) return -EIO; if (nic_iface->protocol == AF_INET) { for (i = 0; i < UIP_UDP_CONNS; i++) { prepare_ustack(nic, nic_iface, ustack, pkt); uip_udp_periodic(ustack, i); /* If the above function invocation resulted * in data that should be sent out on the * network, the global variable uip_len is * set to a value > 0. */ if (ustack->uip_len > 0) { pkt->buf_size = ustack->uip_len; prepare_ipv4_packet(nic, nic_iface, ustack, pkt); (*nic->ops->write) (nic, nic_iface, pkt); ustack->uip_len = 0; } } } else { /* Added periodic poll for IPv6 NDP engine */ if (ustack->ndpc != NULL) { /* If engine is active */ prepare_ustack(nic, nic_iface, ustack, pkt); uip_ndp_periodic(ustack); /* If the above function invocation resulted * in data that should be sent out on the * network, the global variable uip_len is * set to a value > 0. */ if (ustack->uip_len > 0) { pkt->buf_size = ustack->uip_len; prepare_ipv6_packet(nic, nic_iface, ustack, pkt); (*nic->ops->write) (nic, nic_iface, pkt); ustack->uip_len = 0; } } } /* Call the ARP timer function every 10 seconds. */ if (timer_expired(arp_timer)) { timer_reset(arp_timer); uip_arp_timer(); } put_packet_in_free_queue(pkt, nic); return 0; } static int check_timers(nic_t *nic, struct timer *periodic_timer, struct timer *arp_timer) { if (timer_expired(periodic_timer)) { nic_interface_t *nic_iface, *vlan_iface; timer_reset(periodic_timer); pthread_mutex_lock(&nic->nic_mutex); nic_iface = nic->nic_iface; while (nic_iface != NULL) { do_timers_per_nic_iface(nic, nic_iface, arp_timer); vlan_iface = nic_iface->vlan_next; while (vlan_iface != NULL) { do_timers_per_nic_iface(nic, vlan_iface, arp_timer); vlan_iface = vlan_iface->vlan_next; } nic_iface = nic_iface->next; } pthread_mutex_unlock(&nic->nic_mutex); } return 0; } int process_packets(nic_t *nic, struct timer *periodic_timer, struct timer *arp_timer, nic_interface_t *nic_iface) { int rc; packet_t *pkt; pkt = get_next_free_packet(nic); if (pkt == NULL) { LOG_DEBUG(PFX "%s: Couldn't get buffer for processing packet", nic->log_name); return -ENOMEM; } pthread_mutex_lock(&nic->nic_mutex); rc = (*nic->ops->read) (nic, pkt); pthread_mutex_unlock(&nic->nic_mutex); if ((rc != 0) && (pkt->buf_size > 0)) { uint16_t type = 0; int af_type = 0; struct uip_stack *ustack; uint16_t vlan_id; pkt->data_link_layer = pkt->buf; vlan_id = pkt->vlan_tag & 0xFFF; if ((vlan_id == 0) || (NIC_VLAN_STRIP_ENABLED & nic->flags)) { struct uip_eth_hdr *hdr = ETH_BUF(pkt->buf); type = ntohs(hdr->type); pkt->network_layer = pkt->data_link_layer + sizeof(struct uip_eth_hdr); } else { struct uip_vlan_eth_hdr *hdr = VLAN_ETH_BUF(pkt->buf); type = ntohs(hdr->type); pkt->network_layer = pkt->data_link_layer + sizeof(struct uip_vlan_eth_hdr); } switch (type) { case UIP_ETHTYPE_IPv6: af_type = AF_INET6; break; case UIP_ETHTYPE_IPv4: case UIP_ETHTYPE_ARP: af_type = AF_INET; break; default: LOG_PACKET(PFX "%s: Ignoring vlan:0x%x ethertype:0x%x", nic->log_name, vlan_id, type); goto done; } pthread_mutex_lock(&nic->nic_mutex); /* check if we have the given VLAN interface */ if (nic_iface != NULL) { if (vlan_id != nic_iface->vlan_id) { /* Matching nic_iface not found, drop */ pthread_mutex_unlock(&nic->nic_mutex); rc = EINVAL; /* Return the +error code */ goto done; } goto nic_iface_present; } /* Best effort to find the correct instance Input: protocol and vlan_tag */ nic_iface = nic_find_nic_iface(nic, af_type, vlan_id, IFACE_NUM_INVALID, IP_CONFIG_OFF); if (nic_iface == NULL) { /* Matching nic_iface not found */ pthread_mutex_unlock(&nic->nic_mutex); LOG_PACKET(PFX "%s: Couldn't find interface for " "VLAN: %d af_type %d", nic->log_name, vlan_id, af_type); rc = EINVAL; /* Return the +error code */ goto done; } nic_iface_present: pkt->nic_iface = nic_iface; ustack = &nic_iface->ustack; ustack->uip_buf = pkt->buf; ustack->uip_len = pkt->buf_size; ustack->data_link_layer = pkt->buf; /* Adjust the network layer pointer depending if there is a * VLAN tag or not, or if the hardware has stripped out the * VLAN tag */ if ((vlan_id == 0) || (NIC_VLAN_STRIP_ENABLED & nic->flags)) ustack->network_layer = ustack->data_link_layer + sizeof(struct uip_eth_hdr); else ustack->network_layer = ustack->data_link_layer + sizeof(struct uip_vlan_eth_hdr); /* determine how we should process this packet based on the * ethernet type */ switch (type) { case UIP_ETHTYPE_IPv6: uip_input(ustack); if (ustack->uip_len > 0) { /* The pkt generated has already consulted the IPv6 ARP table */ pkt->buf_size = ustack->uip_len; prepare_ipv6_packet(nic, nic_iface, ustack, pkt); (*nic->ops->write) (nic, nic_iface, pkt); } break; case UIP_ETHTYPE_IPv4: uip_arp_ipin(ustack, pkt); uip_input(ustack); /* If the above function invocation resulted * in data that should be sent out on the * network, the global variable uip_len is * set to a value > 0. */ if (ustack->uip_len > 0) { prepare_ipv4_packet(nic, nic_iface, ustack, pkt); (*nic->ops->write) (nic, nic_iface, pkt); } break; case UIP_ETHTYPE_ARP: uip_arp_arpin(nic_iface, ustack, pkt); /* If the above function invocation resulted * in data that should be sent out on the * network, the global variable uip_len * is set to a value > 0. */ if (pkt->buf_size > 0) (*nic->ops->write) (nic, nic_iface, pkt); break; } ustack->uip_len = 0; pthread_mutex_unlock(&nic->nic_mutex); } done: put_packet_in_free_queue(pkt, nic); return rc; } static int process_dhcp_loop(nic_t *nic, nic_interface_t *nic_iface, struct timer *periodic_timer, struct timer *arp_timer) { struct dhcpc_state *s; struct ndpc_state *n; int rc; struct timeval start_time; struct timeval current_time; struct timeval wait_time; struct timeval total_time; /* 10s loop time to wait for DHCP */ switch (nic_iface->ustack.ip_config) { case IPV4_CONFIG_DHCP: wait_time.tv_sec = 10; break; case IPV6_CONFIG_DHCP: wait_time.tv_sec = 15; break; case IPV6_CONFIG_STATIC: wait_time.tv_sec = 4; break; default: wait_time.tv_sec = 2; } wait_time.tv_usec = 0; s = nic_iface->ustack.dhcpc; n = nic_iface->ustack.ndpc; if (gettimeofday(&start_time, NULL)) { LOG_ERR(PFX "%s: Couldn't get time of day to start DHCP timer", nic->log_name); return -EIO; } timeradd(&start_time, &wait_time, &total_time); periodic_timer->start = periodic_timer->start - periodic_timer->interval; while ((event_loop_stop == 0) && (nic->flags & NIC_ENABLED) && !(nic->flags & NIC_GOING_DOWN)) { if (nic_iface->ustack.ip_config == IPV4_CONFIG_DHCP) { if (s->state == STATE_CONFIG_RECEIVED) break; } if (nic_iface->ustack.ip_config == IPV6_CONFIG_DHCP || nic_iface->ustack.ip_config == IPV6_CONFIG_STATIC) { if (n->state == NDPC_STATE_BACKGROUND_LOOP) break; } /* Check the periodic and ARP timer */ check_timers(nic, periodic_timer, arp_timer); rc = nic_process_intr(nic, 1); while ((rc > 0) && (!(nic->flags & NIC_GOING_DOWN))) { rc = process_packets(nic, periodic_timer, arp_timer, nic_iface); } if (gettimeofday(¤t_time, NULL)) { LOG_ERR(PFX "%s: Couldn't get current time for " "DHCP start", nic->log_name); return -EIO; } if (timercmp(&total_time, ¤t_time, <)) { LOG_ERR(PFX "%s: timeout waiting for DHCP/NDP", nic->log_name); if (nic_iface->ustack.ip_config == IPV6_CONFIG_DHCP || nic_iface->ustack.ip_config == IPV6_CONFIG_STATIC) n->retry_count = IPV6_MAX_ROUTER_SOL_RETRY; return -EIO; } } if (nic->flags & NIC_GOING_DOWN) return -EIO; else if (nic->flags & NIC_DISABLED) return -EINVAL; else return 0; } /* Called with nic_mutex locked */ static int do_acquisition(nic_t *nic, nic_interface_t *nic_iface, struct timer *periodic_timer, struct timer *arp_timer) { struct in_addr addr; struct in6_addr addr6; char buf[INET6_ADDRSTRLEN]; int rc = -1; /* New acquisition */ uip_init(&nic_iface->ustack, nic->flags & NIC_IPv6_ENABLED); memcpy(&nic_iface->ustack.uip_ethaddr.addr, nic->mac_addr, ETH_ALEN); LOG_INFO(PFX "%s: Initialized ip stack: VLAN: %d", nic->log_name, nic_iface->vlan_id); LOG_INFO(PFX "%s: mac: %02x:%02x:%02x:%02x:%02x:%02x", nic->log_name, nic_iface->mac_addr[0], nic_iface->mac_addr[1], nic_iface->mac_addr[2], nic_iface->mac_addr[3], nic_iface->mac_addr[4], nic_iface->mac_addr[5]); switch (nic_iface->ustack.ip_config) { case IPV4_CONFIG_STATIC: memcpy(&addr.s_addr, nic_iface->ustack.hostaddr, sizeof(addr.s_addr)); LOG_INFO(PFX "%s: Using IP address: %s", nic->log_name, inet_ntoa(addr)); memcpy(&addr.s_addr, nic_iface->ustack.netmask, sizeof(addr.s_addr)); LOG_INFO(PFX "%s: Using netmask: %s", nic->log_name, inet_ntoa(addr)); set_uip_stack(&nic_iface->ustack, NULL, NULL, NULL, nic_iface->mac_addr); break; case IPV4_CONFIG_DHCP: set_uip_stack(&nic_iface->ustack, NULL, NULL, NULL, nic_iface->mac_addr); if (dhcpc_init(nic, &nic_iface->ustack, nic_iface->mac_addr, ETH_ALEN)) { if (nic_iface->ustack.dhcpc) { LOG_DEBUG(PFX "%s: DHCPv4 engine already " "initialized!", nic->log_name); goto skip; } else { LOG_DEBUG(PFX "%s: DHCPv4 engine failed " "initialization!", nic->log_name); goto error; } } pthread_mutex_unlock(&nic->nic_mutex); rc = process_dhcp_loop(nic, nic_iface, periodic_timer, arp_timer); pthread_mutex_lock(&nic->nic_mutex); if (rc) { LOG_ERR(PFX "%s: DHCP failed", nic->log_name); /* For DHCPv4 failure, the ustack must be cleaned so it can re-acquire on the next iscsid request */ uip_reset(&nic_iface->ustack); /* Signal that the device enable is done */ pthread_cond_broadcast(&nic->enable_done_cond); pthread_mutex_unlock(&nic->nic_mutex); if (nic->enable_thread == INVALID_THREAD) goto dhcp_err; rc = pthread_cancel(nic->enable_thread); if (rc != 0) LOG_ERR(PFX "%s: Couldn't cancel " "enable nic thread", nic->log_name); dhcp_err: pthread_mutex_lock(&nic->nic_mutex); goto error; } if (nic->flags & NIC_DISABLED) { /* Break out of this loop */ break; } LOG_INFO(PFX "%s: Initialized dhcp client", nic->log_name); break; case IPV6_CONFIG_DHCP: case IPV6_CONFIG_STATIC: if (ndpc_init(nic, &nic_iface->ustack, nic_iface->mac_addr, ETH_ALEN)) { LOG_DEBUG(PFX "%s: IPv6 engine already initialized!", nic->log_name); goto skip; } pthread_mutex_unlock(&nic->nic_mutex); rc = process_dhcp_loop(nic, nic_iface, periodic_timer, arp_timer); pthread_mutex_lock(&nic->nic_mutex); if (rc) { /* Don't reset and allow to use RA and LL */ LOG_ERR(PFX "%s: IPv6 DHCP/NDP failed", nic->log_name); } if (nic_iface->ustack.ip_config == IPV6_CONFIG_STATIC) { memcpy(&addr6.s6_addr, nic_iface->ustack.hostaddr6, sizeof(addr6.s6_addr)); inet_ntop(AF_INET6, addr6.s6_addr, buf, sizeof(buf)); LOG_INFO(PFX "%s: hostaddr IP: %s", nic->log_name, buf); memcpy(&addr6.s6_addr, nic_iface->ustack.netmask6, sizeof(addr6.s6_addr)); inet_ntop(AF_INET6, addr6.s6_addr, buf, sizeof(buf)); LOG_INFO(PFX "%s: netmask IP: %s", nic->log_name, buf); } break; default: LOG_INFO(PFX "%s: ipconfig = %d?", nic->log_name, nic_iface->ustack.ip_config); } skip: /* Mark acquisition done for this nic iface */ nic_iface->flags &= ~NIC_IFACE_ACQUIRE; LOG_INFO(PFX "%s: enabled vlan %d protocol: %d", nic->log_name, nic_iface->vlan_id, nic_iface->protocol); return 0; error: return -EIO; } void *nic_loop(void *arg) { nic_t *nic = (nic_t *) arg; int rc = -1; sigset_t set; struct timer periodic_timer, arp_timer; sigfillset(&set); rc = pthread_sigmask(SIG_BLOCK, &set, NULL); if (rc != 0) { /* TODO: determine if we need to exit this thread if we fail * to set the signal mask */ LOG_ERR(PFX "%s: Couldn't set signal mask", nic->log_name); } /* Signal the device to enable itself */ pthread_mutex_lock(&nic->nic_mutex); pthread_cond_signal(&nic->nic_loop_started_cond); /* nic_mutex must be locked */ while ((event_loop_stop == 0) && !(nic->flags & NIC_EXIT_MAIN_LOOP) && !(nic->flags & NIC_GOING_DOWN)) { nic_interface_t *nic_iface, *vlan_iface; if (nic->flags & NIC_DISABLED) { LOG_DEBUG(PFX "%s: Waiting to be enabled", nic->log_name); /* Wait for the device to be enabled */ /* nic_mutex is already locked */ pthread_cond_wait(&nic->enable_wait_cond, &nic->nic_mutex); if (nic->state == NIC_EXIT) { pthread_mutex_unlock(&nic->nic_mutex); pthread_exit(NULL); } LOG_DEBUG(PFX "%s: is now enabled", nic->log_name); } /* initialize the device to send/rec data */ rc = (*nic->ops->open) (nic); if (rc != 0) { LOG_ERR(PFX "%s: Could not initialize CNIC UIO device", nic->log_name); if (rc == -ENOTSUP) nic->flags |= NIC_EXIT_MAIN_LOOP; else nic->flags &= ~NIC_ENABLED; /* Signal that the device enable is done */ pthread_cond_broadcast(&nic->enable_done_cond); pthread_mutex_unlock(&nic->nic_mutex); goto dev_close; } nic_set_all_nic_iface_mac_to_parent(nic); pthread_mutex_unlock(&nic->nic_mutex); rc = alloc_free_queue(nic, 5); if (rc != 5) { if (rc != 0) { LOG_WARN(PFX "%s: Allocated %d packets " "instead of %d", nic->log_name, rc, 5); } else { LOG_ERR(PFX "%s: No packets allocated " "instead of %d", nic->log_name, 5); /* Signal that the device enable is done */ pthread_cond_broadcast(&nic->enable_done_cond); goto dev_close; } } /* Indication for the nic_disable routine that the nic has started running */ nic->state = NIC_STARTED_RUNNING; /* Initialize the system clocks */ timer_set(&periodic_timer, CLOCK_SECOND / 2); timer_set(&arp_timer, CLOCK_SECOND * 10); /* Prepare the stack for each of the VLAN interfaces */ pthread_mutex_lock(&nic->nic_mutex); /* If DHCP fails, exit loop and restart the engine */ nic_iface = nic->nic_iface; while (nic_iface != NULL) { if (nic_iface->flags & NIC_IFACE_ACQUIRE) { do_acquisition(nic, nic_iface, &periodic_timer, &arp_timer); } vlan_iface = nic_iface->vlan_next; while (vlan_iface != NULL) { if (vlan_iface->flags & NIC_IFACE_ACQUIRE) { do_acquisition(nic, vlan_iface, &periodic_timer, &arp_timer); } vlan_iface = vlan_iface->next; } nic_iface = nic_iface->next; } if (nic->flags & NIC_DISABLED) { LOG_WARN(PFX "%s: nic was disabled during nic loop, " "closing flag 0x%x", nic->log_name, nic->flags); /* Signal that the device enable is done */ pthread_cond_broadcast(&nic->enable_done_cond); pthread_mutex_unlock(&nic->nic_mutex); goto dev_close_free; } /* This is when we start the processing of packets */ nic->start_time = time(NULL); nic->state = NIC_RUNNING; nic->flags &= ~NIC_ENABLED_PENDING; /* Signal that the device enable is done */ pthread_cond_broadcast(&nic->enable_done_cond); LOG_INFO(PFX "%s: entering main nic loop", nic->log_name); while ((nic->state == NIC_RUNNING) && (event_loop_stop == 0) && !(nic->flags & NIC_GOING_DOWN)) { pthread_mutex_unlock(&nic->nic_mutex); /* Check the periodic and ARP timer */ check_timers(nic, &periodic_timer, &arp_timer); rc = nic_process_intr(nic, 0); while ((rc > 0) && (nic->state == NIC_RUNNING) && !(nic->flags & NIC_GOING_DOWN)) { rc = process_packets(nic, &periodic_timer, &arp_timer, NULL); } pthread_mutex_lock(&nic->nic_mutex); } LOG_INFO(PFX "%s: exited main processing loop", nic->log_name); dev_close_free: free_free_queue(nic); dev_close: if (nic->flags & NIC_GOING_DOWN) { nic_close(nic, 1, FREE_NO_STRINGS); nic->flags &= ~NIC_GOING_DOWN; } else { pthread_mutex_destroy(&nic->xmit_mutex); pthread_mutex_init(&nic->xmit_mutex, NULL); } nic->pending_count = 0; if (!(nic->flags & NIC_EXIT_MAIN_LOOP)) { /* Signal we are done closing CNIC/UIO device */ pthread_cond_broadcast(&nic->disable_wait_cond); } } /* clean up the nic flags */ nic->flags &= ~NIC_ENABLED_PENDING; pthread_mutex_unlock(&nic->nic_mutex); LOG_INFO(PFX "%s: nic loop thread exited", nic->log_name); nic->thread = INVALID_THREAD; pthread_exit(NULL); } open-iscsi-2.0.874/iscsiuio/src/unix/nic.h000066400000000000000000000306531277325716400203150ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic.h - NIC header file * */ #include #ifndef __NIC_H__ #define __NIC_H__ #include #include #include #include #include #include #include "nic_nl.h" #include "packet.h" #include "uip.h" #include "timer.h" #include "iscsi_if.h" /* Foward declarations */ struct nic_ops; struct nic_lib_handle; struct packet; struct nic_op; extern pthread_mutex_t nic_lib_list_mutex; extern struct nic_lib_handle *nic_lib_list; /* Used to store a list of active cnic devices */ extern pthread_mutex_t nic_list_mutex; extern struct nic *nic_list; extern void *nl_process_handle_thread(void *arg); /******************************************************************************* * Constants ******************************************************************************/ #define MAX_PCI_DEVICE_ENTRIES 64 /* Maxium number of pci_device_id entries a hw library may contain */ #define FREE_CONFIG_NAME 0x0001 #define FREE_UIO_NAME 0x0002 #define FREE_ALL_STRINGS (FREE_CONFIG_NAME | FREE_UIO_NAME) #define FREE_NO_STRINGS 0x0000 /****************************************************************************** * Enumerations ******************************************************************************/ typedef enum { ALLOW_GRACEFUL_SHUTDOWN = 1, FORCE_SHUTDOWN = 2, } NIC_SHUTDOWN_T; /******************************************************************************* * Structure used to hold PCI vendor, device, subvendor and subdevice ID's ******************************************************************************/ struct pci_device_id { const uint32_t vendor, device; /* Vendor and device ID or PCI_ANY_ID */ const uint32_t subvendor, subdevice; /* Subsystem ID's/PCI_ANY_ID */ const char *device_name; /* Data private to the driver */ }; /****************************************************************************** * NIC statistics structure ******************************************************************************/ struct nic_stats { uint64_t interrupts; uint64_t missed_interrupts; struct { uint64_t packets; uint64_t bytes; } tx; struct { uint64_t packets; uint64_t bytes; } rx; }; /****************************************************************************** * NIC interface structure ******************************************************************************/ typedef struct nic_interface { struct nic_interface *vlan_next; struct nic_interface *next; struct nic *parent; uint16_t protocol; uint16_t flags; #define NIC_IFACE_PERSIST (1<<0) #define NIC_IFACE_ACQUIRE (1<<1) #define NIC_IFACE_PATHREQ_WAIT1 (1<<2) #define NIC_IFACE_PATHREQ_WAIT2 (1<<3) #define NIC_IFACE_PATHREQ_WAIT (NIC_IFACE_PATHREQ_WAIT1 | \ NIC_IFACE_PATHREQ_WAIT2) uint8_t mac_addr[ETH_ALEN]; uint8_t vlan_priority; uint16_t vlan_id; #define NO_VLAN 0x8000 uint16_t mtu; time_t start_time; struct uip_stack ustack; #define IFACE_NUM_PRESENT (1<<0) #define IFACE_NUM_INVALID -1 int iface_num; int request_type; } nic_interface_t; /****************************************************************************** * NIC lib operations structure ******************************************************************************/ struct nic_lib_ops { /* Used to get the NIC library name */ void (*get_library_name) (char **library_name, size_t *library_name_size); /* Used to get to the PCI table supported by the NIC library */ void (*get_pci_table) (struct pci_device_id **table, uint32_t *entries); /* Used to get the version of this NIC library */ void (*get_library_version) (char **version_string, size_t *version_string_size); /* Used to get the NIC library build date */ void (*get_build_date) (char **build_date_string, size_t *build_date_string_size); /* Used to get the transport name assoicated with this library */ void (*get_transport_name) (char **transport_name, size_t *transport_name_size); /* Used to get the uio name assoicated with this library */ void (*get_uio_name) (char **uio_name, size_t *uio_name_size); }; /******************************************************************************* * NIC op table definition ******************************************************************************/ typedef struct nic_ops { struct nic_lib_ops lib_ops; char *description; int (*open) (struct nic *); int (*close) (struct nic *, NIC_SHUTDOWN_T); int (*read) (struct nic *, struct packet *); int (*write) (struct nic *, nic_interface_t *, struct packet *); void *(*get_tx_pkt) (struct nic *); void (*start_xmit) (struct nic *, size_t, u16_t vlan_id); int (*clear_tx_intr) (struct nic *); int (*handle_iscsi_path_req) (struct nic *, int, struct iscsi_uevent *ev, struct iscsi_path *path, nic_interface_t *nic_iface); } net_ops_t; typedef struct nic_lib_handle { struct nic_lib_handle *next; pthread_mutex_t mutex; struct nic_ops *ops; } nic_lib_handle_t; typedef struct nic { struct nic *next; uint32_t flags; #define NIC_UNITIALIZED 0x0001 #define NIC_INITIALIZED 0x0002 #define NIC_ENABLED 0x0004 #define NIC_DISABLED 0x0008 #define NIC_IPv6_ENABLED 0x0010 #define NIC_ADDED_MULICAST 0x0020 #define NIC_LONG_SLEEP 0x0040 #define NIC_PATHREQ_WAIT 0x0080 #define NIC_VLAN_STRIP_ENABLED 0x0100 #define NIC_MSIX_ENABLED 0x0200 #define NIC_TX_HAS_SENT 0x0400 #define NIC_ENABLED_PENDING 0x0800 #define NIC_UIO_NAME_MALLOC 0x1000 #define NIC_CONFIG_NAME_MALLOC 0x2000 #define NIC_EXIT_MAIN_LOOP 0x4000 #define NIC_GOING_DOWN 0x8000 #define NIC_RESET_UIP 0x10000 uint16_t state; #define NIC_STOPPED 0x0001 #define NIC_STARTED_RUNNING 0x0002 #define NIC_RUNNING 0x0004 #define NIC_EXIT 0x0010 int fd; /* Holds the file descriptor to UIO */ uint16_t uio_minor; /* Holds the UIO minor number */ uint32_t host_no; /* Holds the associated host number */ char *library_name; /* Name of the library to assoicate with */ char *log_name; /* Human friendly name used in the log file */ char *config_device_name; /* Name read from the XML configuration file */ char eth_device_name[IFNAMSIZ]; /* Network interface name */ char *uio_device_name; /* UIO device name */ uint32_t intr_count; /* Total UIO interrupt count */ int page_size; /* Held for nic ops manipulation */ pthread_mutex_t nic_mutex; /* iSCSI ring ethernet MAC address */ __u8 mac_addr[ETH_ALEN]; /* Used to manage the network interfaces of this device */ __u32 num_of_nic_iface; nic_interface_t *nic_iface; /* Wait for the device to be enabled */ pthread_cond_t enable_wait_cond; /* Wait for the device to be finished enabled */ pthread_cond_t enable_done_cond; /* Wait for the nic loop to start */ pthread_cond_t nic_loop_started_cond; /* Wait for the device to be disabled */ pthread_cond_t disable_wait_cond; /* Held when transmitting */ pthread_mutex_t xmit_mutex; /* The thread this device is running on */ pthread_t thread; /* The thread used to enable the device */ pthread_t enable_thread; /* Statistical Information on this device */ time_t start_time; struct nic_stats stats; /* Number of retrys from iscsid */ uint32_t pending_count; uint32_t pathreq_pending_count; #define DEFAULT_RX_POLL_USEC 100 /* usec */ /* options enabled by the user */ uint32_t rx_poll_usec; /* Used to hold hardware specific data */ void *priv; /* Used to hold the TX packets that are needed to be sent */ struct packet *tx_packet_queue; /* Mutex to protect the list of free packets */ pthread_mutex_t free_packet_queue_mutex; /* Used to hold the free packets that are needed to be sent */ struct packet *free_packet_queue; /* Points to the NIC library */ nic_lib_handle_t *nic_library; /* Points to the PCI table entry */ struct pci_device_id *pci_id; /* Used to process the interrupt */ int (*process_intr) (struct nic *nic); struct nic_ops *ops; /* NL processing parameters */ pthread_t nl_process_thread; pthread_cond_t nl_process_cond; pthread_cond_t nl_process_if_down_cond; pthread_mutex_t nl_process_mutex; int nl_process_if_down; int nl_process_head; int nl_process_tail; #define NIC_NL_PROCESS_MAX_RING_SIZE 128 #define NIC_NL_PROCESS_LAST_ENTRY (NIC_NL_PROCESS_MAX_RING_SIZE - 1) #define NIC_NL_PROCESS_NEXT_ENTRY(x) ((x + 1) & NIC_NL_PROCESS_MAX_RING_SIZE) void *nl_process_ring[NIC_NL_PROCESS_MAX_RING_SIZE]; /* The thread used to perform ping */ pthread_t ping_thread; } nic_t; /****************************************************************************** * Function Prototypes *****************************************************************************/ int load_all_nic_libraries(); nic_t *nic_init(); void nic_add(nic_t *nic); int nic_remove(nic_t *nic); int nic_add_nic_iface(nic_t *nic, nic_interface_t *nic_iface); int nic_process_intr(nic_t *nic, int discard_check); nic_interface_t *nic_iface_init(); typedef enum { NIC_LIBRARY_EXSITS = 1, NIC_LIBRARY_DOESNT_EXIST = 2, } NIC_LIBRARY_EXIST_T; NIC_LIBRARY_EXIST_T does_nic_uio_name_exist(char *name, nic_lib_handle_t **handle); NIC_LIBRARY_EXIST_T does_nic_library_exist(char *name, nic_lib_handle_t **handle); /******************************************************************************* * Packet management utility functions ******************************************************************************/ struct packet *get_next_tx_packet(nic_t *nic); struct packet *get_next_free_packet(nic_t *nic); void put_packet_in_tx_queue(struct packet *pkt, nic_t *nic); void put_packet_in_free_queue(struct packet *pkt, nic_t *nic); int unload_all_nic_libraries(); void nic_close(nic_t *nic, NIC_SHUTDOWN_T graceful, int clean); /* Use this function to fill in minor number and uio, and eth names */ int nic_fill_name(nic_t *nic); int enable_multicast(nic_t *nic); int disable_multicast(nic_t *nic); void nic_set_all_nic_iface_mac_to_parent(nic_t *nic); int find_nic_lib_using_pci_id(uint32_t vendor, uint32_t device, uint32_t subvendor, uint32_t subdevice, nic_lib_handle_t **handle, struct pci_device_id **pci_entry); void *nic_loop(void *arg); int nic_packet_capture(struct nic *, struct packet *pkt); int process_packets(nic_t *nic, struct timer *periodic_timer, struct timer *arp_timer, nic_interface_t *nic_iface); void prepare_ustack(nic_t *nic, nic_interface_t *nic_iface, struct uip_stack *ustack, struct packet *pkt); void prepare_ipv4_packet(nic_t *nic, nic_interface_t *nic_iface, struct uip_stack *ustack, struct packet *pkt); void prepare_ipv6_packet(nic_t *nic, nic_interface_t *nic_iface, struct uip_stack *ustack, struct packet *pkt); #endif /* __NIC_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/nic_id.c000066400000000000000000000232011277325716400207530ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_id.c - Using sysfs to determine the PCI vendor, device, subvendor and * subdevice ID's * */ #include #include #include #include #include #include #include "logger.h" #include "nic.h" #define PFX "nic_id " /******************************************************************************* * Sysfs constant strings used to get PCI vendor, and device ID's ******************************************************************************/ const char uio_vendor_id_template[] = "/sys/class/uio/uio%d/device/vendor"; const char uio_subvendor_id_template[] = "/sys/class/uio/uio%d/device/subsystem_vendor"; const char uio_device_id_template[] = "/sys/class/uio/uio%d/device/device"; const char uio_subdevice_id_template[] = "/sys/class/uio/uio%d/device/subsystem_device"; const char uio_device_symlink_template[] = "/sys/class/uio/uio%d/device"; /** * get_id() - Utility function to read hex values from sysfs * @param nic - NIC device to use * @param sysfs_template - sysfs path template to use * @param sysfs_template_size - sysfs path template size in bytes * @parm id - this is the value returned from the sysfs entry * @return 0 on success <0 on failure */ static int get_id(nic_t *nic, const char *sysfs_template, const size_t sysfs_template_size, uint32_t *id) { int rc = 0; FILE *fp; size_t chars_read; char buf[7]; char *path; size_t path_size; path_size = sysfs_template_size + 4; path = malloc(path_size); if (path == NULL) { LOG_ERR("Could not allocate memory for %s", sysfs_template); return -ENOMEM; } snprintf(path, path_size, sysfs_template, nic->uio_minor); fp = fopen(path, "r"); if (fp == NULL) { LOG_ERR(PFX "%s: Could not open path: %s [%s]", nic->log_name, path, strerror(errno)); rc = -EIO; goto error_fopen; } chars_read = fread(buf, sizeof(buf), 1, fp); if (chars_read != 1) { LOG_ERR(PFX "%s: Could not read from: %s [%s]", nic->log_name, path, strerror(ferror(fp))); rc = -EIO; goto error; } chars_read = sscanf(buf, "%x", id); if (chars_read != 1) { LOG_ERR(PFX "%s: Could interpret value: %s from: %s [%s]", nic->log_name, buf, path, strerror(errno)); rc = -EIO; goto error; } error: fclose(fp); error_fopen: free(path); return rc; } static int get_vendor(nic_t *nic, uint32_t *id) { return get_id(nic, uio_vendor_id_template, sizeof(uio_vendor_id_template), id); } static int get_subvendor(nic_t *nic, uint32_t *id) { return get_id(nic, uio_subvendor_id_template, sizeof(uio_subvendor_id_template), id); } static int get_device(nic_t *nic, uint32_t *id) { return get_id(nic, uio_device_id_template, sizeof(uio_device_id_template), id); } static int get_subdevice(nic_t *nic, uint32_t *id) { return get_id(nic, uio_subdevice_id_template, sizeof(uio_subdevice_id_template), id); } int get_bus_slot_func_num(nic_t *nic, uint32_t *bus, uint32_t *slot, uint32_t *func) { size_t size; char *path, *tok, *tok2; int path_tokens, i; size_t path_size; char *read_pci_bus_slot_func_str; char pci_bus_slot_func_str[32]; int rc; char *saveptr; path_size = sizeof(uio_device_symlink_template) + 4; path = malloc(path_size); if (path == NULL) { LOG_ERR(PFX "%s: Could not allocate path memory for %s", nic->log_name, uio_device_symlink_template); rc = -ENOMEM; goto error_alloc_path; } read_pci_bus_slot_func_str = malloc(128); if (read_pci_bus_slot_func_str == NULL) { LOG_ERR(PFX "%s: Could not allocate read pci bus memory for %s", nic->log_name, uio_device_symlink_template); rc = -ENOMEM; goto error_alloc_read_pci_bus; } snprintf(path, path_size, uio_device_symlink_template, nic->uio_minor); size = readlink(path, read_pci_bus_slot_func_str, 128); if (size == -1) { LOG_ERR(PFX "%s: Error with %s: %s", nic->log_name, path, strerror(errno)); rc = errno; goto error; } if (size > ((128) - 1)) { read_pci_bus_slot_func_str[128 - 1] = '\0'; LOG_ERR(PFX "%s: not enough space (%d) for reading PCI " "slot:bus.func %s: %s", nic->log_name, size, path, strerror(errno)); rc = -EIO; goto error; } /* readlink() doesn't NULL terminate the string */ read_pci_bus_slot_func_str[size] = '\0'; path_tokens = 0; tok = strtok_r(read_pci_bus_slot_func_str, "/", &saveptr); while (tok != NULL) { path_tokens++; tok = strtok_r(NULL, "/", &saveptr); } size = readlink(path, read_pci_bus_slot_func_str, 128); if (size == -1) { LOG_ERR(PFX "%s: Error with %s: %s", nic->log_name, path, strerror(errno)); rc = errno; goto error; } if (size > ((128) - 1)) { read_pci_bus_slot_func_str[128 - 1] = '\0'; LOG_ERR(PFX "%s: not enough space for reading PCI " "slot:bus.func %s: %s", nic->log_name, path, strerror(errno)); rc = -EIO; goto error; } /* readlink() doesn't NULL terminate the string */ read_pci_bus_slot_func_str[size] = '\0'; tok = strtok_r(read_pci_bus_slot_func_str, "/", &saveptr); for (i = 0; i < path_tokens - 1; i++) tok = strtok_r(NULL, "/", &saveptr); strcpy(pci_bus_slot_func_str, tok); tok = strtok_r(pci_bus_slot_func_str, ":", &saveptr); if (tok == NULL) { LOG_ERR(PFX "%s: Error with slot string: %s", nic->log_name, pci_bus_slot_func_str); rc = -EIO; goto error; } tok = strtok_r(NULL, ":", &saveptr); if (tok == NULL) { LOG_ERR(PFX "%s: Error parsing slot: %s", nic->log_name, pci_bus_slot_func_str); rc = -EIO; goto error; } sscanf(tok, "%x", bus); /* Need to extract the next token "xx.x" */ tok = strtok_r(NULL, ":", &saveptr); if (tok == NULL) { LOG_ERR(PFX "%s: Error extracing bus.func: %s", nic->log_name, pci_bus_slot_func_str); rc = -EIO; goto error; } tok2 = strtok_r(tok, ".", &saveptr); if (tok2 == NULL) { LOG_ERR(PFX "%s: Error parsing bus: %s", nic->log_name, pci_bus_slot_func_str); rc = -EIO; goto error; } sscanf(tok2, "%x", slot); tok2 = strtok_r(NULL, ".", &saveptr); if (tok2 == NULL) { LOG_ERR(PFX "%s: Error parsing func: %s", nic->log_name, pci_bus_slot_func_str); rc = -EIO; goto error; } sscanf(tok2, "%x", func); LOG_INFO(PFX "%s: is found at %02x:%02x.%02x", nic->log_name, *bus, *slot, *func); rc = 0; error: free(read_pci_bus_slot_func_str); error_alloc_read_pci_bus: free(path); error_alloc_path: return rc; } /** * find_set_nic_lib() - Match the NIC library to the NIC * @param nic - NIC device to determine which NIC library to use * @return 0 on success <0 on failure */ int find_set_nic_lib(nic_t *nic) { uint32_t vendor; uint32_t subvendor; uint32_t device; uint32_t subdevice; uint32_t pci_bus; uint32_t pci_slot; uint32_t pci_func; int rc = 0; nic_lib_handle_t *handle; struct pci_device_id *pci_entry; size_t name_size; rc = get_vendor(nic, &vendor); if (rc != 0) { LOG_ERR(PFX "%s: Could not get vendor id [0x%x]", nic->log_name, rc); return rc; } rc = get_subvendor(nic, &subvendor); if (rc != 0) { LOG_ERR(PFX "%s: Could not get subvendor id [0x%x]", nic->log_name, rc); return rc; } rc = get_device(nic, &device); if (rc != 0) { LOG_ERR(PFX "%s: Could not get device id [0x%x]", nic->log_name, rc); return rc; } rc = get_subdevice(nic, &subdevice); if (rc != 0) { LOG_ERR(PFX "%s: Could not get subdevice id [0x%x]", nic->log_name, rc); return rc; } get_bus_slot_func_num(nic, &pci_bus, &pci_slot, &pci_func); LOG_DEBUG(PFX "%s: Looking for device vendor: " "0x%x subvendor: 0x%x device: 0x%x subdevice: 0x%x", nic->log_name, vendor, subvendor, device, subdevice); rc = find_nic_lib_using_pci_id(vendor, device, subvendor, subdevice, &handle, &pci_entry); if (rc != 0) { LOG_WARN(PFX "%s: Couldn't find proper NIC library", nic->log_name); return rc; } nic->nic_library = handle; nic->pci_id = pci_entry; /* Prepare the NIC library op table */ nic->ops = handle->ops; (*nic->ops->lib_ops.get_library_name) (&nic->library_name, &name_size); return 0; } open-iscsi-2.0.874/iscsiuio/src/unix/nic_id.h000066400000000000000000000037571277325716400207760ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_id.h - NIC uIP NetLink user space stack * */ #ifndef __NIC_ID_H__ #define __NIC_ID_H__ int find_set_nic_lib(nic_t *nic); int get_bus_slot_func_num(nic_t *nic, uint32_t *bus, uint32_t *slot, uint32_t *func); #endif /* __NIC_ID_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/nic_nl.c000066400000000000000000000424511277325716400210000ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_nl.c - NIC uIP NetLink user space stack * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "uip_arp.h" #include "logger.h" #include "options.h" #include "nic.h" #include "nic_nl.h" #include "nic_utils.h" /******************************************************************************* * Constants ******************************************************************************/ #define PFX "NIC_NL " static u8_t nlm_sendbuf[NLM_BUF_DEFAULT_MAX]; static struct sockaddr_nl src_addr; static const struct sockaddr_nl dest_addr = { .nl_family = AF_NETLINK, .nl_pid = 0, /* kernel */ .nl_groups = 0, /* unicast */ }; #define POLL_NL 0 #define POLL_MAX 1 /* Netlink */ int nl_sock = INVALID_FD; static int nl_read(int ctrl_fd, char *data, int size, int flags) { int rc; struct iovec iov; struct msghdr msg; iov.iov_base = data; iov.iov_len = size; memset(&src_addr, 0, sizeof(src_addr)); src_addr.nl_family = AF_NETLINK; src_addr.nl_pid = getpid(); src_addr.nl_groups = 1; memset(&msg, 0, sizeof(msg)); msg.msg_name = (void *)&src_addr; msg.msg_namelen = sizeof(src_addr); msg.msg_iov = &iov; msg.msg_iovlen = 1; rc = recvmsg(ctrl_fd, &msg, flags); return rc; } static int kwritev(int fd, enum iscsi_uevent_e type, struct iovec *iovp, int count) { int i, rc; struct nlmsghdr *nlh; struct msghdr msg; struct iovec iov; int datalen = 0; for (i = 0; i < count; i++) datalen += iovp[i].iov_len; nlh = (struct nlmsghdr *)nlm_sendbuf; memset(nlh, 0, NLMSG_SPACE(datalen)); nlh->nlmsg_len = NLMSG_SPACE(datalen); nlh->nlmsg_pid = getpid(); nlh->nlmsg_flags = 0; nlh->nlmsg_type = type; datalen = 0; for (i = 0; i < count; i++) { memcpy(NLMSG_DATA(nlh) + datalen, iovp[i].iov_base, iovp[i].iov_len); datalen += iovp[i].iov_len; } iov.iov_base = (void *)nlh; iov.iov_len = nlh->nlmsg_len; memset(&msg, 0, sizeof(msg)); msg.msg_name = (void *)&dest_addr; msg.msg_namelen = sizeof(dest_addr); msg.msg_iov = &iov; msg.msg_iovlen = 1; do { rc = sendmsg(fd, &msg, 0); if (rc == -ENOMEM) { LOG_ERR(PFX "sendmsg: alloc_skb() failed"); sleep(1); } else if (rc < 0) { LOG_ERR(PFX "sendmsg: bug?: on %d %s[0x%x]", fd, strerror(errno), errno); sleep(1); } } while ((rc < 0) && (event_loop_stop == 0)); return rc; } /* * __kipc_call() should never block. Therefore * Netlink's xmit logic is serialized. This means we do not allocate on * xmit path. Instead we reuse nlm_sendbuf buffer. * * Transport must assure non-blocking operations for: * * - session_create() * - conn_create() * - conn_bind() * _ set_param() * - conn_start() * - conn_stop() * * Its OK to block for cleanup for short period of time in operatations for: * * - conn_destroy() * - session_destroy() * * FIXME: interface needs to be extended to allow longer blocking on * cleanup. (Dima) */ int __kipc_call(int fd, void *iov_base, int iov_len) { int rc; struct iovec iov; struct iscsi_uevent *ev = iov_base; enum iscsi_uevent_e type = ev->type; /* Sanity check */ if (iov_base == NULL) return -EINVAL; iov.iov_base = iov_base; iov.iov_len = iov_len; rc = kwritev(fd, type, &iov, 1); return rc; } static int pull_from_nl(char **buf) { int rc; size_t ev_size, payload_size, alloc_size; char nlm_ev[NLMSG_SPACE(sizeof(struct iscsi_uevent))]; struct nlmsghdr *nlh; char *data = NULL; struct iscsi_uevent *ev; /* Take a quick peek at what how much uIP will need to read */ rc = nl_read(nl_sock, nlm_ev, NLMSG_SPACE(sizeof(struct iscsi_uevent)), MSG_PEEK | MSG_WAITALL); if (rc <= 0) { LOG_ERR("can not read nlm_ev, error %s[%d]", strerror(errno), rc); if (rc == 0) return -EIO; else return errno; } nlh = (struct nlmsghdr *)nlm_ev; if (unlikely(nlh->nlmsg_len < NLMSG_ALIGN(sizeof(struct nlmsghdr)))) { LOG_ERR(PFX "Invalid nlh->nlmsg_len length: " "nlh->nlmsg_len(%d) < " "NLMSG_ALIGN(sizeof(struct nlmsghdr))(%d)", nlh->nlmsg_len, NLMSG_ALIGN(sizeof(struct nlmsghdr))); return -EINVAL; } ev = (struct iscsi_uevent *)NLMSG_DATA(nlh); if (ev->type == ISCSI_KEVENT_PATH_REQ) { ev_size = nlh->nlmsg_len - NLMSG_ALIGN(sizeof(struct nlmsghdr)); payload_size = ev_size - sizeof(struct iscsi_uevent); if (payload_size < sizeof(struct iscsi_path)) alloc_size = nlh->nlmsg_len + (payload_size - sizeof(struct iscsi_path)); else alloc_size = nlh->nlmsg_len; } else { alloc_size = nlh->nlmsg_len; } data = (char *)malloc(alloc_size); if (unlikely(data == NULL)) { LOG_ERR(PFX "Couldn't allocate %d bytes for Netlink " "iSCSI message", alloc_size); return -ENOMEM; } memset(data, 0, alloc_size); rc = nl_read(nl_sock, data, (int)nlh->nlmsg_len, MSG_WAITALL); if (rc <= 0) { LOG_ERR("can not read nlm_ev, error %s[%d]", strerror(errno), rc); if (rc == 0) rc = -EIO; else rc = errno; goto error; } *buf = data; return 0; error: if (data != NULL) free(data); return rc; } static const struct timespec ctldev_sleep_req = { .tv_sec = 0, .tv_nsec = 250000000, }; static int ctldev_handle(char *data, nic_t *nic) { int rc; struct iscsi_uevent *ev; uint8_t *payload; struct iscsi_path *path; char *msg_type_str; int i; nic_interface_t *nic_iface = NULL; ev = (struct iscsi_uevent *)NLMSG_DATA(data); switch (ev->type) { case ISCSI_KEVENT_PATH_REQ: msg_type_str = "path_req"; break; default: /* We don't care about other iSCSI Netlink messages */ LOG_DEBUG(PFX "Received ev->type: 0x%x", ev->type); rc = 0; goto error; } /* This is a message that drivers should be interested in */ LOG_INFO(PFX "%s: Processing '%s'", nic->log_name, msg_type_str); payload = (uint8_t *) ((uint8_t *) ev) + sizeof(*ev); path = (struct iscsi_path *)payload; if (ev->type == ISCSI_KEVENT_PATH_REQ) { struct timespec sleep_rem; nic_interface_t *vlan_iface; uint16_t ip_type; int iface_num, vlan_id; if (path->ip_addr_len == 4) ip_type = AF_INET; else if (path->ip_addr_len == 16) ip_type = AF_INET6; else ip_type = 0; #ifdef REQ_PATH_IFACE_NUM /* Find the nic_iface to use */ iface_num = ev->r.req_path.iface_num ? ev->r.req_path.iface_num : IFACE_NUM_INVALID; #else iface_num = IFACE_NUM_INVALID; #endif vlan_id = path->vlan_id ? path->vlan_id : NO_VLAN; LOG_DEBUG(PFX "%s: PATH_REQ with iface_num %d VLAN %d", nic->log_name, iface_num, vlan_id); pthread_mutex_lock(&nic->nic_mutex); nic_iface = nic_find_nic_iface(nic, ip_type, vlan_id, iface_num, IP_CONFIG_OFF); if (nic_iface == NULL) { nic_iface = nic_find_nic_iface(nic, ip_type, NO_VLAN, IFACE_NUM_INVALID, IP_CONFIG_OFF); if (nic_iface == NULL) { pthread_mutex_unlock(&nic->nic_mutex); LOG_ERR(PFX "%s: Couldn't find nic iface parent" " vlan: %d ip_type: %d " "ip_addr_len: %d to clone", nic->log_name, path->vlan_id, ip_type, path->ip_addr_len); goto error; } if (nic_iface->iface_num != IFACE_NUM_INVALID) { /* New VLAN support: Use the nic_iface found from the top of the protocol family and ignore the VLAN id from the path_req */ if (!(nic_iface->iface_num == 0 && nic_iface->vlan_id == 0 && path->vlan_id)) { pthread_mutex_unlock(&nic->nic_mutex); goto nic_iface_done; } /* If iface_num == 0 and vlan_id == 0 but the vlan_id from path_req is > 0, then fallthru to the legacy support since this is most likely from an older iscsid (RHEL6.2/6.3 but has iface_num support) */ } /* Legacy VLAN support: This newly created nic_iface must inherit the network parameters from the parent nic_iface */ LOG_DEBUG(PFX "%s: Created the nic_iface for vlan: %d " "ip_type: %d", nic->log_name, path->vlan_id, ip_type); vlan_iface = nic_iface_init(); if (vlan_iface == NULL) { pthread_mutex_unlock(&nic->nic_mutex); LOG_ERR(PFX "%s: Couldn't allocate " "space for vlan: %d ip_type: " "%d", nic->log_name, path->vlan_id, ip_type); goto error; } vlan_iface->protocol = ip_type; vlan_iface->vlan_id = path->vlan_id; nic_add_nic_iface(nic, vlan_iface); vlan_iface->ustack.ip_config = nic_iface->ustack.ip_config; memcpy(vlan_iface->ustack.hostaddr, nic_iface->ustack.hostaddr, sizeof(nic_iface->ustack.hostaddr)); memcpy(vlan_iface->ustack.netmask, nic_iface->ustack.netmask, sizeof(nic_iface->ustack.netmask)); memcpy(vlan_iface->ustack.netmask6, nic_iface->ustack.netmask6, sizeof(nic_iface->ustack.netmask6)); memcpy(vlan_iface->ustack.hostaddr6, nic_iface->ustack.hostaddr6, sizeof(nic_iface->ustack.hostaddr6)); /* Persist so when nic_close won't call uip_reset to nullify nic_iface->ustack */ persist_all_nic_iface(nic); nic_iface = vlan_iface; nic_iface->flags |= NIC_IFACE_ACQUIRE; pthread_mutex_unlock(&nic->nic_mutex); /* nic_disable but not going down */ nic_disable(nic, 0); } else { pthread_mutex_unlock(&nic->nic_mutex); } nic_iface_done: /* Force enable the NIC */ if (nic->state == NIC_STOPPED) nic_enable(nic); /* Ensure that the NIC is RUNNING */ rc = -EIO; for (i = 0; i < 10; i++) { if (nic->state == NIC_RUNNING) { rc = 0; break; } nanosleep(&ctldev_sleep_req, &sleep_rem); } if (rc != 0) { LOG_WARN(PFX "%s[vlan: %d protocol: %d]: not running, " "cmd: 0x%x nic state: 0x%x flags: 0x%x", nic->log_name, nic_iface->vlan_id, nic_iface->protocol, ev->type, nic->state, nic->flags); goto error; } } if (nic->ops) { switch (ev->type) { case ISCSI_KEVENT_PATH_REQ: /* pass the request up to the user space * library driver */ nic_iface->flags |= NIC_IFACE_PATHREQ_WAIT2; nic_iface->flags &= ~NIC_IFACE_PATHREQ_WAIT1; if (nic->ops->handle_iscsi_path_req) nic->ops->handle_iscsi_path_req(nic, nl_sock, ev, path, nic_iface); nic_iface->flags &= ~NIC_IFACE_PATHREQ_WAIT; pthread_mutex_lock(&nic->nic_mutex); nic->flags &= ~NIC_PATHREQ_WAIT; pthread_mutex_unlock(&nic->nic_mutex); LOG_INFO(PFX "%s: 'path_req' operation finished", nic->log_name); rc = 0; break; default: rc = -EAGAIN; break; } } error: return rc; } /* NIC specific nl processing thread */ void *nl_process_handle_thread(void *arg) { int rc; nic_t *nic = (nic_t *)arg; if (nic == NULL) goto error; while (!event_loop_stop) { char *data = NULL; pthread_mutex_lock(&nic->nl_process_mutex); rc = pthread_cond_wait(&nic->nl_process_cond, &nic->nl_process_mutex); if (rc != 0) { pthread_mutex_unlock(&nic->nl_process_mutex); LOG_ERR("Fatal error in NL processing thread " "during wait[%s]", strerror(rc)); break; } data = nic->nl_process_ring[nic->nl_process_head]; nic->nl_process_ring[nic->nl_process_head] = NULL; nic->nl_process_tail = NIC_NL_PROCESS_NEXT_ENTRY(nic->nl_process_tail); pthread_mutex_unlock(&nic->nl_process_mutex); if (data) { ctldev_handle(data, nic); free(data); } } error: return NULL; } static void flush_nic_nl_process_ring(nic_t *nic) { int i; for (i = 0; i < NIC_NL_PROCESS_MAX_RING_SIZE; i++) { if (nic->nl_process_ring[i] != NULL) { free(nic->nl_process_ring[i]); nic->nl_process_ring[i] = NULL; } } nic->nl_process_head = 0; nic->nl_process_tail = 0; LOG_DEBUG(PFX "%s: Flushed NIC NL ring", nic->log_name); } /** * nic_nl_open() - This is called when opening/creating the Netlink listening * thread * @param dev - CNIC UIO device to create a NetLink listener on * @return 0 on success, <0 on failure */ int nic_nl_open() { int rc; char *msg_type_str; /* Prepare the thread to issue the ARP's */ nl_sock = socket(PF_NETLINK, SOCK_RAW, NETLINK_ISCSI); if (nl_sock < 0) { LOG_ERR(PFX "can not create NETLINK_ISCSI socket [%s]", strerror(errno)); rc = -ENOMEM; goto error; } memset(&src_addr, 0, sizeof(src_addr)); src_addr.nl_family = AF_NETLINK; src_addr.nl_pid = getpid(); src_addr.nl_groups = ISCSI_NL_GRP_UIP; while ((!event_loop_stop)) { rc = bind(nl_sock, (struct sockaddr *)&src_addr, sizeof(src_addr)); if (rc == 0) break; LOG_ERR(PFX "waiting binding to NETLINK_ISCSI socket"); sleep(1); } if (event_loop_stop) { rc = -EINVAL; goto error; } LOG_INFO(PFX "Netlink to CNIC on pid %d is ready", src_addr.nl_pid); while (!event_loop_stop) { struct iscsi_uevent *ev; char *buf = NULL; uint32_t host_no; nic_t *nic; rc = pull_from_nl(&buf); if (rc != 0) continue; /* Try to abort ARP'ing if a if_down was received */ ev = (struct iscsi_uevent *)NLMSG_DATA(buf); switch (ev->type) { case ISCSI_KEVENT_IF_DOWN: host_no = ev->r.notify_if_down.host_no; msg_type_str = "if_down"; break; case ISCSI_KEVENT_PATH_REQ: host_no = ev->r.req_path.host_no; msg_type_str = "path_req"; break; default: /* We don't care about other iSCSI Netlink messages */ continue; } LOG_INFO(PFX "Received %s for host %d", msg_type_str, host_no); /* Make sure the nic list doesn't get yanked */ pthread_mutex_lock(&nic_list_mutex); rc = from_host_no_find_associated_eth_device(host_no, &nic); if (rc != 0) { pthread_mutex_unlock(&nic_list_mutex); LOG_ERR(PFX "Dropping msg, couldn't find nic with host " "no: %d", host_no); continue; } /* Found the nic */ if (nic->nl_process_thread == INVALID_THREAD) { /* If thread is not valid, just drop it */ pthread_mutex_unlock(&nic_list_mutex); LOG_ERR(PFX "Dropping msg, nic nl process thread " "not ready for host no: %d", host_no); continue; } if (ev->type == ISCSI_KEVENT_IF_DOWN) { char eth_device_name[IFNAMSIZ]; pthread_mutex_lock(&nic->nl_process_mutex); nic->nl_process_if_down = 1; flush_nic_nl_process_ring(nic); pthread_cond_broadcast(&nic->nl_process_if_down_cond); pthread_mutex_unlock(&nic->nl_process_mutex); memcpy(eth_device_name, nic->eth_device_name, sizeof(eth_device_name)); pthread_mutex_lock(&nic->nic_mutex); nic->flags &= ~NIC_PATHREQ_WAIT; nic->flags |= NIC_EXIT_MAIN_LOOP; pthread_cond_broadcast(&nic->enable_done_cond); pthread_mutex_unlock(&nic->nic_mutex); pthread_mutex_lock(&nic->nl_process_mutex); nic->nl_process_if_down = 0; pthread_mutex_unlock(&nic->nl_process_mutex); nic_disable(nic, 1); nic_remove(nic); pthread_mutex_unlock(&nic_list_mutex); LOG_INFO(PFX "%s: 'if_down' operation finished", eth_device_name); continue; } /* Place msg into the nic specific queue */ pthread_mutex_lock(&nic->nl_process_mutex); if ((nic->nl_process_head + 1 == nic->nl_process_tail) || (nic->nl_process_tail == 0 && nic->nl_process_head == NIC_NL_PROCESS_LAST_ENTRY)) { pthread_mutex_unlock(&nic->nl_process_mutex); pthread_mutex_unlock(&nic_list_mutex); LOG_WARN(PFX "%s: No space on Netlink ring", nic->log_name); continue; } nic->nl_process_ring[nic->nl_process_head] = buf; nic->nl_process_head = NIC_NL_PROCESS_NEXT_ENTRY(nic->nl_process_head); pthread_cond_signal(&nic->nl_process_cond); pthread_mutex_unlock(&nic->nl_process_mutex); pthread_mutex_unlock(&nic_list_mutex); LOG_DEBUG(PFX "Pulled nl event"); } LOG_INFO(PFX "Netlink thread exit'ing"); rc = 0; error: return 0; } open-iscsi-2.0.874/iscsiuio/src/unix/nic_nl.h000066400000000000000000000041371277325716400210040ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_nl.h - NIC uIP NetLink user space stack * */ #ifndef __NIC_NL_H__ #define __NIC_NL_H__ #include int nic_nl_open(); void nic_nl_close(); int __kipc_call(int fd, void *iov_base, int iov_len); extern pthread_cond_t nl_process_if_down_cond; extern pthread_mutex_t nl_process_mutex; extern int nl_process_if_down; #endif /* __NIC_NL_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/nic_utils.c000066400000000000000000001234711277325716400215310ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_util.c - shared NIC utility functions * */ #include #include #include #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include "logger.h" #include "nic.h" #include "nic_id.h" #include "nic_vlan.h" #include "nic_utils.h" #include "options.h" #define PFX "nic_utils " /****************************************************************************** * String constants *****************************************************************************/ static const char nic_uio_sysfs_name_tempate[] = "/sys/class/uio/uio%i/name"; static const char cnic_sysfs_uio_event_template[] = "/sys/class/uio/uio%d/event"; static const char base_uio_sysfs_name[] = "/sys/class/uio/"; static const char uio_name[] = "uio"; static const char uio_base_dir[] = "/dev/uio"; static const char uio_udev_path_template[] = "/dev/uio%hd"; static const char uio_uevent_path_template[] = "/sys/class/uio/uio%d/uevent"; static const char base_iscsi_host_name[] = "/sys/class/iscsi_host/"; static const char host_template[] = "host%d"; static const char iscsi_host_path_template[] = "/sys/class/iscsi_host/host%d"; static const char iscsi_host_path_netdev_template[] = "/sys/class/iscsi_host/host%d/netdev"; static const char cnic_uio_sysfs_resc_template[] = "/sys/class/uio/uio%i/device/resource%i"; /** * manually_trigger_uio_event() - If the uio file node doesn't exist then * try to retrigger udev to create the file * node by touch the uevent file in sysfs * @param nic - the nic to trigger on * @param uio_minor - UIO the minor number to use * @return 0 on success */ int manually_trigger_uio_event(nic_t *nic, int uio_minor) { int fd; char uio_uevent_path[sizeof(uio_uevent_path_template) + 10]; char enable_str[] = "online"; int rc; size_t bytes_wrote; rc = sprintf(uio_uevent_path, uio_uevent_path_template, uio_minor); if (rc < 0) { LOG_ERR(PFX "%s: Could not build uio uevent path", nic->log_name); return -EIO; } LOG_DEBUG(PFX "%s: triggering UIO uevent path: %s", nic->log_name, uio_uevent_path); fd = open(uio_uevent_path, O_WRONLY); if (fd == -1) { LOG_ERR(PFX "%s: Could not open uio uevent path: %s [%s]", nic->log_name, uio_uevent_path, strerror(errno)); return -EIO; } bytes_wrote = write(fd, enable_str, sizeof(enable_str)); if (bytes_wrote != sizeof(enable_str)) { LOG_ERR(PFX "%s: Could write to uio uevent path: %s [%s]", nic->log_name, uio_uevent_path, strerror(errno)); rc = -EIO; } else rc = 0; close(fd); return rc; } static int wait_for_file_node_timed(nic_t *nic, char *filepath, int seconds) { struct timeval start_time; struct timeval wait_time; struct timeval total_time; struct timespec sleep_req, sleep_rem; sleep_req.tv_sec = 0; sleep_req.tv_nsec = 250000000; wait_time.tv_sec = seconds; wait_time.tv_usec = 0; if (gettimeofday(&start_time, NULL)) { LOG_ERR(PFX "%s: Couldn't gettimeofday() during watch file: %s" "[%s]", nic->log_name, filepath, strerror(errno)); return -EIO; } timeradd(&start_time, &wait_time, &total_time); while (1) { struct timeval current_time; struct stat file_stat; /* Check if the file node exists */ if (stat(filepath, &file_stat) == 0) return 0; if (gettimeofday(¤t_time, NULL)) { LOG_ERR(PFX "%s: Couldn't get current time for " "watching file: %s [%s]", nic->log_name, filepath, strerror(errno)); return -EIO; } /* Timeout has excceded return -ETIME */ if (timercmp(&total_time, ¤t_time, <)) { LOG_ERR(PFX "%s: timeout waiting %d secs for file: %s", nic->log_name, seconds, filepath); return -ETIME; } nanosleep(&sleep_req, &sleep_rem); } } /****************************************************************************** * Autodiscovery of iscsi_hosts *****************************************************************************/ static int filter_host_name(const struct dirent *entry) { if ((memcmp(entry->d_name, "host", 4) == 0)) return 1; else return 0; } int nic_discover_iscsi_hosts() { struct dirent **files; int count; int i; int rc; count = scandir(base_iscsi_host_name, &files, filter_host_name, alphasort); switch (count) { case 0: /* Currently there are no iSCSI hosts */ rc = 0; break; case -1: LOG_WARN(PFX "Error when scanning path: %s[%s]", base_iscsi_host_name, strerror(errno)); rc = -EINVAL; break; default: /* There are iSCSI hosts */ pthread_mutex_lock(&nic_list_mutex); for (i = 0; i < count; i++) { int host_no; char *raw = NULL; uint32_t raw_size = 0; char temp_path[sizeof(iscsi_host_path_netdev_template) + 8]; rc = sscanf(files[i]->d_name, host_template, &host_no); nic_t *nic; LOG_INFO(PFX "Found host[%d]: %s", host_no, files[i]->d_name); /* Build the path to determine netdev name */ snprintf(temp_path, sizeof(temp_path), iscsi_host_path_netdev_template, host_no); rc = capture_file(&raw, &raw_size, temp_path); if (rc != 0) continue; rc = from_host_no_find_associated_eth_device(host_no, &nic); if (rc != 0) { /* Normalize the string */ if (raw[raw_size - 1] == '\n') raw[raw_size - 1] = '\0'; nic = nic_init(); if (nic == NULL) { LOG_ERR(PFX "Couldn't allocate " "space for NIC %s " "during scan", raw); rc = -ENOMEM; break; } strncpy(nic->eth_device_name, raw, raw_size); nic->config_device_name = nic->eth_device_name; nic->log_name = nic->eth_device_name; if (nic_fill_name(nic) != 0) { free(nic); free(raw); rc = -EIO; continue; } nic_add(nic); LOG_INFO(PFX "NIC not found creating an " "instance for host_no: %d %s", host_no, nic->eth_device_name); } else LOG_INFO(PFX "%s: NIC found host_no: %d", nic->log_name, host_no); free(raw); } pthread_mutex_unlock(&nic_list_mutex); /* Cleanup the scandir() call */ for (i = 0; i < count; i++) free(files[i]); free(files); rc = 0; break; } return rc; } /****************************************************************************** * Enable/Disable Multicast on physical interface *****************************************************************************/ static int nic_util_enable_disable_multicast(nic_t *nic, uint32_t cmd) { int rc = 0; struct uip_eth_addr multicast_addr; int fd; struct ifreq ifr; /* adding ethernet multicast address for IPv6 */ memcpy(&multicast_addr, nic->mac_addr, ETH_ALEN); multicast_addr.addr[0] = 0x33; multicast_addr.addr[1] = 0x33; multicast_addr.addr[2] = 0xff; /* Prepare the request */ memset(&ifr, 0, sizeof(ifr)); strncpy(ifr.ifr_name, nic->eth_device_name, sizeof(nic->eth_device_name)); memcpy(ifr.ifr_hwaddr.sa_data, multicast_addr.addr, ETH_ALEN); fd = socket(AF_INET, SOCK_DGRAM, 0); if (fd < 0) { LOG_ERR(PFX "%s: Couldn't create socket to %s " "multicast address: %s", nic->log_name, cmd == SIOCADDMULTI ? "added" : "delete", strerror(errno)); return errno; } rc = fcntl(fd, F_SETFL, O_NONBLOCK); if (rc != 0) { LOG_WARN("%s: Couldn't set to ethtool IOCTL to " "non-blocking [%s]", nic->log_name, strerror(errno)); } if (ioctl(fd, cmd, (char *)&ifr) != 0) { LOG_ERR("%s: Couldn't issue ioctl socket to %s " "multicast address: %s", nic->log_name, cmd == SIOCADDMULTI ? "add" : "delete", strerror(errno)); rc = errno; goto error; } LOG_INFO(PFX "%s: %s address %02x:%02x:%02x:%02x:%02x:%02x " "to multicast list", nic->log_name, cmd == SIOCADDMULTI ? "Added" : "Deleted", multicast_addr.addr[0], multicast_addr.addr[1], multicast_addr.addr[2], multicast_addr.addr[3], multicast_addr.addr[4], multicast_addr.addr[5]); if (cmd == SIOCADDMULTI) nic->flags |= NIC_ADDED_MULICAST; else nic->flags &= ~NIC_ADDED_MULICAST; error: close(fd); return rc; } /** * enable_multicast() - This fuction is used to enable * the listening of multicast addresses for a given network interface * @param nic - NIC device to enable multicast on * @return 0 for success or <0 for failure */ int enable_multicast(nic_t *nic) { return nic_util_enable_disable_multicast(nic, SIOCADDMULTI); } /** * disable_multicast() - This fuction is used to disable * the listening of multicast addresses for a given network interface * @param dev - NIC device to disable multicast on * @return 0 for success or <0 for failure */ int disable_multicast(nic_t *nic) { return nic_util_enable_disable_multicast(nic, SIOCDELMULTI); } /******************************************************************************* * Finding associated UIO/physical network interfaces ******************************************************************************/ static int filter_net_name(const struct dirent *entry) { if ((memcmp(entry->d_name, "net:", 4) == 0)) return 1; else return 0; } static char *extract_net_name(struct dirent **files) { return strstr(files[0]->d_name, ":"); } static int filter_dot_out(const struct dirent *entry) { if ((memcmp(entry->d_name, ".", 1) == 0)) return 0; else return 1; } static char *extract_none(struct dirent **files) { return files[0]->d_name; } /** * from_host_no_find_nic() - Given the host number * this function will try to find the assoicated nic interface * Must be called with nic_list_mutex lock * @param host_no - minor number of the UIO device * @param nic - pointer to the NIC will set if successful * @return 0 on success, <0 on error */ int from_host_no_find_associated_eth_device(int host_no, nic_t **nic) { nic_t *current_nic = nic_list; char *raw = NULL, *raw_tmp; uint32_t raw_size = 0; char temp_path[sizeof(iscsi_host_path_netdev_template) + 8]; int rc = -EIO; /* Build the path to determine uio name */ snprintf(temp_path, sizeof(temp_path), iscsi_host_path_netdev_template, host_no); rc = capture_file(&raw, &raw_size, temp_path); if (rc != 0) goto error; /* sanitize name string by replacing newline with null termination */ raw_tmp = raw; while (*raw_tmp != '\n' && raw_size--) raw_tmp++; *raw_tmp = '\0'; rc = -EIO; current_nic = nic_list; while (current_nic != NULL) { if (strcmp(raw, current_nic->eth_device_name) == 0) { *nic = current_nic; rc = 0; break; } current_nic = current_nic->next; } free(raw); error: return rc; } /******************************************************************************* * NIC packet handling functions ******************************************************************************/ /** * from_uio_find_associated_eth_device() - Given the uio minor number * this function will try to find the assoicated phyisical network * interface * @param uio_minor - minor number of the UIO device * @param name - char buffer which will be filled if successful * @param name_size - size of the name buffer * @return >0 minor number <0 an error */ static int from_uio_find_associated_eth_device(nic_t *nic, int uio_minor, char *name, size_t name_size) { char *path; int rc; int count; struct dirent **files; char *parsed_name; int i; int path_iterator; char *search_paths[] = { "/sys/class/uio/uio%i/device/", "/sys/class/uio/uio%i/device/net" }; int path_to[] = { 5, 1 }; int (*search_filters[]) (const struct dirent *) = { filter_net_name, filter_dot_out,}; char *(*extract_name[]) (struct dirent **files) = { extract_net_name, extract_none,}; int extract_name_offset[] = { 1, 0 }; path = malloc(PATH_MAX); if (path == NULL) { LOG_ERR(PFX "Could not allocate memory for path"); rc = -ENOMEM; goto error; } for (path_iterator = 0; path_iterator < sizeof(search_paths) / sizeof(search_paths[0]); path_iterator++) { /* Build the path to determine uio name */ rc = sprintf(path, search_paths[path_iterator], uio_minor); wait_for_file_node_timed(nic, path, path_to[path_iterator]); count = scandir(path, &files, search_filters[path_iterator], alphasort); switch (count) { case 1: parsed_name = (*extract_name[path_iterator]) (files); if (parsed_name == NULL) { LOG_WARN(PFX "Couldn't find delimiter in: %s", files[0]->d_name); break; } strncpy(name, parsed_name + extract_name_offset[path_iterator], name_size); free(files[0]); free(files); rc = 0; break; case 0: rc = -EINVAL; break; case -1: LOG_WARN(PFX "Error when scanning path: %s[%s]", path, strerror(errno)); rc = -EINVAL; break; default: LOG_WARN(PFX "Too many entries when looking for device: %s", path); /* Cleanup the scandir() call */ for (i = 0; i < count; i++) free(files[i]); free(files); rc = -EINVAL; break; } if (rc == 0) break; } error: free(path); return rc; } /** * filter_uio_name() - This is the callback used by scandir when looking for * the number of uio entries */ static int filter_uio_name(const struct dirent *entry) { /* Only return if the name of the file begins with 'uio' */ if ((memcmp(entry->d_name, uio_name, sizeof(uio_name) - 1) == 0)) return 1; else return 0; } /** * from_netdev_name_find_nic() - This is used to find the NIC device given * the netdev name * @param interface_name - name of the interface to search on * @param nic - pointer of the pointer to the NIC * @return 0 on success, <0 on failure */ int from_netdev_name_find_nic(char *interface_name, nic_t **nic) { nic_t *current_nic; current_nic = nic_list; while (current_nic != NULL) { if (strcmp(interface_name, current_nic->eth_device_name) == 0) break; current_nic = current_nic->next; } if (current_nic == NULL) return -EINVAL; *nic = current_nic; return 0; } /** * from_phys_name_find_assoicated_uio_device() - This is used to find the * uio minor * when given a network interface name * @param interface_name - network interface name to search for * @return >0 minor number <0 an error */ int from_phys_name_find_assoicated_uio_device(nic_t *nic) { char *path = NULL; int count; struct dirent **files; int i; int rc; char *interface_name = nic->config_device_name; if (interface_name == NULL) interface_name = nic->eth_device_name; /* Wait at least 10 seconds for uio sysfs entries to appear */ rc = wait_for_file_node_timed(nic, (char *)base_uio_sysfs_name, 10); if (rc != 0) return rc; count = scandir(base_uio_sysfs_name, &files, filter_uio_name, alphasort); switch (count) { case 0: LOG_WARN(PFX "Couldn't find %s to determine uio minor", interface_name); return -EINVAL; case -1: LOG_WARN(PFX "Error when scanning for %s in path: %s [%s]", interface_name, base_uio_sysfs_name, strerror(errno)); return -EINVAL; } path = malloc(PATH_MAX); if (path == NULL) { LOG_ERR(PFX "Could not allocate memory for path"); return -ENOMEM; } /* Run through the contents of the filtered files to see if the * network interface name matches that of the uio device */ for (i = 0; i < count; i++) { int uio_minor; char eth_name[IFNAMSIZ]; rc = sscanf(files[i]->d_name, "uio%d", &uio_minor); if (rc != 1) { LOG_WARN("Could not parse: %s", files[i]->d_name); continue; } rc = from_uio_find_associated_eth_device(nic, uio_minor, eth_name, sizeof(eth_name)); if (rc != 0) { LOG_WARN("uio minor: %d not valid [%D]", uio_minor, rc); continue; } if (strncmp(eth_name, interface_name, sizeof(eth_name)) == 0) { memcpy(nic->eth_device_name, eth_name, sizeof(nic->eth_device_name)); LOG_INFO(PFX "%s associated with uio%d", nic->eth_device_name, uio_minor); rc = uio_minor; goto done; } } LOG_WARN("Could not find assoicate uio device with %s", interface_name); rc = -EINVAL; done: if (path != NULL) free(path); for (i = 0; i < count; i++) free(files[i]); free(files); return rc; } /** * nic_verify_uio_sysfs_name() - Using the name entry in sysfs it will try to * match the NIC library name * @param nic - The NIC hardware to check * */ int nic_verify_uio_sysfs_name(nic_t *nic) { char *raw = NULL, *raw_tmp; uint32_t raw_size = 0; char temp_path[sizeof(nic_uio_sysfs_name_tempate) + 8]; int rc = 0; nic_lib_handle_t *handle = NULL; size_t name_size; /* Build the path to determine uio name */ snprintf(temp_path, sizeof(temp_path), nic_uio_sysfs_name_tempate, nic->uio_minor); rc = capture_file(&raw, &raw_size, temp_path); if (rc != 0) goto error; /* sanitize name string by replacing newline with null termination */ raw_tmp = raw; while (*raw_tmp != '\n' && raw_size--) raw_tmp++; *raw_tmp = '\0'; /* If the nic library is not set then check if there is a library * which matches the uio sysfs name */ if (nic->nic_library == NULL) { NIC_LIBRARY_EXIST_T exist; exist = does_nic_uio_name_exist(raw, &handle); if (exist == NIC_LIBRARY_DOESNT_EXIST) { LOG_ERR(PFX "%s: could not find library for uio name: %s", nic->log_name, raw); rc = -EINVAL; goto error; } /* fill the lib info */ nic->nic_library = handle; nic->ops = handle->ops; (*nic->ops->lib_ops.get_library_name) (&nic->library_name, &name_size); } else { /* Get the uio sysfs name from the NIC library */ (*nic->ops->lib_ops.get_uio_name) (&raw_tmp, &name_size); if (strncmp(raw, raw_tmp, name_size) != 0) { LOG_ERR(PFX "%s: uio names not equal: " "expecting %s got %s from %s", nic->log_name, raw, raw_tmp, temp_path); rc = -EINVAL; goto error; } } LOG_INFO(PFX "%s: Verified uio name %s with library %s", nic->log_name, raw, nic->library_name); error: if (raw) free(raw); return rc; } /** * nic_fill_name() - This will initialize all the hardware resources underneath * a struct cnic_uio device * @param nic - The nic device to attach the hardware with * @return 0 on success, on failure a errno will be returned */ int nic_fill_name(nic_t *nic) { int rc; if ((nic->config_device_name != NULL) && (memcmp(uio_base_dir, nic->config_device_name, sizeof(uio_base_dir) - 1) == 0)) { uint16_t uio_minor; char eth_name[sizeof(nic->eth_device_name)]; wait_for_file_node_timed(nic, nic->config_device_name, 5); /* Determine the minor number for the UIO device */ rc = sscanf(nic->config_device_name, uio_udev_path_template, &uio_minor); if (rc != 1) { LOG_WARN(PFX "%s: Could not parse for minor number", nic->uio_device_name); return -EINVAL; } else nic->uio_minor = uio_minor; nic->uio_device_name = nic->config_device_name; /* Determine the assoicated physical network interface */ rc = from_uio_find_associated_eth_device(nic, nic->uio_minor, eth_name, sizeof(eth_name)); if (rc != 0) { LOG_WARN(PFX "%s: Couldn't find associated eth device", nic->uio_device_name); } else { memcpy(nic->eth_device_name, eth_name, sizeof(eth_name)); } LOG_INFO(PFX "%s: configured for uio device for %s", nic->log_name, nic->uio_device_name); } else { LOG_INFO(PFX "looking for uio device for %s", nic->config_device_name); rc = from_phys_name_find_assoicated_uio_device(nic); if (rc < 0) { LOG_ERR(PFX "Could not determine UIO name for %s", nic->config_device_name); return -rc; } nic->uio_minor = rc; if (nic->flags & NIC_UIO_NAME_MALLOC) free(nic->uio_device_name); nic->uio_device_name = malloc(sizeof(uio_udev_path_template) + 8); if (nic->uio_device_name == NULL) { LOG_INFO(PFX "%s: Couldn't malloc space for uio name", nic->log_name); return -ENOMEM; } snprintf(nic->uio_device_name, sizeof(uio_udev_path_template) + 8, uio_udev_path_template, nic->uio_minor); nic->flags |= NIC_UIO_NAME_MALLOC; } return 0; } void cnic_get_sysfs_pci_resource_path(nic_t *nic, int resc_no, char *sys_path, size_t size) { /* Build the path to sysfs pci resource */ snprintf(sys_path, size, cnic_uio_sysfs_resc_template, nic->uio_minor, resc_no); } void prepare_library(nic_t *nic) { int rc; NIC_LIBRARY_EXIST_T exist; nic_lib_handle_t *handle = NULL; nic_fill_name(nic); /* No assoicated library, we can skip it */ if (nic->library_name != NULL) { /* Check that we have the proper NIC library loaded */ exist = does_nic_library_exist(nic->library_name, &handle); if (exist == NIC_LIBRARY_DOESNT_EXIST) { LOG_ERR(PFX "NIC library doesn't exists: %s", nic->library_name); goto error; } else if (handle && (nic->nic_library == handle) && (nic->ops == handle->ops)) { LOG_INFO("%s: Have NIC library '%s'", nic->log_name, nic->library_name); } } /* Verify the NIC library to use */ rc = nic_verify_uio_sysfs_name(nic); if (rc != 0) { /* Determine the NIC library to use based on the PCI Id */ rc = find_set_nic_lib(nic); if (rc != 0) { LOG_ERR(PFX "%s: Couldn't find NIC library", nic->log_name); goto error; } } LOG_INFO("%s: found NIC with library '%s'", nic->log_name, nic->library_name); error: return; } void prepare_nic_thread(nic_t *nic) { pthread_attr_t attr; int rc; pthread_mutex_lock(&nic->nic_mutex); if (nic->thread == INVALID_THREAD) { struct timespec ts; struct timeval tp; LOG_INFO(PFX "%s: spinning up thread for nic", nic->log_name); /* Try to spin up the nic thread */ pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&nic->thread, &attr, nic_loop, nic); if (rc != 0) { LOG_ERR(PFX "%s: Couldn't create thread for nic", nic->log_name); goto error; } /* Convert from timeval to timespec */ rc = gettimeofday(&tp, NULL); ts.tv_sec = tp.tv_sec; ts.tv_nsec = tp.tv_usec * 1000; ts.tv_sec += 5; /* TODO: hardcoded wait for 5 seconds */ /* Wait for the nic loop thread to to running */ rc = pthread_cond_timedwait(&nic->nic_loop_started_cond, &nic->nic_mutex, &ts); LOG_INFO("Created nic thread: %s", nic->log_name); } pthread_mutex_unlock(&nic->nic_mutex); error: return; } /******************************************************************************* * Functions used to enable/disable the NIC ******************************************************************************/ /** * nic_enable() - Function used to enable the NIC * @param nic - NIC to enable * @return 0 on success, <0 on failure */ int nic_enable(nic_t *nic) { if (nic->flags & NIC_GOING_DOWN) { LOG_INFO(PFX "%s: NIC device is going down, " "flag: 0x%x state: 0x%x", nic->log_name, nic->flags, nic->state); return -EINVAL; } if (nic->state == NIC_STOPPED) { struct timespec ts; struct timeval tp; int rc; pthread_mutex_lock(&nic->nic_mutex); /* Signal the device to enable itself */ pthread_cond_broadcast(&nic->enable_wait_cond); nic->flags &= ~NIC_DISABLED; nic->flags |= NIC_ENABLED; nic->flags |= NIC_ENABLED_PENDING; /* Convert from timeval to timespec */ rc = gettimeofday(&tp, NULL); ts.tv_sec = tp.tv_sec; ts.tv_nsec = tp.tv_usec * 1000; ts.tv_sec += 100; /* Wait for the device to be enabled */ rc = pthread_cond_timedwait(&nic->enable_done_cond, &nic->nic_mutex, &ts); if (rc == 0 && nic->flags & NIC_ENABLED) { LOG_DEBUG(PFX "%s: device enabled", nic->log_name); } else { nic->flags &= ~NIC_ENABLED; nic->flags |= NIC_DISABLED; nic->flags &= ~NIC_ENABLED_PENDING; LOG_ERR(PFX "%s: waiting to finish nic_enable err: %s", nic->log_name, strerror(rc)); } pthread_mutex_unlock(&nic->nic_mutex); return rc; } else { LOG_INFO(PFX "%s: device already enabled: " "flag: 0x%x state: 0x%x", nic->log_name, nic->flags, nic->state); return -EALREADY; } } /** * nic_disable() - Function used to disable the NIC * @param nic - NIC to disble * @return void */ void nic_disable(nic_t *nic, int going_down) { if (nic->state == NIC_STARTED_RUNNING || nic->state == NIC_RUNNING) { struct timespec ts; struct timeval tp; int rc; /* Wait for the device to be disabled */ pthread_mutex_lock(&nic->nic_mutex); nic->flags &= ~NIC_ENABLED; nic->flags |= NIC_DISABLED; nic->flags &= ~NIC_STARTED_RUNNING; nic->state = NIC_STOPPED; if (going_down) nic->flags |= NIC_GOING_DOWN; /* Convert from timeval to timespec */ rc = gettimeofday(&tp, NULL); if (rc) { LOG_ERR("gettimeofday failed, should never happen: %d\n", errno); pthread_mutex_unlock(&nic->nic_mutex); return; } ts.tv_sec = tp.tv_sec; ts.tv_nsec = tp.tv_usec * 1000; ts.tv_sec += 5; /* TODO: hardcoded wait for 5 seconds */ /* Wait for the device to be disabled */ rc = pthread_cond_timedwait(&nic->disable_wait_cond, &nic->nic_mutex, &ts); if (rc) { LOG_ERR("cond_timedwait failed, should never happen: %d\n", errno); } pthread_mutex_unlock(&nic->nic_mutex); LOG_DEBUG(PFX "%s: device disabled", nic->log_name); } else { LOG_WARN(PFX "%s: device already disabled: " "flag: 0x%x state: 0x%x", nic->log_name, nic->flags, nic->state); } } void nic_close_all() { nic_t *nic; pthread_mutex_lock(&nic_list_mutex); /* Start the shutdown process */ nic = nic_list; while (nic != NULL) { pthread_mutex_lock(&nic->nic_mutex); nic_close(nic, 1, FREE_ALL_STRINGS); pthread_mutex_unlock(&nic->nic_mutex); nic = nic->next; } pthread_mutex_unlock(&nic_list_mutex); LOG_INFO(PFX "All NICs closed"); } void nic_remove_all() { nic_t *nic, *nic_next; pthread_mutex_lock(&nic_list_mutex); /* Start the shutdown process */ nic = nic_list; while (nic != NULL) { nic_next = nic->next; pthread_mutex_lock(&nic->nic_mutex); nic_close(nic, 1, FREE_ALL_STRINGS); pthread_mutex_unlock(&nic->nic_mutex); nic_remove(nic); nic = nic_next; } pthread_mutex_unlock(&nic_list_mutex); LOG_INFO(PFX "All NICs removed"); } /****************************************************************************** * Routines to read initialized UIO values from sysfs *****************************************************************************/ /** * determine_initial_uio_events() - This utility function will * determine the number of uio events that have occured on the * given device. This value is read from the UIO sysfs entry * @param dev - device to read from * @param num_of_event - number of UIO events * @return 0 is success, <0 failure */ int detemine_initial_uio_events(nic_t *nic, uint32_t *num_of_events) { char *raw = NULL; uint32_t raw_size = 0; ssize_t elements_read; char temp_path[sizeof(cnic_sysfs_uio_event_template) + 8]; int rc; /* Capture RX buffer size */ snprintf(temp_path, sizeof(temp_path), cnic_sysfs_uio_event_template, nic->uio_minor); rc = capture_file(&raw, &raw_size, temp_path); if (rc != 0) goto error; elements_read = sscanf(raw, "%d", num_of_events); if (elements_read != 1) { LOG_ERR(PFX "%s: Couldn't parse UIO events size from %s", nic->log_name, temp_path); rc = -EIO; goto error; } rc = 0; error: if (raw != NULL) free(raw); return rc; } /** * nic_set_all_nic_iface_mac_to_parent() - This is a utility function used to * intialize all the MAC addresses of the network interfaces for a given * CNIC UIO device * Call with nic mutex held * @param dev - CNIC UIO device to initialize */ void nic_set_all_nic_iface_mac_to_parent(nic_t *nic) { nic_interface_t *current, *vlan_current; current = nic->nic_iface; while (current != NULL) { /* Set the initial MAC address of this interface to the parent * adapter */ memcpy(current->mac_addr, nic->mac_addr, 6); vlan_current = current->vlan_next; while (vlan_current != NULL) { memcpy(vlan_current->mac_addr, nic->mac_addr, 6); vlan_current = vlan_current->vlan_next; } current = current->next; } } /******************************************************************************* * NIC packet handling functions ******************************************************************************/ /** * nic_alloc_packet_buffer() - Used to allocate a packet buffer used to * send a TX packet later * @param nic - nic device to send the packet on * @param nic_iface - nic interface to send out on * @param buf - pointer to the buffer to send * @param buf_size - size in bytes of the buffer to send * @return pointer to the allocated packet buffer * NULL if memory could not be allocated */ static packet_t *nic_alloc_packet_buffer(nic_t *nic, nic_interface_t *nic_iface, uint8_t *buf, size_t buf_size) { packet_t *pkt; pkt = malloc(sizeof(*pkt) + buf_size); if (pkt == NULL) { LOG_ERR(PFX "%s: Couldn't allocate space for packet buffer", nic->log_name); return NULL; } pkt->next = NULL; pkt->nic = nic; pkt->nic_iface = nic_iface; pkt->buf_size = buf_size; memcpy(pkt->buf, buf, buf_size); return pkt; } /** * nic_queue_tx_packet() - Used to queue a TX packet buffer to send later * @param nic - NIC device to send the packet on * @param nic_iface - NIC interface to send on the packet on * @param pkt - packet to queue * @return 0 if successful or <0 if unsuccessful */ int nic_queue_tx_packet(nic_t *nic, nic_interface_t *nic_iface, packet_t *pkt) { packet_t *queued_pkt; queued_pkt = nic_alloc_packet_buffer(nic, nic_iface, pkt->buf, pkt->buf_size); if (queued_pkt == NULL) { LOG_ERR(PFX "%s: Couldn't allocate tx packet to queue", nic->log_name); return -ENOMEM; } if (nic->tx_packet_queue == NULL) { nic->tx_packet_queue = queued_pkt; } else { packet_t *current_pkt; current_pkt = nic->tx_packet_queue; while (current_pkt->next != NULL) current_pkt = current_pkt->next; current_pkt->next = queued_pkt; } LOG_DEBUG(PFX "%s: tx packet queued", nic->log_name); return 0; } /** * nic_dequeue_tx_packet() - Used pop a TX packet buffer of the TX * @param dev - cnic_uio device to send the packet on * @param buf - pointer to the buffer to send * @param buf_size - size in bytes of the buffer to send * @return NULL if there are no more TX packet buffers to send * pointer to the packet buffer which is detached from the device */ packet_t *nic_dequeue_tx_packet(nic_t *nic) { packet_t *pkt; pkt = nic->tx_packet_queue; /* There is a packet buffer to send, time to detach it from the * cnic_uio device */ if (pkt != NULL) { nic->tx_packet_queue = pkt->next; pkt->next = NULL; } return pkt; } void nic_fill_ethernet_header(nic_interface_t *nic_iface, void *data, void *src_addr, void *dest_addr, int *pkt_size, void **start_addr, uint16_t ether_type) { struct ether_header *eth; uint16_t *vlan_hdr; eth = data; memcpy(eth->ether_shost, src_addr, ETH_ALEN); memcpy(eth->ether_dhost, dest_addr, ETH_ALEN); vlan_hdr = (uint16_t *) (eth + 1); eth->ether_type = htons(ether_type); *start_addr = vlan_hdr; } /******************************************************************************* * NIC interface management utility functions ******************************************************************************/ /** * nic_find_nic_iface() - This function is used to find an interface * from the NIC * @param nic - NIC to look for network interfaces * @param vlan_id - VLAN id to look for * @param protocol - either AF_INET or AF_INET6 * @param iface_num - iface num to use if present * @param request_type - IPV4/6 DHCP/STATIC * @return nic_iface - if found network interface with the given VLAN ID * if not found a NULL is returned */ nic_interface_t *nic_find_nic_iface(nic_t *nic, uint16_t protocol, uint16_t vlan_id, int iface_num, int request_type) { nic_interface_t *current = nic->nic_iface; nic_interface_t *current_vlan = NULL; while (current != NULL) { if (current->protocol != protocol) goto next; /* Check for iface_num first */ if (iface_num != IFACE_NUM_INVALID) { if (current->iface_num == iface_num) { /* Exception is when iface_num == 0, need to check for request_type also if != IP_CONFIG_OFF */ if (!iface_num && request_type != IP_CONFIG_OFF) { if (current->request_type == request_type) goto found; } else { goto found; } } } else if (vlan_id == NO_VLAN) { /* Just return the top of the family */ goto found; } else { if ((current->vlan_id == vlan_id) && ((request_type == IP_CONFIG_OFF) || (current->request_type == request_type))) goto found; } /* vlan_next loop */ current_vlan = current->vlan_next; while (current_vlan != NULL) { if (iface_num != IFACE_NUM_INVALID) { if (current_vlan->iface_num == iface_num) { if (!iface_num && request_type != IP_CONFIG_OFF) { if (current_vlan->request_type == request_type) goto vlan_found; } else { goto vlan_found; } } } if ((current_vlan->vlan_id == vlan_id) && ((request_type == IP_CONFIG_OFF) || (current_vlan->request_type == request_type))) goto vlan_found; current_vlan = current_vlan->vlan_next; } next: current = current->next; } vlan_found: current = current_vlan; found: return current; } /* Called with nic mutex held */ void persist_all_nic_iface(nic_t *nic) { nic_interface_t *current_vlan, *current; current = nic->nic_iface; while (current != NULL) { current->flags |= NIC_IFACE_PERSIST; current_vlan = current->vlan_next; while (current_vlan != NULL) { current_vlan->flags |= NIC_IFACE_PERSIST; current_vlan = current_vlan->vlan_next; } current = current->next; } } /* Sets the nic_iface to the front of the AF */ void set_nic_iface(nic_t *nic, nic_interface_t *nic_iface) { nic_interface_t *current, *prev; nic_interface_t *current_vlan, *prev_vlan; prev = NULL; current = nic->nic_iface; while (current != NULL) { if (current->protocol != nic_iface->protocol) goto next; /* If its already on top of the list, exit */ if (current == nic_iface) goto done; prev_vlan = current; current_vlan = current->vlan_next; while (current_vlan != NULL) { if (current_vlan == nic_iface) { /* Found inside the vlan list */ /* For vlan == 0, place on top of the AF list */ prev_vlan->vlan_next = current_vlan->vlan_next; current_vlan->vlan_next = current; if (prev) prev->next = current_vlan; else nic->nic_iface = current_vlan; goto done; } prev_vlan = current_vlan; current_vlan = current_vlan->vlan_next; } next: prev = current; current = current->next; } done: return; } /******************************************************************************* * Packet management utility functions ******************************************************************************/ /** * get_next_packet_in_queue() - This function will return the next packet in * the queue * @param queue - the queue to pull the packet from * @return the packet in the queue */ static packet_t *get_next_packet_in_queue(packet_t **queue) { packet_t *pkt; if (*queue == NULL) return NULL; pkt = *queue; *queue = pkt->next; return pkt; } /** * get_next_tx_packet() - This function will return the next packet in * the TX queue * @param nic - NIC to pull the TX packet from * @return the packet in hte queue */ packet_t *get_next_tx_packet(nic_t *nic) { return get_next_packet_in_queue(&nic->tx_packet_queue); } /** * get_next_free_packet() - This function will return the next packet in * the free queue * @param nic - NIC to pull the RX packet from * @return the packet in hte queue */ packet_t *get_next_free_packet(nic_t *nic) { packet_t *pkt; pthread_mutex_lock(&nic->free_packet_queue_mutex); pkt = get_next_packet_in_queue(&nic->free_packet_queue); pthread_mutex_unlock(&nic->free_packet_queue_mutex); if (pkt != NULL) reset_packet(pkt); return pkt; } /** * put_packet_in_queue() - This function will place the packet in the given * queue * @param pkt - the packet to place * @param queue - the queue to place the packet * @return the packet in the queue */ static void put_packet_in_queue(packet_t *pkt, packet_t **queue) { if (*queue == NULL) *queue = pkt; else { pkt->next = *queue; *queue = pkt; } } /** * put_packet_in_tx_queue() - This function will place the packet in * the TX queue * @param pkt - packet to place * @param nic - NIC to pull the TX packet from * @return the packet in hte queue */ void put_packet_in_tx_queue(packet_t *pkt, nic_t *nic) { return put_packet_in_queue(pkt, &nic->tx_packet_queue); } /** * put_packet_in_free_queue() - This function will place the packet in * the RX queue * @param pkt - packet to place * @param nic - NIC to pull the RX packet from * @return the packet in hte queue */ void put_packet_in_free_queue(packet_t *pkt, nic_t *nic) { pthread_mutex_lock(&nic->free_packet_queue_mutex); put_packet_in_queue(pkt, &nic->free_packet_queue); pthread_mutex_unlock(&nic->free_packet_queue_mutex); } uint32_t calculate_default_netmask(uint32_t ip_addr) { uint32_t netmask; if (IN_CLASSA(ntohl(ip_addr))) netmask = htonl(IN_CLASSA_NET); else if (IN_CLASSB(ntohl(ip_addr))) netmask = htonl(IN_CLASSB_NET); else if (IN_CLASSC(ntohl(ip_addr))) netmask = htonl(IN_CLASSC_NET); else { LOG_ERR("Unable to guess netmask for address %x\n", &ip_addr); return -1; } return netmask; } void dump_packet_to_log(struct nic_interface *iface, uint8_t *buf, uint16_t buf_len) { FILE *file; char str[80]; int i, count; file = fmemopen(str, sizeof(str), "w+"); if (file == NULL) { LOG_ERR(PFX "Could not create logging file stream for packet " "logging: [%d: %s]", errno, strerror(errno)); return; } LOG_PACKET(PFX "%s: Start packet dump len: %d", iface->parent->log_name, buf_len); for (i = 0; i < buf_len; i++) { rewind(file); fprintf(file, "%03x: ", i); for (count = 0; (count < 8) && i < buf_len; count++, i++) fprintf(file, " %02x", buf[i]); fflush(file); LOG_PACKET(PFX "%s: %s", iface->parent->log_name, str); } LOG_PACKET(PFX "%s: end packet dump", iface->parent->log_name); fclose(file); } /******************************************************************************* * File Management ******************************************************************************/ /** * determine_file_size_read() - when fstat doesn't work on filepath * within the /proc filesytem, we need to read/count the size of the file * until we hit a EOF * @parm filepath - path of the file in which to determine the filesize in * bytes * @return file size in bytes, <0 on failure */ int determine_file_size_read(const char *filepath) { size_t total_size = 0; ssize_t size = 1; int fd; char buf[1024]; fd = open(filepath, O_RDONLY); if (fd == -1) { LOG_ERR("Could not open file: %s [%s]", filepath, strerror(errno)); return -1; } while (size > 0) { size = read(fd, buf, sizeof(buf)); switch (size) { case 0: break; case -1: LOG_ERR("Error reading file: %s [%s]", filepath, strerror(errno)); total_size = -1; break; default: total_size += size; break; } } close(fd); return total_size; } /** * capture_file() - Used to capture a file into a buffer * @param raw - This pointer will be set to the buffer which will hold the * file contents * @param raw_size - This is the size of the buffer returned * @param path - The file path to capture the data from * @return 0 is returned on success, <0 is returned on failure */ int capture_file(char **raw, uint32_t *raw_size, const char *path) { FILE *fp; size_t read_size; int rc = 0; int file_size; file_size = determine_file_size_read(path); if (file_size < 0) { LOG_ERR("Could not determine size %s", path); return -EIO; } fp = fopen(path, "r"); if (fp == NULL) { LOG_ERR("Could not open path %s [%s]", path, strerror(errno)); return -EIO; } *raw = malloc(file_size); if (*raw == NULL) { LOG_ERR("Could not malloc space for capture %s", path); rc = -ENOMEM; goto error; } read_size = fread(*raw, file_size, 1, fp); if (!read_size) { LOG_ERR("Could not read capture, path: %s len: %d [%s]", path, file_size, strerror(ferror(fp))); free(*raw); *raw = NULL; rc = errno; } else *raw_size = file_size; error: fclose(fp); LOG_INFO("Done capturing %s", path); return rc; } open-iscsi-2.0.874/iscsiuio/src/unix/nic_utils.h000066400000000000000000000072411277325716400215320ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_util.h - NIC utility functions * */ #ifndef __NIC_UTILS_H__ #define __NIC_UTILS_H__ #include "nic.h" /****************************************************************************** * Function Prototype ******************************************************************************/ int manually_trigger_uio_event(nic_t *nic, int uio_minor); int nic_discover_iscsi_hosts(); int enable_mutlicast(nic_t *nic); int disable_mutlicast(nic_t *nic); int from_netdev_name_find_nic(char *interface_name, nic_t **nic); int from_host_no_find_associated_eth_device(int host_no, nic_t **nic); int from_phys_name_find_assoicated_uio_device(nic_t *nic); int nic_queue_tx_packet(nic_t *nic, nic_interface_t *nic_iface, packet_t *pkt); packet_t *nic_dequeue_tx_packet(nic_t *nic); void nic_fill_ethernet_header(nic_interface_t *nic_iface, void *data, void *src_addr, void *dest_addr, int *pkt_size, void **start_addr, uint16_t ether_type); struct nic_interface *nic_find_nic_iface(nic_t *nic, uint16_t protocol, uint16_t vlan_id, int iface_num, int request_type); void set_nic_iface(nic_t *nic, nic_interface_t *nic_iface); void persist_all_nic_iface(nic_t *nic); int add_vlan_interfaces(nic_t *nic); int nic_verify_uio_sysfs_name(nic_t *nic); void cnic_get_sysfs_pci_resource_path(nic_t *nic, int resc_no, char *sys_path, size_t size); void nic_close_all(); void nic_remove_all(); int detemine_initial_uio_events(nic_t *nic, uint32_t *num_of_events); uint32_t calculate_default_netmask(uint32_t ip_addr); void prepare_nic_thread(nic_t *nic); void prepare_library(nic_t *nic); int nic_enable(nic_t *nic); void nic_disable(nic_t *nic, int going_down); void dump_packet_to_log(struct nic_interface *iface, uint8_t *buf, uint16_t buf_len); int determine_file_size_read(const char *filepath); int capture_file(char **raw, uint32_t *raw_size, const char *path); #endif /* __NIC_UTILS_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/nic_vlan.c000066400000000000000000000224611277325716400213260ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_vlan.c - uIP user space stack VLAN utilities * */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "logger.h" #include "nic.h" #include "nic_utils.h" #include "nic_vlan.h" /******************************************************************************* * Constants ******************************************************************************/ #define PFX "vlan" static const char proc_vlan_config_path[] = "/proc/net/vlan/config"; /******************************************************************************* * Resolving Found VLAN's for CNIC ******************************************************************************/ int init_vlan_found_handle(struct vlan_found_handle *found_handle, struct vlan_handle *handle) { memset(found_handle, 0, sizeof(*found_handle)); found_handle->entries = malloc(found_handle->num_of_entries * sizeof(struct vlan_found_entry)); if (found_handle->entries == NULL) { LOG_ERR("Could not allocate space for found entries"); return -ENOMEM; } found_handle->handle = handle; found_handle->num_of_entries = handle->num_of_entries; memset(found_handle->entries, 0, found_handle->num_of_entries * sizeof(struct vlan_found_entry)); handle->outstanding_found_handles++; return 0; } void release_vlan_found_handle(struct vlan_found_handle *found_handle) { if (found_handle->entries != NULL) { free(found_handle->entries); found_handle->entries = NULL; } found_handle->num_of_entries = 0; found_handle->handle->outstanding_found_handles--; found_handle->handle = NULL; } /******************************************************************************* * Resolving VLAN's for CNIC ******************************************************************************/ /** * init_vlan_handle() - Used to initialize struct ipv4_route_handle so * that is can be used * @param handle - Pointer to struct ipv4_route_handle to initialize * @return 0 on success and <0 on failure */ void init_vlan_table(struct vlan_handle *handle) { handle->entries = NULL; handle->num_of_entries = 0; } /** * parse_vlan_table() - Given the raw dump of a Linux vlan table, this * function will parse the into entries held by * struct vlan_handle * @param handle - struct vlan_handle used to hold the parsed contents * @param raw - buffer to parse the contents from * @param raw_size - size of the buffer in bytes * @return 0 on success, <0 on failure */ int parse_vlan_table(struct vlan_handle *handle, char *raw, uint32_t raw_size) { FILE *fp; int i; char *token; size_t size; int rc; token = raw; /* determine the number of entries */ while (*token != '\0') { if (*token == '\n') handle->num_of_entries++; token++; } /* There are 2 lines which describe the vlan table * This lines need to be skipped with counting */ handle->num_of_entries -= 2; LOG_INFO("Number of vlan entries: %d", handle->num_of_entries); size = handle->num_of_entries * sizeof(struct vlan_entry); handle->entries = malloc(size); if (handle->entries == NULL) { LOG_ERR ("Couldn't malloc space to parse vlan table. entires: %d " "size: %d", handle->num_of_entries, size); return -ENOMEM; } fp = fmemopen(raw, raw_size, "r"); if (fp == NULL) { LOG_ERR("Could not open raw dump of vlan table"); rc = errno; goto fmemopen_error; } if (fscanf(fp, "%*[^\n]\n") < 0) { /* Skip the first line. */ LOG_ERR("Empty or missing line, or read error"); rc = -EIO; goto error; } if (fscanf(fp, "%*[^\n]\n") < 0) { /* Skip the second line. */ LOG_ERR("Empty or missing line, or read error"); rc = -EIO; goto error; } i = 0; /* Time to parse the routing table */ while (1) { struct vlan_entry *entry = &handle->entries[i]; int r; r = fscanf(fp, "%15s |%hu |%15s", entry->vlan_iface_name, &entry->vlan_id, entry->phy_iface_name); if (r != 3) { if (feof(fp)) { /* EOF with no (nonspace) chars read. */ break; } LOG_WARN("Parsing error: parsed %d elements", r); break; } i++; LOG_DEBUG("Vlan %d: vlan iface:%s vlan id:%d phys iface:%s", i, entry->vlan_iface_name, entry->vlan_id, entry->phy_iface_name); } fclose(fp); return 0; error: fclose(fp); fmemopen_error: if (handle->entries != NULL) free(handle->entries); return rc; } /** * capture_vlan_table() - This function will snapshot the Linux vlan * routing table for further processing * @param handle - struct vlan_handle used to hold the routing context * @return 0 on success, <0 on failure */ int capture_vlan_table(struct vlan_handle *handle) { char *raw = NULL; uint32_t raw_size = 0; int rc; rc = capture_file(&raw, &raw_size, proc_vlan_config_path); if (rc != 0) goto error; rc = parse_vlan_table(handle, raw, raw_size); if (rc != 0) goto error; error: if (raw != NULL) free(raw); return rc; } /** * release_vlan_table() - This function will free all resources used by * the handle * @param handle - struct vlan_handle used to hold the routing context */ void release_vlan_table(struct vlan_handle *handle) { if (handle->entries != NULL) { free(handle->entries); handle->entries = NULL; } handle->num_of_entries = 0; } /** * find_phy_using_vlan_interface() - Given the interface name determine VLAN * tag ID to match either the physical or VLAN interface name * @param vlan_iface_name - VLAN interface used to find the physical * interface * @param phy_iface_name - returned value is the physical interface name * @param vlan_id - returned value is the VLAN id * @return 1 is returned if the interface is a VLAN, 0 if the interface is not * <0 is returned if there is an error */ int find_phy_using_vlan_interface(struct vlan_handle *handle, char *vlan_iface_name, char **phy_iface_name, uint16_t *vlan_id) { int i, rc = 0; for (i = 0; i < handle->num_of_entries; i++) { struct vlan_entry *entry = &handle->entries[i]; /* Compare VLAN interface names to find a match */ if (strcmp(entry->vlan_iface_name, vlan_iface_name) == 0) { *phy_iface_name = entry->phy_iface_name; *vlan_id = entry->vlan_id; rc = 1; break; } } return rc; } /** * find_vlans_using_phy_interface() - Given the physical interface name this * function will determine the VLAN interface name and VLAN ID * @param iface_name - physical interface used to find the vlan interface * @param vlan_iface_name - returned value is the VLAN interface name * @return The number of VLAN interfaces found */ int find_vlans_using_phy_interface(struct vlan_handle *handle, struct vlan_found_handle *found_handle, char *phy_iface_name) { int i, num_found = 0; for (i = 0; i < handle->num_of_entries; i++) { struct vlan_entry *entry = &handle->entries[i]; /* Compare interface names to find a match */ if (strcmp(entry->phy_iface_name, phy_iface_name) == 0) { found_handle->entries[i].found = VLAN_ENTRY_FOUND; num_found++; } } return num_found; } /** * valid_vlan() - determine if the vlan value which is passed is valid * @param vlan - vlan value to test * @return 0 - not valid, 1 - valid */ int valid_vlan(short int vlan) { /* Allow vlan 1 to connect */ if (vlan > 0 && vlan < 4095) return 1; return 0; } open-iscsi-2.0.874/iscsiuio/src/unix/nic_vlan.h000066400000000000000000000062651277325716400213370ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * nic_vlan.h - uIP user space stack VLAN utilities * */ #ifndef __NIC_VLAN_H__ #define __NIC_VLAN_H__ #include /* Used to hold entries in the vlan table */ struct vlan_entry { char vlan_iface_name[16]; char phy_iface_name[16]; uint16_t vlan_id; }; struct vlan_handle { struct vlan_entry *entries; uint32_t num_of_entries; uint32_t outstanding_found_handles; }; struct vlan_found_entry { #define VLAN_ENTRY_FOUND 1 #define VLAN_ENTRY_NOT_FOUND 0 uint8_t found; }; struct vlan_found_handle { struct vlan_handle *handle; uint32_t num_of_entries; struct vlan_found_entry *entries; }; /******************************************************************************* * Function Prototypes ******************************************************************************/ void init_vlan_table(struct vlan_handle *handle); int capture_vlan_table(struct vlan_handle *handle); void release_vlan_table(struct vlan_handle *handle); int find_phy_using_vlan_interface(struct vlan_handle *handle, char *vlan_iface_name, char **phy_iface_name, uint16_t *vlan_id); int find_vlans_using_phy_interface(struct vlan_handle *handle, struct vlan_found_handle *found_handle, char *phy_iface_name); int init_vlan_found_handle(struct vlan_found_handle *found_handle, struct vlan_handle *handle); void release_vlan_found_handle(struct vlan_found_handle *found_handle); int valid_vlan(short int vlan); #endif /* __NIC_VLAN_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/options.h000066400000000000000000000077211277325716400212370ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * options.h - CNIC UIO uIP user space stack * */ #ifndef __OPTIONS_H__ #define __OPTIONS_H__ #include #include #include /****************************************************************************** * Constants which are tuned at compile time by the user *****************************************************************************/ /** * MAX_COUNT_NIC_NL_RESP - This is the maximum number of polls uIP will * try for a kernel response after a PATH_REQ */ #define MAX_COUNT_NIC_NL_RESP 128 /** * NLM_BUF_DEFAULT_MAX - This is the buffer size allocated for the send/receive * buffers used by the uIP Netlink subsystem. This * value is in bytes. */ #define NLM_BUF_DEFAULT_MAX 8192 /* bytes */ /****************************************************************************** * Non adjustable constants *****************************************************************************/ #ifndef ETHERTYPE_IP #define ETHERTYPE_IP 0x0800 /* IP */ #endif /* ETHERTYPE_IP */ #ifndef ETHERTYPE_IPV6 #define ETHERTYPE_IPV6 0x86dd /* IP protocol version 6 */ #endif /* ETHERTYPE_IPV6 */ #ifndef ETHERTYPE_ARP #define ETHERTYPE_ARP 0x0806 /* Address resolution */ #endif /* ETHERTYPE_ARP */ #ifndef ETHERTYPE_VLAN #define ETHERTYPE_VLAN 0x8100 /* IEEE 802.1Q VLAN tagging */ #endif /* ETHERTYPE_VLAN */ #define APP_NAME "iscsiuio" /* BUILD_DATE is automatically generated from the Makefile */ #define DEBUG_OFF 0x1 #define DEBUG_ON 0x2 #define INVALID_FD -1 #define INVALID_THREAD -1 struct options { char debug; /* Time the userspace daemon was started */ time_t start_time; }; extern int event_loop_stop; extern struct options opt; #ifdef WORDS_BIGENDIAN #define ntohll(x) (x) #define htonll(x) (x) #else #define ntohll(x) bswap_64(x) #define htonll(x) bswap_64(x) #endif # define likely(x) __builtin_expect(!!(x), 1) # define unlikely(x) __builtin_expect(!!(x), 0) /* taken from Linux kernel, include/linux/compiler-gcc.h */ /* Optimization barrier */ /* The "volatile" is due to gcc bugs */ #define barrier() __asm__ __volatile__("": : :"memory") #endif open-iscsi-2.0.874/iscsiuio/src/unix/packet.c000066400000000000000000000074571277325716400210140ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * packet.c - packet management * */ #include #include #include #include "logger.h" #include "packet.h" #include "nic.h" /** * alloc_packet() - Function used to allocate memory for a packet * @param max_buf_size - max packet size * @param priv_size - size of the assoicated private data * @return NULL if failed, on success return a pointer to the packet */ struct packet *alloc_packet(size_t max_buf_size, size_t priv_size) { struct packet *pkt; void *priv; pkt = malloc(max_buf_size + sizeof(struct packet)); if (pkt == NULL) { LOG_ERR("Could not allocate any memory for packet"); return NULL; } memset(pkt, 0, max_buf_size + sizeof(struct packet)); priv = malloc(priv_size); if (priv == NULL) { LOG_ERR("Could not allocate any memory for private structure"); goto free_pkt; } memset(priv, 0, priv_size); pkt->max_buf_size = max_buf_size; pkt->priv = priv; return pkt; free_pkt: free(pkt); return NULL; } void free_packet(struct packet *pkt) { if (pkt->priv != NULL) free(pkt->priv); free(pkt); } /** * reset_packet() - This will reset the packet fields to default values * @param pkt - the packet to reset */ void reset_packet(packet_t *pkt) { pkt->next = NULL; pkt->flags = 0; pkt->vlan_tag = 0; pkt->buf_size = 0; pkt->data_link_layer = NULL; pkt->network_layer = NULL; } int alloc_free_queue(nic_t *nic, size_t num_of_packets) { int i; pthread_mutex_lock(&nic->free_packet_queue_mutex); for (i = 0; i < num_of_packets; i++) { packet_t *pkt; pkt = alloc_packet(1500, 1500); if (pkt == NULL) { goto done; } reset_packet(pkt); pkt->next = nic->free_packet_queue; nic->free_packet_queue = pkt; } done: pthread_mutex_unlock(&nic->free_packet_queue_mutex); return i; } void free_free_queue(nic_t *nic) { packet_t *pkt, *pkt_next; pthread_mutex_lock(&nic->free_packet_queue_mutex); pkt = nic->free_packet_queue; while (pkt) { pkt_next = pkt->next; free_packet(pkt); pkt = pkt_next; } nic->free_packet_queue = NULL; pthread_mutex_unlock(&nic->free_packet_queue_mutex); } open-iscsi-2.0.874/iscsiuio/src/unix/packet.h000066400000000000000000000050341277325716400210060ustar00rootroot00000000000000/* * Copyright (c) 2009-2011, Broadcom Corporation * Copyright (c) 2014, QLogic Corporation * * Written by: Benjamin Li (benli@broadcom.com) * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * packet.h - packet definitions * */ #include #ifndef __PACKET_H__ #define __PACKET_H__ #include "nic.h" struct nic; struct nic_interface; typedef struct packet { struct packet *next; uint32_t flags; #define VLAN_TAGGED 0x0001 uint16_t vlan_tag; size_t max_buf_size; size_t buf_size; uint8_t *data_link_layer; uint8_t *network_layer; struct nic *nic; struct nic_interface *nic_iface; void *priv; uint8_t buf[]; } packet_t; /****************************************************************************** * Packet Function Declarations *****************************************************************************/ int alloc_free_queue(struct nic *, size_t num_of_packets); void free_free_queue(struct nic *); void reset_packet(packet_t *pkt); #endif /* __PACKET_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/ping.c000066400000000000000000000340101277325716400204630ustar00rootroot00000000000000/* * Copyright (c) 2015, QLogic Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ping.c - Ping implementation for iscsiuio using ICMP/ICMPv6 * */ #include #include #include #include #include #include #include #include #include #include #include #include #include "iscsi_if.h" #include "uip.h" #include "uip_arp.h" #include "uip_eth.h" #include "dhcpc.h" #include "ipv6_ndpc.h" #include "ipv6.h" #include "logger.h" #include "nic.h" #include "nic_utils.h" #include "options.h" #include "packet.h" #include "bnx2.h" #include "bnx2x.h" #include "cnic.h" #include "ping.h" #define PFX "ping " static void fill_payload_data(struct uip_stack *ustack) { if (ustack->uip_slen) memset(ustack->uip_appdata, 'A', ustack->uip_slen); } static int prepare_icmpv4_req_pkt(struct ping_conf *png_c, struct packet *pkt, uip_ip4addr_t *dst_addr) { nic_interface_t *nic_iface = png_c->nic_iface; struct uip_stack *ustack = &nic_iface->ustack; struct uip_ipv4_hdr *ipv4_hdr = NULL; struct uip_icmpv4_hdr *icmpv4_hdr = NULL; u16_t uip_iph_len = 0; u16_t icmpv4_hdr_len = 0; u16_t uip_ip_icmph_len = 0; int mtu = 1500; int rc = 0; uip_iph_len = UIP_IPv4_H_LEN; icmpv4_hdr_len = sizeof(*icmpv4_hdr); uip_ip_icmph_len = uip_iph_len + icmpv4_hdr_len; ipv4_hdr = (struct uip_ipv4_hdr *)ustack->network_layer; icmpv4_hdr = (struct uip_icmpv4_hdr *) (ustack->network_layer + sizeof(struct uip_ipv4_hdr)); /* fill IP header */ ipv4_hdr->vhl = 0x45; ipv4_hdr->tos = 0; ++ustack->ipid; ipv4_hdr->ipid[0] = ustack->ipid >> 8; ipv4_hdr->ipid[1] = ustack->ipid & 0xff; ipv4_hdr->ipoffset[0] = 0; ipv4_hdr->ipoffset[1] = 0; ipv4_hdr->ttl = UIP_TTL; ipv4_hdr->proto = UIP_PROTO_ICMP; uip_ip4addr_copy(ipv4_hdr->srcipaddr, ustack->hostaddr); uip_ip4addr_copy(ipv4_hdr->destipaddr, dst_addr); LOG_INFO(PFX "src ipaddr: %d.%d.%d.%d", uip_ipaddr1(ipv4_hdr->srcipaddr), uip_ipaddr2(ipv4_hdr->srcipaddr), uip_ipaddr3(ipv4_hdr->srcipaddr), uip_ipaddr4(ipv4_hdr->srcipaddr)); LOG_INFO(PFX "dest ipaddr: %d.%d.%d.%d", uip_ipaddr1(ipv4_hdr->destipaddr), uip_ipaddr2(ipv4_hdr->destipaddr), uip_ipaddr3(ipv4_hdr->destipaddr), uip_ipaddr4(ipv4_hdr->destipaddr)); /* fill ICMP header */ icmpv4_hdr->type = ICMP_ECHO; icmpv4_hdr->icode = 0; icmpv4_hdr->id = getpid() & 0xffff; png_c->id = icmpv4_hdr->id; icmpv4_hdr->seqno = ustack->ipid; png_c->seqno =icmpv4_hdr->seqno; /* appdata and sappdata point to the icmp payload */ ustack->uip_appdata = ustack->network_layer + uip_ip_icmph_len; ustack->uip_sappdata = ustack->uip_appdata; if (nic_iface->mtu) mtu = nic_iface->mtu; if ((mtu - uip_ip_icmph_len) > png_c->datalen) { ustack->uip_slen = png_c->datalen; } else { png_c->state = ISCSI_PING_OVERSIZE_PACKET; LOG_ERR(PFX "MTU=%d, payload=%d\n", mtu, png_c->datalen); rc = -EINVAL; goto done; } fill_payload_data(ustack); /* Calculate ICMP checksum. */ icmpv4_hdr->icmpchksum = 0; icmpv4_hdr->icmpchksum = ~(uip_chksum((u16_t *)icmpv4_hdr, icmpv4_hdr_len + ustack->uip_slen)); if (icmpv4_hdr->icmpchksum == 0) icmpv4_hdr->icmpchksum = 0xffff; /* IPv4 total length = IPv4 HLEN + ICMP HLEN + Payload len */ ustack->uip_len = uip_ip_icmph_len + ustack->uip_slen; ipv4_hdr->len[0] = (ustack->uip_len >> 8); ipv4_hdr->len[1] = (ustack->uip_len & 0xff); /* Calculate IP checksum. */ ipv4_hdr->ipchksum = 0; ipv4_hdr->ipchksum = ~(uip_ipchksum(ustack)); if (ipv4_hdr->ipchksum == 0) ipv4_hdr->ipchksum = 0xffff; ++ustack->stats.ip.sent; /* Return and let the caller do the actual transmission. */ ustack->uip_flags = 0; done: return rc; } static void prepare_icmpv6_req_pkt(struct ping_conf *png_c, struct packet *pkt, uip_ip6addr_t *dst_addr, uip_ip6addr_t *src_addr) { nic_interface_t *nic_iface = png_c->nic_iface; struct uip_stack *ustack = &nic_iface->ustack; struct uip_ipv6_hdr *ipv6_hdr = NULL; uip_icmp_echo_hdr_t *icmp_echo_hdr = NULL; u16_t uip_iph_len = 0; u16_t icmp_echo_hdr_len = 0; u16_t uip_ip_icmph_len = 0; char ipbuf[INET6_ADDRSTRLEN] = {0}; uip_iph_len = UIP_IPv6_H_LEN; icmp_echo_hdr_len = sizeof(*icmp_echo_hdr); uip_ip_icmph_len = uip_iph_len + icmp_echo_hdr_len; ipv6_hdr = (struct uip_ipv6_hdr *)ustack->network_layer; icmp_echo_hdr = (uip_icmp_echo_hdr_t *) (ustack->network_layer + sizeof(struct uip_ipv6_hdr)); /* fill IPv6 header */ ipv6_hdr->vtc = 0x60; ipv6_hdr->tcflow = 0; ipv6_hdr->flow = 0; ipv6_hdr->proto = UIP_PROTO_ICMP6; ipv6_hdr->ttl = UIP_TTL; uip_ip6addr_copy(ipv6_hdr->srcipaddr, src_addr); uip_ip6addr_copy(ipv6_hdr->destipaddr, dst_addr); memset(ipbuf, 0, sizeof(ipbuf)); if (inet_ntop(AF_INET6, &ipv6_hdr->srcipaddr, ipbuf, INET6_ADDRSTRLEN)) LOG_INFO(PFX "src ipaddr=%s", ipbuf); memset(ipbuf, 0, sizeof(ipbuf)); if (inet_ntop(AF_INET6, &ipv6_hdr->destipaddr, ipbuf, INET6_ADDRSTRLEN)) LOG_INFO(PFX "dest ipaddr=%s", ipbuf); /* fill ICMP header */ icmp_echo_hdr->type = ICMPV6_ECHO_REQ; icmp_echo_hdr->icode = 0; icmp_echo_hdr->id = HOST_TO_NET16(getpid() & 0xffff); png_c->id = icmp_echo_hdr->id; ++ustack->ipid; icmp_echo_hdr->seqno = HOST_TO_NET16(ustack->ipid); png_c->seqno = icmp_echo_hdr->seqno; /* appdata and sappdata point to the icmp payload */ ustack->uip_appdata = ustack->network_layer + uip_ip_icmph_len; ustack->uip_sappdata = ustack->uip_appdata; ustack->uip_slen = png_c->datalen; fill_payload_data(ustack); /* Total length = ETH HLEN + IPv6 HLEN + ICMP HLEN + Data len */ ustack->uip_len = UIP_LLH_LEN + uip_ip_icmph_len + ustack->uip_slen; /* IPv6 payload len */ ipv6_hdr->len = HOST_TO_NET16(icmp_echo_hdr_len + ustack->uip_slen); /* Calculate ICMP checksum. */ icmp_echo_hdr->icmpchksum = 0; icmp_echo_hdr->icmpchksum = ~(uip_icmp6chksum(ustack)); ++ustack->stats.ip.sent; /* Return and let the caller do the actual transmission. */ ustack->uip_flags = 0; return; } static int chk_arp_entry_for_dst_addr(nic_t *nic, nic_interface_t *nic_iface, void *addr) { struct iscsi_path path; uip_ip4addr_t dst_addr4; uip_ip6addr_t dst_addr6; if (nic_iface->protocol == AF_INET) { memcpy(dst_addr4, addr, sizeof(uip_ip4addr_t)); memcpy(&path.dst.v4_addr, dst_addr4, sizeof(struct in_addr)); path.ip_addr_len = 4; } else { memcpy(dst_addr6, addr, sizeof(uip_ip6addr_t)); memcpy(&path.dst.v6_addr, dst_addr6, sizeof(struct in6_addr)); path.ip_addr_len = 16; } return cnic_handle_iscsi_path_req(nic, 0, NULL, &path, nic_iface); } static int fill_icmpv6_eth_hdr(struct uip_stack *ustack, uip_ip6addr_t *dst_addr6) { struct uip_eth_hdr *eth; __u8 mac_addr[6]; struct ndpc_reqptr req_ptr; int rc = 0; int ret = 0; eth = (struct uip_eth_hdr *)ustack->data_link_layer; memcpy(eth->src.addr, ustack->uip_ethaddr.addr, sizeof(eth->src.addr)); memset(mac_addr, 0, sizeof(mac_addr)); req_ptr.eth = (void *)mac_addr; req_ptr.ipv6 = (void *)dst_addr6; ret = ndpc_request(ustack, &req_ptr, &rc, CHECK_ARP_TABLE); if (ret) { LOG_DEBUG(PFX "ndpc request failed"); rc = ret; } else if (rc) { memcpy(eth->dest.addr, mac_addr, sizeof(eth->dest.addr)); LOG_DEBUG(PFX "ipv6 arp entry present"); rc = 0; } else { LOG_DEBUG(PFX "ipv6 arp entry not present"); rc = -EAGAIN; } return rc; } static int determine_src_ipv6_addr(nic_interface_t *nic_iface, uip_ip6addr_t *dst_addr6, uip_ip6addr_t *src_addr6) { struct in6_addr *addr; int rc = 0; int ret = 0; if (nic_iface->ustack.ip_config == IPV6_CONFIG_STATIC) { memcpy(src_addr6, &nic_iface->ustack.hostaddr6, sizeof(uip_ip6addr_t)); goto done; } ret = ndpc_request(&nic_iface->ustack, dst_addr6, &rc, CHECK_LINK_LOCAL_ADDR); if (ret) { LOG_DEBUG(PFX "Check LL failed"); rc = ret; goto done; } if (rc) { LOG_DEBUG(PFX "Use LL"); /* Get link local IPv6 address */ addr = (struct in6_addr *)&nic_iface->ustack.linklocal6; rc = 0; } else { LOG_DEBUG(PFX "Use Best matched"); ret = ndpc_request(&nic_iface->ustack, dst_addr6, &addr, GET_HOST_ADDR); if (ret) { LOG_DEBUG(PFX "Use Best matched failed"); rc = ret; goto done; } if (addr == NULL) { LOG_DEBUG(PFX "No Best matched found"); rc = -EINVAL; goto done; } } /* Got the best matched src IP address */ memcpy(src_addr6, addr, sizeof(struct in6_addr)); done: return rc; } void ping_init(struct ping_conf *png_c, void *addr, u16_t type, int datalen) { png_c->dst_addr = addr; png_c->proto = type; png_c->state = PING_INIT_STATE; png_c->datalen = datalen; return; } int do_ping_from_nic_iface(struct ping_conf *png_c) { packet_t *pkt; nic_interface_t *nic_iface = png_c->nic_iface; nic_t *nic = nic_iface->parent; struct uip_stack *ustack = &nic_iface->ustack; uip_ip4addr_t dst_addr4; uip_ip6addr_t dst_addr6; uip_ip6addr_t src_addr6; struct timer ping_timer; int rc = 0; memset(dst_addr4, 0, sizeof(uip_ip4addr_t)); memset(dst_addr6, 0, sizeof(uip_ip6addr_t)); memset(src_addr6, 0, sizeof(uip_ip6addr_t)); if (nic_iface->protocol == AF_INET) memcpy(dst_addr4, png_c->dst_addr, sizeof(uip_ip4addr_t)); else memcpy(dst_addr6, png_c->dst_addr, sizeof(uip_ip6addr_t)); rc = chk_arp_entry_for_dst_addr(nic, nic_iface, png_c->dst_addr); if (rc && (nic_iface->protocol == AF_INET)) { png_c->state = ISCSI_PING_NO_ARP_RECEIVED; LOG_ERR(PFX "ARP failure for IPv4 dest addr"); goto done; } else if ((rc < 1) && (nic_iface->protocol == AF_INET6)) { png_c->state = ISCSI_PING_NO_ARP_RECEIVED; LOG_ERR(PFX "ARP failure for IPv6 dest addr"); goto done; } else if (rc < 0) { LOG_ERR(PFX "ARP failure"); goto done; } pthread_mutex_lock(&nic->nic_mutex); pkt = get_next_free_packet(nic); if (pkt == NULL) { pthread_mutex_unlock(&nic->nic_mutex); LOG_ERR(PFX "Unable to get a free packet buffer"); rc = -EIO; goto done; } prepare_ustack(nic, nic_iface, ustack, pkt); if (nic_iface->protocol == AF_INET) { rc = prepare_icmpv4_req_pkt(png_c, pkt, &dst_addr4); if (rc) goto put_pkt; /* If the above function invocation resulted * in data that should be sent out on the * network, the global variable uip_len is * set to a value > 0. */ if (ustack->uip_len > 0) { pkt->buf_size = ustack->uip_len; prepare_ipv4_packet(nic, nic_iface, ustack, pkt); LOG_DEBUG(PFX "Send ICMP echo request"); (*nic->ops->write) (nic, nic_iface, pkt); ustack->uip_len = 0; } } else { rc = determine_src_ipv6_addr(nic_iface, &dst_addr6, &src_addr6); if (rc) goto put_pkt; prepare_icmpv6_req_pkt(png_c, pkt, &dst_addr6, &src_addr6); /* If the above function invocation resulted * in data that should be sent out on the * network, the global variable uip_len is * set to a value > 0. */ if (ustack->uip_len > 0) { pkt->buf_size = ustack->uip_len; prepare_ipv6_packet(nic, nic_iface, ustack, pkt); rc = fill_icmpv6_eth_hdr(ustack, &dst_addr6); if (rc) { ustack->uip_len = 0; goto put_pkt; } LOG_DEBUG(PFX "Send ICMPv6 echo request"); (*nic->ops->write) (nic, nic_iface, pkt); ustack->uip_len = 0; } } put_pkt: put_packet_in_free_queue(pkt, nic); pthread_mutex_unlock(&nic->nic_mutex); if (rc) { LOG_DEBUG(PFX "Ping request not transmitted"); goto done; } timer_set(&ping_timer, CLOCK_SECOND * 10); while ((event_loop_stop == 0) && (nic->flags & NIC_ENABLED) && !(nic->flags & NIC_GOING_DOWN)) { rc = nic_process_intr(nic, 1); while ((rc > 0) && (!(nic->flags & NIC_GOING_DOWN))) { rc = process_packets(nic, NULL, NULL, nic_iface); } if (!rc && (png_c->state == ISCSI_PING_SUCCESS)) { LOG_INFO(PFX "PING successful!"); break; } if (timer_expired(&ping_timer)) { png_c->state = ISCSI_PING_TIMEOUT; LOG_ERR(PFX "PING timeout"); rc = -EIO; break; } } done: return rc; } int process_icmp_packet(uip_icmp_echo_hdr_t *icmp_hdr, struct uip_stack *ustack) { struct ping_conf *png_c = (struct ping_conf *)ustack->ping_conf; int rc = 0; LOG_INFO(PFX "Verify ICMP echo reply"); if ((icmp_hdr->type == ICMPV6_ECHO_REPLY && png_c->proto == AF_INET6) || (icmp_hdr->type == ICMP_ECHO_REPLY && png_c->proto == AF_INET)) { if ((icmp_hdr->icode == 0) && (icmp_hdr->id == png_c->id) && (icmp_hdr->seqno == png_c->seqno)) { png_c->state = ISCSI_PING_SUCCESS; } else { rc = 1; } } else { rc = 1; } if (rc) { LOG_INFO(PFX "ICMP echo reply verification failed!"); } else { LOG_INFO(PFX "ICMP echo reply OK"); } return rc; } open-iscsi-2.0.874/iscsiuio/src/unix/ping.h000066400000000000000000000045351277325716400205010ustar00rootroot00000000000000/* * Copyright (c) 2015, QLogic Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Adam Dunkels. * 4. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ping.h - PING header file * */ #ifndef __PING_H__ #define __PING_H__ #include "nic_nl.h" #include "uip.h" #define ICMP_ECHO_REPLY 0 #define ICMP_ECHO 8 #define ICMPV6_ECHO_REQ 128 #define ICMPV6_ECHO_REPLY 129 #define DEF_ICMP_PAYLOAD 32 #define DEF_ICMPV6_PAYLOAD 16 #define PING_INIT_STATE (-1) struct ping_conf { nic_t *nic; nic_interface_t *nic_iface; void *data; int state; void *dst_addr; u16_t proto; u16_t id; u16_t seqno; u16_t datalen; }; void ping_init(struct ping_conf *png_c, void *addr, u16_t type, int datalen); int do_ping_from_nic_iface(struct ping_conf *png_c); int process_icmp_packet(uip_icmp_echo_hdr_t *icmp_hdr, struct uip_stack *ustack); #endif /* __PING_H__ */ open-iscsi-2.0.874/iscsiuio/src/unix/uip-conf.h000066400000000000000000000070201277325716400212540ustar00rootroot00000000000000/** * \addtogroup uipopt * @{ */ /** * \name Project-specific configuration options * @{ * * uIP has a number of configuration options that can be overridden * for each project. These are kept in a project-specific uip-conf.h * file and all configuration names have the prefix UIP_CONF. */ /* * Copyright (c) 2006, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the uIP TCP/IP stack * */ /** * \file * An example uIP configuration file * \author * Adam Dunkels */ #ifndef __UIP_CONF_H__ #define __UIP_CONF_H__ #include /** * 8 bit datatype * * This typedef defines the 8-bit type used throughout uIP. * * \hideinitializer */ typedef uint8_t u8_t; /** * 16 bit datatype * * This typedef defines the 16-bit type used throughout uIP. * * \hideinitializer */ typedef uint16_t u16_t; /** * 32 bit datatype * * This typedef defines the 16-bit type used throughout uIP. * * \hideinitializer */ typedef uint32_t u32_t; /** * Statistics datatype * * This typedef defines the dataype used for keeping statistics in * uIP. * * \hideinitializer */ typedef uint64_t uip_stats_t; /** * Maximum number of TCP connections. * * \hideinitializer */ #define UIP_CONF_MAX_CONNECTIONS 40 /** * Maximum number of listening TCP ports. * * \hideinitializer */ #define UIP_CONF_MAX_LISTENPORTS 40 /** * uIP buffer size. * * \hideinitializer */ #define UIP_CONF_BUFFER_SIZE 420 /** * CPU byte order. * * \hideinitializer */ #define UIP_CONF_BYTE_ORDER LITTLE_ENDIAN /** * Logging on or off * * \hideinitializer */ #define UIP_CONF_LOGGING 1 /** * UDP support on or off * * \hideinitializer */ #define UIP_CONF_UDP 1 /** * UDP checksums on or off * * \hideinitializer */ #define UIP_CONF_UDP_CHECKSUMS 1 /** * uIP statistics on or off * * \hideinitializer */ #define UIP_CONF_STATISTICS 1 #define UIP_CONF_IPV6 0 #define INET_ADDRSTRLEN 16 #define INET6_ADDRSTRLEN 46 #endif /* __UIP_CONF_H__ */ /** @} */ /** @} */ open-iscsi-2.0.874/kernel/000077500000000000000000000000001277325716400152435ustar00rootroot00000000000000open-iscsi-2.0.874/kernel/.gitignore000066400000000000000000000001771277325716400172400ustar00rootroot00000000000000.*.ko.cmd .*.o.cmd .tmp_versions Module.symvers cur_patched has_*_patch *.ko *.mod.* open_iscsi_compat.h *.orig Module.markers open-iscsi-2.0.874/kernel/2.6.14-19_compat.patch000066400000000000000000001130471277325716400206140ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 8ef3f41..14c6706 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -445,11 +445,9 @@ static int iscsi_sw_tcp_pdu_init(struct iscsi_task *task, if (!task->sc) iscsi_sw_tcp_send_linear_data_prep(conn, task->data, count); else { - struct scsi_data_buffer *sdb = scsi_out(task->sc); - - err = iscsi_sw_tcp_send_data_prep(conn, sdb->table.sgl, - sdb->table.nents, offset, - count); + err = iscsi_sw_tcp_send_data_prep(conn, scsi_sglist(task->sc), + scsi_sg_count(task->sc), + offset, count); } if (err) { @@ -782,7 +780,11 @@ iscsi_sw_tcp_session_create(struct iscsi_endpoint *ep, uint16_t cmds_max, shost->max_lun = iscsi_max_lun; shost->max_id = 0; shost->max_channel = 0; +#ifndef SCSI_MAX_VARLEN_CDB_SIZE + shost->max_cmd_len = 16; +#else shost->max_cmd_len = SCSI_MAX_VARLEN_CDB_SIZE; +#endif if (iscsi_host_add(shost, NULL)) goto free_host; @@ -830,6 +832,9 @@ static int iscsi_sw_tcp_slave_configure(struct scsi_device *sdev) } static struct scsi_host_template iscsi_sw_tcp_sht = { +#if LINUX_VERSION_CODE == KERNEL_VERSION(2,6,24) + .use_sg_chaining = ENABLE_SG_CHAINING, +#endif .module = THIS_MODULE, .name = "iSCSI Initiator over TCP/IP", .queuecommand = iscsi_queuecommand, @@ -840,7 +845,7 @@ static struct scsi_host_template iscsi_sw_tcp_sht = { .cmd_per_lun = ISCSI_DEF_CMD_PER_LUN, .eh_abort_handler = iscsi_eh_abort, .eh_device_reset_handler= iscsi_eh_device_reset, - .eh_target_reset_handler= iscsi_eh_target_reset, + .eh_host_reset_handler = iscsi_eh_target_reset, .use_clustering = DISABLE_CLUSTERING, .slave_configure = iscsi_sw_tcp_slave_configure, .proc_name = "iscsi_tcp", diff --git a/iscsi_tcp.h b/iscsi_tcp.h index f9a4044..ab20530 100644 --- a/iscsi_tcp.h +++ b/iscsi_tcp.h @@ -22,6 +22,8 @@ #ifndef ISCSI_SW_TCP_H #define ISCSI_SW_TCP_H +#include "open_iscsi_compat.h" + #include "libiscsi.h" #include "libiscsi_tcp.h" diff --git a/libiscsi.c b/libiscsi.c index 457ecfe..756b171 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -24,7 +24,10 @@ #include #include #include +#include +#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,19) #include +#endif #include #include #include @@ -38,6 +41,8 @@ #include "scsi_transport_iscsi.h" #include "libiscsi.h" +#include "open_iscsi_compat.h" + /* Serial Number Arithmetic, 32 bits, less than, RFC1982 */ #define SNA32_CHECK 2147483648UL @@ -199,7 +204,7 @@ static int iscsi_prep_bidi_ahs(struct iscsi_task *task) sizeof(rlen_ahdr->reserved)); rlen_ahdr->ahstype = ISCSI_AHSTYPE_RLENGTH; rlen_ahdr->reserved = 0; - rlen_ahdr->read_length = cpu_to_be32(scsi_in(sc)->length); + rlen_ahdr->read_length = cpu_to_be32(scsi_bufflen(sc)); debug_scsi("bidi-in rlen_ahdr->read_length(%d) " "rlen_ahdr->ahslength(%d)\n", @@ -267,7 +272,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) return rc; } if (sc->sc_data_direction == DMA_TO_DEVICE) { - unsigned out_len = scsi_out(sc)->length; + unsigned out_len = scsi_bufflen(sc); struct iscsi_r2t_info *r2t = &task->unsol_r2t; hdr->data_length = cpu_to_be32(out_len); @@ -313,7 +318,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) } else { hdr->flags |= ISCSI_FLAG_CMD_FINAL; zero_data(hdr->dlength); - hdr->data_length = cpu_to_be32(scsi_in(sc)->length); + hdr->data_length = cpu_to_be32(scsi_bufflen(sc)); if (sc->sc_data_direction == DMA_FROM_DEVICE) hdr->flags |= ISCSI_FLAG_CMD_READ; @@ -340,7 +345,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) "bidirectional" : sc->sc_data_direction == DMA_TO_DEVICE ? "write" : "read", conn->id, sc, sc->cmnd[0], task->itt, scsi_bufflen(sc), - scsi_bidi_cmnd(sc) ? scsi_in(sc)->length : 0, + scsi_bidi_cmnd(sc) ? scsi_bufflen(sc) : 0, session->cmdsn, session->max_cmdsn - session->exp_cmdsn + 1); return 0; } @@ -432,12 +437,7 @@ static void fail_command(struct iscsi_conn *conn, struct iscsi_task *task, conn->session->queued_cmdsn--; sc->result = err; - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); if (conn->task == task) conn->task = NULL; @@ -631,7 +631,7 @@ invalid_datalen: goto out; } - senselen = get_unaligned_be16(data); + senselen = be16_to_cpu(get_unaligned((__be16 *) data)); if (datalen < senselen) goto invalid_datalen; @@ -647,8 +647,8 @@ invalid_datalen: if (scsi_bidi_cmnd(sc) && res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_BIDI_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -697,8 +697,8 @@ iscsi_data_in_rsp(struct iscsi_conn *conn, struct iscsi_hdr *hdr, if (res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -1244,10 +1244,9 @@ again: return rc; } -static void iscsi_xmitworker(struct work_struct *work) +static void iscsi_xmitworker(void *data) { - struct iscsi_conn *conn = - container_of(work, struct iscsi_conn, xmitwork); + struct iscsi_conn *conn = data; int rc; /* * serialize Xmit worker on a per-connection basis. @@ -1408,12 +1407,7 @@ prepd_fault: fault: spin_unlock(&session->lock); debug_scsi("iscsi: cmd 0x%x is not queued (%d)\n", sc->cmnd[0], reason); - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); done(sc); spin_lock(host->host_lock); return 0; @@ -1998,8 +1992,10 @@ int iscsi_host_add(struct Scsi_Host *shost, struct device *pdev) if (!shost->can_queue) shost->can_queue = ISCSI_DEF_XMIT_CMDS_MAX; +#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,16) if (!shost->transportt->eh_timed_out) shost->transportt->eh_timed_out = iscsi_eh_cmd_timed_out; +#endif return scsi_add_host(shost, pdev); } EXPORT_SYMBOL_GPL(iscsi_host_add); @@ -2295,7 +2291,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, INIT_LIST_HEAD(&conn->mgmtqueue); INIT_LIST_HEAD(&conn->xmitqueue); INIT_LIST_HEAD(&conn->requeue); - INIT_WORK(&conn->xmitwork, iscsi_xmitworker); + INIT_WORK(&conn->xmitwork, iscsi_xmitworker, conn); /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); diff --git a/libiscsi.h b/libiscsi.h index a261e2c..1274bc9 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -25,13 +25,16 @@ #include #include +#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,16) #include -#include -#include +#endif + #include "iscsi_proto.h" #include "iscsi_if.h" #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct scsi_host_template; struct scsi_device; diff --git a/libiscsi_tcp.c b/libiscsi_tcp.c index 92cb13d..ea7dd8d 100644 --- a/libiscsi_tcp.c +++ b/libiscsi_tcp.c @@ -357,6 +357,17 @@ iscsi_segment_seek_sg(struct iscsi_segment *segment, debug_scsi("iscsi_segment_seek_sg offset %u size %llu\n", offset, size); + + /* + * older kernels could send use_sg=0 for commands like sgio + * or scsi-ml commands. + */ + if (!sg_count) { + iscsi_segment_init_linear(segment, (void *)sg_list + offset, + size, done, hash); + return 0; + } + __iscsi_segment_init(segment, size, done, hash); for_each_sg(sg_list, sg, sg_count, i) { debug_scsi("sg %d, len %u offset %u\n", i, sg->length, @@ -469,7 +480,7 @@ static int iscsi_tcp_data_in(struct iscsi_conn *conn, struct iscsi_task *task) struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_data_rsp *rhdr = (struct iscsi_data_rsp *)tcp_conn->in.hdr; int datasn = be32_to_cpu(rhdr->datasn); - unsigned total_in_length = scsi_in(task->sc)->length; + unsigned total_in_length = scsi_bufflen(task->sc); iscsi_update_cmdsn(conn->session, (struct iscsi_nopin*)rhdr); if (tcp_conn->in.datalen == 0) @@ -557,11 +568,11 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->data_length, session->max_burst); r2t->data_offset = be32_to_cpu(rhdr->data_offset); - if (r2t->data_offset + r2t->data_length > scsi_out(task->sc)->length) { + if (r2t->data_offset + r2t->data_length > scsi_bufflen(task->sc)) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, - r2t->data_offset, scsi_out(task->sc)->length); + r2t->data_offset, scsi_bufflen(task->sc)); __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; @@ -660,7 +671,6 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) if (tcp_conn->in.datalen) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct hash_desc *rx_hash = NULL; - struct scsi_data_buffer *sdb = scsi_in(task->sc); /* * Setup copy of Data-In into the Scsi_Cmnd @@ -679,8 +689,8 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) tcp_task->data_offset, tcp_conn->in.datalen); rc = iscsi_segment_seek_sg(&tcp_conn->in.segment, - sdb->table.sgl, - sdb->table.nents, + scsi_sglist(task->sc), + scsi_sg_count(task->sc), tcp_task->data_offset, tcp_conn->in.datalen, iscsi_tcp_process_data_in, diff --git a/libiscsi_tcp.h b/libiscsi_tcp.h index 3bacef5..5ea284d 100644 --- a/libiscsi_tcp.h +++ b/libiscsi_tcp.h @@ -21,6 +21,7 @@ #ifndef LIBISCSI_TCP_H #define LIBISCSI_TCP_H +#include "open_iscsi_compat.h" #include "libiscsi.h" struct iscsi_tcp_conn; diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..2dbe4ce --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,303 @@ +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#include +#include +#include +#include + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} + +int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} + +#endif + +#ifndef bool +#define bool int +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) +#ifdef RHEL_RELEASE_VERSION +#if RHEL_RELEASE_CODE < RHEL_RELEASE_VERSION(5,2) +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif +#else +/* not a redhat kernel */ +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) +#ifdef RHEL_RELEASE_VERSION +#if RHEL_RELEASE_CODE < RHEL_RELEASE_VERSION(5,2) +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} +#endif +#else +/* not a redhat kernel */ +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} +#endif + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +#ifdef RHEL_RELEASE_VERSION +#if RHEL_RELEASE_CODE < RHEL_RELEASE_VERSION(5,2) +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} +#endif +#else +/* not a redhat kernel */ +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} +#endif + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, input) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + +#endif diff --git a/scsi_transport_iscsi.c b/scsi_transport_iscsi.c index 4781d81..98d1351 100644 --- a/scsi_transport_iscsi.c +++ b/scsi_transport_iscsi.c @@ -21,7 +21,10 @@ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include +#include +#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,16) #include +#endif #include #include #include @@ -41,13 +44,13 @@ struct iscsi_internal { struct scsi_transport_template t; struct iscsi_transport *iscsi_transport; struct list_head list; - struct device dev; + struct class_device cdev; - struct device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; + struct class_device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; struct transport_container conn_cont; - struct device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; + struct class_device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; struct transport_container session_cont; - struct device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; + struct class_device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; }; static atomic_t iscsi_session_nr; /* sysfs session id for next new session */ @@ -64,12 +67,12 @@ static DEFINE_SPINLOCK(iscsi_transport_lock); #define to_iscsi_internal(tmpl) \ container_of(tmpl, struct iscsi_internal, t) -#define dev_to_iscsi_internal(_dev) \ - container_of(_dev, struct iscsi_internal, dev) +#define cdev_to_iscsi_internal(_cdev) \ + container_of(_cdev, struct iscsi_internal, cdev) -static void iscsi_transport_release(struct device *dev) +static void iscsi_transport_release(struct class_device *cdev) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); kfree(priv); } @@ -79,33 +82,31 @@ static void iscsi_transport_release(struct device *dev) */ static struct class iscsi_transport_class = { .name = "iscsi_transport", - .dev_release = iscsi_transport_release, + .release = iscsi_transport_release, }; static ssize_t -show_transport_handle(struct device *dev, struct device_attribute *attr, - char *buf) +show_transport_handle(struct class_device *cdev, char *buf) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); return sprintf(buf, "%llu\n", (unsigned long long)iscsi_handle(priv->iscsi_transport)); } -static DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); +static CLASS_DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); #define show_transport_attr(name, format) \ static ssize_t \ -show_transport_##name(struct device *dev, \ - struct device_attribute *attr,char *buf) \ +show_transport_##name(struct class_device *cdev, char *buf) \ { \ - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); \ + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); \ return sprintf(buf, format"\n", priv->iscsi_transport->name); \ } \ -static DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); +static CLASS_DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); show_transport_attr(caps, "0x%x"); static struct attribute *iscsi_transport_attrs[] = { - &dev_attr_handle.attr, - &dev_attr_caps.attr, + &class_device_attr_handle.attr, + &class_device_attr_caps.attr, NULL, }; @@ -113,6 +114,7 @@ static struct attribute_group iscsi_transport_group = { .attrs = iscsi_transport_attrs, }; +#if 0 /* * iSCSI endpoint attrs */ @@ -236,9 +238,10 @@ struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle) return ep; } EXPORT_SYMBOL_GPL(iscsi_lookup_endpoint); +#endif static int iscsi_setup_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -257,7 +260,7 @@ static int iscsi_setup_host(struct transport_container *tc, struct device *dev, } static int iscsi_remove_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -497,10 +500,9 @@ static int iscsi_user_scan(struct Scsi_Host *shost, uint channel, iscsi_user_scan_session); } -static void iscsi_scan_session(struct work_struct *work) +static void iscsi_scan_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, scan_work); + struct iscsi_cls_session *session = data; struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; struct iscsi_scan_data scan_data; @@ -513,11 +515,9 @@ static void iscsi_scan_session(struct work_struct *work) atomic_dec(&ihost->nr_scans); } -static void session_recovery_timedout(struct work_struct *work) +static void session_recovery_timedout(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - recovery_work.work); + struct iscsi_cls_session *session = data; unsigned long flags; iscsi_cls_session_printk(KERN_INFO, session, @@ -543,11 +543,9 @@ static void session_recovery_timedout(struct work_struct *work) scsi_target_unblock(&session->dev); } -static void __iscsi_unblock_session(struct work_struct *work) +static void __iscsi_unblock_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - unblock_work); + struct iscsi_cls_session *session = data; struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; unsigned long flags; @@ -567,10 +565,12 @@ static void __iscsi_unblock_session(struct work_struct *work) * the async scanning code (drivers like iscsi_tcp do login and * scanning from userspace). */ +#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,19) if (shost->hostt->scan_finished) { if (queue_work(ihost->scan_workq, &session->scan_work)) atomic_inc(&ihost->nr_scans); } +#endif } /** @@ -590,11 +590,9 @@ void iscsi_unblock_session(struct iscsi_cls_session *session) } EXPORT_SYMBOL_GPL(iscsi_unblock_session); -static void __iscsi_block_session(struct work_struct *work) +static void __iscsi_block_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - block_work); + struct iscsi_cls_session *session = data; unsigned long flags; spin_lock_irqsave(&session->lock, flags); @@ -611,11 +609,9 @@ void iscsi_block_session(struct iscsi_cls_session *session) } EXPORT_SYMBOL_GPL(iscsi_block_session); -static void __iscsi_unbind_session(struct work_struct *work) +static void __iscsi_unbind_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - unbind_work); + struct iscsi_cls_session *session = data; struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; unsigned long flags; @@ -658,12 +654,12 @@ iscsi_alloc_session(struct Scsi_Host *shost, struct iscsi_transport *transport, session->transport = transport; session->recovery_tmo = 120; session->state = ISCSI_SESSION_FREE; - INIT_DELAYED_WORK(&session->recovery_work, session_recovery_timedout); + INIT_WORK(&session->recovery_work, session_recovery_timedout, session); INIT_LIST_HEAD(&session->sess_list); - INIT_WORK(&session->unblock_work, __iscsi_unblock_session); - INIT_WORK(&session->block_work, __iscsi_block_session); - INIT_WORK(&session->unbind_work, __iscsi_unbind_session); - INIT_WORK(&session->scan_work, iscsi_scan_session); + INIT_WORK(&session->unblock_work, __iscsi_unblock_session, session); + INIT_WORK(&session->block_work, __iscsi_block_session, session); + INIT_WORK(&session->unbind_work, __iscsi_unbind_session, session); + INIT_WORK(&session->scan_work, iscsi_scan_session, session); spin_lock_init(&session->lock); /* this is released in the dev's release function */ @@ -723,7 +719,8 @@ int iscsi_add_session(struct iscsi_cls_session *session, unsigned int target_id) } session->target_id = id; - dev_set_name(&session->dev, "session%u", session->sid); + snprintf(session->dev.bus_id, BUS_ID_SIZE, "session%u", + session->sid); err = device_add(&session->dev); if (err) { iscsi_cls_session_printk(KERN_ERR, session, @@ -822,7 +819,7 @@ void iscsi_remove_session(struct iscsi_cls_session *session) scsi_target_unblock(&session->dev); /* flush running scans then delete devices */ flush_workqueue(ihost->scan_workq); - __iscsi_unbind_session(&session->unbind_work); + __iscsi_unbind_session(session); /* hw iscsi may not have removed all connections from session */ err = device_for_each_child(&session->dev, NULL, @@ -896,7 +893,8 @@ iscsi_create_conn(struct iscsi_cls_session *session, int dd_size, uint32_t cid) if (!get_device(&session->dev)) goto free_conn; - dev_set_name(&conn->dev, "connection%d:%u", session->sid, cid); + snprintf(conn->dev.bus_id, BUS_ID_SIZE, "connection%d:%u", + session->sid, cid); conn->dev.parent = &session->dev; conn->dev.release = iscsi_conn_release; err = device_register(&conn->dev); @@ -1305,6 +1303,8 @@ static int iscsi_if_transport_ep(struct iscsi_transport *transport, struct iscsi_uevent *ev, int msg_type) { + return -ENOSYS; +#if 0 struct iscsi_endpoint *ep; struct sockaddr *dst_addr; int rc = 0; @@ -1345,6 +1345,8 @@ iscsi_if_transport_ep(struct iscsi_transport *transport, break; } return rc; + +#endif } static int @@ -1426,6 +1428,9 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) ev->u.c_session.queue_depth); break; case ISCSI_UEVENT_CREATE_BOUND_SESSION: + err = -ENOSYS; + break; +#if 0 ep = iscsi_lookup_endpoint(ev->u.c_bound_session.ep_handle); if (!ep) { err = -EINVAL; @@ -1437,6 +1442,7 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) ev->u.c_bound_session.cmds_max, ev->u.c_bound_session.queue_depth); break; +#endif case ISCSI_UEVENT_DESTROY_SESSION: session = iscsi_session_lookup(ev->u.d_session.sid); if (session) @@ -1519,55 +1525,70 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) } /* - * Get message from skb. Each message is processed by iscsi_if_recv_msg. - * Malformed skbs with wrong lengths or invalid creds are not processed. + * Get message from skb (based on rtnetlink_rcv_skb). Each message is + * processed by iscsi_if_recv_msg. Malformed skbs with wrong lengths or + * invalid creds are discarded silently. */ static void -iscsi_if_rx(struct sk_buff *skb) +iscsi_if_rx(struct sock *sk, int len) { + struct sk_buff *skb; + mutex_lock(&rx_queue_mutex); - while (skb->len >= NLMSG_SPACE(0)) { - int err; - uint32_t rlen; - struct nlmsghdr *nlh; - struct iscsi_uevent *ev; - - nlh = nlmsg_hdr(skb); - if (nlh->nlmsg_len < sizeof(*nlh) || - skb->len < nlh->nlmsg_len) { - break; + while ((skb = skb_dequeue(&sk->sk_receive_queue)) != NULL) { + if (NETLINK_CREDS(skb)->uid) { + skb_pull(skb, skb->len); + goto free_skb; } - ev = NLMSG_DATA(nlh); - rlen = NLMSG_ALIGN(nlh->nlmsg_len); - if (rlen > skb->len) - rlen = skb->len; + while (skb->len >= NLMSG_SPACE(0)) { + int err; + uint32_t rlen; + struct nlmsghdr *nlh; + struct iscsi_uevent *ev; - err = iscsi_if_recv_msg(skb, nlh); - if (err) { - ev->type = ISCSI_KEVENT_IF_ERROR; - ev->iferror = err; - } - do { - /* - * special case for GET_STATS: - * on success - sending reply and stats from - * inside of if_recv_msg(), - * on error - fall through. - */ - if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + nlh = nlmsg_hdr(skb); + if (nlh->nlmsg_len < sizeof(*nlh) || + skb->len < nlh->nlmsg_len) { break; - err = iscsi_if_send_reply( - NETLINK_CREDS(skb)->pid, nlh->nlmsg_seq, - nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); - } while (err < 0 && err != -ECONNREFUSED); - skb_pull(skb, rlen); + } + + ev = NLMSG_DATA(nlh); + rlen = NLMSG_ALIGN(nlh->nlmsg_len); + if (rlen > skb->len) + rlen = skb->len; + + err = iscsi_if_recv_msg(skb, nlh); + if (err) { + ev->type = ISCSI_KEVENT_IF_ERROR; + ev->iferror = err; + } + do { + /* + * special case for GET_STATS: + * on success - sending reply and stats from + * inside of if_recv_msg(), + * on error - fall through. + */ + if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + break; + err = iscsi_if_send_reply( + NETLINK_CREDS(skb)->pid, nlh->nlmsg_seq, + nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); + } while (err < 0 && err != -ECONNREFUSED); + skb_pull(skb, rlen); + } +free_skb: + kfree_skb(skb); } mutex_unlock(&rx_queue_mutex); } +#define iscsi_cdev_to_conn(_cdev) \ + iscsi_dev_to_conn(_cdev->dev) + #define ISCSI_CLASS_ATTR(_prefix,_name,_mode,_show,_store) \ -struct device_attribute dev_attr_##_prefix##_##_name = \ +struct class_device_attribute class_device_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) /* @@ -1575,10 +1596,9 @@ struct device_attribute dev_attr_##_prefix##_##_name = \ */ #define iscsi_conn_attr_show(param) \ static ssize_t \ -show_conn_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_conn_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_conn *conn = iscsi_dev_to_conn(dev->parent); \ + struct iscsi_cls_conn *conn = iscsi_cdev_to_conn(cdev); \ struct iscsi_transport *t = conn->transport; \ return t->get_conn_param(conn, param, buf); \ } @@ -1602,16 +1622,17 @@ iscsi_conn_attr(address, ISCSI_PARAM_CONN_ADDRESS); iscsi_conn_attr(ping_tmo, ISCSI_PARAM_PING_TMO); iscsi_conn_attr(recv_tmo, ISCSI_PARAM_RECV_TMO); +#define iscsi_cdev_to_session(_cdev) \ + iscsi_dev_to_session(_cdev->dev) + /* * iSCSI session attrs */ #define iscsi_session_attr_show(param, perm) \ static ssize_t \ -show_session_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_session_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); \ struct iscsi_transport *t = session->transport; \ \ if (perm && !capable(CAP_SYS_ADMIN)) \ @@ -1645,10 +1666,9 @@ iscsi_session_attr(ifacename, ISCSI_PARAM_IFACE_NAME, 0); iscsi_session_attr(initiatorname, ISCSI_PARAM_INITIATOR_NAME, 0) static ssize_t -show_priv_session_state(struct device *dev, struct device_attribute *attr, - char *buf) +show_priv_session_state(struct class_device *cdev, char *buf) { - struct iscsi_cls_session *session = iscsi_dev_to_session(dev->parent); + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); return sprintf(buf, "%s\n", iscsi_session_state_name(session->state)); } static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, @@ -1656,11 +1676,9 @@ static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, #define iscsi_priv_session_attr_show(field, format) \ static ssize_t \ -show_priv_session_##field(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_priv_session_##field(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev);\ return sprintf(buf, format"\n", session->field); \ } @@ -1675,10 +1693,9 @@ iscsi_priv_session_attr(recovery_tmo, "%d"); */ #define iscsi_host_attr_show(param) \ static ssize_t \ -show_host_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_host_param_##param(struct class_device *cdev, char *buf) \ { \ - struct Scsi_Host *shost = transport_class_to_shost(dev); \ + struct Scsi_Host *shost = transport_class_to_shost(cdev); \ struct iscsi_internal *priv = to_iscsi_internal(shost->transportt); \ return priv->iscsi_transport->get_host_param(shost, param, buf); \ } @@ -1695,7 +1712,7 @@ iscsi_host_attr(initiatorname, ISCSI_HOST_PARAM_INITIATOR_NAME); #define SETUP_PRIV_SESSION_RD_ATTR(field) \ do { \ - priv->session_attrs[count] = &dev_attr_priv_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_priv_sess_##field; \ count++; \ } while (0) @@ -1703,7 +1720,7 @@ do { \ #define SETUP_SESSION_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->session_attrs[count] = &dev_attr_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_sess_##field; \ count++; \ } \ } while (0) @@ -1711,7 +1728,7 @@ do { \ #define SETUP_CONN_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->conn_attrs[count] = &dev_attr_conn_##field; \ + priv->conn_attrs[count] = &class_device_attr_conn_##field; \ count++; \ } \ } while (0) @@ -1719,7 +1736,7 @@ do { \ #define SETUP_HOST_RD_ATTR(field, param_flag) \ do { \ if (tt->host_param_mask & param_flag) { \ - priv->host_attrs[count] = &dev_attr_host_##field; \ + priv->host_attrs[count] = &class_device_attr_host_##field; \ count++; \ } \ } while (0) @@ -1808,19 +1825,21 @@ iscsi_register_transport(struct iscsi_transport *tt) INIT_LIST_HEAD(&priv->list); priv->daemon_pid = -1; priv->iscsi_transport = tt; +#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,16) priv->t.user_scan = iscsi_user_scan; +#endif if (!(tt->caps & CAP_DATA_PATH_OFFLOAD)) priv->t.create_work_queue = 1; - priv->dev.class = &iscsi_transport_class; - dev_set_name(&priv->dev, "%s", tt->name); - err = device_register(&priv->dev); + priv->cdev.class = &iscsi_transport_class; + snprintf(priv->cdev.class_id, BUS_ID_SIZE, "%s", tt->name); + err = class_device_register(&priv->cdev); if (err) goto free_priv; - err = sysfs_create_group(&priv->dev.kobj, &iscsi_transport_group); + err = sysfs_create_group(&priv->cdev.kobj, &iscsi_transport_group); if (err) - goto unregister_dev; + goto unregister_cdev; /* host parameters */ priv->t.host_attrs.ac.attrs = &priv->host_attrs[0]; @@ -1899,9 +1918,8 @@ iscsi_register_transport(struct iscsi_transport *tt) printk(KERN_NOTICE "iscsi: registered transport (%s)\n", tt->name); return &priv->t; -unregister_dev: - device_unregister(&priv->dev); - return NULL; +unregister_cdev: + class_device_unregister(&priv->cdev); free_priv: kfree(priv); return NULL; @@ -1928,8 +1946,8 @@ int iscsi_unregister_transport(struct iscsi_transport *tt) transport_container_unregister(&priv->session_cont); transport_container_unregister(&priv->t.host_attrs); - sysfs_remove_group(&priv->dev.kobj, &iscsi_transport_group); - device_unregister(&priv->dev); + sysfs_remove_group(&priv->cdev.kobj, &iscsi_transport_group); + class_device_unregister(&priv->cdev); mutex_unlock(&rx_queue_mutex); return 0; @@ -1949,13 +1967,14 @@ static __init int iscsi_transport_init(void) if (err) return err; +#if 0 err = class_register(&iscsi_endpoint_class); if (err) goto unregister_transport_class; - +#endif err = transport_class_register(&iscsi_host_class); if (err) - goto unregister_endpoint_class; + goto unregister_transport_class; err = transport_class_register(&iscsi_connection_class); if (err) @@ -1986,8 +2005,10 @@ unregister_conn_class: transport_class_unregister(&iscsi_connection_class); unregister_host_class: transport_class_unregister(&iscsi_host_class); +#if 0 unregister_endpoint_class: class_unregister(&iscsi_endpoint_class); +#endif unregister_transport_class: class_unregister(&iscsi_transport_class); return err; @@ -2000,7 +2021,9 @@ static void __exit iscsi_transport_exit(void) transport_class_unregister(&iscsi_connection_class); transport_class_unregister(&iscsi_session_class); transport_class_unregister(&iscsi_host_class); +#if 0 class_unregister(&iscsi_endpoint_class); +#endif class_unregister(&iscsi_transport_class); } diff --git a/scsi_transport_iscsi.h b/scsi_transport_iscsi.h index 27d067a..6fa17f6 100644 --- a/scsi_transport_iscsi.h +++ b/scsi_transport_iscsi.h @@ -25,9 +25,14 @@ #include #include +#include +#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,16) #include +#endif #include "iscsi_if.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct iscsi_transport; struct iscsi_endpoint; @@ -184,7 +189,7 @@ struct iscsi_cls_session { /* recovery fields */ int recovery_tmo; - struct delayed_work recovery_work; + struct work_struct recovery_work; unsigned int target_id; -- 1.5.6.6 open-iscsi-2.0.874/kernel/2.6.14-23_compat.patch000066400000000000000000001277561277325716400206230ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 2a401b9..13636d4 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -43,6 +43,7 @@ #include #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " @@ -480,10 +481,9 @@ static int iscsi_sw_tcp_pdu_init(struct iscsi_task *task, if (!task->sc) iscsi_sw_tcp_send_linear_data_prep(conn, task->data, count); else { - struct scsi_data_buffer *sdb = scsi_out(task->sc); - err = iscsi_sw_tcp_send_data_prep(conn, sdb->table.sgl, - sdb->table.nents, offset, + err = iscsi_sw_tcp_send_data_prep(conn, scsi_sglist(task->sc), + scsi_sg_count(task->sc), offset, count); } @@ -860,12 +860,6 @@ static void iscsi_sw_tcp_session_destroy(struct iscsi_cls_session *cls_session) iscsi_host_free(shost); } -static int iscsi_sw_tcp_slave_alloc(struct scsi_device *sdev) -{ - set_bit(QUEUE_FLAG_BIDI, &sdev->request_queue->queue_flags); - return 0; -} - static int iscsi_sw_tcp_slave_configure(struct scsi_device *sdev) { blk_queue_bounce_limit(sdev->request_queue, BLK_BOUNCE_ANY); @@ -883,10 +877,9 @@ static struct scsi_host_template iscsi_sw_tcp_sht = { .max_sectors = 0xFFFF, .cmd_per_lun = ISCSI_DEF_CMD_PER_LUN, .eh_abort_handler = iscsi_eh_abort, + .eh_host_reset_handler = iscsi_eh_recover_target, .eh_device_reset_handler= iscsi_eh_device_reset, - .eh_target_reset_handler = iscsi_eh_recover_target, .use_clustering = DISABLE_CLUSTERING, - .slave_alloc = iscsi_sw_tcp_slave_alloc, .slave_configure = iscsi_sw_tcp_slave_configure, .target_alloc = iscsi_target_alloc, .proc_name = "iscsi_tcp", diff --git a/libiscsi.c b/libiscsi.c index 59e3a5f..ee9716e 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -24,7 +24,10 @@ #include #include #include +#include +#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,19) #include +#endif #include #include #include @@ -39,6 +42,8 @@ #include "scsi_transport_iscsi.h" #include "libiscsi.h" +#include "open_iscsi_compat.h" + static int iscsi_dbg_lib_conn; module_param_named(debug_libiscsi_conn, iscsi_dbg_lib_conn, int, S_IRUGO | S_IWUSR); @@ -256,7 +261,7 @@ static int iscsi_prep_bidi_ahs(struct iscsi_task *task) sizeof(rlen_ahdr->reserved)); rlen_ahdr->ahstype = ISCSI_AHSTYPE_RLENGTH; rlen_ahdr->reserved = 0; - rlen_ahdr->read_length = cpu_to_be32(scsi_in(sc)->length); + rlen_ahdr->read_length = cpu_to_be32(scsi_bufflen(sc)); ISCSI_DBG_SESSION(task->conn->session, "bidi-in rlen_ahdr->read_length(%d) " @@ -411,7 +416,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) return rc; } if (sc->sc_data_direction == DMA_TO_DEVICE) { - unsigned out_len = scsi_out(sc)->length; + unsigned out_len = scsi_bufflen(sc); struct iscsi_r2t_info *r2t = &task->unsol_r2t; hdr->data_length = cpu_to_be32(out_len); @@ -457,7 +462,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) } else { hdr->flags |= ISCSI_FLAG_CMD_FINAL; zero_data(hdr->dlength); - hdr->data_length = cpu_to_be32(scsi_in(sc)->length); + hdr->data_length = cpu_to_be32(scsi_bufflen(sc)); if (sc->sc_data_direction == DMA_FROM_DEVICE) hdr->flags |= ISCSI_FLAG_CMD_READ; @@ -486,7 +491,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) sc->sc_data_direction == DMA_TO_DEVICE ? "write" : "read", conn->id, sc, sc->cmnd[0], task->itt, scsi_bufflen(sc), - scsi_bidi_cmnd(sc) ? scsi_in(sc)->length : 0, + scsi_bidi_cmnd(sc) ? scsi_bufflen(sc) : 0, session->cmdsn, session->max_cmdsn - session->exp_cmdsn + 1); return 0; @@ -518,7 +523,7 @@ static void iscsi_free_task(struct iscsi_task *task) if (conn->login_task == task) return; - kfifo_in(&session->cmdpool.queue, (void*)&task, sizeof(void*)); + __kfifo_put(session->cmdpool.queue, (void*)&task, sizeof(void*)); if (sc) { task->sc = NULL; @@ -648,12 +653,7 @@ static void fail_scsi_task(struct iscsi_task *task, int err) state = ISCSI_TASK_ABRT_TMF; sc->result = err << 16; - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); iscsi_complete_task(task, state); } @@ -738,7 +738,7 @@ __iscsi_conn_send_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, BUG_ON(conn->c_stage == ISCSI_CONN_INITIAL_STAGE); BUG_ON(conn->c_stage == ISCSI_CONN_STOPPED); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&task, sizeof(void*))) return NULL; } @@ -853,7 +853,7 @@ invalid_datalen: goto out; } - senselen = get_unaligned_be16(data); + senselen = be16_to_cpu(get_unaligned((__be16 *) data)); if (datalen < senselen) goto invalid_datalen; @@ -870,8 +870,8 @@ invalid_datalen: if (scsi_bidi_cmnd(sc) && res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_BIDI_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -920,8 +920,8 @@ iscsi_data_in_rsp(struct iscsi_conn *conn, struct iscsi_hdr *hdr, if (res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -1568,7 +1568,7 @@ static inline struct iscsi_task *iscsi_alloc_task(struct iscsi_conn *conn, { struct iscsi_task *task; - if (!kfifo_out(&conn->session->cmdpool.queue, + if (!__kfifo_get(conn->session->cmdpool.queue, (void *) &task, sizeof(void *))) return NULL; @@ -1717,7 +1717,11 @@ reject: ISCSI_DBG_SESSION(session, "cmd 0x%x rejected (%d)\n", sc->cmnd[0], reason); spin_lock(host->host_lock); +#if (defined RHELC1) || (defined SLEC1) + return SCSI_MLQUEUE_DEVICE_BUSY; +#else return SCSI_MLQUEUE_TARGET_BUSY; +#endif prepd_fault: sc->scsi_done = NULL; @@ -1726,33 +1730,16 @@ fault: spin_unlock(&session->lock); ISCSI_DBG_SESSION(session, "iscsi: cmd 0x%x is not queued (%d)\n", sc->cmnd[0], reason); - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); done(sc); spin_lock(host->host_lock); return 0; } EXPORT_SYMBOL_GPL(iscsi_queuecommand); -int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, int reason) +int iscsi_change_queue_depth(struct scsi_device *sdev, int depth) { - switch (reason) { - case SCSI_QDEPTH_DEFAULT: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - case SCSI_QDEPTH_QFULL: - scsi_track_queue_full(sdev, depth); - break; - case SCSI_QDEPTH_RAMP_UP: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - default: - return -EOPNOTSUPP; - } + scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); return sdev->queue_depth; } EXPORT_SYMBOL_GPL(iscsi_change_queue_depth); @@ -2524,7 +2511,12 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) if (q->pool == NULL) return -ENOMEM; - kfifo_init(&q->queue, (void*)q->pool, max * sizeof(void*)); + q->queue = kfifo_init((void*)q->pool, max * sizeof(void*), + GFP_KERNEL, NULL); + if (IS_ERR(q->queue)) { + q->queue = NULL; + goto enomem; + } for (i = 0; i < max; i++) { q->pool[i] = kzalloc(item_size, GFP_KERNEL); @@ -2532,7 +2524,7 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) q->max = i; goto enomem; } - kfifo_in(&q->queue, (void*)&q->pool[i], sizeof(void*)); + __kfifo_put(q->queue, (void*)&q->pool[i], sizeof(void*)); } if (items) { @@ -2555,6 +2547,7 @@ void iscsi_pool_free(struct iscsi_pool *q) for (i = 0; i < q->max; i++) kfree(q->pool[i]); kfree(q->pool); + kfree(q->queue); } EXPORT_SYMBOL_GPL(iscsi_pool_free); @@ -2882,7 +2875,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*))) { spin_unlock_bh(&session->lock); @@ -2902,7 +2895,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, return cls_conn; login_task_data_alloc_fail: - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); login_task_alloc_fail: iscsi_destroy_conn(cls_conn); @@ -2965,7 +2958,7 @@ void iscsi_conn_teardown(struct iscsi_cls_conn *cls_conn) free_pages((unsigned long) conn->data, get_order(ISCSI_DEF_MAX_RECV_SEG_LEN)); kfree(conn->persistent_address); - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); if (session->leadconn == conn) session->leadconn = NULL; diff --git a/libiscsi.h b/libiscsi.h index 0563539..4be9333 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -231,7 +231,7 @@ struct iscsi_conn { }; struct iscsi_pool { - struct kfifo queue; /* FIFO Queue */ + struct kfifo *queue; /* FIFO Queue */ void **pool; /* Pool of elements */ int max; /* Max number of elements */ }; @@ -334,8 +334,7 @@ struct iscsi_host { /* * scsi host template */ -extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, - int reason); +extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth); extern int iscsi_eh_abort(struct scsi_cmnd *sc); extern int iscsi_eh_recover_target(struct scsi_cmnd *sc); extern int iscsi_eh_session_reset(struct scsi_cmnd *sc); diff --git a/libiscsi_tcp.c b/libiscsi_tcp.c index 1122de4..c590df2 100644 --- a/libiscsi_tcp.c +++ b/libiscsi_tcp.c @@ -361,6 +361,17 @@ iscsi_segment_seek_sg(struct iscsi_segment *segment, struct scatterlist *sg; unsigned int i; + /* + * older kernels could send use_sg=0 for commands like sgio + * or scsi-ml commands. + */ + + if (!sg_count) { + iscsi_segment_init_linear(segment, (void *)sg_list + offset, + size, done, hash); + return 0; + } + __iscsi_segment_init(segment, size, done, hash); for_each_sg(sg_list, sg, sg_count, i) { if (offset < sg->length) { @@ -446,15 +457,15 @@ void iscsi_tcp_cleanup_task(struct iscsi_task *task) return; /* flush task's r2t queues */ - while (kfifo_out(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + while (__kfifo_get(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); ISCSI_DBG_TCP(task->conn, "pending r2t dropped\n"); } r2t = tcp_task->r2t; if (r2t != NULL) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); tcp_task->r2t = NULL; } @@ -472,7 +483,7 @@ static int iscsi_tcp_data_in(struct iscsi_conn *conn, struct iscsi_task *task) struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_data_rsp *rhdr = (struct iscsi_data_rsp *)tcp_conn->in.hdr; int datasn = be32_to_cpu(rhdr->datasn); - unsigned total_in_length = scsi_in(task->sc)->length; + unsigned total_in_length = scsi_bufflen(task->sc); /* * lib iscsi will update this in the completion handling if there @@ -542,7 +553,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) return 0; } - rc = kfifo_out(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); + rc = __kfifo_get(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); if (!rc) { iscsi_conn_printk(KERN_ERR, conn, "Could not allocate R2T. " "Target has sent more R2Ts than it " @@ -555,7 +566,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) if (r2t->data_length == 0) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with zero data len\n"); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -566,12 +577,12 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->data_length, session->max_burst); r2t->data_offset = be32_to_cpu(rhdr->data_offset); - if (r2t->data_offset + r2t->data_length > scsi_out(task->sc)->length) { + if (r2t->data_offset + r2t->data_length > scsi_bufflen(task->sc)) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, - r2t->data_offset, scsi_out(task->sc)->length); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + r2t->data_offset, scsi_bufflen(task->sc)); + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -581,7 +592,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->sent = 0; tcp_task->exp_datasn = r2tsn + 1; - kfifo_in(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); + __kfifo_put(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); conn->r2t_pdus_cnt++; iscsi_requeue_task(task); @@ -669,7 +680,6 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) if (tcp_conn->in.datalen) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct hash_desc *rx_hash = NULL; - struct scsi_data_buffer *sdb = scsi_in(task->sc); /* * Setup copy of Data-In into the Scsi_Cmnd @@ -689,8 +699,8 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) tcp_conn->in.datalen); task->last_xfer = jiffies; rc = iscsi_segment_seek_sg(&tcp_conn->in.segment, - sdb->table.sgl, - sdb->table.nents, + scsi_sglist(task->sc), + scsi_sg_count(task->sc), tcp_task->data_offset, tcp_conn->in.datalen, iscsi_tcp_process_data_in, @@ -952,7 +962,7 @@ int iscsi_tcp_task_init(struct iscsi_task *task) return conn->session->tt->init_pdu(task, 0, task->data_count); } - BUG_ON(kfifo_len(&tcp_task->r2tqueue)); + BUG_ON(__kfifo_len(tcp_task->r2tqueue)); tcp_task->exp_datasn = 0; /* Prepare PDU, optionally w/ immediate data */ @@ -983,7 +993,7 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) if (r2t->data_length <= r2t->sent) { ISCSI_DBG_TCP(task->conn, " done with r2t %p\n", r2t); - kfifo_in(&tcp_task->r2tpool.queue, + __kfifo_put(tcp_task->r2tpool.queue, (void *)&tcp_task->r2t, sizeof(void *)); tcp_task->r2t = r2t = NULL; @@ -991,12 +1001,9 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) } if (r2t == NULL) { - if (kfifo_out(&tcp_task->r2tqueue, - (void *)&tcp_task->r2t, sizeof(void *)) != - sizeof(void *)) - r2t = NULL; - else - r2t = tcp_task->r2t; + __kfifo_get(tcp_task->r2tqueue, + (void *)&tcp_task->r2t, sizeof(void *)); + r2t = tcp_task->r2t; } spin_unlock_bh(&session->lock); } @@ -1131,8 +1138,9 @@ int iscsi_tcp_r2tpool_alloc(struct iscsi_session *session) } /* R2T xmit queue */ - if (kfifo_alloc(&tcp_task->r2tqueue, - session->max_r2t * 4 * sizeof(void*), GFP_KERNEL)) { + tcp_task->r2tqueue = kfifo_alloc( + session->max_r2t * 4 * sizeof(void*), GFP_KERNEL, NULL); + if (tcp_task->r2tqueue == ERR_PTR(-ENOMEM)) { iscsi_pool_free(&tcp_task->r2tpool); goto r2t_alloc_fail; } @@ -1145,7 +1153,7 @@ r2t_alloc_fail: struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } return -ENOMEM; @@ -1160,7 +1168,7 @@ void iscsi_tcp_r2tpool_free(struct iscsi_session *session) struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } } diff --git a/libiscsi_tcp.h b/libiscsi_tcp.h index c020eee..3bacef5 100644 --- a/libiscsi_tcp.h +++ b/libiscsi_tcp.h @@ -80,7 +80,7 @@ struct iscsi_tcp_task { int data_offset; struct iscsi_r2t_info *r2t; /* in progress solict R2T */ struct iscsi_pool r2tpool; - struct kfifo r2tqueue; + struct kfifo *r2tqueue; void *dd_data; }; diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..e6511d3 --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,399 @@ +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#include +#include +#include +#include +#include + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#ifdef RHEL_RELEASE_CODE +#if (RHEL_RELEASE_CODE < RHEL_RELEASE_VERSION(6, 0)) +#define RHELC1 1 +#endif +#endif + +#ifdef SLE_VERSION_CODE +#if (SLE_VERSION_CODE < SLE_VERSION(11, 0, 0)) +#define SLEC1 1 +#endif +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,19) +struct delayed_work { + struct work_struct work; +}; + +#define cancel_delayed_work(_dwork) cancel_delayed_work(&(_dwork)->work) +#define INIT_DELAYED_WORK(_work,_func) INIT_WORK(&(_work)->work, _func) + +static inline void INIT_WORK_compat(struct work_struct *work, void *func) +{ + INIT_WORK(work, func, work); +} + +#undef INIT_WORK +#define INIT_WORK(_work, _func) INIT_WORK_compat(_work, _func) +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) +#ifdef RHEL_RELEASE_CODE && \ + RHEL_RELEASE_CODE != RHEL_RELEASE_VERSION(4,8) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#if !defined SLEC1 +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} +#endif +#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19)) \ + && !(defined RHELC1) +static inline int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +static inline int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} +#endif +#endif + +#ifndef bool +#define bool int +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) +#ifdef RHEL_RELEASE_VERSION +#if RHEL_RELEASE_CODE < RHEL_RELEASE_VERSION(5,2) && \ + RHEL_RELEASE_CODE != RHEL_RELEASE_VERSION(4,8) +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif +#else +/* not a redhat kernel */ +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) +#ifdef RHEL_RELEASE_VERSION +#if RHEL_RELEASE_CODE < RHEL_RELEASE_VERSION(5,2) +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} +#endif +#else +/* not a redhat kernel */ +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} +#endif + +#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22)) && \ + !defined(SLEC1) +/** + * scsilun_to_int: convert a scsi_lun to an int + * @scsilun: struct scsi_lun to be converted. + * + * Description: + * Convert @scsilun from a struct scsi_lun to a four byte host byte-ordered + * integer, and return the result. The caller must check for + * truncation before using this function. + * + * Notes: + * The struct scsi_lun is assumed to be four levels, with each level + * effectively containing a SCSI byte-ordered (big endian) short; the + * addressing bits of each level are ignored (the highest two bits). + * For a description of the LUN format, post SCSI-3 see the SCSI + * Architecture Model, for SCSI-3 see the SCSI Controller Commands. + * + * Given a struct scsi_lun of: 0a 04 0b 03 00 00 00 00, this function returns + * the integer: 0x0b030a04 + **/ +static inline int scsilun_to_int(struct scsi_lun *scsilun) +{ + int i; + unsigned int lun; + + lun = 0; + for (i = 0; i < sizeof(lun); i += 2) + lun = lun | (((scsilun->scsi_lun[i] << 8) | + scsilun->scsi_lun[i + 1]) << (i * 8)); + return lun; +} +#endif + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +#ifdef RHEL_RELEASE_VERSION +#if RHEL_RELEASE_CODE < RHEL_RELEASE_VERSION(5,2) +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} +#endif +#else +/* not a redhat kernel */ +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} +#endif + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#ifdef SLE_VERSION_CODE +#if SLE_VERSION_CODE == SLE_VERSION(10,2,0) + +static inline unsigned fls_long(unsigned long l) +{ + if (sizeof(l) == 4) + return fls(l); + return fls64(l); +} + +#endif +#endif + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + +#ifndef SCSI_MAX_VARLEN_CDB_SIZE +#define SCSI_MAX_VARLEN_CDB_SIZE 16 +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,34) + +static inline wait_queue_head_t *sk_sleep(struct sock *sk) +{ + return sk->sk_sleep; +} + +#endif + +#endif diff --git a/scsi_transport_iscsi.c b/scsi_transport_iscsi.c index fed8c9e..362bd4d 100644 --- a/scsi_transport_iscsi.c +++ b/scsi_transport_iscsi.c @@ -73,13 +73,13 @@ struct iscsi_internal { struct scsi_transport_template t; struct iscsi_transport *iscsi_transport; struct list_head list; - struct device dev; + struct class_device cdev; - struct device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; + struct class_device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; struct transport_container conn_cont; - struct device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; + struct class_device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; struct transport_container session_cont; - struct device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; + struct class_device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; }; static atomic_t iscsi_session_nr; /* sysfs session id for next new session */ @@ -96,12 +96,12 @@ static DEFINE_SPINLOCK(iscsi_transport_lock); #define to_iscsi_internal(tmpl) \ container_of(tmpl, struct iscsi_internal, t) -#define dev_to_iscsi_internal(_dev) \ - container_of(_dev, struct iscsi_internal, dev) +#define cdev_to_iscsi_internal(_cdev) \ + container_of(_cdev, struct iscsi_internal, cdev) -static void iscsi_transport_release(struct device *dev) +static void iscsi_transport_release(struct class_device *cdev) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); kfree(priv); } @@ -111,33 +111,31 @@ static void iscsi_transport_release(struct device *dev) */ static struct class iscsi_transport_class = { .name = "iscsi_transport", - .dev_release = iscsi_transport_release, + .release = iscsi_transport_release, }; static ssize_t -show_transport_handle(struct device *dev, struct device_attribute *attr, - char *buf) +show_transport_handle(struct class_device *cdev, char *buf) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); return sprintf(buf, "%llu\n", (unsigned long long)iscsi_handle(priv->iscsi_transport)); } -static DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); +static CLASS_DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); #define show_transport_attr(name, format) \ static ssize_t \ -show_transport_##name(struct device *dev, \ - struct device_attribute *attr,char *buf) \ +show_transport_##name(struct class_device *cdev, char *buf) \ { \ - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); \ + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); \ return sprintf(buf, format"\n", priv->iscsi_transport->name); \ } \ -static DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); +static CLASS_DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); show_transport_attr(caps, "0x%x"); static struct attribute *iscsi_transport_attrs[] = { - &dev_attr_handle.attr, - &dev_attr_caps.attr, + &class_device_attr_handle.attr, + &class_device_attr_caps.attr, NULL, }; @@ -155,27 +153,28 @@ static struct attribute_group iscsi_transport_group = { struct device_attribute dev_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) -static void iscsi_endpoint_release(struct device *dev) +static void iscsi_endpoint_release(struct class_device *cdev) { - struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(dev); + struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(cdev); kfree(ep); } static struct class iscsi_endpoint_class = { .name = "iscsi_endpoint", - .dev_release = iscsi_endpoint_release, + .release = iscsi_endpoint_release, }; static ssize_t -show_ep_handle(struct device *dev, struct device_attribute *attr, char *buf) +show_ep_handle(struct class_device *cdev, char *buf) { - struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(dev); + struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(cdev); return sprintf(buf, "%llu\n", (unsigned long long) ep->id); } -static ISCSI_ATTR(ep, handle, S_IRUGO, show_ep_handle, NULL); +static struct class_device_attribute class_device_attr_ep_handle = + __ATTR(handle, S_IRUGO, show_ep_handle, NULL); static struct attribute *iscsi_endpoint_attrs[] = { - &dev_attr_ep_handle.attr, + &class_device_attr_ep_handle.attr, NULL, }; @@ -185,26 +184,15 @@ static struct attribute_group iscsi_endpoint_group = { #define ISCSI_MAX_EPID -1 -static int iscsi_match_epid(struct device *dev, void *data) -{ - struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(dev); - uint64_t *epid = (uint64_t *) data; - - return *epid == ep->id; -} - struct iscsi_endpoint * iscsi_create_endpoint(int dd_size) { - struct device *dev; struct iscsi_endpoint *ep; uint64_t id; int err; for (id = 1; id < ISCSI_MAX_EPID; id++) { - dev = class_find_device(&iscsi_endpoint_class, NULL, &id, - iscsi_match_epid); - if (!dev) + if (!iscsi_lookup_endpoint(id)) break; } if (id == ISCSI_MAX_EPID) { @@ -219,8 +207,9 @@ iscsi_create_endpoint(int dd_size) ep->id = id; ep->dev.class = &iscsi_endpoint_class; - dev_set_name(&ep->dev, "ep-%llu", (unsigned long long) id); - err = device_register(&ep->dev); + snprintf(ep->dev.class_id, BUS_ID_SIZE, "ep-%llu", + (unsigned long long) id); + err = class_device_register(&ep->dev); if (err) goto free_ep; @@ -233,7 +222,7 @@ iscsi_create_endpoint(int dd_size) return ep; unregister_dev: - device_unregister(&ep->dev); + class_device_unregister(&ep->dev); return NULL; free_ep: @@ -245,32 +234,38 @@ EXPORT_SYMBOL_GPL(iscsi_create_endpoint); void iscsi_destroy_endpoint(struct iscsi_endpoint *ep) { sysfs_remove_group(&ep->dev.kobj, &iscsi_endpoint_group); - device_unregister(&ep->dev); + class_device_unregister(&ep->dev); } EXPORT_SYMBOL_GPL(iscsi_destroy_endpoint); struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle) { - struct iscsi_endpoint *ep; - struct device *dev; - - dev = class_find_device(&iscsi_endpoint_class, NULL, &handle, - iscsi_match_epid); - if (!dev) - return NULL; + struct iscsi_endpoint *ep = NULL; + struct class_device *cdev; + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,22) + down_read(&iscsi_endpoint_class.subsys.rwsem); +#else + spin_lock(&iscsi_endpoint_class.subsys.list_lock); +#endif + list_for_each_entry(cdev, &iscsi_endpoint_class.children, node) { + ep = iscsi_dev_to_endpoint(cdev); + if (ep->id == handle) + break; + ep = NULL; + } +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,22) + up_read(&iscsi_endpoint_class.subsys.rwsem); +#else + spin_unlock(&iscsi_endpoint_class.subsys.list_lock); +#endif - ep = iscsi_dev_to_endpoint(dev); - /* - * we can drop this now because the interface will prevent - * removals and lookups from racing. - */ - put_device(dev); return ep; } EXPORT_SYMBOL_GPL(iscsi_lookup_endpoint); static int iscsi_setup_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -571,8 +566,6 @@ static void __iscsi_unblock_session(struct work_struct *work) struct iscsi_cls_session *session = container_of(work, struct iscsi_cls_session, unblock_work); - struct Scsi_Host *shost = iscsi_session_to_shost(session); - struct iscsi_cls_host *ihost = shost->shost_data; unsigned long flags; ISCSI_DBG_TRANS_SESSION(session, "Unblocking session\n"); @@ -586,15 +579,6 @@ static void __iscsi_unblock_session(struct work_struct *work) spin_unlock_irqrestore(&session->lock, flags); /* start IO */ scsi_target_unblock(&session->dev); - /* - * Only do kernel scanning if the driver is properly hooked into - * the async scanning code (drivers like iscsi_tcp do login and - * scanning from userspace). - */ - if (shost->hostt->scan_finished) { - if (scsi_queue_work(shost, &session->scan_work)) - atomic_inc(&ihost->nr_scans); - } ISCSI_DBG_TRANS_SESSION(session, "Completed unblocking session\n"); } @@ -750,7 +734,7 @@ int iscsi_add_session(struct iscsi_cls_session *session, unsigned int target_id) } session->target_id = id; - dev_set_name(&session->dev, "session%u", session->sid); + snprintf(session->dev.bus_id, BUS_ID_SIZE, "session%u", session->sid); err = device_add(&session->dev); if (err) { iscsi_cls_session_printk(KERN_ERR, session, @@ -930,7 +914,8 @@ iscsi_create_conn(struct iscsi_cls_session *session, int dd_size, uint32_t cid) if (!get_device(&session->dev)) goto free_conn; - dev_set_name(&conn->dev, "connection%d:%u", session->sid, cid); + snprintf(conn->dev.bus_id, BUS_ID_SIZE, "connection%d:%u", + session->sid, cid); conn->dev.parent = &session->dev; conn->dev.release = iscsi_conn_release; err = device_register(&conn->dev); @@ -1003,7 +988,15 @@ iscsi_if_transport_lookup(struct iscsi_transport *tt) static int iscsi_multicast_skb(struct sk_buff *skb, uint32_t group, gfp_t gfp) { - return nlmsg_multicast(nls, skb, 0, group, gfp); + int err; + + NETLINK_CB(skb).dst_group = group; + + err = netlink_broadcast(nls, skb, 0, group, gfp); + if (err > 0) + err = 0; + + return err; } int iscsi_recv_pdu(struct iscsi_cls_conn *conn, struct iscsi_hdr *hdr, @@ -1643,51 +1636,65 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh, uint32_t *group) * Malformed skbs with wrong lengths or invalid creds are not processed. */ static void -iscsi_if_rx(struct sk_buff *skb) +iscsi_if_rx(struct sock *sk, int len) { - mutex_lock(&rx_queue_mutex); - while (skb->len >= NLMSG_SPACE(0)) { - int err; - uint32_t rlen; - struct nlmsghdr *nlh; - struct iscsi_uevent *ev; - uint32_t group; - - nlh = nlmsg_hdr(skb); - if (nlh->nlmsg_len < sizeof(*nlh) || - skb->len < nlh->nlmsg_len) { - break; - } - - ev = NLMSG_DATA(nlh); - rlen = NLMSG_ALIGN(nlh->nlmsg_len); - if (rlen > skb->len) - rlen = skb->len; + struct sk_buff *skb; - err = iscsi_if_recv_msg(skb, nlh, &group); - if (err) { - ev->type = ISCSI_KEVENT_IF_ERROR; - ev->iferror = err; + mutex_lock(&rx_queue_mutex); + while ((skb = skb_dequeue(&sk->sk_receive_queue)) != NULL) { + if (NETLINK_CREDS(skb)->uid) { + skb_pull(skb, skb->len); + goto free_skb; } - do { - /* - * special case for GET_STATS: - * on success - sending reply and stats from - * inside of if_recv_msg(), - * on error - fall through. - */ - if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + + while (skb->len >= NLMSG_SPACE(0)) { + int err; + uint32_t rlen; + struct nlmsghdr *nlh; + struct iscsi_uevent *ev; + uint32_t group; + + nlh = nlmsg_hdr(skb); + if (nlh->nlmsg_len < sizeof(*nlh) || + skb->len < nlh->nlmsg_len) { break; - err = iscsi_if_send_reply(group, nlh->nlmsg_seq, - nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); - } while (err < 0 && err != -ECONNREFUSED); - skb_pull(skb, rlen); + } + + ev = NLMSG_DATA(nlh); + rlen = NLMSG_ALIGN(nlh->nlmsg_len); + if (rlen > skb->len) + rlen = skb->len; + + err = iscsi_if_recv_msg(skb, nlh, &group); + if (err) { + ev->type = ISCSI_KEVENT_IF_ERROR; + ev->iferror = err; + } + do { + /* + * special case for GET_STATS: + * on success - sending reply and stats from + * inside of if_recv_msg(), + * on error - fall through. + */ + if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + break; + err = iscsi_if_send_reply(group, nlh->nlmsg_seq, + nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); + } while (err < 0 && err != -ECONNREFUSED); + skb_pull(skb, rlen); + } +free_skb: + kfree_skb(skb); } mutex_unlock(&rx_queue_mutex); } +#define iscsi_cdev_to_conn(_cdev) \ + iscsi_dev_to_conn(_cdev->dev) + #define ISCSI_CLASS_ATTR(_prefix,_name,_mode,_show,_store) \ -struct device_attribute dev_attr_##_prefix##_##_name = \ +struct class_device_attribute class_device_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) /* @@ -1695,10 +1702,9 @@ struct device_attribute dev_attr_##_prefix##_##_name = \ */ #define iscsi_conn_attr_show(param) \ static ssize_t \ -show_conn_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_conn_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_conn *conn = iscsi_dev_to_conn(dev->parent); \ + struct iscsi_cls_conn *conn = iscsi_cdev_to_conn(cdev); \ struct iscsi_transport *t = conn->transport; \ return t->get_conn_param(conn, param, buf); \ } @@ -1722,16 +1728,18 @@ iscsi_conn_attr(address, ISCSI_PARAM_CONN_ADDRESS); iscsi_conn_attr(ping_tmo, ISCSI_PARAM_PING_TMO); iscsi_conn_attr(recv_tmo, ISCSI_PARAM_RECV_TMO); +#define iscsi_cdev_to_session(_cdev) \ + iscsi_dev_to_session(_cdev->dev) + /* * iSCSI session attrs */ #define iscsi_session_attr_show(param, perm) \ static ssize_t \ -show_session_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_session_param_##param(struct class_device *cdev, char *buf) \ { \ struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + iscsi_cdev_to_session(cdev); \ struct iscsi_transport *t = session->transport; \ \ if (perm && !capable(CAP_SYS_ADMIN)) \ @@ -1766,10 +1774,9 @@ iscsi_session_attr(ifacename, ISCSI_PARAM_IFACE_NAME, 0); iscsi_session_attr(initiatorname, ISCSI_PARAM_INITIATOR_NAME, 0) static ssize_t -show_priv_session_state(struct device *dev, struct device_attribute *attr, - char *buf) +show_priv_session_state(struct class_device *cdev, char *buf) { - struct iscsi_cls_session *session = iscsi_dev_to_session(dev->parent); + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); return sprintf(buf, "%s\n", iscsi_session_state_name(session->state)); } static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, @@ -1777,11 +1784,10 @@ static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, #define iscsi_priv_session_attr_show(field, format) \ static ssize_t \ -show_priv_session_##field(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_priv_session_##field(struct class_device *cdev, char *buf) \ { \ struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + iscsi_cdev_to_session(cdev); \ return sprintf(buf, format"\n", session->field); \ } @@ -1796,10 +1802,9 @@ iscsi_priv_session_attr(recovery_tmo, "%d"); */ #define iscsi_host_attr_show(param) \ static ssize_t \ -show_host_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_host_param_##param(struct class_device *cdev, char *buf) \ { \ - struct Scsi_Host *shost = transport_class_to_shost(dev); \ + struct Scsi_Host *shost = transport_class_to_shost(cdev); \ struct iscsi_internal *priv = to_iscsi_internal(shost->transportt); \ return priv->iscsi_transport->get_host_param(shost, param, buf); \ } @@ -1816,7 +1821,7 @@ iscsi_host_attr(initiatorname, ISCSI_HOST_PARAM_INITIATOR_NAME); #define SETUP_PRIV_SESSION_RD_ATTR(field) \ do { \ - priv->session_attrs[count] = &dev_attr_priv_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_priv_sess_##field; \ count++; \ } while (0) @@ -1824,7 +1829,7 @@ do { \ #define SETUP_SESSION_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->session_attrs[count] = &dev_attr_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_sess_##field; \ count++; \ } \ } while (0) @@ -1832,7 +1837,7 @@ do { \ #define SETUP_CONN_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->conn_attrs[count] = &dev_attr_conn_##field; \ + priv->conn_attrs[count] = &class_device_attr_conn_##field; \ count++; \ } \ } while (0) @@ -1840,7 +1845,7 @@ do { \ #define SETUP_HOST_RD_ATTR(field, param_flag) \ do { \ if (tt->host_param_mask & param_flag) { \ - priv->host_attrs[count] = &dev_attr_host_##field; \ + priv->host_attrs[count] = &class_device_attr_host_##field; \ count++; \ } \ } while (0) @@ -1931,15 +1936,15 @@ iscsi_register_transport(struct iscsi_transport *tt) priv->t.user_scan = iscsi_user_scan; priv->t.create_work_queue = 1; - priv->dev.class = &iscsi_transport_class; - dev_set_name(&priv->dev, "%s", tt->name); - err = device_register(&priv->dev); + priv->cdev.class = &iscsi_transport_class; + snprintf(priv->cdev.class_id, BUS_ID_SIZE, "%s", tt->name); + err = class_device_register(&priv->cdev); if (err) goto free_priv; - err = sysfs_create_group(&priv->dev.kobj, &iscsi_transport_group); + err = sysfs_create_group(&priv->cdev.kobj, &iscsi_transport_group); if (err) - goto unregister_dev; + goto unregister_cdev; /* host parameters */ priv->t.host_attrs.ac.attrs = &priv->host_attrs[0]; @@ -2019,8 +2024,8 @@ iscsi_register_transport(struct iscsi_transport *tt) printk(KERN_NOTICE "iscsi: registered transport (%s)\n", tt->name); return &priv->t; -unregister_dev: - device_unregister(&priv->dev); +unregister_cdev: + class_device_unregister(&priv->cdev); return NULL; free_priv: kfree(priv); @@ -2048,8 +2053,8 @@ int iscsi_unregister_transport(struct iscsi_transport *tt) transport_container_unregister(&priv->session_cont); transport_container_unregister(&priv->t.host_attrs); - sysfs_remove_group(&priv->dev.kobj, &iscsi_transport_group); - device_unregister(&priv->dev); + sysfs_remove_group(&priv->cdev.kobj, &iscsi_transport_group); + class_device_unregister(&priv->cdev); mutex_unlock(&rx_queue_mutex); return 0; diff --git a/scsi_transport_iscsi.h b/scsi_transport_iscsi.h index ef4b697..a633ee0 100644 --- a/scsi_transport_iscsi.h +++ b/scsi_transport_iscsi.h @@ -27,6 +27,7 @@ #include #include #include "iscsi_if.h" +#include "open_iscsi_compat.h" struct scsi_transport_template; struct iscsi_transport; @@ -219,7 +220,7 @@ extern void iscsi_host_for_each_session(struct Scsi_Host *shost, struct iscsi_endpoint { void *dd_data; /* LLD private data */ - struct device dev; + struct class_device dev; uint64_t id; }; -- 1.6.6.1 open-iscsi-2.0.874/kernel/2.6.16-suse.patch000066400000000000000000000706631277325716400200070ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 908b541..dfd8e31 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -426,6 +426,17 @@ iscsi_segment_seek_sg(struct iscsi_segment *segment, debug_scsi("iscsi_segment_seek_sg offset %u size %llu\n", offset, size); + + /* + * older kernels could send use_sg=0 for commands like sgio + * or scsi-ml commands. + */ + if (!sg_count) { + iscsi_segment_init_linear(segment, (void *)sg_list + offset, + size, done, hash); + return 0; + } + __iscsi_segment_init(segment, size, done, hash); for_each_sg(sg_list, sg, sg_count, i) { debug_scsi("sg %d, len %u offset %u\n", i, sg->length, @@ -536,7 +547,7 @@ iscsi_data_rsp(struct iscsi_conn *conn, struct iscsi_task *task) struct iscsi_session *session = conn->session; struct scsi_cmnd *sc = task->sc; int datasn = be32_to_cpu(rhdr->datasn); - unsigned total_in_length = scsi_in(sc)->length; + unsigned total_in_length = scsi_bufflen(sc); iscsi_update_cmdsn(session, (struct iscsi_nopin*)rhdr); if (tcp_conn->in.datalen == 0) @@ -568,7 +579,7 @@ iscsi_data_rsp(struct iscsi_conn *conn, struct iscsi_task *task) if (res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_OVERFLOW || res_count <= total_in_length)) - scsi_in(sc)->resid = res_count; + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; @@ -679,11 +690,11 @@ iscsi_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->data_length, session->max_burst); r2t->data_offset = be32_to_cpu(rhdr->data_offset); - if (r2t->data_offset + r2t->data_length > scsi_out(task->sc)->length) { + if (r2t->data_offset + r2t->data_length > scsi_bufflen(task->sc)) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, - r2t->data_offset, scsi_out(task->sc)->length); + r2t->data_offset, scsi_bufflen(task->sc)); __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; @@ -783,7 +794,6 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) if (tcp_conn->in.datalen) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct hash_desc *rx_hash = NULL; - struct scsi_data_buffer *sdb = scsi_in(task->sc); /* * Setup copy of Data-In into the Scsi_Cmnd @@ -801,8 +811,8 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) tcp_task->data_offset, tcp_conn->in.datalen); rc = iscsi_segment_seek_sg(&tcp_conn->in.segment, - sdb->table.sgl, - sdb->table.nents, + scsi_sglist(task->sc), + scsi_sg_count(task->sc), tcp_task->data_offset, tcp_conn->in.datalen, iscsi_tcp_process_data_in, @@ -1369,8 +1379,8 @@ iscsi_tcp_task_init(struct iscsi_task *task) return 0; /* If we have immediate data, attach a payload */ - err = iscsi_tcp_send_data_prep(conn, scsi_out(sc)->table.sgl, - scsi_out(sc)->table.nents, + err = iscsi_tcp_send_data_prep(conn, scsi_sglist(sc), + scsi_sg_count(sc), 0, task->imm_count); if (err) return err; @@ -1393,7 +1403,6 @@ iscsi_tcp_task_xmit(struct iscsi_task *task) struct iscsi_conn *conn = task->conn; struct iscsi_tcp_task *tcp_task = task->dd_data; struct scsi_cmnd *sc = task->sc; - struct scsi_data_buffer *sdb; int rc = 0; flush: @@ -1413,7 +1422,6 @@ flush: if (sc->sc_data_direction != DMA_TO_DEVICE) return 0; - sdb = scsi_out(sc); if (task->unsol_count != 0) { struct iscsi_data *hdr = &tcp_task->unsol_dtask.hdr; @@ -1428,8 +1436,8 @@ flush: task->itt, tcp_task->sent, task->data_count); iscsi_tcp_send_hdr_prep(conn, hdr, sizeof(*hdr)); - rc = iscsi_tcp_send_data_prep(conn, sdb->table.sgl, - sdb->table.nents, tcp_task->sent, + rc = iscsi_tcp_send_data_prep(conn, scsi_sglist(sc), + scsi_sg_count(sc), tcp_task->sent, task->data_count); if (rc) goto fail; @@ -1475,8 +1483,8 @@ flush: iscsi_tcp_send_hdr_prep(conn, &r2t->dtask.hdr, sizeof(struct iscsi_hdr)); - rc = iscsi_tcp_send_data_prep(conn, sdb->table.sgl, - sdb->table.nents, + rc = iscsi_tcp_send_data_prep(conn, scsi_sglist(sc), + scsi_sg_count(sc), r2t->data_offset + r2t->sent, r2t->data_count); if (rc) @@ -1864,7 +1872,11 @@ iscsi_tcp_session_create(struct iscsi_endpoint *ep, uint16_t cmds_max, shost->max_lun = iscsi_max_lun; shost->max_id = 0; shost->max_channel = 0; +#ifndef SCSI_MAX_VARLEN_CDB_SIZE + shost->max_cmd_len = 16; +#else shost->max_cmd_len = SCSI_MAX_VARLEN_CDB_SIZE; +#endif if (iscsi_host_add(shost, NULL)) goto free_host; @@ -1917,6 +1929,9 @@ static int iscsi_tcp_slave_configure(struct scsi_device *sdev) } static struct scsi_host_template iscsi_sht = { +#if LINUX_VERSION_CODE == KERNEL_VERSION(2,6,24) + .use_sg_chaining = ENABLE_SG_CHAINING, +#endif .module = THIS_MODULE, .name = "iSCSI Initiator over TCP/IP", .queuecommand = iscsi_queuecommand, diff --git a/iscsi_tcp.h b/iscsi_tcp.h index 68423e8..1796c96 100644 --- a/iscsi_tcp.h +++ b/iscsi_tcp.h @@ -24,6 +24,8 @@ #include "libiscsi.h" +#include "open_iscsi_compat.h" + struct crypto_hash; struct socket; struct iscsi_tcp_conn; diff --git a/libiscsi.c b/libiscsi.c index dfeaed3..0fb0705 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -24,7 +24,10 @@ #include #include #include +#include +#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,19) #include +#endif #include #include #include @@ -187,7 +190,7 @@ static int iscsi_prep_bidi_ahs(struct iscsi_task *task) sizeof(rlen_ahdr->reserved)); rlen_ahdr->ahstype = ISCSI_AHSTYPE_RLENGTH; rlen_ahdr->reserved = 0; - rlen_ahdr->read_length = cpu_to_be32(scsi_in(sc)->length); + rlen_ahdr->read_length = cpu_to_be32(scsi_bufflen(sc)); debug_scsi("bidi-in rlen_ahdr->read_length(%d) " "rlen_ahdr->ahslength(%d)\n", @@ -242,7 +245,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) return rc; } if (sc->sc_data_direction == DMA_TO_DEVICE) { - unsigned out_len = scsi_out(sc)->length; + unsigned out_len = scsi_bufflen(sc); hdr->data_length = cpu_to_be32(out_len); hdr->flags |= ISCSI_FLAG_CMD_WRITE; /* @@ -286,7 +289,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) } else { hdr->flags |= ISCSI_FLAG_CMD_FINAL; zero_data(hdr->dlength); - hdr->data_length = cpu_to_be32(scsi_in(sc)->length); + hdr->data_length = cpu_to_be32(scsi_bufflen(sc)); if (sc->sc_data_direction == DMA_FROM_DEVICE) hdr->flags |= ISCSI_FLAG_CMD_READ; @@ -314,7 +317,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) "bidirectional" : sc->sc_data_direction == DMA_TO_DEVICE ? "write" : "read", conn->id, sc, sc->cmnd[0], task->itt, scsi_bufflen(sc), - scsi_bidi_cmnd(sc) ? scsi_in(sc)->length : 0, + scsi_bidi_cmnd(sc) ? scsi_bufflen(sc) : 0, session->cmdsn, session->max_cmdsn - session->exp_cmdsn + 1); return 0; } @@ -412,12 +415,7 @@ static void fail_command(struct iscsi_conn *conn, struct iscsi_task *task, return; sc->result = err; - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); if (conn->task == task) conn->task = NULL; @@ -592,7 +590,7 @@ invalid_datalen: goto out; } - senselen = get_unaligned_be16(data); + senselen = be16_to_cpu(get_unaligned((__be16 *) data)); if (datalen < senselen) goto invalid_datalen; @@ -608,8 +606,8 @@ invalid_datalen: if (scsi_bidi_cmnd(sc) && res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_BIDI_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -1127,10 +1125,9 @@ again: return rc; } -static void iscsi_xmitworker(struct work_struct *work) +static void iscsi_xmitworker(void *data) { - struct iscsi_conn *conn = - container_of(work, struct iscsi_conn, xmitwork); + struct iscsi_conn *conn = data; int rc; /* * serialize Xmit worker on a per-connection basis. @@ -1273,12 +1270,7 @@ reject: fault: spin_unlock(&session->lock); debug_scsi("iscsi: cmd 0x%x is not queued (%d)\n", sc->cmnd[0], reason); - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); done(sc); spin_lock(host->host_lock); return 0; @@ -2099,7 +2091,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, INIT_LIST_HEAD(&conn->mgmtqueue); INIT_LIST_HEAD(&conn->xmitqueue); INIT_LIST_HEAD(&conn->requeue); - INIT_WORK(&conn->xmitwork, iscsi_xmitworker); + INIT_WORK(&conn->xmitwork, iscsi_xmitworker, conn); /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); diff --git a/libiscsi.h b/libiscsi.h index cfc5fa6..64508d8 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -32,6 +32,8 @@ #include "iscsi_proto.h" #include "iscsi_if.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct scsi_host_template; struct scsi_device; diff --git a/scsi_transport_iscsi.c b/scsi_transport_iscsi.c index 535e461..1ae65fb 100644 --- a/scsi_transport_iscsi.c +++ b/scsi_transport_iscsi.c @@ -41,13 +41,13 @@ struct iscsi_internal { struct scsi_transport_template t; struct iscsi_transport *iscsi_transport; struct list_head list; - struct device dev; + struct class_device cdev; - struct device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; + struct class_device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; struct transport_container conn_cont; - struct device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; + struct class_device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; struct transport_container session_cont; - struct device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; + struct class_device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; }; static atomic_t iscsi_session_nr; /* sysfs session id for next new session */ @@ -64,12 +64,12 @@ static DEFINE_SPINLOCK(iscsi_transport_lock); #define to_iscsi_internal(tmpl) \ container_of(tmpl, struct iscsi_internal, t) -#define dev_to_iscsi_internal(_dev) \ - container_of(_dev, struct iscsi_internal, dev) +#define cdev_to_iscsi_internal(_cdev) \ + container_of(_cdev, struct iscsi_internal, cdev) -static void iscsi_transport_release(struct device *dev) +static void iscsi_transport_release(struct class_device *cdev) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); kfree(priv); } @@ -79,33 +79,31 @@ static void iscsi_transport_release(struct device *dev) */ static struct class iscsi_transport_class = { .name = "iscsi_transport", - .dev_release = iscsi_transport_release, + .release = iscsi_transport_release, }; static ssize_t -show_transport_handle(struct device *dev, struct device_attribute *attr, - char *buf) +show_transport_handle(struct class_device *cdev, char *buf) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); return sprintf(buf, "%llu\n", (unsigned long long)iscsi_handle(priv->iscsi_transport)); } -static DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); +static CLASS_DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); #define show_transport_attr(name, format) \ static ssize_t \ -show_transport_##name(struct device *dev, \ - struct device_attribute *attr,char *buf) \ +show_transport_##name(struct class_device *cdev, char *buf) \ { \ - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); \ + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); \ return sprintf(buf, format"\n", priv->iscsi_transport->name); \ } \ -static DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); +static CLASS_DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); show_transport_attr(caps, "0x%x"); static struct attribute *iscsi_transport_attrs[] = { - &dev_attr_handle.attr, - &dev_attr_caps.attr, + &class_device_attr_handle.attr, + &class_device_attr_caps.attr, NULL, }; @@ -113,6 +111,7 @@ static struct attribute_group iscsi_transport_group = { .attrs = iscsi_transport_attrs, }; +#if 0 /* * iSCSI endpoint attrs */ @@ -229,9 +228,10 @@ struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle) return iscsi_dev_to_endpoint(dev); } EXPORT_SYMBOL_GPL(iscsi_lookup_endpoint); +#endif static int iscsi_setup_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -250,7 +250,7 @@ static int iscsi_setup_host(struct transport_container *tc, struct device *dev, } static int iscsi_remove_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -490,10 +490,9 @@ static int iscsi_user_scan(struct Scsi_Host *shost, uint channel, iscsi_user_scan_session); } -static void iscsi_scan_session(struct work_struct *work) +static void iscsi_scan_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, scan_work); + struct iscsi_cls_session *session = data; struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; struct iscsi_scan_data scan_data; @@ -506,11 +505,9 @@ static void iscsi_scan_session(struct work_struct *work) atomic_dec(&ihost->nr_scans); } -static void session_recovery_timedout(struct work_struct *work) +static void session_recovery_timedout(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - recovery_work.work); + struct iscsi_cls_session *session = data; unsigned long flags; iscsi_cls_session_printk(KERN_INFO, session, @@ -536,13 +533,13 @@ static void session_recovery_timedout(struct work_struct *work) scsi_target_unblock(&session->dev); } -static void __iscsi_unblock_session(struct work_struct *work) +static void __iscsi_unblock_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - unblock_work); + struct iscsi_cls_session *session = data; +#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,19) struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; +#endif unsigned long flags; /* @@ -560,10 +557,12 @@ static void __iscsi_unblock_session(struct work_struct *work) * the async scanning code (drivers like iscsi_tcp do login and * scanning from userspace). */ +#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,19) if (shost->hostt->scan_finished) { if (queue_work(ihost->scan_workq, &session->scan_work)) atomic_inc(&ihost->nr_scans); } +#endif } /** @@ -583,11 +582,9 @@ void iscsi_unblock_session(struct iscsi_cls_session *session) } EXPORT_SYMBOL_GPL(iscsi_unblock_session); -static void __iscsi_block_session(struct work_struct *work) +static void __iscsi_block_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - block_work); + struct iscsi_cls_session *session = data; unsigned long flags; spin_lock_irqsave(&session->lock, flags); @@ -604,11 +601,9 @@ void iscsi_block_session(struct iscsi_cls_session *session) } EXPORT_SYMBOL_GPL(iscsi_block_session); -static void __iscsi_unbind_session(struct work_struct *work) +static void __iscsi_unbind_session(void *data) { - struct iscsi_cls_session *session = - container_of(work, struct iscsi_cls_session, - unbind_work); + struct iscsi_cls_session *session = data; struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; unsigned long flags; @@ -651,12 +646,12 @@ iscsi_alloc_session(struct Scsi_Host *shost, struct iscsi_transport *transport, session->transport = transport; session->recovery_tmo = 120; session->state = ISCSI_SESSION_FREE; - INIT_DELAYED_WORK(&session->recovery_work, session_recovery_timedout); + INIT_WORK(&session->recovery_work, session_recovery_timedout, session); INIT_LIST_HEAD(&session->sess_list); - INIT_WORK(&session->unblock_work, __iscsi_unblock_session); - INIT_WORK(&session->block_work, __iscsi_block_session); - INIT_WORK(&session->unbind_work, __iscsi_unbind_session); - INIT_WORK(&session->scan_work, iscsi_scan_session); + INIT_WORK(&session->unblock_work, __iscsi_unblock_session, session); + INIT_WORK(&session->block_work, __iscsi_block_session, session); + INIT_WORK(&session->unbind_work, __iscsi_unbind_session, session); + INIT_WORK(&session->scan_work, iscsi_scan_session, session); spin_lock_init(&session->lock); /* this is released in the dev's release function */ @@ -1300,6 +1295,8 @@ static int iscsi_if_transport_ep(struct iscsi_transport *transport, struct iscsi_uevent *ev, int msg_type) { + return -ENOSYS; +#if 0 struct iscsi_endpoint *ep; struct sockaddr *dst_addr; int rc = 0; @@ -1340,6 +1337,8 @@ iscsi_if_transport_ep(struct iscsi_transport *transport, break; } return rc; + +#endif } static int @@ -1421,6 +1420,9 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) ev->u.c_session.queue_depth); break; case ISCSI_UEVENT_CREATE_BOUND_SESSION: + err = -ENOSYS; + break; +#if 0 ep = iscsi_lookup_endpoint(ev->u.c_bound_session.ep_handle); if (!ep) { err = -EINVAL; @@ -1432,6 +1434,7 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) ev->u.c_bound_session.cmds_max, ev->u.c_bound_session.queue_depth); break; +#endif case ISCSI_UEVENT_DESTROY_SESSION: session = iscsi_session_lookup(ev->u.d_session.sid); if (session) @@ -1514,55 +1517,70 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) } /* - * Get message from skb. Each message is processed by iscsi_if_recv_msg. - * Malformed skbs with wrong lengths or invalid creds are not processed. + * Get message from skb (based on rtnetlink_rcv_skb). Each message is + * processed by iscsi_if_recv_msg. Malformed skbs with wrong lengths or + * invalid creds are discarded silently. */ static void -iscsi_if_rx(struct sk_buff *skb) +iscsi_if_rx(struct sock *sk, int len) { + struct sk_buff *skb; + mutex_lock(&rx_queue_mutex); - while (skb->len >= NLMSG_SPACE(0)) { - int err; - uint32_t rlen; - struct nlmsghdr *nlh; - struct iscsi_uevent *ev; - - nlh = nlmsg_hdr(skb); - if (nlh->nlmsg_len < sizeof(*nlh) || - skb->len < nlh->nlmsg_len) { - break; + while ((skb = skb_dequeue(&sk->sk_receive_queue)) != NULL) { + if (NETLINK_CREDS(skb)->uid) { + skb_pull(skb, skb->len); + goto free_skb; } - ev = NLMSG_DATA(nlh); - rlen = NLMSG_ALIGN(nlh->nlmsg_len); - if (rlen > skb->len) - rlen = skb->len; + while (skb->len >= NLMSG_SPACE(0)) { + int err; + uint32_t rlen; + struct nlmsghdr *nlh; + struct iscsi_uevent *ev; - err = iscsi_if_recv_msg(skb, nlh); - if (err) { - ev->type = ISCSI_KEVENT_IF_ERROR; - ev->iferror = err; - } - do { - /* - * special case for GET_STATS: - * on success - sending reply and stats from - * inside of if_recv_msg(), - * on error - fall through. - */ - if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + nlh = nlmsg_hdr(skb); + if (nlh->nlmsg_len < sizeof(*nlh) || + skb->len < nlh->nlmsg_len) { break; - err = iscsi_if_send_reply( - NETLINK_CREDS(skb)->pid, nlh->nlmsg_seq, - nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); - } while (err < 0 && err != -ECONNREFUSED); - skb_pull(skb, rlen); + } + + ev = NLMSG_DATA(nlh); + rlen = NLMSG_ALIGN(nlh->nlmsg_len); + if (rlen > skb->len) + rlen = skb->len; + + err = iscsi_if_recv_msg(skb, nlh); + if (err) { + ev->type = ISCSI_KEVENT_IF_ERROR; + ev->iferror = err; + } + do { + /* + * special case for GET_STATS: + * on success - sending reply and stats from + * inside of if_recv_msg(), + * on error - fall through. + */ + if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + break; + err = iscsi_if_send_reply( + NETLINK_CREDS(skb)->pid, nlh->nlmsg_seq, + nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); + } while (err < 0 && err != -ECONNREFUSED); + skb_pull(skb, rlen); + } +free_skb: + kfree_skb(skb); } mutex_unlock(&rx_queue_mutex); } +#define iscsi_cdev_to_conn(_cdev) \ + iscsi_dev_to_conn(_cdev->dev) + #define ISCSI_CLASS_ATTR(_prefix,_name,_mode,_show,_store) \ -struct device_attribute dev_attr_##_prefix##_##_name = \ +struct class_device_attribute class_device_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) /* @@ -1570,10 +1588,9 @@ struct device_attribute dev_attr_##_prefix##_##_name = \ */ #define iscsi_conn_attr_show(param) \ static ssize_t \ -show_conn_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_conn_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_conn *conn = iscsi_dev_to_conn(dev->parent); \ + struct iscsi_cls_conn *conn = iscsi_cdev_to_conn(cdev); \ struct iscsi_transport *t = conn->transport; \ return t->get_conn_param(conn, param, buf); \ } @@ -1597,16 +1614,17 @@ iscsi_conn_attr(address, ISCSI_PARAM_CONN_ADDRESS); iscsi_conn_attr(ping_tmo, ISCSI_PARAM_PING_TMO); iscsi_conn_attr(recv_tmo, ISCSI_PARAM_RECV_TMO); +#define iscsi_cdev_to_session(_cdev) \ + iscsi_dev_to_session(_cdev->dev) + /* * iSCSI session attrs */ #define iscsi_session_attr_show(param, perm) \ static ssize_t \ -show_session_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_session_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); \ struct iscsi_transport *t = session->transport; \ \ if (perm && !capable(CAP_SYS_ADMIN)) \ @@ -1640,10 +1658,9 @@ iscsi_session_attr(ifacename, ISCSI_PARAM_IFACE_NAME, 0); iscsi_session_attr(initiatorname, ISCSI_PARAM_INITIATOR_NAME, 0) static ssize_t -show_priv_session_state(struct device *dev, struct device_attribute *attr, - char *buf) +show_priv_session_state(struct class_device *cdev, char *buf) { - struct iscsi_cls_session *session = iscsi_dev_to_session(dev->parent); + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); return sprintf(buf, "%s\n", iscsi_session_state_name(session->state)); } static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, @@ -1651,11 +1668,9 @@ static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, #define iscsi_priv_session_attr_show(field, format) \ static ssize_t \ -show_priv_session_##field(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_priv_session_##field(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev);\ return sprintf(buf, format"\n", session->field); \ } @@ -1670,10 +1685,9 @@ iscsi_priv_session_attr(recovery_tmo, "%d"); */ #define iscsi_host_attr_show(param) \ static ssize_t \ -show_host_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_host_param_##param(struct class_device *cdev, char *buf) \ { \ - struct Scsi_Host *shost = transport_class_to_shost(dev); \ + struct Scsi_Host *shost = transport_class_to_shost(cdev); \ struct iscsi_internal *priv = to_iscsi_internal(shost->transportt); \ return priv->iscsi_transport->get_host_param(shost, param, buf); \ } @@ -1690,7 +1704,7 @@ iscsi_host_attr(initiatorname, ISCSI_HOST_PARAM_INITIATOR_NAME); #define SETUP_PRIV_SESSION_RD_ATTR(field) \ do { \ - priv->session_attrs[count] = &dev_attr_priv_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_priv_sess_##field; \ count++; \ } while (0) @@ -1698,7 +1712,7 @@ do { \ #define SETUP_SESSION_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->session_attrs[count] = &dev_attr_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_sess_##field; \ count++; \ } \ } while (0) @@ -1706,7 +1720,7 @@ do { \ #define SETUP_CONN_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->conn_attrs[count] = &dev_attr_conn_##field; \ + priv->conn_attrs[count] = &class_device_attr_conn_##field; \ count++; \ } \ } while (0) @@ -1714,7 +1728,7 @@ do { \ #define SETUP_HOST_RD_ATTR(field, param_flag) \ do { \ if (tt->host_param_mask & param_flag) { \ - priv->host_attrs[count] = &dev_attr_host_##field; \ + priv->host_attrs[count] = &class_device_attr_host_##field; \ count++; \ } \ } while (0) @@ -1807,15 +1821,15 @@ iscsi_register_transport(struct iscsi_transport *tt) if (!(tt->caps & CAP_DATA_PATH_OFFLOAD)) priv->t.create_work_queue = 1; - priv->dev.class = &iscsi_transport_class; - snprintf(priv->dev.bus_id, BUS_ID_SIZE, "%s", tt->name); - err = device_register(&priv->dev); + priv->cdev.class = &iscsi_transport_class; + snprintf(priv->cdev.class_id, BUS_ID_SIZE, "%s", tt->name); + err = class_device_register(&priv->cdev); if (err) goto free_priv; - err = sysfs_create_group(&priv->dev.kobj, &iscsi_transport_group); + err = sysfs_create_group(&priv->cdev.kobj, &iscsi_transport_group); if (err) - goto unregister_dev; + goto unregister_cdev; /* host parameters */ priv->t.host_attrs.ac.attrs = &priv->host_attrs[0]; @@ -1894,9 +1908,8 @@ iscsi_register_transport(struct iscsi_transport *tt) printk(KERN_NOTICE "iscsi: registered transport (%s)\n", tt->name); return &priv->t; -unregister_dev: - device_unregister(&priv->dev); - return NULL; +unregister_cdev: + class_device_unregister(&priv->cdev); free_priv: kfree(priv); return NULL; @@ -1923,8 +1936,8 @@ int iscsi_unregister_transport(struct iscsi_transport *tt) transport_container_unregister(&priv->session_cont); transport_container_unregister(&priv->t.host_attrs); - sysfs_remove_group(&priv->dev.kobj, &iscsi_transport_group); - device_unregister(&priv->dev); + sysfs_remove_group(&priv->cdev.kobj, &iscsi_transport_group); + class_device_unregister(&priv->cdev); mutex_unlock(&rx_queue_mutex); return 0; @@ -1944,13 +1957,14 @@ static __init int iscsi_transport_init(void) if (err) return err; +#if 0 err = class_register(&iscsi_endpoint_class); if (err) goto unregister_transport_class; - +#endif err = transport_class_register(&iscsi_host_class); if (err) - goto unregister_endpoint_class; + goto unregister_transport_class; err = transport_class_register(&iscsi_connection_class); if (err) @@ -1981,8 +1995,10 @@ unregister_conn_class: transport_class_unregister(&iscsi_connection_class); unregister_host_class: transport_class_unregister(&iscsi_host_class); +#if 0 unregister_endpoint_class: class_unregister(&iscsi_endpoint_class); +#endif unregister_transport_class: class_unregister(&iscsi_transport_class); return err; @@ -1995,7 +2011,9 @@ static void __exit iscsi_transport_exit(void) transport_class_unregister(&iscsi_connection_class); transport_class_unregister(&iscsi_session_class); transport_class_unregister(&iscsi_host_class); +#if 0 class_unregister(&iscsi_endpoint_class); +#endif class_unregister(&iscsi_transport_class); } diff --git a/scsi_transport_iscsi.h b/scsi_transport_iscsi.h index b7652e3..3978551 100644 --- a/scsi_transport_iscsi.h +++ b/scsi_transport_iscsi.h @@ -28,6 +28,8 @@ #include #include "iscsi_if.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct iscsi_transport; struct iscsi_endpoint; @@ -175,7 +177,7 @@ struct iscsi_cls_session { /* recovery fields */ int recovery_tmo; - struct delayed_work recovery_work; + struct work_struct recovery_work; unsigned int target_id; open-iscsi-2.0.874/kernel/2.6.20-21_compat.patch000066400000000000000000000742131277325716400206030ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 6214055..8563545 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -444,11 +444,9 @@ static int iscsi_sw_tcp_pdu_init(struct iscsi_task *task, if (!task->sc) iscsi_sw_tcp_send_linear_data_prep(conn, task->data, count); else { - struct scsi_data_buffer *sdb = scsi_out(task->sc); - - err = iscsi_sw_tcp_send_data_prep(conn, sdb->table.sgl, - sdb->table.nents, offset, - count); + err = iscsi_sw_tcp_send_data_prep(conn, scsi_sglist(task->sc), + scsi_sg_count(task->sc), + offset, count); } if (err) { @@ -773,7 +771,11 @@ iscsi_sw_tcp_session_create(struct iscsi_endpoint *ep, uint16_t cmds_max, shost->max_lun = iscsi_max_lun; shost->max_id = 0; shost->max_channel = 0; +#ifndef SCSI_MAX_VARLEN_CDB_SIZE + shost->max_cmd_len = 16; +#else shost->max_cmd_len = SCSI_MAX_VARLEN_CDB_SIZE; +#endif if (iscsi_host_add(shost, NULL)) goto free_host; @@ -821,6 +823,9 @@ static int iscsi_sw_tcp_slave_configure(struct scsi_device *sdev) } static struct scsi_host_template iscsi_sw_tcp_sht = { +#if LINUX_VERSION_CODE == KERNEL_VERSION(2,6,24) + .use_sg_chaining = ENABLE_SG_CHAINING, +#endif .module = THIS_MODULE, .name = "iSCSI Initiator over TCP/IP", .queuecommand = iscsi_queuecommand, @@ -831,7 +836,7 @@ static struct scsi_host_template iscsi_sw_tcp_sht = { .cmd_per_lun = ISCSI_DEF_CMD_PER_LUN, .eh_abort_handler = iscsi_eh_abort, .eh_device_reset_handler= iscsi_eh_device_reset, - .eh_target_reset_handler= iscsi_eh_target_reset, + .eh_host_reset_handler = iscsi_eh_target_reset, .use_clustering = DISABLE_CLUSTERING, .slave_configure = iscsi_sw_tcp_slave_configure, .proc_name = "iscsi_tcp", diff --git a/iscsi_tcp.h b/iscsi_tcp.h index f9a4044..ab20530 100644 --- a/iscsi_tcp.h +++ b/iscsi_tcp.h @@ -22,6 +22,8 @@ #ifndef ISCSI_SW_TCP_H #define ISCSI_SW_TCP_H +#include "open_iscsi_compat.h" + #include "libiscsi.h" #include "libiscsi_tcp.h" diff --git a/libiscsi.c b//libiscsi.c index 5ac73fb..0b22b75 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -38,6 +38,8 @@ #include "scsi_transport_iscsi.h" #include "libiscsi.h" +#include "open_iscsi_compat.h" + /* Serial Number Arithmetic, 32 bits, less than, RFC1982 */ #define SNA32_CHECK 2147483648UL @@ -199,7 +201,7 @@ static int iscsi_prep_bidi_ahs(struct iscsi_task *task) sizeof(rlen_ahdr->reserved)); rlen_ahdr->ahstype = ISCSI_AHSTYPE_RLENGTH; rlen_ahdr->reserved = 0; - rlen_ahdr->read_length = cpu_to_be32(scsi_in(sc)->length); + rlen_ahdr->read_length = cpu_to_be32(scsi_bufflen(sc)); debug_scsi("bidi-in rlen_ahdr->read_length(%d) " "rlen_ahdr->ahslength(%d)\n", @@ -267,7 +269,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) return rc; } if (sc->sc_data_direction == DMA_TO_DEVICE) { - unsigned out_len = scsi_out(sc)->length; + unsigned out_len = scsi_bufflen(sc); struct iscsi_r2t_info *r2t = &task->unsol_r2t; hdr->data_length = cpu_to_be32(out_len); @@ -313,7 +315,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) } else { hdr->flags |= ISCSI_FLAG_CMD_FINAL; zero_data(hdr->dlength); - hdr->data_length = cpu_to_be32(scsi_in(sc)->length); + hdr->data_length = cpu_to_be32(scsi_bufflen(sc)); if (sc->sc_data_direction == DMA_FROM_DEVICE) hdr->flags |= ISCSI_FLAG_CMD_READ; @@ -340,7 +342,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) "bidirectional" : sc->sc_data_direction == DMA_TO_DEVICE ? "write" : "read", conn->id, sc, sc->cmnd[0], task->itt, scsi_bufflen(sc), - scsi_bidi_cmnd(sc) ? scsi_in(sc)->length : 0, + scsi_bidi_cmnd(sc) ? scsi_bufflen(sc) : 0, session->cmdsn, session->max_cmdsn - session->exp_cmdsn + 1); return 0; } @@ -432,12 +434,7 @@ static void fail_command(struct iscsi_conn *conn, struct iscsi_task *task, conn->session->queued_cmdsn--; sc->result = err; - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); if (conn->task == task) conn->task = NULL; @@ -631,7 +628,7 @@ invalid_datalen: goto out; } - senselen = get_unaligned_be16(data); + senselen = be16_to_cpu(get_unaligned((__be16 *) data)); if (datalen < senselen) goto invalid_datalen; @@ -647,8 +644,8 @@ invalid_datalen: if (scsi_bidi_cmnd(sc) && res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_BIDI_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -697,8 +694,8 @@ iscsi_data_in_rsp(struct iscsi_conn *conn, struct iscsi_hdr *hdr, if (res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -1408,12 +1405,7 @@ prepd_fault: fault: spin_unlock(&session->lock); debug_scsi("iscsi: cmd 0x%x is not queued (%d)\n", sc->cmnd[0], reason); - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); done(sc); spin_lock(host->host_lock); return 0; diff --git a/libiscsi.h b/libiscsi.h index a261e2c..96fd795 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -32,6 +32,8 @@ #include "iscsi_if.h" #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct scsi_host_template; struct scsi_device; diff --git a/libiscsi_tcp.c b/libiscsi_tcp.c index 92cb13d..ea7dd8d 100644 --- a/libiscsi_tcp.c +++ b/libiscsi_tcp.c @@ -357,6 +357,17 @@ iscsi_segment_seek_sg(struct iscsi_segment *segment, debug_scsi("iscsi_segment_seek_sg offset %u size %llu\n", offset, size); + + /* + * older kernels could send use_sg=0 for commands like sgio + * or scsi-ml commands. + */ + if (!sg_count) { + iscsi_segment_init_linear(segment, (void *)sg_list + offset, + size, done, hash); + return 0; + } + __iscsi_segment_init(segment, size, done, hash); for_each_sg(sg_list, sg, sg_count, i) { debug_scsi("sg %d, len %u offset %u\n", i, sg->length, @@ -469,7 +480,7 @@ static int iscsi_tcp_data_in(struct iscsi_conn *conn, struct iscsi_task *task) struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_data_rsp *rhdr = (struct iscsi_data_rsp *)tcp_conn->in.hdr; int datasn = be32_to_cpu(rhdr->datasn); - unsigned total_in_length = scsi_in(task->sc)->length; + unsigned total_in_length = scsi_bufflen(task->sc); iscsi_update_cmdsn(conn->session, (struct iscsi_nopin*)rhdr); if (tcp_conn->in.datalen == 0) @@ -557,11 +568,11 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->data_length, session->max_burst); r2t->data_offset = be32_to_cpu(rhdr->data_offset); - if (r2t->data_offset + r2t->data_length > scsi_out(task->sc)->length) { + if (r2t->data_offset + r2t->data_length > scsi_bufflen(task->sc)) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, - r2t->data_offset, scsi_out(task->sc)->length); + r2t->data_offset, scsi_bufflen(task->sc)); __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; @@ -660,7 +671,6 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) if (tcp_conn->in.datalen) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct hash_desc *rx_hash = NULL; - struct scsi_data_buffer *sdb = scsi_in(task->sc); /* * Setup copy of Data-In into the Scsi_Cmnd @@ -679,8 +689,8 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) tcp_task->data_offset, tcp_conn->in.datalen); rc = iscsi_segment_seek_sg(&tcp_conn->in.segment, - sdb->table.sgl, - sdb->table.nents, + scsi_sglist(task->sc), + scsi_sg_count(task->sc), tcp_task->data_offset, tcp_conn->in.datalen, iscsi_tcp_process_data_in, diff --git a/libiscsi_tcp.h b/libiscsi_tcp.h index 3bacef5..5ea284d 100644 --- a/libiscsi_tcp.h +++ b/libiscsi_tcp.h @@ -21,6 +21,7 @@ #ifndef LIBISCSI_TCP_H #define LIBISCSI_TCP_H +#include "open_iscsi_compat.h" #include "libiscsi.h" struct iscsi_tcp_conn; diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..fd9ef7b --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,266 @@ +#include +#include +#include +#include + +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} + +int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) + +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, input) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + +#endif diff --git a/scsi_transport_iscsi.c b/scsi_transport_iscsi.c index 4781d81..023daf5 100644 --- a/scsi_transport_iscsi.c +++ b/scsi_transport_iscsi.c @@ -41,13 +41,13 @@ struct iscsi_internal { struct scsi_transport_template t; struct iscsi_transport *iscsi_transport; struct list_head list; - struct device dev; + struct class_device cdev; - struct device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; + struct class_device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; struct transport_container conn_cont; - struct device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; + struct class_device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; struct transport_container session_cont; - struct device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; + struct class_device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; }; static atomic_t iscsi_session_nr; /* sysfs session id for next new session */ @@ -64,12 +64,12 @@ static DEFINE_SPINLOCK(iscsi_transport_lock); #define to_iscsi_internal(tmpl) \ container_of(tmpl, struct iscsi_internal, t) -#define dev_to_iscsi_internal(_dev) \ - container_of(_dev, struct iscsi_internal, dev) +#define cdev_to_iscsi_internal(_cdev) \ + container_of(_cdev, struct iscsi_internal, cdev) -static void iscsi_transport_release(struct device *dev) +static void iscsi_transport_release(struct class_device *cdev) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); kfree(priv); } @@ -79,33 +79,31 @@ static void iscsi_transport_release(struct device *dev) */ static struct class iscsi_transport_class = { .name = "iscsi_transport", - .dev_release = iscsi_transport_release, + .release = iscsi_transport_release, }; static ssize_t -show_transport_handle(struct device *dev, struct device_attribute *attr, - char *buf) +show_transport_handle(struct class_device *cdev, char *buf) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); return sprintf(buf, "%llu\n", (unsigned long long)iscsi_handle(priv->iscsi_transport)); } -static DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); +static CLASS_DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); #define show_transport_attr(name, format) \ static ssize_t \ -show_transport_##name(struct device *dev, \ - struct device_attribute *attr,char *buf) \ +show_transport_##name(struct class_device *cdev, char *buf) \ { \ - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); \ + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); \ return sprintf(buf, format"\n", priv->iscsi_transport->name); \ } \ -static DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); +static CLASS_DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); show_transport_attr(caps, "0x%x"); static struct attribute *iscsi_transport_attrs[] = { - &dev_attr_handle.attr, - &dev_attr_caps.attr, + &class_device_attr_handle.attr, + &class_device_attr_caps.attr, NULL, }; @@ -113,6 +111,7 @@ static struct attribute_group iscsi_transport_group = { .attrs = iscsi_transport_attrs, }; +#if 0 /* * iSCSI endpoint attrs */ @@ -236,9 +235,10 @@ struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle) return ep; } EXPORT_SYMBOL_GPL(iscsi_lookup_endpoint); +#endif static int iscsi_setup_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -257,7 +257,7 @@ static int iscsi_setup_host(struct transport_container *tc, struct device *dev, } static int iscsi_remove_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -723,7 +723,8 @@ int iscsi_add_session(struct iscsi_cls_session *session, unsigned int target_id) } session->target_id = id; - dev_set_name(&session->dev, "session%u", session->sid); + snprintf(session->dev.bus_id, BUS_ID_SIZE, "session%u", + session->sid); err = device_add(&session->dev); if (err) { iscsi_cls_session_printk(KERN_ERR, session, @@ -896,7 +897,8 @@ iscsi_create_conn(struct iscsi_cls_session *session, int dd_size, uint32_t cid) if (!get_device(&session->dev)) goto free_conn; - dev_set_name(&conn->dev, "connection%d:%u", session->sid, cid); + snprintf(conn->dev.bus_id, BUS_ID_SIZE, "connection%d:%u", + session->sid, cid); conn->dev.parent = &session->dev; conn->dev.release = iscsi_conn_release; err = device_register(&conn->dev); @@ -1305,6 +1307,8 @@ static int iscsi_if_transport_ep(struct iscsi_transport *transport, struct iscsi_uevent *ev, int msg_type) { + return -ENOSYS; +#if 0 struct iscsi_endpoint *ep; struct sockaddr *dst_addr; int rc = 0; @@ -1345,6 +1349,8 @@ iscsi_if_transport_ep(struct iscsi_transport *transport, break; } return rc; + +#endif } static int @@ -1426,6 +1432,9 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) ev->u.c_session.queue_depth); break; case ISCSI_UEVENT_CREATE_BOUND_SESSION: + err = -ENOSYS; + break; +#if 0 ep = iscsi_lookup_endpoint(ev->u.c_bound_session.ep_handle); if (!ep) { err = -EINVAL; @@ -1437,6 +1446,7 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) ev->u.c_bound_session.cmds_max, ev->u.c_bound_session.queue_depth); break; +#endif case ISCSI_UEVENT_DESTROY_SESSION: session = iscsi_session_lookup(ev->u.d_session.sid); if (session) @@ -1519,55 +1529,70 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh) } /* - * Get message from skb. Each message is processed by iscsi_if_recv_msg. - * Malformed skbs with wrong lengths or invalid creds are not processed. + * Get message from skb (based on rtnetlink_rcv_skb). Each message is + * processed by iscsi_if_recv_msg. Malformed skbs with wrong lengths or + * invalid creds are discarded silently. */ static void -iscsi_if_rx(struct sk_buff *skb) +iscsi_if_rx(struct sock *sk, int len) { + struct sk_buff *skb; + mutex_lock(&rx_queue_mutex); - while (skb->len >= NLMSG_SPACE(0)) { - int err; - uint32_t rlen; - struct nlmsghdr *nlh; - struct iscsi_uevent *ev; - - nlh = nlmsg_hdr(skb); - if (nlh->nlmsg_len < sizeof(*nlh) || - skb->len < nlh->nlmsg_len) { - break; + while ((skb = skb_dequeue(&sk->sk_receive_queue)) != NULL) { + if (NETLINK_CREDS(skb)->uid) { + skb_pull(skb, skb->len); + goto free_skb; } - ev = NLMSG_DATA(nlh); - rlen = NLMSG_ALIGN(nlh->nlmsg_len); - if (rlen > skb->len) - rlen = skb->len; + while (skb->len >= NLMSG_SPACE(0)) { + int err; + uint32_t rlen; + struct nlmsghdr *nlh; + struct iscsi_uevent *ev; - err = iscsi_if_recv_msg(skb, nlh); - if (err) { - ev->type = ISCSI_KEVENT_IF_ERROR; - ev->iferror = err; - } - do { - /* - * special case for GET_STATS: - * on success - sending reply and stats from - * inside of if_recv_msg(), - * on error - fall through. - */ - if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + nlh = nlmsg_hdr(skb); + if (nlh->nlmsg_len < sizeof(*nlh) || + skb->len < nlh->nlmsg_len) { break; - err = iscsi_if_send_reply( - NETLINK_CREDS(skb)->pid, nlh->nlmsg_seq, - nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); - } while (err < 0 && err != -ECONNREFUSED); - skb_pull(skb, rlen); + } + + ev = NLMSG_DATA(nlh); + rlen = NLMSG_ALIGN(nlh->nlmsg_len); + if (rlen > skb->len) + rlen = skb->len; + + err = iscsi_if_recv_msg(skb, nlh); + if (err) { + ev->type = ISCSI_KEVENT_IF_ERROR; + ev->iferror = err; + } + do { + /* + * special case for GET_STATS: + * on success - sending reply and stats from + * inside of if_recv_msg(), + * on error - fall through. + */ + if (ev->type == ISCSI_UEVENT_GET_STATS && !err) + break; + err = iscsi_if_send_reply( + NETLINK_CREDS(skb)->pid, nlh->nlmsg_seq, + nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); + } while (err < 0 && err != -ECONNREFUSED); + skb_pull(skb, rlen); + } +free_skb: + kfree_skb(skb); } mutex_unlock(&rx_queue_mutex); } +#define iscsi_cdev_to_conn(_cdev) \ + iscsi_dev_to_conn(_cdev->dev) + #define ISCSI_CLASS_ATTR(_prefix,_name,_mode,_show,_store) \ -struct device_attribute dev_attr_##_prefix##_##_name = \ +struct class_device_attribute class_device_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) /* @@ -1575,10 +1600,9 @@ struct device_attribute dev_attr_##_prefix##_##_name = \ */ #define iscsi_conn_attr_show(param) \ static ssize_t \ -show_conn_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_conn_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_conn *conn = iscsi_dev_to_conn(dev->parent); \ + struct iscsi_cls_conn *conn = iscsi_cdev_to_conn(cdev); \ struct iscsi_transport *t = conn->transport; \ return t->get_conn_param(conn, param, buf); \ } @@ -1602,16 +1626,17 @@ iscsi_conn_attr(address, ISCSI_PARAM_CONN_ADDRESS); iscsi_conn_attr(ping_tmo, ISCSI_PARAM_PING_TMO); iscsi_conn_attr(recv_tmo, ISCSI_PARAM_RECV_TMO); +#define iscsi_cdev_to_session(_cdev) \ + iscsi_dev_to_session(_cdev->dev) + /* * iSCSI session attrs */ #define iscsi_session_attr_show(param, perm) \ static ssize_t \ -show_session_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_session_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); \ struct iscsi_transport *t = session->transport; \ \ if (perm && !capable(CAP_SYS_ADMIN)) \ @@ -1645,10 +1670,9 @@ iscsi_session_attr(ifacename, ISCSI_PARAM_IFACE_NAME, 0); iscsi_session_attr(initiatorname, ISCSI_PARAM_INITIATOR_NAME, 0) static ssize_t -show_priv_session_state(struct device *dev, struct device_attribute *attr, - char *buf) +show_priv_session_state(struct class_device *cdev, char *buf) { - struct iscsi_cls_session *session = iscsi_dev_to_session(dev->parent); + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); return sprintf(buf, "%s\n", iscsi_session_state_name(session->state)); } static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, @@ -1656,11 +1680,9 @@ static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, #define iscsi_priv_session_attr_show(field, format) \ static ssize_t \ -show_priv_session_##field(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_priv_session_##field(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev);\ return sprintf(buf, format"\n", session->field); \ } @@ -1675,10 +1697,9 @@ iscsi_priv_session_attr(recovery_tmo, "%d"); */ #define iscsi_host_attr_show(param) \ static ssize_t \ -show_host_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_host_param_##param(struct class_device *cdev, char *buf) \ { \ - struct Scsi_Host *shost = transport_class_to_shost(dev); \ + struct Scsi_Host *shost = transport_class_to_shost(cdev); \ struct iscsi_internal *priv = to_iscsi_internal(shost->transportt); \ return priv->iscsi_transport->get_host_param(shost, param, buf); \ } @@ -1695,7 +1716,7 @@ iscsi_host_attr(initiatorname, ISCSI_HOST_PARAM_INITIATOR_NAME); #define SETUP_PRIV_SESSION_RD_ATTR(field) \ do { \ - priv->session_attrs[count] = &dev_attr_priv_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_priv_sess_##field; \ count++; \ } while (0) @@ -1703,7 +1724,7 @@ do { \ #define SETUP_SESSION_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->session_attrs[count] = &dev_attr_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_sess_##field; \ count++; \ } \ } while (0) @@ -1711,7 +1732,7 @@ do { \ #define SETUP_CONN_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->conn_attrs[count] = &dev_attr_conn_##field; \ + priv->conn_attrs[count] = &class_device_attr_conn_##field; \ count++; \ } \ } while (0) @@ -1719,7 +1740,7 @@ do { \ #define SETUP_HOST_RD_ATTR(field, param_flag) \ do { \ if (tt->host_param_mask & param_flag) { \ - priv->host_attrs[count] = &dev_attr_host_##field; \ + priv->host_attrs[count] = &class_device_attr_host_##field; \ count++; \ } \ } while (0) @@ -1812,15 +1833,15 @@ iscsi_register_transport(struct iscsi_transport *tt) if (!(tt->caps & CAP_DATA_PATH_OFFLOAD)) priv->t.create_work_queue = 1; - priv->dev.class = &iscsi_transport_class; - dev_set_name(&priv->dev, "%s", tt->name); - err = device_register(&priv->dev); + priv->cdev.class = &iscsi_transport_class; + snprintf(priv->cdev.class_id, BUS_ID_SIZE, "%s", tt->name); + err = class_device_register(&priv->cdev); if (err) goto free_priv; - err = sysfs_create_group(&priv->dev.kobj, &iscsi_transport_group); + err = sysfs_create_group(&priv->cdev.kobj, &iscsi_transport_group); if (err) - goto unregister_dev; + goto unregister_cdev; /* host parameters */ priv->t.host_attrs.ac.attrs = &priv->host_attrs[0]; @@ -1899,9 +1920,8 @@ iscsi_register_transport(struct iscsi_transport *tt) printk(KERN_NOTICE "iscsi: registered transport (%s)\n", tt->name); return &priv->t; -unregister_dev: - device_unregister(&priv->dev); - return NULL; +unregister_cdev: + class_device_unregister(&priv->cdev); free_priv: kfree(priv); return NULL; @@ -1928,8 +1948,8 @@ int iscsi_unregister_transport(struct iscsi_transport *tt) transport_container_unregister(&priv->session_cont); transport_container_unregister(&priv->t.host_attrs); - sysfs_remove_group(&priv->dev.kobj, &iscsi_transport_group); - device_unregister(&priv->dev); + sysfs_remove_group(&priv->cdev.kobj, &iscsi_transport_group); + class_device_unregister(&priv->cdev); mutex_unlock(&rx_queue_mutex); return 0; @@ -1949,13 +1969,14 @@ static __init int iscsi_transport_init(void) if (err) return err; +#if 0 err = class_register(&iscsi_endpoint_class); if (err) goto unregister_transport_class; - +#endif err = transport_class_register(&iscsi_host_class); if (err) - goto unregister_endpoint_class; + goto unregister_transport_class; err = transport_class_register(&iscsi_connection_class); if (err) @@ -1986,8 +2007,10 @@ unregister_conn_class: transport_class_unregister(&iscsi_connection_class); unregister_host_class: transport_class_unregister(&iscsi_host_class); +#if 0 unregister_endpoint_class: class_unregister(&iscsi_endpoint_class); +#endif unregister_transport_class: class_unregister(&iscsi_transport_class); return err; @@ -2000,7 +2023,9 @@ static void __exit iscsi_transport_exit(void) transport_class_unregister(&iscsi_connection_class); transport_class_unregister(&iscsi_session_class); transport_class_unregister(&iscsi_host_class); +#if 0 class_unregister(&iscsi_endpoint_class); +#endif class_unregister(&iscsi_transport_class); } diff --git a/scsi_transport_iscsi.h b/scsi_transport_iscsi.h index 27d067a..41a54c8 100644 --- a/scsi_transport_iscsi.h +++ b//scsi_transport_iscsi.h @@ -28,6 +28,8 @@ #include #include "iscsi_if.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct iscsi_transport; struct iscsi_endpoint; -- 1.6.0.4 open-iscsi-2.0.874/kernel/2.6.24_compat.patch000066400000000000000000001076031277325716400203670ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 2a401b9..bb027e4 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -43,6 +43,7 @@ #include #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " @@ -480,11 +481,9 @@ static int iscsi_sw_tcp_pdu_init(struct iscsi_task *task, if (!task->sc) iscsi_sw_tcp_send_linear_data_prep(conn, task->data, count); else { - struct scsi_data_buffer *sdb = scsi_out(task->sc); - - err = iscsi_sw_tcp_send_data_prep(conn, sdb->table.sgl, - sdb->table.nents, offset, - count); + err = iscsi_sw_tcp_send_data_prep(conn, scsi_sglist(task->sc), + scsi_sg_count(task->sc), + offset, count); } if (err) { @@ -821,7 +820,11 @@ iscsi_sw_tcp_session_create(struct iscsi_endpoint *ep, uint16_t cmds_max, shost->max_lun = iscsi_max_lun; shost->max_id = 0; shost->max_channel = 0; +#ifndef SCSI_MAX_VARLEN_CDB_SIZE + shost->max_cmd_len = 16; +#else shost->max_cmd_len = SCSI_MAX_VARLEN_CDB_SIZE; +#endif if (iscsi_host_add(shost, NULL)) goto free_host; @@ -874,6 +877,9 @@ static int iscsi_sw_tcp_slave_configure(struct scsi_device *sdev) } static struct scsi_host_template iscsi_sw_tcp_sht = { +#if LINUX_VERSION_CODE == KERNEL_VERSION(2,6,24) + .use_sg_chaining = ENABLE_SG_CHAINING, +#endif .module = THIS_MODULE, .name = "iSCSI Initiator over TCP/IP", .queuecommand = iscsi_queuecommand, @@ -884,7 +890,7 @@ static struct scsi_host_template iscsi_sw_tcp_sht = { .cmd_per_lun = ISCSI_DEF_CMD_PER_LUN, .eh_abort_handler = iscsi_eh_abort, .eh_device_reset_handler= iscsi_eh_device_reset, - .eh_target_reset_handler = iscsi_eh_recover_target, + .eh_host_reset_handler = iscsi_eh_recover_target, .use_clustering = DISABLE_CLUSTERING, .slave_alloc = iscsi_sw_tcp_slave_alloc, .slave_configure = iscsi_sw_tcp_slave_configure, diff --git a/iscsi_tcp.h b/iscsi_tcp.h index 2a1cf23..32d7edd 100644 --- a/iscsi_tcp.h +++ b/iscsi_tcp.h @@ -22,6 +22,8 @@ #ifndef ISCSI_SW_TCP_H #define ISCSI_SW_TCP_H +#include "open_iscsi_compat.h" + #include "libiscsi.h" #include "libiscsi_tcp.h" diff --git a/libiscsi.c b/libiscsi.c index 59e3a5f..1c8d00d 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -84,6 +84,8 @@ MODULE_PARM_DESC(debug_libiscsi_eh, __func__, ##arg); \ } while (0); +#include "open_iscsi_compat.h" + /* Serial Number Arithmetic, 32 bits, less than, RFC1982 */ #define SNA32_CHECK 2147483648UL @@ -256,7 +258,7 @@ static int iscsi_prep_bidi_ahs(struct iscsi_task *task) sizeof(rlen_ahdr->reserved)); rlen_ahdr->ahstype = ISCSI_AHSTYPE_RLENGTH; rlen_ahdr->reserved = 0; - rlen_ahdr->read_length = cpu_to_be32(scsi_in(sc)->length); + rlen_ahdr->read_length = cpu_to_be32(scsi_bufflen(sc)); ISCSI_DBG_SESSION(task->conn->session, "bidi-in rlen_ahdr->read_length(%d) " @@ -411,7 +413,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) return rc; } if (sc->sc_data_direction == DMA_TO_DEVICE) { - unsigned out_len = scsi_out(sc)->length; + unsigned out_len = scsi_bufflen(sc); struct iscsi_r2t_info *r2t = &task->unsol_r2t; hdr->data_length = cpu_to_be32(out_len); @@ -457,7 +459,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) } else { hdr->flags |= ISCSI_FLAG_CMD_FINAL; zero_data(hdr->dlength); - hdr->data_length = cpu_to_be32(scsi_in(sc)->length); + hdr->data_length = cpu_to_be32(scsi_bufflen(sc)); if (sc->sc_data_direction == DMA_FROM_DEVICE) hdr->flags |= ISCSI_FLAG_CMD_READ; @@ -486,7 +488,7 @@ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) sc->sc_data_direction == DMA_TO_DEVICE ? "write" : "read", conn->id, sc, sc->cmnd[0], task->itt, scsi_bufflen(sc), - scsi_bidi_cmnd(sc) ? scsi_in(sc)->length : 0, + scsi_bidi_cmnd(sc) ? scsi_bufflen(sc) : 0, session->cmdsn, session->max_cmdsn - session->exp_cmdsn + 1); return 0; @@ -518,7 +520,7 @@ static void iscsi_free_task(struct iscsi_task *task) if (conn->login_task == task) return; - kfifo_in(&session->cmdpool.queue, (void*)&task, sizeof(void*)); + __kfifo_put(session->cmdpool.queue, (void*)&task, sizeof(void*)); if (sc) { task->sc = NULL; @@ -648,12 +650,7 @@ static void fail_scsi_task(struct iscsi_task *task, int err) state = ISCSI_TASK_ABRT_TMF; sc->result = err << 16; - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); iscsi_complete_task(task, state); } @@ -738,7 +735,7 @@ __iscsi_conn_send_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, BUG_ON(conn->c_stage == ISCSI_CONN_INITIAL_STAGE); BUG_ON(conn->c_stage == ISCSI_CONN_STOPPED); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&task, sizeof(void*))) return NULL; } @@ -853,7 +850,7 @@ invalid_datalen: goto out; } - senselen = get_unaligned_be16(data); + senselen = be16_to_cpu(get_unaligned((__be16 *) data)); if (datalen < senselen) goto invalid_datalen; @@ -870,8 +867,8 @@ invalid_datalen: if (scsi_bidi_cmnd(sc) && res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_BIDI_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -920,8 +917,8 @@ iscsi_data_in_rsp(struct iscsi_conn *conn, struct iscsi_hdr *hdr, if (res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_OVERFLOW || - res_count <= scsi_in(sc)->length)) - scsi_in(sc)->resid = res_count; + res_count <= scsi_bufflen(sc))) + scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } @@ -1568,7 +1565,7 @@ static inline struct iscsi_task *iscsi_alloc_task(struct iscsi_conn *conn, { struct iscsi_task *task; - if (!kfifo_out(&conn->session->cmdpool.queue, + if (!__kfifo_get(conn->session->cmdpool.queue, (void *) &task, sizeof(void *))) return NULL; @@ -1726,33 +1723,16 @@ fault: spin_unlock(&session->lock); ISCSI_DBG_SESSION(session, "iscsi: cmd 0x%x is not queued (%d)\n", sc->cmnd[0], reason); - if (!scsi_bidi_cmnd(sc)) - scsi_set_resid(sc, scsi_bufflen(sc)); - else { - scsi_out(sc)->resid = scsi_out(sc)->length; - scsi_in(sc)->resid = scsi_in(sc)->length; - } + scsi_set_resid(sc, scsi_bufflen(sc)); done(sc); spin_lock(host->host_lock); return 0; } EXPORT_SYMBOL_GPL(iscsi_queuecommand); -int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, int reason) +int iscsi_change_queue_depth(struct scsi_device *sdev, int depth) { - switch (reason) { - case SCSI_QDEPTH_DEFAULT: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - case SCSI_QDEPTH_QFULL: - scsi_track_queue_full(sdev, depth); - break; - case SCSI_QDEPTH_RAMP_UP: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - default: - return -EOPNOTSUPP; - } + scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); return sdev->queue_depth; } EXPORT_SYMBOL_GPL(iscsi_change_queue_depth); @@ -2524,7 +2504,12 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) if (q->pool == NULL) return -ENOMEM; - kfifo_init(&q->queue, (void*)q->pool, max * sizeof(void*)); + q->queue = kfifo_init((void*)q->pool, max * sizeof(void*), + GFP_KERNEL, NULL); + if (IS_ERR(q->queue)) { + q->queue = NULL; + goto enomem; + } for (i = 0; i < max; i++) { q->pool[i] = kzalloc(item_size, GFP_KERNEL); @@ -2532,7 +2517,7 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) q->max = i; goto enomem; } - kfifo_in(&q->queue, (void*)&q->pool[i], sizeof(void*)); + __kfifo_put(q->queue, (void*)&q->pool[i], sizeof(void*)); } if (items) { @@ -2555,6 +2540,7 @@ void iscsi_pool_free(struct iscsi_pool *q) for (i = 0; i < q->max; i++) kfree(q->pool[i]); kfree(q->pool); + kfree(q->queue); } EXPORT_SYMBOL_GPL(iscsi_pool_free); @@ -2882,7 +2868,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*))) { spin_unlock_bh(&session->lock); @@ -2902,7 +2888,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, return cls_conn; login_task_data_alloc_fail: - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); login_task_alloc_fail: iscsi_destroy_conn(cls_conn); @@ -2965,7 +2951,7 @@ void iscsi_conn_teardown(struct iscsi_cls_conn *cls_conn) free_pages((unsigned long) conn->data, get_order(ISCSI_DEF_MAX_RECV_SEG_LEN)); kfree(conn->persistent_address); - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); if (session->leadconn == conn) session->leadconn = NULL; diff --git a/libiscsi.h b/libiscsi.h index 0563539..d74385c 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -32,6 +32,8 @@ #include "iscsi_if.h" #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct scsi_host_template; struct scsi_device; @@ -231,7 +233,7 @@ struct iscsi_conn { }; struct iscsi_pool { - struct kfifo queue; /* FIFO Queue */ + struct kfifo *queue; /* FIFO Queue */ void **pool; /* Pool of elements */ int max; /* Max number of elements */ }; @@ -334,8 +336,7 @@ struct iscsi_host { /* * scsi host template */ -extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, - int reason); +extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth); extern int iscsi_eh_abort(struct scsi_cmnd *sc); extern int iscsi_eh_recover_target(struct scsi_cmnd *sc); extern int iscsi_eh_session_reset(struct scsi_cmnd *sc); diff --git a/libiscsi_tcp.c b/libiscsi_tcp.c index 1122de4..a0307e1 100644 --- a/libiscsi_tcp.c +++ b/libiscsi_tcp.c @@ -361,6 +361,16 @@ iscsi_segment_seek_sg(struct iscsi_segment *segment, struct scatterlist *sg; unsigned int i; + /* + * older kernels could send use_sg=0 for commands like sgio + * or scsi-ml commands. + */ + if (!sg_count) { + iscsi_segment_init_linear(segment, (void *)sg_list + offset, + size, done, hash); + return 0; + } + __iscsi_segment_init(segment, size, done, hash); for_each_sg(sg_list, sg, sg_count, i) { if (offset < sg->length) { @@ -446,15 +456,15 @@ void iscsi_tcp_cleanup_task(struct iscsi_task *task) return; /* flush task's r2t queues */ - while (kfifo_out(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + while (__kfifo_get(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); ISCSI_DBG_TCP(task->conn, "pending r2t dropped\n"); } r2t = tcp_task->r2t; if (r2t != NULL) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); tcp_task->r2t = NULL; } @@ -472,7 +482,7 @@ static int iscsi_tcp_data_in(struct iscsi_conn *conn, struct iscsi_task *task) struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_data_rsp *rhdr = (struct iscsi_data_rsp *)tcp_conn->in.hdr; int datasn = be32_to_cpu(rhdr->datasn); - unsigned total_in_length = scsi_in(task->sc)->length; + unsigned total_in_length = scsi_bufflen(task->sc); /* * lib iscsi will update this in the completion handling if there @@ -542,7 +552,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) return 0; } - rc = kfifo_out(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); + rc = __kfifo_get(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); if (!rc) { iscsi_conn_printk(KERN_ERR, conn, "Could not allocate R2T. " "Target has sent more R2Ts than it " @@ -555,7 +565,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) if (r2t->data_length == 0) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with zero data len\n"); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -566,12 +576,12 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->data_length, session->max_burst); r2t->data_offset = be32_to_cpu(rhdr->data_offset); - if (r2t->data_offset + r2t->data_length > scsi_out(task->sc)->length) { + if (r2t->data_offset + r2t->data_length > scsi_bufflen(task->sc)) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, - r2t->data_offset, scsi_out(task->sc)->length); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + r2t->data_offset, scsi_bufflen(task->sc)); + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -581,7 +591,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->sent = 0; tcp_task->exp_datasn = r2tsn + 1; - kfifo_in(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); + __kfifo_put(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); conn->r2t_pdus_cnt++; iscsi_requeue_task(task); @@ -669,7 +679,6 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) if (tcp_conn->in.datalen) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct hash_desc *rx_hash = NULL; - struct scsi_data_buffer *sdb = scsi_in(task->sc); /* * Setup copy of Data-In into the Scsi_Cmnd @@ -689,8 +698,8 @@ iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) tcp_conn->in.datalen); task->last_xfer = jiffies; rc = iscsi_segment_seek_sg(&tcp_conn->in.segment, - sdb->table.sgl, - sdb->table.nents, + scsi_sglist(task->sc), + scsi_sg_count(task->sc), tcp_task->data_offset, tcp_conn->in.datalen, iscsi_tcp_process_data_in, @@ -952,7 +961,7 @@ int iscsi_tcp_task_init(struct iscsi_task *task) return conn->session->tt->init_pdu(task, 0, task->data_count); } - BUG_ON(kfifo_len(&tcp_task->r2tqueue)); + BUG_ON(__kfifo_len(tcp_task->r2tqueue)); tcp_task->exp_datasn = 0; /* Prepare PDU, optionally w/ immediate data */ @@ -983,7 +992,7 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) if (r2t->data_length <= r2t->sent) { ISCSI_DBG_TCP(task->conn, " done with r2t %p\n", r2t); - kfifo_in(&tcp_task->r2tpool.queue, + __kfifo_put(tcp_task->r2tpool.queue, (void *)&tcp_task->r2t, sizeof(void *)); tcp_task->r2t = r2t = NULL; @@ -991,12 +1000,9 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) } if (r2t == NULL) { - if (kfifo_out(&tcp_task->r2tqueue, - (void *)&tcp_task->r2t, sizeof(void *)) != - sizeof(void *)) - r2t = NULL; - else - r2t = tcp_task->r2t; + __kfifo_get(tcp_task->r2tqueue, + (void *)&tcp_task->r2t, sizeof(void *)); + r2t = tcp_task->r2t; } spin_unlock_bh(&session->lock); } @@ -1131,8 +1137,9 @@ int iscsi_tcp_r2tpool_alloc(struct iscsi_session *session) } /* R2T xmit queue */ - if (kfifo_alloc(&tcp_task->r2tqueue, - session->max_r2t * 4 * sizeof(void*), GFP_KERNEL)) { + tcp_task->r2tqueue = kfifo_alloc( + session->max_r2t * 4 * sizeof(void*), GFP_KERNEL, NULL); + if (tcp_task->r2tqueue == ERR_PTR(-ENOMEM)) { iscsi_pool_free(&tcp_task->r2tpool); goto r2t_alloc_fail; } @@ -1145,7 +1152,7 @@ r2t_alloc_fail: struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } return -ENOMEM; @@ -1160,7 +1167,7 @@ void iscsi_tcp_r2tpool_free(struct iscsi_session *session) struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } } diff --git a/libiscsi_tcp.h b/libiscsi_tcp.h index c020eee..5ea284d 100644 --- a/libiscsi_tcp.h +++ b/libiscsi_tcp.h @@ -21,6 +21,7 @@ #ifndef LIBISCSI_TCP_H #define LIBISCSI_TCP_H +#include "open_iscsi_compat.h" #include "libiscsi.h" struct iscsi_tcp_conn; @@ -80,7 +81,7 @@ struct iscsi_tcp_task { int data_offset; struct iscsi_r2t_info *r2t; /* in progress solict R2T */ struct iscsi_pool r2tpool; - struct kfifo r2tqueue; + struct kfifo *r2tqueue; void *dd_data; }; diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..50ab84d --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,276 @@ +#include +#include +#include +#include + +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} + +int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) + +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, input) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,34) + +static inline wait_queue_head_t *sk_sleep(struct sock *sk) +{ + return sk->sk_sleep; +} + +#endif + +#endif diff --git a/scsi_transport_iscsi.c b/scsi_transport_iscsi.c index fed8c9e..01bf46c 100644 --- a/scsi_transport_iscsi.c +++ b/scsi_transport_iscsi.c @@ -73,13 +73,13 @@ struct iscsi_internal { struct scsi_transport_template t; struct iscsi_transport *iscsi_transport; struct list_head list; - struct device dev; + struct class_device cdev; - struct device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; + struct class_device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; struct transport_container conn_cont; - struct device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; + struct class_device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; struct transport_container session_cont; - struct device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; + struct class_device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; }; static atomic_t iscsi_session_nr; /* sysfs session id for next new session */ @@ -96,12 +96,12 @@ static DEFINE_SPINLOCK(iscsi_transport_lock); #define to_iscsi_internal(tmpl) \ container_of(tmpl, struct iscsi_internal, t) -#define dev_to_iscsi_internal(_dev) \ - container_of(_dev, struct iscsi_internal, dev) +#define cdev_to_iscsi_internal(_cdev) \ + container_of(_cdev, struct iscsi_internal, cdev) -static void iscsi_transport_release(struct device *dev) +static void iscsi_transport_release(struct class_device *cdev) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); kfree(priv); } @@ -111,33 +111,31 @@ static void iscsi_transport_release(struct device *dev) */ static struct class iscsi_transport_class = { .name = "iscsi_transport", - .dev_release = iscsi_transport_release, + .release = iscsi_transport_release, }; static ssize_t -show_transport_handle(struct device *dev, struct device_attribute *attr, - char *buf) +show_transport_handle(struct class_device *cdev, char *buf) { - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); return sprintf(buf, "%llu\n", (unsigned long long)iscsi_handle(priv->iscsi_transport)); } -static DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); +static CLASS_DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); #define show_transport_attr(name, format) \ static ssize_t \ -show_transport_##name(struct device *dev, \ - struct device_attribute *attr,char *buf) \ +show_transport_##name(struct class_device *cdev, char *buf) \ { \ - struct iscsi_internal *priv = dev_to_iscsi_internal(dev); \ + struct iscsi_internal *priv = cdev_to_iscsi_internal(cdev); \ return sprintf(buf, format"\n", priv->iscsi_transport->name); \ } \ -static DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); +static CLASS_DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); show_transport_attr(caps, "0x%x"); static struct attribute *iscsi_transport_attrs[] = { - &dev_attr_handle.attr, - &dev_attr_caps.attr, + &class_device_attr_handle.attr, + &class_device_attr_caps.attr, NULL, }; @@ -145,6 +143,7 @@ static struct attribute_group iscsi_transport_group = { .attrs = iscsi_transport_attrs, }; +#if 0 /* * iSCSI endpoint attrs */ @@ -268,9 +267,10 @@ struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle) return ep; } EXPORT_SYMBOL_GPL(iscsi_lookup_endpoint); +#endif static int iscsi_setup_host(struct transport_container *tc, struct device *dev, - struct device *cdev) + struct class_device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; @@ -750,7 +750,8 @@ int iscsi_add_session(struct iscsi_cls_session *session, unsigned int target_id) } session->target_id = id; - dev_set_name(&session->dev, "session%u", session->sid); + snprintf(session->dev.bus_id, BUS_ID_SIZE, "session%u", + session->sid); err = device_add(&session->dev); if (err) { iscsi_cls_session_printk(KERN_ERR, session, @@ -930,7 +931,8 @@ iscsi_create_conn(struct iscsi_cls_session *session, int dd_size, uint32_t cid) if (!get_device(&session->dev)) goto free_conn; - dev_set_name(&conn->dev, "connection%d:%u", session->sid, cid); + snprintf(conn->dev.bus_id, BUS_ID_SIZE, "connection%d:%u", + session->sid, cid); conn->dev.parent = &session->dev; conn->dev.release = iscsi_conn_release; err = device_register(&conn->dev); @@ -1402,6 +1404,8 @@ static int iscsi_if_transport_ep(struct iscsi_transport *transport, struct iscsi_uevent *ev, int msg_type) { + return -ENOSYS; +#if 0 struct iscsi_endpoint *ep; int rc = 0; @@ -1433,6 +1437,8 @@ iscsi_if_transport_ep(struct iscsi_transport *transport, break; } return rc; + +#endif } static int @@ -1541,6 +1547,9 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh, uint32_t *group) ev->u.c_session.queue_depth); break; case ISCSI_UEVENT_CREATE_BOUND_SESSION: + err = -ENOSYS; + break; +#if 0 ep = iscsi_lookup_endpoint(ev->u.c_bound_session.ep_handle); if (!ep) { err = -EINVAL; @@ -1552,6 +1561,7 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh, uint32_t *group) ev->u.c_bound_session.cmds_max, ev->u.c_bound_session.queue_depth); break; +#endif case ISCSI_UEVENT_DESTROY_SESSION: session = iscsi_session_lookup(ev->u.d_session.sid); if (session) @@ -1686,8 +1696,11 @@ iscsi_if_rx(struct sk_buff *skb) mutex_unlock(&rx_queue_mutex); } +#define iscsi_cdev_to_conn(_cdev) \ + iscsi_dev_to_conn(_cdev->dev) + #define ISCSI_CLASS_ATTR(_prefix,_name,_mode,_show,_store) \ -struct device_attribute dev_attr_##_prefix##_##_name = \ +struct class_device_attribute class_device_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) /* @@ -1695,10 +1708,9 @@ struct device_attribute dev_attr_##_prefix##_##_name = \ */ #define iscsi_conn_attr_show(param) \ static ssize_t \ -show_conn_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_conn_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_conn *conn = iscsi_dev_to_conn(dev->parent); \ + struct iscsi_cls_conn *conn = iscsi_cdev_to_conn(cdev); \ struct iscsi_transport *t = conn->transport; \ return t->get_conn_param(conn, param, buf); \ } @@ -1722,16 +1734,17 @@ iscsi_conn_attr(address, ISCSI_PARAM_CONN_ADDRESS); iscsi_conn_attr(ping_tmo, ISCSI_PARAM_PING_TMO); iscsi_conn_attr(recv_tmo, ISCSI_PARAM_RECV_TMO); +#define iscsi_cdev_to_session(_cdev) \ + iscsi_dev_to_session(_cdev->dev) + /* * iSCSI session attrs */ #define iscsi_session_attr_show(param, perm) \ static ssize_t \ -show_session_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_session_param_##param(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); \ struct iscsi_transport *t = session->transport; \ \ if (perm && !capable(CAP_SYS_ADMIN)) \ @@ -1766,10 +1779,9 @@ iscsi_session_attr(ifacename, ISCSI_PARAM_IFACE_NAME, 0); iscsi_session_attr(initiatorname, ISCSI_PARAM_INITIATOR_NAME, 0) static ssize_t -show_priv_session_state(struct device *dev, struct device_attribute *attr, - char *buf) +show_priv_session_state(struct class_device *cdev, char *buf) { - struct iscsi_cls_session *session = iscsi_dev_to_session(dev->parent); + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev); return sprintf(buf, "%s\n", iscsi_session_state_name(session->state)); } static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, @@ -1777,11 +1789,9 @@ static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, #define iscsi_priv_session_attr_show(field, format) \ static ssize_t \ -show_priv_session_##field(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_priv_session_##field(struct class_device *cdev, char *buf) \ { \ - struct iscsi_cls_session *session = \ - iscsi_dev_to_session(dev->parent); \ + struct iscsi_cls_session *session = iscsi_cdev_to_session(cdev);\ return sprintf(buf, format"\n", session->field); \ } @@ -1796,10 +1806,9 @@ iscsi_priv_session_attr(recovery_tmo, "%d"); */ #define iscsi_host_attr_show(param) \ static ssize_t \ -show_host_param_##param(struct device *dev, \ - struct device_attribute *attr, char *buf) \ +show_host_param_##param(struct class_device *cdev, char *buf) \ { \ - struct Scsi_Host *shost = transport_class_to_shost(dev); \ + struct Scsi_Host *shost = transport_class_to_shost(cdev); \ struct iscsi_internal *priv = to_iscsi_internal(shost->transportt); \ return priv->iscsi_transport->get_host_param(shost, param, buf); \ } @@ -1816,7 +1825,7 @@ iscsi_host_attr(initiatorname, ISCSI_HOST_PARAM_INITIATOR_NAME); #define SETUP_PRIV_SESSION_RD_ATTR(field) \ do { \ - priv->session_attrs[count] = &dev_attr_priv_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_priv_sess_##field; \ count++; \ } while (0) @@ -1824,7 +1833,7 @@ do { \ #define SETUP_SESSION_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->session_attrs[count] = &dev_attr_sess_##field; \ + priv->session_attrs[count] = &class_device_attr_sess_##field; \ count++; \ } \ } while (0) @@ -1832,7 +1841,7 @@ do { \ #define SETUP_CONN_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ - priv->conn_attrs[count] = &dev_attr_conn_##field; \ + priv->conn_attrs[count] = &class_device_attr_conn_##field; \ count++; \ } \ } while (0) @@ -1840,7 +1849,7 @@ do { \ #define SETUP_HOST_RD_ATTR(field, param_flag) \ do { \ if (tt->host_param_mask & param_flag) { \ - priv->host_attrs[count] = &dev_attr_host_##field; \ + priv->host_attrs[count] = &class_device_attr_host_##field; \ count++; \ } \ } while (0) @@ -1931,15 +1940,15 @@ iscsi_register_transport(struct iscsi_transport *tt) priv->t.user_scan = iscsi_user_scan; priv->t.create_work_queue = 1; - priv->dev.class = &iscsi_transport_class; - dev_set_name(&priv->dev, "%s", tt->name); - err = device_register(&priv->dev); + priv->cdev.class = &iscsi_transport_class; + snprintf(priv->cdev.class_id, BUS_ID_SIZE, "%s", tt->name); + err = class_device_register(&priv->cdev); if (err) goto free_priv; - err = sysfs_create_group(&priv->dev.kobj, &iscsi_transport_group); + err = sysfs_create_group(&priv->cdev.kobj, &iscsi_transport_group); if (err) - goto unregister_dev; + goto unregister_cdev; /* host parameters */ priv->t.host_attrs.ac.attrs = &priv->host_attrs[0]; @@ -2019,9 +2028,8 @@ iscsi_register_transport(struct iscsi_transport *tt) printk(KERN_NOTICE "iscsi: registered transport (%s)\n", tt->name); return &priv->t; -unregister_dev: - device_unregister(&priv->dev); - return NULL; +unregister_cdev: + class_device_unregister(&priv->cdev); free_priv: kfree(priv); return NULL; @@ -2048,8 +2056,8 @@ int iscsi_unregister_transport(struct iscsi_transport *tt) transport_container_unregister(&priv->session_cont); transport_container_unregister(&priv->t.host_attrs); - sysfs_remove_group(&priv->dev.kobj, &iscsi_transport_group); - device_unregister(&priv->dev); + sysfs_remove_group(&priv->cdev.kobj, &iscsi_transport_group); + class_device_unregister(&priv->cdev); mutex_unlock(&rx_queue_mutex); return 0; @@ -2069,13 +2077,14 @@ static __init int iscsi_transport_init(void) if (err) return err; +#if 0 err = class_register(&iscsi_endpoint_class); if (err) goto unregister_transport_class; - +#endif err = transport_class_register(&iscsi_host_class); if (err) - goto unregister_endpoint_class; + goto unregister_transport_class; err = transport_class_register(&iscsi_connection_class); if (err) @@ -2106,8 +2115,10 @@ unregister_conn_class: transport_class_unregister(&iscsi_connection_class); unregister_host_class: transport_class_unregister(&iscsi_host_class); +#if 0 unregister_endpoint_class: class_unregister(&iscsi_endpoint_class); +#endif unregister_transport_class: class_unregister(&iscsi_transport_class); return err; @@ -2120,7 +2131,9 @@ static void __exit iscsi_transport_exit(void) transport_class_unregister(&iscsi_connection_class); transport_class_unregister(&iscsi_session_class); transport_class_unregister(&iscsi_host_class); +#if 0 class_unregister(&iscsi_endpoint_class); +#endif class_unregister(&iscsi_transport_class); } diff --git a/scsi_transport_iscsi.h b/scsi_transport_iscsi.h index ef4b697..d62fd13 100644 --- a/scsi_transport_iscsi.h +++ b/scsi_transport_iscsi.h @@ -28,6 +28,8 @@ #include #include "iscsi_if.h" +#include "open_iscsi_compat.h" + struct scsi_transport_template; struct iscsi_transport; struct iscsi_endpoint; -- 1.6.6.1 open-iscsi-2.0.874/kernel/2.6.26_compat.patch000066400000000000000000000447001277325716400203670ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 2a401b9..197d314 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -43,6 +43,7 @@ #include #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " diff --git a/libiscsi.c b/libiscsi.c index 59e3a5f..d0e41d9 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -39,6 +39,8 @@ #include "scsi_transport_iscsi.h" #include "libiscsi.h" +#include "open_iscsi_compat.h" + static int iscsi_dbg_lib_conn; module_param_named(debug_libiscsi_conn, iscsi_dbg_lib_conn, int, S_IRUGO | S_IWUSR); @@ -518,7 +520,7 @@ static void iscsi_free_task(struct iscsi_task *task) if (conn->login_task == task) return; - kfifo_in(&session->cmdpool.queue, (void*)&task, sizeof(void*)); + __kfifo_put(session->cmdpool.queue, (void*)&task, sizeof(void*)); if (sc) { task->sc = NULL; @@ -738,7 +740,7 @@ __iscsi_conn_send_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, BUG_ON(conn->c_stage == ISCSI_CONN_INITIAL_STAGE); BUG_ON(conn->c_stage == ISCSI_CONN_STOPPED); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&task, sizeof(void*))) return NULL; } @@ -1568,7 +1570,7 @@ static inline struct iscsi_task *iscsi_alloc_task(struct iscsi_conn *conn, { struct iscsi_task *task; - if (!kfifo_out(&conn->session->cmdpool.queue, + if (!__kfifo_get(conn->session->cmdpool.queue, (void *) &task, sizeof(void *))) return NULL; @@ -1738,21 +1740,9 @@ fault: } EXPORT_SYMBOL_GPL(iscsi_queuecommand); -int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, int reason) +int iscsi_change_queue_depth(struct scsi_device *sdev, int depth) { - switch (reason) { - case SCSI_QDEPTH_DEFAULT: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - case SCSI_QDEPTH_QFULL: - scsi_track_queue_full(sdev, depth); - break; - case SCSI_QDEPTH_RAMP_UP: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - default: - return -EOPNOTSUPP; - } + scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); return sdev->queue_depth; } EXPORT_SYMBOL_GPL(iscsi_change_queue_depth); @@ -2524,7 +2514,12 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) if (q->pool == NULL) return -ENOMEM; - kfifo_init(&q->queue, (void*)q->pool, max * sizeof(void*)); + q->queue = kfifo_init((void*)q->pool, max * sizeof(void*), + GFP_KERNEL, NULL); + if (IS_ERR(q->queue)) { + q->queue = NULL; + goto enomem; + } for (i = 0; i < max; i++) { q->pool[i] = kzalloc(item_size, GFP_KERNEL); @@ -2532,7 +2527,7 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) q->max = i; goto enomem; } - kfifo_in(&q->queue, (void*)&q->pool[i], sizeof(void*)); + __kfifo_put(q->queue, (void*)&q->pool[i], sizeof(void*)); } if (items) { @@ -2555,6 +2550,7 @@ void iscsi_pool_free(struct iscsi_pool *q) for (i = 0; i < q->max; i++) kfree(q->pool[i]); kfree(q->pool); + kfree(q->queue); } EXPORT_SYMBOL_GPL(iscsi_pool_free); @@ -2882,7 +2878,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*))) { spin_unlock_bh(&session->lock); @@ -2902,7 +2898,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, return cls_conn; login_task_data_alloc_fail: - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); login_task_alloc_fail: iscsi_destroy_conn(cls_conn); @@ -2965,7 +2961,7 @@ void iscsi_conn_teardown(struct iscsi_cls_conn *cls_conn) free_pages((unsigned long) conn->data, get_order(ISCSI_DEF_MAX_RECV_SEG_LEN)); kfree(conn->persistent_address); - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); if (session->leadconn == conn) session->leadconn = NULL; diff --git a/libiscsi.h b/libiscsi.h index 0563539..4be9333 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -231,7 +231,7 @@ struct iscsi_conn { }; struct iscsi_pool { - struct kfifo queue; /* FIFO Queue */ + struct kfifo *queue; /* FIFO Queue */ void **pool; /* Pool of elements */ int max; /* Max number of elements */ }; @@ -334,8 +334,7 @@ struct iscsi_host { /* * scsi host template */ -extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, - int reason); +extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth); extern int iscsi_eh_abort(struct scsi_cmnd *sc); extern int iscsi_eh_recover_target(struct scsi_cmnd *sc); extern int iscsi_eh_session_reset(struct scsi_cmnd *sc); diff --git a/libiscsi_tcp.c b/libiscsi_tcp.c index 1122de4..c3ff728 100644 --- a/libiscsi_tcp.c +++ b/libiscsi_tcp.c @@ -446,15 +446,15 @@ void iscsi_tcp_cleanup_task(struct iscsi_task *task) return; /* flush task's r2t queues */ - while (kfifo_out(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + while (__kfifo_get(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); ISCSI_DBG_TCP(task->conn, "pending r2t dropped\n"); } r2t = tcp_task->r2t; if (r2t != NULL) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); tcp_task->r2t = NULL; } @@ -542,7 +542,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) return 0; } - rc = kfifo_out(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); + rc = __kfifo_get(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); if (!rc) { iscsi_conn_printk(KERN_ERR, conn, "Could not allocate R2T. " "Target has sent more R2Ts than it " @@ -555,7 +555,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) if (r2t->data_length == 0) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with zero data len\n"); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -571,7 +571,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, r2t->data_offset, scsi_out(task->sc)->length); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -581,7 +581,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->sent = 0; tcp_task->exp_datasn = r2tsn + 1; - kfifo_in(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); + __kfifo_put(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); conn->r2t_pdus_cnt++; iscsi_requeue_task(task); @@ -952,7 +952,7 @@ int iscsi_tcp_task_init(struct iscsi_task *task) return conn->session->tt->init_pdu(task, 0, task->data_count); } - BUG_ON(kfifo_len(&tcp_task->r2tqueue)); + BUG_ON(__kfifo_len(tcp_task->r2tqueue)); tcp_task->exp_datasn = 0; /* Prepare PDU, optionally w/ immediate data */ @@ -983,7 +983,7 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) if (r2t->data_length <= r2t->sent) { ISCSI_DBG_TCP(task->conn, " done with r2t %p\n", r2t); - kfifo_in(&tcp_task->r2tpool.queue, + __kfifo_put(tcp_task->r2tpool.queue, (void *)&tcp_task->r2t, sizeof(void *)); tcp_task->r2t = r2t = NULL; @@ -991,12 +991,9 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) } if (r2t == NULL) { - if (kfifo_out(&tcp_task->r2tqueue, - (void *)&tcp_task->r2t, sizeof(void *)) != - sizeof(void *)) - r2t = NULL; - else - r2t = tcp_task->r2t; + __kfifo_get(tcp_task->r2tqueue, + (void *)&tcp_task->r2t, sizeof(void *)); + r2t = tcp_task->r2t; } spin_unlock_bh(&session->lock); } @@ -1131,8 +1128,9 @@ int iscsi_tcp_r2tpool_alloc(struct iscsi_session *session) } /* R2T xmit queue */ - if (kfifo_alloc(&tcp_task->r2tqueue, - session->max_r2t * 4 * sizeof(void*), GFP_KERNEL)) { + tcp_task->r2tqueue = kfifo_alloc( + session->max_r2t * 4 * sizeof(void*), GFP_KERNEL, NULL); + if (tcp_task->r2tqueue == ERR_PTR(-ENOMEM)) { iscsi_pool_free(&tcp_task->r2tpool); goto r2t_alloc_fail; } @@ -1145,7 +1143,7 @@ r2t_alloc_fail: struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } return -ENOMEM; @@ -1160,7 +1158,7 @@ void iscsi_tcp_r2tpool_free(struct iscsi_session *session) struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } } diff --git a/libiscsi_tcp.h b/libiscsi_tcp.h index c020eee..3bacef5 100644 --- a/libiscsi_tcp.h +++ b/libiscsi_tcp.h @@ -80,7 +80,7 @@ struct iscsi_tcp_task { int data_offset; struct iscsi_r2t_info *r2t; /* in progress solict R2T */ struct iscsi_pool r2tpool; - struct kfifo r2tqueue; + struct kfifo *r2tqueue; void *dd_data; }; diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..50ab84d --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,276 @@ +#include +#include +#include +#include + +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} + +int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) + +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, input) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,34) + +static inline wait_queue_head_t *sk_sleep(struct sock *sk) +{ + return sk->sk_sleep; +} + +#endif + +#endif diff --git a/scsi_transport_iscsi.c b/scsi_transport_iscsi.c index fed8c9e..c187e5d 100644 --- a/scsi_transport_iscsi.c +++ b/scsi_transport_iscsi.c @@ -31,6 +31,8 @@ #include "scsi_transport_iscsi.h" #include "iscsi_if.h" +#include "open_iscsi_compat.h" + #define ISCSI_SESSION_ATTRS 22 #define ISCSI_CONN_ATTRS 13 #define ISCSI_HOST_ATTRS 4 @@ -145,6 +147,7 @@ static struct attribute_group iscsi_transport_group = { .attrs = iscsi_transport_attrs, }; +#if 0 /* * iSCSI endpoint attrs */ @@ -268,6 +271,7 @@ struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle) return ep; } EXPORT_SYMBOL_GPL(iscsi_lookup_endpoint); +#endif static int iscsi_setup_host(struct transport_container *tc, struct device *dev, struct device *cdev) @@ -1402,6 +1406,8 @@ static int iscsi_if_transport_ep(struct iscsi_transport *transport, struct iscsi_uevent *ev, int msg_type) { + return -ENOSYS; +#if 0 struct iscsi_endpoint *ep; int rc = 0; @@ -1433,6 +1439,8 @@ iscsi_if_transport_ep(struct iscsi_transport *transport, break; } return rc; + +#endif } static int @@ -1541,6 +1549,9 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh, uint32_t *group) ev->u.c_session.queue_depth); break; case ISCSI_UEVENT_CREATE_BOUND_SESSION: + err = -ENOSYS; + break; +#if 0 ep = iscsi_lookup_endpoint(ev->u.c_bound_session.ep_handle); if (!ep) { err = -EINVAL; @@ -1552,6 +1563,7 @@ iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh, uint32_t *group) ev->u.c_bound_session.cmds_max, ev->u.c_bound_session.queue_depth); break; +#endif case ISCSI_UEVENT_DESTROY_SESSION: session = iscsi_session_lookup(ev->u.d_session.sid); if (session) @@ -2069,13 +2081,14 @@ static __init int iscsi_transport_init(void) if (err) return err; +#if 0 err = class_register(&iscsi_endpoint_class); if (err) goto unregister_transport_class; - +#endif err = transport_class_register(&iscsi_host_class); if (err) - goto unregister_endpoint_class; + goto unregister_transport_class; err = transport_class_register(&iscsi_connection_class); if (err) @@ -2106,8 +2119,10 @@ unregister_conn_class: transport_class_unregister(&iscsi_connection_class); unregister_host_class: transport_class_unregister(&iscsi_host_class); +#if 0 unregister_endpoint_class: class_unregister(&iscsi_endpoint_class); +#endif unregister_transport_class: class_unregister(&iscsi_transport_class); return err; @@ -2120,7 +2135,9 @@ static void __exit iscsi_transport_exit(void) transport_class_unregister(&iscsi_connection_class); transport_class_unregister(&iscsi_session_class); transport_class_unregister(&iscsi_host_class); +#if 0 class_unregister(&iscsi_endpoint_class); +#endif class_unregister(&iscsi_transport_class); } -- 1.6.6.1 open-iscsi-2.0.874/kernel/2.6.27_compat.patch000066400000000000000000000400141277325716400203620ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 2a401b9..197d314 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -43,6 +43,7 @@ #include #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " diff --git a/libiscsi.c b/libiscsi.c index 59e3a5f..d0e41d9 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -39,6 +39,8 @@ #include "scsi_transport_iscsi.h" #include "libiscsi.h" +#include "open_iscsi_compat.h" + static int iscsi_dbg_lib_conn; module_param_named(debug_libiscsi_conn, iscsi_dbg_lib_conn, int, S_IRUGO | S_IWUSR); @@ -518,7 +520,7 @@ static void iscsi_free_task(struct iscsi_task *task) if (conn->login_task == task) return; - kfifo_in(&session->cmdpool.queue, (void*)&task, sizeof(void*)); + __kfifo_put(session->cmdpool.queue, (void*)&task, sizeof(void*)); if (sc) { task->sc = NULL; @@ -738,7 +740,7 @@ __iscsi_conn_send_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, BUG_ON(conn->c_stage == ISCSI_CONN_INITIAL_STAGE); BUG_ON(conn->c_stage == ISCSI_CONN_STOPPED); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&task, sizeof(void*))) return NULL; } @@ -1568,7 +1570,7 @@ static inline struct iscsi_task *iscsi_alloc_task(struct iscsi_conn *conn, { struct iscsi_task *task; - if (!kfifo_out(&conn->session->cmdpool.queue, + if (!__kfifo_get(conn->session->cmdpool.queue, (void *) &task, sizeof(void *))) return NULL; @@ -1738,21 +1740,9 @@ fault: } EXPORT_SYMBOL_GPL(iscsi_queuecommand); -int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, int reason) +int iscsi_change_queue_depth(struct scsi_device *sdev, int depth) { - switch (reason) { - case SCSI_QDEPTH_DEFAULT: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - case SCSI_QDEPTH_QFULL: - scsi_track_queue_full(sdev, depth); - break; - case SCSI_QDEPTH_RAMP_UP: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - default: - return -EOPNOTSUPP; - } + scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); return sdev->queue_depth; } EXPORT_SYMBOL_GPL(iscsi_change_queue_depth); @@ -2524,7 +2514,12 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) if (q->pool == NULL) return -ENOMEM; - kfifo_init(&q->queue, (void*)q->pool, max * sizeof(void*)); + q->queue = kfifo_init((void*)q->pool, max * sizeof(void*), + GFP_KERNEL, NULL); + if (IS_ERR(q->queue)) { + q->queue = NULL; + goto enomem; + } for (i = 0; i < max; i++) { q->pool[i] = kzalloc(item_size, GFP_KERNEL); @@ -2532,7 +2527,7 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) q->max = i; goto enomem; } - kfifo_in(&q->queue, (void*)&q->pool[i], sizeof(void*)); + __kfifo_put(q->queue, (void*)&q->pool[i], sizeof(void*)); } if (items) { @@ -2555,6 +2550,7 @@ void iscsi_pool_free(struct iscsi_pool *q) for (i = 0; i < q->max; i++) kfree(q->pool[i]); kfree(q->pool); + kfree(q->queue); } EXPORT_SYMBOL_GPL(iscsi_pool_free); @@ -2882,7 +2878,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*))) { spin_unlock_bh(&session->lock); @@ -2902,7 +2898,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, return cls_conn; login_task_data_alloc_fail: - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); login_task_alloc_fail: iscsi_destroy_conn(cls_conn); @@ -2965,7 +2961,7 @@ void iscsi_conn_teardown(struct iscsi_cls_conn *cls_conn) free_pages((unsigned long) conn->data, get_order(ISCSI_DEF_MAX_RECV_SEG_LEN)); kfree(conn->persistent_address); - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); if (session->leadconn == conn) session->leadconn = NULL; diff --git a/libiscsi.h b/libiscsi.h index 0563539..4be9333 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -231,7 +231,7 @@ struct iscsi_conn { }; struct iscsi_pool { - struct kfifo queue; /* FIFO Queue */ + struct kfifo *queue; /* FIFO Queue */ void **pool; /* Pool of elements */ int max; /* Max number of elements */ }; @@ -334,8 +334,7 @@ struct iscsi_host { /* * scsi host template */ -extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, - int reason); +extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth); extern int iscsi_eh_abort(struct scsi_cmnd *sc); extern int iscsi_eh_recover_target(struct scsi_cmnd *sc); extern int iscsi_eh_session_reset(struct scsi_cmnd *sc); diff --git a/libiscsi_tcp.c b/libiscsi_tcp.c index 1122de4..c3ff728 100644 --- a/libiscsi_tcp.c +++ b/libiscsi_tcp.c @@ -446,15 +446,15 @@ void iscsi_tcp_cleanup_task(struct iscsi_task *task) return; /* flush task's r2t queues */ - while (kfifo_out(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + while (__kfifo_get(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); ISCSI_DBG_TCP(task->conn, "pending r2t dropped\n"); } r2t = tcp_task->r2t; if (r2t != NULL) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); tcp_task->r2t = NULL; } @@ -542,7 +542,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) return 0; } - rc = kfifo_out(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); + rc = __kfifo_get(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); if (!rc) { iscsi_conn_printk(KERN_ERR, conn, "Could not allocate R2T. " "Target has sent more R2Ts than it " @@ -555,7 +555,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) if (r2t->data_length == 0) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with zero data len\n"); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -571,7 +571,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, r2t->data_offset, scsi_out(task->sc)->length); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -581,7 +581,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->sent = 0; tcp_task->exp_datasn = r2tsn + 1; - kfifo_in(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); + __kfifo_put(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); conn->r2t_pdus_cnt++; iscsi_requeue_task(task); @@ -952,7 +952,7 @@ int iscsi_tcp_task_init(struct iscsi_task *task) return conn->session->tt->init_pdu(task, 0, task->data_count); } - BUG_ON(kfifo_len(&tcp_task->r2tqueue)); + BUG_ON(__kfifo_len(tcp_task->r2tqueue)); tcp_task->exp_datasn = 0; /* Prepare PDU, optionally w/ immediate data */ @@ -983,7 +983,7 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) if (r2t->data_length <= r2t->sent) { ISCSI_DBG_TCP(task->conn, " done with r2t %p\n", r2t); - kfifo_in(&tcp_task->r2tpool.queue, + __kfifo_put(tcp_task->r2tpool.queue, (void *)&tcp_task->r2t, sizeof(void *)); tcp_task->r2t = r2t = NULL; @@ -991,12 +991,9 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) } if (r2t == NULL) { - if (kfifo_out(&tcp_task->r2tqueue, - (void *)&tcp_task->r2t, sizeof(void *)) != - sizeof(void *)) - r2t = NULL; - else - r2t = tcp_task->r2t; + __kfifo_get(tcp_task->r2tqueue, + (void *)&tcp_task->r2t, sizeof(void *)); + r2t = tcp_task->r2t; } spin_unlock_bh(&session->lock); } @@ -1131,8 +1128,9 @@ int iscsi_tcp_r2tpool_alloc(struct iscsi_session *session) } /* R2T xmit queue */ - if (kfifo_alloc(&tcp_task->r2tqueue, - session->max_r2t * 4 * sizeof(void*), GFP_KERNEL)) { + tcp_task->r2tqueue = kfifo_alloc( + session->max_r2t * 4 * sizeof(void*), GFP_KERNEL, NULL); + if (tcp_task->r2tqueue == ERR_PTR(-ENOMEM)) { iscsi_pool_free(&tcp_task->r2tpool); goto r2t_alloc_fail; } @@ -1145,7 +1143,7 @@ r2t_alloc_fail: struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } return -ENOMEM; @@ -1160,7 +1158,7 @@ void iscsi_tcp_r2tpool_free(struct iscsi_session *session) struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } } diff --git a/libiscsi_tcp.h b/libiscsi_tcp.h index c020eee..3bacef5 100644 --- a/libiscsi_tcp.h +++ b/libiscsi_tcp.h @@ -80,7 +80,7 @@ struct iscsi_tcp_task { int data_offset; struct iscsi_r2t_info *r2t; /* in progress solict R2T */ struct iscsi_pool r2tpool; - struct kfifo r2tqueue; + struct kfifo *r2tqueue; void *dd_data; }; diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..50ab84d --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,276 @@ +#include +#include +#include +#include + +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} + +int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) + +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, input) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,34) + +static inline wait_queue_head_t *sk_sleep(struct sock *sk) +{ + return sk->sk_sleep; +} + +#endif + +#endif diff --git a/scsi_transport_iscsi.c b/scsi_transport_iscsi.c index fed8c9e..3b28918 100644 --- a/scsi_transport_iscsi.c +++ b/scsi_transport_iscsi.c @@ -31,6 +31,8 @@ #include "scsi_transport_iscsi.h" #include "iscsi_if.h" +#include "open_iscsi_compat.h" + #define ISCSI_SESSION_ATTRS 22 #define ISCSI_CONN_ATTRS 13 #define ISCSI_HOST_ATTRS 4 -- 1.6.6.1 open-iscsi-2.0.874/kernel/2.6.28-32_compat.patch000066400000000000000000000367021277325716400206160ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 2a401b9..197d314 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -43,6 +43,7 @@ #include #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " diff --git a/libiscsi.c b/libiscsi.c index 59e3a5f..b79453a 100644 --- a/libiscsi.c +++ b/libiscsi.c @@ -518,7 +518,7 @@ static void iscsi_free_task(struct iscsi_task *task) if (conn->login_task == task) return; - kfifo_in(&session->cmdpool.queue, (void*)&task, sizeof(void*)); + __kfifo_put(session->cmdpool.queue, (void*)&task, sizeof(void*)); if (sc) { task->sc = NULL; @@ -738,7 +738,7 @@ __iscsi_conn_send_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, BUG_ON(conn->c_stage == ISCSI_CONN_INITIAL_STAGE); BUG_ON(conn->c_stage == ISCSI_CONN_STOPPED); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&task, sizeof(void*))) return NULL; } @@ -1568,7 +1568,7 @@ static inline struct iscsi_task *iscsi_alloc_task(struct iscsi_conn *conn, { struct iscsi_task *task; - if (!kfifo_out(&conn->session->cmdpool.queue, + if (!__kfifo_get(conn->session->cmdpool.queue, (void *) &task, sizeof(void *))) return NULL; @@ -1738,21 +1738,9 @@ fault: } EXPORT_SYMBOL_GPL(iscsi_queuecommand); -int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, int reason) +int iscsi_change_queue_depth(struct scsi_device *sdev, int depth) { - switch (reason) { - case SCSI_QDEPTH_DEFAULT: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - case SCSI_QDEPTH_QFULL: - scsi_track_queue_full(sdev, depth); - break; - case SCSI_QDEPTH_RAMP_UP: - scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); - break; - default: - return -EOPNOTSUPP; - } + scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); return sdev->queue_depth; } EXPORT_SYMBOL_GPL(iscsi_change_queue_depth); @@ -2524,7 +2512,12 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) if (q->pool == NULL) return -ENOMEM; - kfifo_init(&q->queue, (void*)q->pool, max * sizeof(void*)); + q->queue = kfifo_init((void*)q->pool, max * sizeof(void*), + GFP_KERNEL, NULL); + if (IS_ERR(q->queue)) { + q->queue = NULL; + goto enomem; + } for (i = 0; i < max; i++) { q->pool[i] = kzalloc(item_size, GFP_KERNEL); @@ -2532,7 +2525,7 @@ iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) q->max = i; goto enomem; } - kfifo_in(&q->queue, (void*)&q->pool[i], sizeof(void*)); + __kfifo_put(q->queue, (void*)&q->pool[i], sizeof(void*)); } if (items) { @@ -2555,6 +2548,7 @@ void iscsi_pool_free(struct iscsi_pool *q) for (i = 0; i < q->max; i++) kfree(q->pool[i]); kfree(q->pool); + kfree(q->queue); } EXPORT_SYMBOL_GPL(iscsi_pool_free); @@ -2882,7 +2876,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); - if (!kfifo_out(&session->cmdpool.queue, + if (!__kfifo_get(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*))) { spin_unlock_bh(&session->lock); @@ -2902,7 +2896,7 @@ iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, return cls_conn; login_task_data_alloc_fail: - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); login_task_alloc_fail: iscsi_destroy_conn(cls_conn); @@ -2965,7 +2959,7 @@ void iscsi_conn_teardown(struct iscsi_cls_conn *cls_conn) free_pages((unsigned long) conn->data, get_order(ISCSI_DEF_MAX_RECV_SEG_LEN)); kfree(conn->persistent_address); - kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, + __kfifo_put(session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); if (session->leadconn == conn) session->leadconn = NULL; diff --git a/libiscsi.h b/libiscsi.h index 0563539..4be9333 100644 --- a/libiscsi.h +++ b/libiscsi.h @@ -231,7 +231,7 @@ struct iscsi_conn { }; struct iscsi_pool { - struct kfifo queue; /* FIFO Queue */ + struct kfifo *queue; /* FIFO Queue */ void **pool; /* Pool of elements */ int max; /* Max number of elements */ }; @@ -334,8 +334,7 @@ struct iscsi_host { /* * scsi host template */ -extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, - int reason); +extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth); extern int iscsi_eh_abort(struct scsi_cmnd *sc); extern int iscsi_eh_recover_target(struct scsi_cmnd *sc); extern int iscsi_eh_session_reset(struct scsi_cmnd *sc); diff --git a/libiscsi_tcp.c b/libiscsi_tcp.c index 1122de4..c3ff728 100644 --- a/libiscsi_tcp.c +++ b/libiscsi_tcp.c @@ -446,15 +446,15 @@ void iscsi_tcp_cleanup_task(struct iscsi_task *task) return; /* flush task's r2t queues */ - while (kfifo_out(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + while (__kfifo_get(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); ISCSI_DBG_TCP(task->conn, "pending r2t dropped\n"); } r2t = tcp_task->r2t; if (r2t != NULL) { - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); tcp_task->r2t = NULL; } @@ -542,7 +542,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) return 0; } - rc = kfifo_out(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); + rc = __kfifo_get(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); if (!rc) { iscsi_conn_printk(KERN_ERR, conn, "Could not allocate R2T. " "Target has sent more R2Ts than it " @@ -555,7 +555,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) if (r2t->data_length == 0) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with zero data len\n"); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -571,7 +571,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, r2t->data_offset, scsi_out(task->sc)->length); - kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, + __kfifo_put(tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } @@ -581,7 +581,7 @@ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) r2t->sent = 0; tcp_task->exp_datasn = r2tsn + 1; - kfifo_in(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); + __kfifo_put(tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); conn->r2t_pdus_cnt++; iscsi_requeue_task(task); @@ -952,7 +952,7 @@ int iscsi_tcp_task_init(struct iscsi_task *task) return conn->session->tt->init_pdu(task, 0, task->data_count); } - BUG_ON(kfifo_len(&tcp_task->r2tqueue)); + BUG_ON(__kfifo_len(tcp_task->r2tqueue)); tcp_task->exp_datasn = 0; /* Prepare PDU, optionally w/ immediate data */ @@ -983,7 +983,7 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) if (r2t->data_length <= r2t->sent) { ISCSI_DBG_TCP(task->conn, " done with r2t %p\n", r2t); - kfifo_in(&tcp_task->r2tpool.queue, + __kfifo_put(tcp_task->r2tpool.queue, (void *)&tcp_task->r2t, sizeof(void *)); tcp_task->r2t = r2t = NULL; @@ -991,12 +991,9 @@ static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) } if (r2t == NULL) { - if (kfifo_out(&tcp_task->r2tqueue, - (void *)&tcp_task->r2t, sizeof(void *)) != - sizeof(void *)) - r2t = NULL; - else - r2t = tcp_task->r2t; + __kfifo_get(tcp_task->r2tqueue, + (void *)&tcp_task->r2t, sizeof(void *)); + r2t = tcp_task->r2t; } spin_unlock_bh(&session->lock); } @@ -1131,8 +1128,9 @@ int iscsi_tcp_r2tpool_alloc(struct iscsi_session *session) } /* R2T xmit queue */ - if (kfifo_alloc(&tcp_task->r2tqueue, - session->max_r2t * 4 * sizeof(void*), GFP_KERNEL)) { + tcp_task->r2tqueue = kfifo_alloc( + session->max_r2t * 4 * sizeof(void*), GFP_KERNEL, NULL); + if (tcp_task->r2tqueue == ERR_PTR(-ENOMEM)) { iscsi_pool_free(&tcp_task->r2tpool); goto r2t_alloc_fail; } @@ -1145,7 +1143,7 @@ r2t_alloc_fail: struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } return -ENOMEM; @@ -1160,7 +1158,7 @@ void iscsi_tcp_r2tpool_free(struct iscsi_session *session) struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; - kfifo_free(&tcp_task->r2tqueue); + kfifo_free(tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } } diff --git a/libiscsi_tcp.h b/libiscsi_tcp.h index c020eee..3bacef5 100644 --- a/libiscsi_tcp.h +++ b/libiscsi_tcp.h @@ -80,7 +80,7 @@ struct iscsi_tcp_task { int data_offset; struct iscsi_r2t_info *r2t; /* in progress solict R2T */ struct iscsi_pool r2tpool; - struct kfifo r2tqueue; + struct kfifo *r2tqueue; void *dd_data; }; diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..50ab84d --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,276 @@ +#include +#include +#include +#include + +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} + +int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) + +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, input) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,34) + +static inline wait_queue_head_t *sk_sleep(struct sock *sk) +{ + return sk->sk_sleep; +} + +#endif + +#endif -- 1.6.6.1 open-iscsi-2.0.874/kernel/2.6.33-34_compat.patch000066400000000000000000000145641277325716400206160ustar00rootroot00000000000000diff --git a/iscsi_tcp.c b/iscsi_tcp.c index 2a401b9..197d314 100644 --- a/iscsi_tcp.c +++ b/iscsi_tcp.c @@ -43,6 +43,7 @@ #include #include "scsi_transport_iscsi.h" +#include "open_iscsi_compat.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " diff --git a/open_iscsi_compat.h b/open_iscsi_compat.h new file mode 100644 index 0000000..50ab84d --- /dev/null +++ b/open_iscsi_compat.h @@ -0,0 +1,276 @@ +#include +#include +#include +#include + +#ifndef OPEN_ISCSI_COMPAT +#define OPEN_ISCSI_COMPAT + +#ifndef SCAN_WILD_CARD +#define SCAN_WILD_CARD ~0 +#endif + +#ifndef NIPQUAD_FMT +#define NIPQUAD_FMT "%u.%u.%u.%u" +#endif + +#ifndef NIP6_FMT +#define NIP6_FMT "%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x" +#endif + +#ifndef DEFINE_MUTEX + +/* mutex changes from 2.6.16-rc1 and up */ +#define DEFINE_MUTEX DECLARE_MUTEX +#define mutex_lock down +#define mutex_unlock up +#define mutex semaphore +#define mutex_init init_MUTEX +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,12) + +void int_to_scsilun(unsigned int lun, struct scsi_lun *scsilun) +{ + int i; + + memset(scsilun->scsi_lun, 0, sizeof(scsilun->scsi_lun)); + + for (i = 0; i < sizeof(lun); i += 2) { + scsilun->scsi_lun[i] = (lun >> 8) & 0xFF; + scsilun->scsi_lun[i+1] = lun & 0xFF; + lun = lun >> 16; + } +} + +#define __nlmsg_put(skb, daemon_pid, seq, type, len, flags) \ + __nlmsg_put(skb, daemon_pid, 0, 0, len) + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define gfp_t unsigned + +void *kzalloc(size_t size, gfp_t flags) +{ + void *ret = kmalloc(size, flags); + if (ret) + memset(ret, 0, size); +} + +#endif + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,19) + +#include "linux/crypto.h" + +#define CRYPTO_ALG_ASYNC 0x00000080 +struct hash_desc +{ + struct crypto_tfm *tfm; + u32 flags; +}; + +static inline int crypto_hash_init(struct hash_desc *desc) +{ + crypto_digest_init(desc->tfm); + return 0; +} + +static inline int crypto_hash_digest(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes, u8 *out) +{ + crypto_digest_digest(desc->tfm, sg, 1, out); + return nbytes; +} + +static inline int crypto_hash_update(struct hash_desc *desc, + struct scatterlist *sg, + unsigned int nbytes) +{ + crypto_digest_update(desc->tfm, sg, 1); + return nbytes; +} + +static inline int crypto_hash_final(struct hash_desc *desc, u8 *out) +{ + crypto_digest_final(desc->tfm, out); + return 0; +} + +static inline struct crypto_tfm *crypto_alloc_hash(const char *alg_name, + u32 type, u32 mask) +{ + struct crypto_tfm *ret = crypto_alloc_tfm(alg_name ,type); + return ret ? ret : ERR_PTR(-ENOMEM); +} + +static inline void crypto_free_hash(struct crypto_tfm *tfm) +{ + crypto_free_tfm(tfm); +} + +int kernel_getsockname(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 0); +} + +int kernel_getpeername(struct socket *sock, struct sockaddr *addr, + int *addrlen) +{ + return sock->ops->getname(sock, addr, addrlen, 1); +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,20) + +static inline int is_power_of_2(unsigned long n) +{ + return (n != 0 && ((n & (n - 1)) == 0)); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +static inline struct nlmsghdr *nlmsg_hdr(const struct sk_buff *skb) +{ + return (struct nlmsghdr *)skb->data; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +static inline void *shost_priv(struct Scsi_Host *shost) +{ + return (void *)shost->hostdata; +} + +/* + * Note: We do not support bidi for the compat modules if the kernel + * does not have support. + */ +#define scsi_sg_count(cmd) ((cmd)->use_sg) +#define scsi_sglist(cmd) ((struct scatterlist *)(cmd)->request_buffer) +#define scsi_bufflen(cmd) ((cmd)->request_bufflen) + +static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid) +{ + cmd->resid = resid; +} + +static inline int scsi_get_resid(struct scsi_cmnd *cmd) +{ + return cmd->resid; +} + +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +static inline unsigned long rounddown_pow_of_two(unsigned long n) +{ + return 1UL << (fls_long(n) - 1); +} + + +static inline struct scatterlist *sg_next(struct scatterlist *sg) +{ + if (!sg) { + BUG(); + return NULL; + } + return sg + 1; +} + +#define for_each_sg(sglist, sg, nr, __i) \ + for (__i = 0, sg = (sglist); __i < (nr); __i++, sg = sg_next(sg)) + +#define sg_page(_sg) _sg->page + +static inline void sg_set_page(struct scatterlist *sg, struct page *page, + unsigned int len, unsigned int offset) +{ + sg->page = page; + sg->offset = offset; + sg->length = len; +} + +static inline void sg_init_table(struct scatterlist *sgl, unsigned int nents) +{ + memset(sgl, 0, sizeof(*sgl) * nents); +} +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,24) + +static inline int scsi_bidi_cmnd(struct scsi_cmnd *cmd) +{ + return 0; +} + +#define netlink_kernel_release(_nls) \ + sock_release(_nls->sk_socket) + + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,13) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, input) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,22) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#elif LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23) + +#define netlink_kernel_create(net, uint, groups, input, cb_mutex, mod) \ + netlink_kernel_create(uint, groups, input, cb_mutex, mod) + +#endif + +#ifndef DID_TRANSPORT_DISRUPTED +#define DID_TRANSPORT_DISRUPTED DID_BUS_BUSY +#endif + +#ifndef DID_TRANSPORT_FAILFAST +#define DID_TRANSPORT_FAILFAST DID_NO_CONNECT +#endif + +#ifndef SCSI_MLQUEUE_TARGET_BUSY +#define SCSI_MLQUEUE_TARGET_BUSY SCSI_MLQUEUE_HOST_BUSY +#endif + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,27) + +#define BLK_EH_NOT_HANDLED EH_NOT_HANDLED +#define BLK_EH_RESET_TIMER EH_RESET_TIMER + +#define blk_eh_timer_return scsi_eh_timer_return + +#endif + + +#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,34) + +static inline wait_queue_head_t *sk_sleep(struct sock *sk) +{ + return sk->sk_sleep; +} + +#endif + +#endif -- 1.6.6.1 open-iscsi-2.0.874/kernel/Makefile000066400000000000000000000135421277325716400167100ustar00rootroot00000000000000# # Makefile for the Linux Kernel iSCSI Initiator # # This Makefile invokes KBuild from outside the kernel directory when # used from the main open-iscsi package. It also contains all of the # KBuild stuff needed to build the modules. # # Kbuild stuff, the following is the only part of this file that KBuild # actually uses itself. EXTRA_CFLAGS += -I$(obj) -I$(obj)/../include ifeq ($(DEBUG_SCSI), 1) EXTRA_CFLAGS += -DDEBUG_SCSI=1 endif ifeq ($(DEBUG_TCP), 1) EXTRA_CFLAGS += -DDEBUG_TCP=1 endif obj-m += scsi_transport_iscsi.o obj-m += libiscsi.o obj-m += libiscsi_tcp.o obj-m += iscsi_tcp.o # Everything beyond this point is used to call KBuild or handle support # for multiple kernel versions. # Kbuild verbosity V ?= 0 # allow users to override these # eg to compile for a kernel that you aren't currently running KERNELRELEASE ?= $(shell uname -r) KSRC ?= /lib/modules/$(KERNELRELEASE)/build KBUILD_OUTPUT ?= # this is the basic Kbuild invocation, just append your make target KBUILD_BASE = +$(MAKE) -C $(KSRC) M=`pwd` KBUILD_OUTPUT=$(KBUILD_OUTPUT) $(KARCH) V=$(V) all: kernel_check $(KBUILD_BASE) modules # ============ BEGIN code for kernel_check and source patching ================ # We calculate the Linux version for compilation. Than according to version, # if needed, we patch source-code to match the compiling kernel. # if you need a new kernel sub-version just add a target below. # # IMPORTANT: do "make clean" before submitting to SVN so source is in unpatched # form. #some constants 14to23_patch=2.6.14-23_compat.patch 24_patch=2.6.24_compat.patch 26_patch=2.6.26_compat.patch 27_patch=2.6.27_compat.patch 28to32_patch=2.6.28-32_compat.patch 33to34_patch=2.6.33-34_compat.patch all_patches=14to21_patch 20to21_patch 24_patch 26_patch 27_patch 28to32_patch 33to34_patch cur_patched=cur_patched ## fun stuff for maintaining multiple versions # check to see if code is unpatched unpatch_code=$(shell test -e $(cur_patched) && echo do_unpatch_code ) KSUBLEVEL = $(shell cat $(KSRC)/Makefile | awk -F= '/^SUBLEVEL =/ {print $$2}' | \ sed 's/^[ \t]*//;s/[ \t]*$$//') KERNEL_TARGET=linux_2_6_$(KSUBLEVEL) kernel_check: $(KERNEL_TARGET) linux_2_6_14: has_14to23_patch linux_2_6_15: has_14to23_patch linux_2_6_16: has_14to23_patch linux_2_6_17: has_14to23_patch linux_2_6_18: has_14to23_patch linux_2_6_19: has_14to23_patch linux_2_6_20: has_14to23_patch linux_2_6_21: has_14to23_patch linux_2_6_22: has_14to23_patch linux_2_6_23: has_14to23_patch linux_2_6_24: has_24_patch linux_2_6_25: has_24_patch linux_2_6_26: has_26_patch linux_2_6_27: has_27_patch linux_2_6_28: has_28to32_patch linux_2_6_29: has_28to32_patch linux_2_6_30: has_28to32_patch linux_2_6_31: has_28to32_patch linux_2_6_32: has_28to32_patch linux_2_6_33: has_33to34_patch linux_2_6_34: has_33to34_patch linux_2_6_35: $(unpatch_code) do_unpatch_code: echo "Un-patching source code for use with linux-2.6.14 and up ..." patch -R -E -p1 < $(cur_patched) rm -f `readlink $(cur_patched)` rm -f $(cur_patched) # these below targets must be the same as the variable name prefixed by has_ # otherwise below compat_patch: target will not work has_14to23_patch: $(14to23_patch) echo "Patching source code for linux-2.6.14-23 ..." if [ -e $(cur_patched) ]; then \ make -C . clean; \ fi patch -p1 < $(14to23_patch) cp $(14to23_patch) $@ ln -s $@ $(cur_patched) has_24_patch: $(24_patch) echo "Patching source code for linux-2.6.24-25 ..." if [ -e $(cur_patched) ]; then \ make -C . clean; \ fi patch -p1 < $(24_patch) cp $(24_patch) $@ ln -s $@ $(cur_patched) has_26_patch: $(26_patch) echo "Patching source code for linux-2.6.26 ..." if [ -e $(cur_patched) ]; then \ make -C . clean; \ fi patch -p1 < $(26_patch) cp $(26_patch) $@ ln -s $@ $(cur_patched) has_27_patch: $(27_patch) echo "Patching source code for linux-2.6.27 ..." if [ -e $(cur_patched) ]; then \ make -C . clean; \ fi patch -p1 < $(27_patch) cp $(27_patch) $@ ln -s $@ $(cur_patched) has_28to32_patch: $(28to32_patch) echo "Patching source code for linux-2.6.28-33 ..." if [ -e $(cur_patched) ]; then \ make -C . clean; \ fi patch -p1 < $(28to32_patch) cp $(28to32_patch) $@ ln -s $@ $(cur_patched) has_33to34_patch: $(33to34_patch) echo "Patching source code for linux-2.6.33-34 ..." if [ -e $(cur_patched) ]; then \ make -C . clean; \ fi patch -p1 < $(33to34_patch) cp $(33to34_patch) $@ ln -s $@ $(cur_patched) # ============ END code for kernel_check and source patching ================= clean: $(unpatch_code) $(KBUILD_BASE) clean rm -f Module.symvers ## The following compat_patch target is what we need to do to prepare a clean # compat_patch set after new code is check-in to svn. To keep patches fuzzless. # the new patches are written into .new files so svn diff of next file will # not trip on them. compat_patch: $(unpatch_code) test -z "$(svn diff|head)" || { \ echo "please run make compat_patch after changse are submited to svn"; \ exit 1; \ } for the_patch in all_patches ; do \ make -C . has_$(the_patch); \ svn diff > ${!the_patch}.new; \ done # the following is only for convienience # do not submit to Linus # it's also called from the toplevel makefile # INSTALL_MOD_DIR is set so that the drivers go into the correct location using Kbuild # it defaults to 'extra' otherwise INSTALL_MOD_DIR ?= kernel/drivers/scsi # this allows packaging of modules ifdef DESTDIR INSTALL_MOD_PATH=$(DESTDIR) else INSTALL_MOD_PATH= endif # this evil rule ensures that the modules get build if you specify $(ko) # as a dependency. ko = $(patsubst %.o,%.ko,$(obj-m)) $(ko): all # now the actual command install_kernel: $(ko) $(KBUILD_BASE) modules_install INSTALL_MOD_DIR=$(INSTALL_MOD_DIR) INSTALL_MOD_PATH=$(INSTALL_MOD_PATH) dpkg_divert: for module in $(ko) ; do \ dpkg-divert --rename /lib/modules/$(KERNELRELEASE)/$(INSTALL_MOD_DIR)/$$module ; \ done # vim: ft=make tw=72 sw=4 ts=4: open-iscsi-2.0.874/kernel/iscsi_tcp.c000066400000000000000000000660651277325716400174040ustar00rootroot00000000000000/* * iSCSI Initiator over TCP/IP Data-Path * * Copyright (C) 2004 Dmitry Yusupov * Copyright (C) 2004 Alex Aizman * Copyright (C) 2005 - 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. * * Credits: * Christoph Hellwig * FUJITA Tomonori * Arne Redlich * Zhenyu Wang */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "scsi_transport_iscsi.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " "Dmitry Yusupov , " "Alex Aizman "); MODULE_DESCRIPTION("iSCSI/TCP data-path"); MODULE_LICENSE("GPL"); static struct scsi_transport_template *iscsi_sw_tcp_scsi_transport; static struct scsi_host_template iscsi_sw_tcp_sht; static struct iscsi_transport iscsi_sw_tcp_transport; static unsigned int iscsi_max_lun = 512; module_param_named(max_lun, iscsi_max_lun, uint, S_IRUGO); static int iscsi_sw_tcp_dbg; module_param_named(debug_iscsi_tcp, iscsi_sw_tcp_dbg, int, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug_iscsi_tcp, "Turn on debugging for iscsi_tcp module " "Set to 1 to turn on, and zero to turn off. Default is off."); #define ISCSI_SW_TCP_DBG(_conn, dbg_fmt, arg...) \ do { \ if (iscsi_sw_tcp_dbg) \ iscsi_conn_printk(KERN_INFO, _conn, \ "%s " dbg_fmt, \ __func__, ##arg); \ } while (0); /** * iscsi_sw_tcp_recv - TCP receive in sendfile fashion * @rd_desc: read descriptor * @skb: socket buffer * @offset: offset in skb * @len: skb->len - offset */ static int iscsi_sw_tcp_recv(read_descriptor_t *rd_desc, struct sk_buff *skb, unsigned int offset, size_t len) { struct iscsi_conn *conn = rd_desc->arg.data; unsigned int consumed, total_consumed = 0; int status; ISCSI_SW_TCP_DBG(conn, "in %d bytes\n", skb->len - offset); do { status = 0; consumed = iscsi_tcp_recv_skb(conn, skb, offset, 0, &status); offset += consumed; total_consumed += consumed; } while (consumed != 0 && status != ISCSI_TCP_SKB_DONE); ISCSI_SW_TCP_DBG(conn, "read %d bytes status %d\n", skb->len - offset, status); return total_consumed; } /** * iscsi_sw_sk_state_check - check socket state * @sk: socket * * If the socket is in CLOSE or CLOSE_WAIT we should * not close the connection if there is still some * data pending. */ static inline int iscsi_sw_sk_state_check(struct sock *sk) { struct iscsi_conn *conn = (struct iscsi_conn*)sk->sk_user_data; if ((sk->sk_state == TCP_CLOSE_WAIT || sk->sk_state == TCP_CLOSE) && !atomic_read(&sk->sk_rmem_alloc)) { ISCSI_SW_TCP_DBG(conn, "TCP_CLOSE|TCP_CLOSE_WAIT\n"); iscsi_conn_failure(conn, ISCSI_ERR_TCP_CONN_CLOSE); return -ECONNRESET; } return 0; } static void iscsi_sw_tcp_data_ready(struct sock *sk, int flag) { struct iscsi_conn *conn = sk->sk_user_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; read_descriptor_t rd_desc; read_lock(&sk->sk_callback_lock); /* * Use rd_desc to pass 'conn' to iscsi_tcp_recv. * We set count to 1 because we want the network layer to * hand us all the skbs that are available. iscsi_tcp_recv * handled pdus that cross buffers or pdus that still need data. */ rd_desc.arg.data = conn; rd_desc.count = 1; tcp_read_sock(sk, &rd_desc, iscsi_sw_tcp_recv); iscsi_sw_sk_state_check(sk); read_unlock(&sk->sk_callback_lock); /* If we had to (atomically) map a highmem page, * unmap it now. */ iscsi_tcp_segment_unmap(&tcp_conn->in.segment); } static void iscsi_sw_tcp_state_change(struct sock *sk) { struct iscsi_tcp_conn *tcp_conn; struct iscsi_sw_tcp_conn *tcp_sw_conn; struct iscsi_conn *conn; struct iscsi_session *session; void (*old_state_change)(struct sock *); read_lock(&sk->sk_callback_lock); conn = (struct iscsi_conn*)sk->sk_user_data; session = conn->session; iscsi_sw_sk_state_check(sk); tcp_conn = conn->dd_data; tcp_sw_conn = tcp_conn->dd_data; old_state_change = tcp_sw_conn->old_state_change; read_unlock(&sk->sk_callback_lock); old_state_change(sk); } /** * iscsi_write_space - Called when more output buffer space is available * @sk: socket space is available for **/ static void iscsi_sw_tcp_write_space(struct sock *sk) { struct iscsi_conn *conn = (struct iscsi_conn*)sk->sk_user_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; tcp_sw_conn->old_write_space(sk); ISCSI_SW_TCP_DBG(conn, "iscsi_write_space\n"); iscsi_conn_queue_work(conn); } static void iscsi_sw_tcp_conn_set_callbacks(struct iscsi_conn *conn) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct sock *sk = tcp_sw_conn->sock->sk; /* assign new callbacks */ write_lock_bh(&sk->sk_callback_lock); sk->sk_user_data = conn; tcp_sw_conn->old_data_ready = sk->sk_data_ready; tcp_sw_conn->old_state_change = sk->sk_state_change; tcp_sw_conn->old_write_space = sk->sk_write_space; sk->sk_data_ready = iscsi_sw_tcp_data_ready; sk->sk_state_change = iscsi_sw_tcp_state_change; sk->sk_write_space = iscsi_sw_tcp_write_space; write_unlock_bh(&sk->sk_callback_lock); } static void iscsi_sw_tcp_conn_restore_callbacks(struct iscsi_conn *conn) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct sock *sk = tcp_sw_conn->sock->sk; /* restore socket callbacks, see also: iscsi_conn_set_callbacks() */ write_lock_bh(&sk->sk_callback_lock); sk->sk_user_data = NULL; sk->sk_data_ready = tcp_sw_conn->old_data_ready; sk->sk_state_change = tcp_sw_conn->old_state_change; sk->sk_write_space = tcp_sw_conn->old_write_space; sk->sk_no_check = 0; write_unlock_bh(&sk->sk_callback_lock); } /** * iscsi_sw_tcp_xmit_segment - transmit segment * @tcp_conn: the iSCSI TCP connection * @segment: the buffer to transmnit * * This function transmits as much of the buffer as * the network layer will accept, and returns the number of * bytes transmitted. * * If CRC hashing is enabled, the function will compute the * hash as it goes. When the entire segment has been transmitted, * it will retrieve the hash value and send it as well. */ static int iscsi_sw_tcp_xmit_segment(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment) { struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct socket *sk = tcp_sw_conn->sock; unsigned int copied = 0; int r = 0; while (!iscsi_tcp_segment_done(tcp_conn, segment, 0, r)) { struct scatterlist *sg; unsigned int offset, copy; int flags = 0; r = 0; offset = segment->copied; copy = segment->size - offset; if (segment->total_copied + segment->size < segment->total_size) flags |= MSG_MORE; /* Use sendpage if we can; else fall back to sendmsg */ if (!segment->data) { sg = segment->sg; offset += segment->sg_offset + sg->offset; r = tcp_sw_conn->sendpage(sk, sg_page(sg), offset, copy, flags); } else { struct msghdr msg = { .msg_flags = flags }; struct kvec iov = { .iov_base = segment->data + offset, .iov_len = copy }; r = kernel_sendmsg(sk, &msg, &iov, 1, copy); } if (r < 0) { iscsi_tcp_segment_unmap(segment); return r; } copied += r; } return copied; } /** * iscsi_sw_tcp_xmit - TCP transmit **/ static int iscsi_sw_tcp_xmit(struct iscsi_conn *conn) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct iscsi_segment *segment = &tcp_sw_conn->out.segment; unsigned int consumed = 0; int rc = 0; while (1) { rc = iscsi_sw_tcp_xmit_segment(tcp_conn, segment); /* * We may not have been able to send data because the conn * is getting stopped. libiscsi will know so propagate err * for it to do the right thing. */ if (rc == -EAGAIN) return rc; else if (rc < 0) { rc = ISCSI_ERR_XMIT_FAILED; goto error; } else if (rc == 0) break; consumed += rc; if (segment->total_copied >= segment->total_size) { if (segment->done != NULL) { rc = segment->done(tcp_conn, segment); if (rc != 0) goto error; } } } ISCSI_SW_TCP_DBG(conn, "xmit %d bytes\n", consumed); conn->txdata_octets += consumed; return consumed; error: /* Transmit error. We could initiate error recovery * here. */ ISCSI_SW_TCP_DBG(conn, "Error sending PDU, errno=%d\n", rc); iscsi_conn_failure(conn, rc); return -EIO; } /** * iscsi_tcp_xmit_qlen - return the number of bytes queued for xmit */ static inline int iscsi_sw_tcp_xmit_qlen(struct iscsi_conn *conn) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct iscsi_segment *segment = &tcp_sw_conn->out.segment; return segment->total_copied - segment->total_size; } static int iscsi_sw_tcp_pdu_xmit(struct iscsi_task *task) { struct iscsi_conn *conn = task->conn; int rc; while (iscsi_sw_tcp_xmit_qlen(conn)) { rc = iscsi_sw_tcp_xmit(conn); if (rc == 0) return -EAGAIN; if (rc < 0) return rc; } return 0; } /* * This is called when we're done sending the header. * Simply copy the data_segment to the send segment, and return. */ static int iscsi_sw_tcp_send_hdr_done(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment) { struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; tcp_sw_conn->out.segment = tcp_sw_conn->out.data_segment; ISCSI_SW_TCP_DBG(tcp_conn->iscsi_conn, "Header done. Next segment size %u total_size %u\n", tcp_sw_conn->out.segment.size, tcp_sw_conn->out.segment.total_size); return 0; } static void iscsi_sw_tcp_send_hdr_prep(struct iscsi_conn *conn, void *hdr, size_t hdrlen) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; ISCSI_SW_TCP_DBG(conn, "%s\n", conn->hdrdgst_en ? "digest enabled" : "digest disabled"); /* Clear the data segment - needs to be filled in by the * caller using iscsi_tcp_send_data_prep() */ memset(&tcp_sw_conn->out.data_segment, 0, sizeof(struct iscsi_segment)); /* If header digest is enabled, compute the CRC and * place the digest into the same buffer. We make * sure that both iscsi_tcp_task and mtask have * sufficient room. */ if (conn->hdrdgst_en) { iscsi_tcp_dgst_header(&tcp_sw_conn->tx_hash, hdr, hdrlen, hdr + hdrlen); hdrlen += ISCSI_DIGEST_SIZE; } /* Remember header pointer for later, when we need * to decide whether there's a payload to go along * with the header. */ tcp_sw_conn->out.hdr = hdr; iscsi_segment_init_linear(&tcp_sw_conn->out.segment, hdr, hdrlen, iscsi_sw_tcp_send_hdr_done, NULL); } /* * Prepare the send buffer for the payload data. * Padding and checksumming will all be taken care * of by the iscsi_segment routines. */ static int iscsi_sw_tcp_send_data_prep(struct iscsi_conn *conn, struct scatterlist *sg, unsigned int count, unsigned int offset, unsigned int len) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct hash_desc *tx_hash = NULL; unsigned int hdr_spec_len; ISCSI_SW_TCP_DBG(conn, "offset=%d, datalen=%d %s\n", offset, len, conn->datadgst_en ? "digest enabled" : "digest disabled"); /* Make sure the datalen matches what the caller said he would send. */ hdr_spec_len = ntoh24(tcp_sw_conn->out.hdr->dlength); WARN_ON(iscsi_padded(len) != iscsi_padded(hdr_spec_len)); if (conn->datadgst_en) tx_hash = &tcp_sw_conn->tx_hash; return iscsi_segment_seek_sg(&tcp_sw_conn->out.data_segment, sg, count, offset, len, NULL, tx_hash); } static void iscsi_sw_tcp_send_linear_data_prep(struct iscsi_conn *conn, void *data, size_t len) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct hash_desc *tx_hash = NULL; unsigned int hdr_spec_len; ISCSI_SW_TCP_DBG(conn, "datalen=%zd %s\n", len, conn->datadgst_en ? "digest enabled" : "digest disabled"); /* Make sure the datalen matches what the caller said he would send. */ hdr_spec_len = ntoh24(tcp_sw_conn->out.hdr->dlength); WARN_ON(iscsi_padded(len) != iscsi_padded(hdr_spec_len)); if (conn->datadgst_en) tx_hash = &tcp_sw_conn->tx_hash; iscsi_segment_init_linear(&tcp_sw_conn->out.data_segment, data, len, NULL, tx_hash); } static int iscsi_sw_tcp_pdu_init(struct iscsi_task *task, unsigned int offset, unsigned int count) { struct iscsi_conn *conn = task->conn; int err = 0; iscsi_sw_tcp_send_hdr_prep(conn, task->hdr, task->hdr_len); if (!count) return 0; if (!task->sc) iscsi_sw_tcp_send_linear_data_prep(conn, task->data, count); else { struct scsi_data_buffer *sdb = scsi_out(task->sc); err = iscsi_sw_tcp_send_data_prep(conn, sdb->table.sgl, sdb->table.nents, offset, count); } if (err) { /* got invalid offset/len */ return -EIO; } return 0; } static int iscsi_sw_tcp_pdu_alloc(struct iscsi_task *task, uint8_t opcode) { struct iscsi_tcp_task *tcp_task = task->dd_data; task->hdr = task->dd_data + sizeof(*tcp_task); task->hdr_max = sizeof(struct iscsi_sw_tcp_hdrbuf) - ISCSI_DIGEST_SIZE; return 0; } static struct iscsi_cls_conn * iscsi_sw_tcp_conn_create(struct iscsi_cls_session *cls_session, uint32_t conn_idx) { struct iscsi_conn *conn; struct iscsi_cls_conn *cls_conn; struct iscsi_tcp_conn *tcp_conn; struct iscsi_sw_tcp_conn *tcp_sw_conn; cls_conn = iscsi_tcp_conn_setup(cls_session, sizeof(*tcp_sw_conn), conn_idx); if (!cls_conn) return NULL; conn = cls_conn->dd_data; tcp_conn = conn->dd_data; tcp_sw_conn = tcp_conn->dd_data; tcp_sw_conn->tx_hash.tfm = crypto_alloc_hash("crc32c", 0, CRYPTO_ALG_ASYNC); tcp_sw_conn->tx_hash.flags = 0; if (IS_ERR(tcp_sw_conn->tx_hash.tfm)) goto free_conn; tcp_sw_conn->rx_hash.tfm = crypto_alloc_hash("crc32c", 0, CRYPTO_ALG_ASYNC); tcp_sw_conn->rx_hash.flags = 0; if (IS_ERR(tcp_sw_conn->rx_hash.tfm)) goto free_tx_tfm; tcp_conn->rx_hash = &tcp_sw_conn->rx_hash; return cls_conn; free_tx_tfm: crypto_free_hash(tcp_sw_conn->tx_hash.tfm); free_conn: iscsi_conn_printk(KERN_ERR, conn, "Could not create connection due to crc32c " "loading error. Make sure the crc32c " "module is built as a module or into the " "kernel\n"); iscsi_tcp_conn_teardown(cls_conn); return NULL; } static void iscsi_sw_tcp_release_conn(struct iscsi_conn *conn) { struct iscsi_session *session = conn->session; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct socket *sock = tcp_sw_conn->sock; if (!sock) return; sock_hold(sock->sk); iscsi_sw_tcp_conn_restore_callbacks(conn); sock_put(sock->sk); spin_lock_bh(&session->lock); tcp_sw_conn->sock = NULL; spin_unlock_bh(&session->lock); sockfd_put(sock); } static void iscsi_sw_tcp_conn_destroy(struct iscsi_cls_conn *cls_conn) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; iscsi_sw_tcp_release_conn(conn); if (tcp_sw_conn->tx_hash.tfm) crypto_free_hash(tcp_sw_conn->tx_hash.tfm); if (tcp_sw_conn->rx_hash.tfm) crypto_free_hash(tcp_sw_conn->rx_hash.tfm); iscsi_tcp_conn_teardown(cls_conn); } static void iscsi_sw_tcp_conn_stop(struct iscsi_cls_conn *cls_conn, int flag) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct socket *sock = tcp_sw_conn->sock; /* userspace may have goofed up and not bound us */ if (!sock) return; /* * Make sure our recv side is stopped. * Older tools called conn stop before ep_disconnect * so IO could still be coming in. */ write_lock_bh(&tcp_sw_conn->sock->sk->sk_callback_lock); set_bit(ISCSI_SUSPEND_BIT, &conn->suspend_rx); write_unlock_bh(&tcp_sw_conn->sock->sk->sk_callback_lock); sock->sk->sk_err = EIO; wake_up_interruptible(sk_sleep(sock->sk)); iscsi_conn_stop(cls_conn, flag); iscsi_sw_tcp_release_conn(conn); } static int iscsi_sw_tcp_get_addr(struct iscsi_conn *conn, struct socket *sock, char *buf, int *port, int (*getname)(struct socket *, struct sockaddr *, int *addrlen)) { struct sockaddr_storage *addr; struct sockaddr_in6 *sin6; struct sockaddr_in *sin; int rc = 0, len; addr = kmalloc(sizeof(*addr), GFP_KERNEL); if (!addr) return -ENOMEM; if (getname(sock, (struct sockaddr *) addr, &len)) { rc = -ENODEV; goto free_addr; } switch (addr->ss_family) { case AF_INET: sin = (struct sockaddr_in *)addr; spin_lock_bh(&conn->session->lock); #if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,28) sprintf(buf, "%pI4", &sin->sin_addr.s_addr); #else sprintf(buf, NIPQUAD_FMT, NIPQUAD(sin->sin_addr.s_addr)); #endif *port = be16_to_cpu(sin->sin_port); spin_unlock_bh(&conn->session->lock); break; case AF_INET6: sin6 = (struct sockaddr_in6 *)addr; spin_lock_bh(&conn->session->lock); #if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,28) sprintf(buf, "%pI6", &sin6->sin6_addr); #else sprintf(buf, NIP6_FMT, NIP6(sin6->sin6_addr)); #endif *port = be16_to_cpu(sin6->sin6_port); spin_unlock_bh(&conn->session->lock); break; } free_addr: kfree(addr); return rc; } static int iscsi_sw_tcp_conn_bind(struct iscsi_cls_session *cls_session, struct iscsi_cls_conn *cls_conn, uint64_t transport_eph, int is_leading) { struct Scsi_Host *shost = iscsi_session_to_shost(cls_session); struct iscsi_host *ihost = shost_priv(shost); struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; struct sock *sk; struct socket *sock; int err; /* lookup for existing socket */ sock = sockfd_lookup((int)transport_eph, &err); if (!sock) { iscsi_conn_printk(KERN_ERR, conn, "sockfd_lookup failed %d\n", err); return -EEXIST; } /* * copy these values now because if we drop the session * userspace may still want to query the values since we will * be using them for the reconnect */ err = iscsi_sw_tcp_get_addr(conn, sock, conn->portal_address, &conn->portal_port, kernel_getpeername); if (err) goto free_socket; err = iscsi_sw_tcp_get_addr(conn, sock, ihost->local_address, &ihost->local_port, kernel_getsockname); if (err) goto free_socket; err = iscsi_conn_bind(cls_session, cls_conn, is_leading); if (err) goto free_socket; /* bind iSCSI connection and socket */ tcp_sw_conn->sock = sock; /* setup Socket parameters */ sk = sock->sk; sk->sk_reuse = 1; sk->sk_sndtimeo = 15 * HZ; /* FIXME: make it configurable */ sk->sk_allocation = GFP_ATOMIC; iscsi_sw_tcp_conn_set_callbacks(conn); tcp_sw_conn->sendpage = tcp_sw_conn->sock->ops->sendpage; /* * set receive state machine into initial state */ iscsi_tcp_hdr_recv_prep(tcp_conn); return 0; free_socket: sockfd_put(sock); return err; } static int iscsi_sw_tcp_conn_set_param(struct iscsi_cls_conn *cls_conn, enum iscsi_param param, char *buf, int buflen) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_session *session = conn->session; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; int value; switch(param) { case ISCSI_PARAM_HDRDGST_EN: iscsi_set_param(cls_conn, param, buf, buflen); break; case ISCSI_PARAM_DATADGST_EN: iscsi_set_param(cls_conn, param, buf, buflen); tcp_sw_conn->sendpage = conn->datadgst_en ? sock_no_sendpage : tcp_sw_conn->sock->ops->sendpage; break; case ISCSI_PARAM_MAX_R2T: sscanf(buf, "%d", &value); if (value <= 0 || !is_power_of_2(value)) return -EINVAL; if (session->max_r2t == value) break; iscsi_tcp_r2tpool_free(session); iscsi_set_param(cls_conn, param, buf, buflen); if (iscsi_tcp_r2tpool_alloc(session)) return -ENOMEM; break; default: return iscsi_set_param(cls_conn, param, buf, buflen); } return 0; } static int iscsi_sw_tcp_conn_get_param(struct iscsi_cls_conn *cls_conn, enum iscsi_param param, char *buf) { struct iscsi_conn *conn = cls_conn->dd_data; int len; switch(param) { case ISCSI_PARAM_CONN_PORT: spin_lock_bh(&conn->session->lock); len = sprintf(buf, "%hu\n", conn->portal_port); spin_unlock_bh(&conn->session->lock); break; case ISCSI_PARAM_CONN_ADDRESS: spin_lock_bh(&conn->session->lock); len = sprintf(buf, "%s\n", conn->portal_address); spin_unlock_bh(&conn->session->lock); break; default: return iscsi_conn_get_param(cls_conn, param, buf); } return len; } static void iscsi_sw_tcp_conn_get_stats(struct iscsi_cls_conn *cls_conn, struct iscsi_stats *stats) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_sw_tcp_conn *tcp_sw_conn = tcp_conn->dd_data; stats->custom_length = 3; strcpy(stats->custom[0].desc, "tx_sendpage_failures"); stats->custom[0].value = tcp_sw_conn->sendpage_failures_cnt; strcpy(stats->custom[1].desc, "rx_discontiguous_hdr"); stats->custom[1].value = tcp_sw_conn->discontiguous_hdr_cnt; strcpy(stats->custom[2].desc, "eh_abort_cnt"); stats->custom[2].value = conn->eh_abort_cnt; iscsi_tcp_conn_get_stats(cls_conn, stats); } static struct iscsi_cls_session * iscsi_sw_tcp_session_create(struct iscsi_endpoint *ep, uint16_t cmds_max, uint16_t qdepth, uint32_t initial_cmdsn) { struct iscsi_cls_session *cls_session; struct iscsi_session *session; struct Scsi_Host *shost; if (ep) { printk(KERN_ERR "iscsi_tcp: invalid ep %p.\n", ep); return NULL; } shost = iscsi_host_alloc(&iscsi_sw_tcp_sht, 0, 1); if (!shost) return NULL; shost->transportt = iscsi_sw_tcp_scsi_transport; shost->cmd_per_lun = qdepth; shost->max_lun = iscsi_max_lun; shost->max_id = 0; shost->max_channel = 0; shost->max_cmd_len = SCSI_MAX_VARLEN_CDB_SIZE; if (iscsi_host_add(shost, NULL)) goto free_host; cls_session = iscsi_session_setup(&iscsi_sw_tcp_transport, shost, cmds_max, 0, sizeof(struct iscsi_tcp_task) + sizeof(struct iscsi_sw_tcp_hdrbuf), initial_cmdsn, 0); if (!cls_session) goto remove_host; session = cls_session->dd_data; shost->can_queue = session->scsi_cmds_max; if (iscsi_tcp_r2tpool_alloc(session)) goto remove_session; return cls_session; remove_session: iscsi_session_teardown(cls_session); remove_host: iscsi_host_remove(shost); free_host: iscsi_host_free(shost); return NULL; } static void iscsi_sw_tcp_session_destroy(struct iscsi_cls_session *cls_session) { struct Scsi_Host *shost = iscsi_session_to_shost(cls_session); iscsi_tcp_r2tpool_free(cls_session->dd_data); iscsi_session_teardown(cls_session); iscsi_host_remove(shost); iscsi_host_free(shost); } static int iscsi_sw_tcp_slave_alloc(struct scsi_device *sdev) { set_bit(QUEUE_FLAG_BIDI, &sdev->request_queue->queue_flags); return 0; } static int iscsi_sw_tcp_slave_configure(struct scsi_device *sdev) { blk_queue_bounce_limit(sdev->request_queue, BLK_BOUNCE_ANY); blk_queue_dma_alignment(sdev->request_queue, 0); return 0; } static struct scsi_host_template iscsi_sw_tcp_sht = { .module = THIS_MODULE, .name = "iSCSI Initiator over TCP/IP", .queuecommand = iscsi_queuecommand, .change_queue_depth = iscsi_change_queue_depth, .can_queue = ISCSI_DEF_XMIT_CMDS_MAX - 1, .sg_tablesize = 4096, .max_sectors = 0xFFFF, .cmd_per_lun = ISCSI_DEF_CMD_PER_LUN, .eh_abort_handler = iscsi_eh_abort, .eh_device_reset_handler= iscsi_eh_device_reset, .eh_target_reset_handler = iscsi_eh_recover_target, .use_clustering = DISABLE_CLUSTERING, .slave_alloc = iscsi_sw_tcp_slave_alloc, .slave_configure = iscsi_sw_tcp_slave_configure, .target_alloc = iscsi_target_alloc, .proc_name = "iscsi_tcp", .this_id = -1, }; static struct iscsi_transport iscsi_sw_tcp_transport = { .owner = THIS_MODULE, .name = "tcp", .caps = CAP_RECOVERY_L0 | CAP_MULTI_R2T | CAP_HDRDGST | CAP_DATADGST, .param_mask = ISCSI_MAX_RECV_DLENGTH | ISCSI_MAX_XMIT_DLENGTH | ISCSI_HDRDGST_EN | ISCSI_DATADGST_EN | ISCSI_INITIAL_R2T_EN | ISCSI_MAX_R2T | ISCSI_IMM_DATA_EN | ISCSI_FIRST_BURST | ISCSI_MAX_BURST | ISCSI_PDU_INORDER_EN | ISCSI_DATASEQ_INORDER_EN | ISCSI_ERL | ISCSI_CONN_PORT | ISCSI_CONN_ADDRESS | ISCSI_EXP_STATSN | ISCSI_PERSISTENT_PORT | ISCSI_PERSISTENT_ADDRESS | ISCSI_TARGET_NAME | ISCSI_TPGT | ISCSI_USERNAME | ISCSI_PASSWORD | ISCSI_USERNAME_IN | ISCSI_PASSWORD_IN | ISCSI_FAST_ABORT | ISCSI_ABORT_TMO | ISCSI_LU_RESET_TMO | ISCSI_TGT_RESET_TMO | ISCSI_PING_TMO | ISCSI_RECV_TMO | ISCSI_IFACE_NAME | ISCSI_INITIATOR_NAME, .host_param_mask = ISCSI_HOST_HWADDRESS | ISCSI_HOST_IPADDRESS | ISCSI_HOST_INITIATOR_NAME | ISCSI_HOST_NETDEV_NAME, /* session management */ .create_session = iscsi_sw_tcp_session_create, .destroy_session = iscsi_sw_tcp_session_destroy, /* connection management */ .create_conn = iscsi_sw_tcp_conn_create, .bind_conn = iscsi_sw_tcp_conn_bind, .destroy_conn = iscsi_sw_tcp_conn_destroy, .set_param = iscsi_sw_tcp_conn_set_param, .get_conn_param = iscsi_sw_tcp_conn_get_param, .get_session_param = iscsi_session_get_param, .start_conn = iscsi_conn_start, .stop_conn = iscsi_sw_tcp_conn_stop, /* iscsi host params */ .get_host_param = iscsi_host_get_param, .set_host_param = iscsi_host_set_param, /* IO */ .send_pdu = iscsi_conn_send_pdu, .get_stats = iscsi_sw_tcp_conn_get_stats, /* iscsi task/cmd helpers */ .init_task = iscsi_tcp_task_init, .xmit_task = iscsi_tcp_task_xmit, .cleanup_task = iscsi_tcp_cleanup_task, /* low level pdu helpers */ .xmit_pdu = iscsi_sw_tcp_pdu_xmit, .init_pdu = iscsi_sw_tcp_pdu_init, .alloc_pdu = iscsi_sw_tcp_pdu_alloc, /* recovery */ .session_recovery_timedout = iscsi_session_recovery_timedout, }; static int __init iscsi_sw_tcp_init(void) { if (iscsi_max_lun < 1) { printk(KERN_ERR "iscsi_tcp: Invalid max_lun value of %u\n", iscsi_max_lun); return -EINVAL; } iscsi_sw_tcp_scsi_transport = iscsi_register_transport( &iscsi_sw_tcp_transport); if (!iscsi_sw_tcp_scsi_transport) return -ENODEV; return 0; } static void __exit iscsi_sw_tcp_exit(void) { iscsi_unregister_transport(&iscsi_sw_tcp_transport); } module_init(iscsi_sw_tcp_init); module_exit(iscsi_sw_tcp_exit); open-iscsi-2.0.874/kernel/iscsi_tcp.h000066400000000000000000000035111277325716400173740ustar00rootroot00000000000000/* * iSCSI Initiator TCP Transport * Copyright (C) 2004 Dmitry Yusupov * Copyright (C) 2004 Alex Aizman * Copyright (C) 2005 - 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSI_SW_TCP_H #define ISCSI_SW_TCP_H #include "libiscsi.h" #include "libiscsi_tcp.h" struct socket; struct iscsi_tcp_conn; /* Socket connection send helper */ struct iscsi_sw_tcp_send { struct iscsi_hdr *hdr; struct iscsi_segment segment; struct iscsi_segment data_segment; }; struct iscsi_sw_tcp_conn { struct socket *sock; struct iscsi_sw_tcp_send out; /* old values for socket callbacks */ void (*old_data_ready)(struct sock *, int); void (*old_state_change)(struct sock *); void (*old_write_space)(struct sock *); /* data and header digests */ struct hash_desc tx_hash; /* CRC32C (Tx) */ struct hash_desc rx_hash; /* CRC32C (Rx) */ /* MIB custom statistics */ uint32_t sendpage_failures_cnt; uint32_t discontiguous_hdr_cnt; ssize_t (*sendpage)(struct socket *, struct page *, int, size_t, int); }; struct iscsi_sw_tcp_hdrbuf { struct iscsi_hdr hdrbuf; char hdrextbuf[ISCSI_MAX_AHS_SIZE + ISCSI_DIGEST_SIZE]; }; #endif /* ISCSI_SW_TCP_H */ open-iscsi-2.0.874/kernel/libiscsi.c000066400000000000000000002654131277325716400172230ustar00rootroot00000000000000/* * iSCSI lib functions * * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * Copyright (C) 2004 - 2006 Mike Christie * Copyright (C) 2004 - 2005 Dmitry Yusupov * Copyright (C) 2004 - 2005 Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "iscsi_proto.h" #include "scsi_transport_iscsi.h" #include "libiscsi.h" static int iscsi_dbg_lib_conn; module_param_named(debug_libiscsi_conn, iscsi_dbg_lib_conn, int, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug_libiscsi_conn, "Turn on debugging for connections in libiscsi module. " "Set to 1 to turn on, and zero to turn off. Default is off."); static int iscsi_dbg_lib_session; module_param_named(debug_libiscsi_session, iscsi_dbg_lib_session, int, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug_libiscsi_session, "Turn on debugging for sessions in libiscsi module. " "Set to 1 to turn on, and zero to turn off. Default is off."); static int iscsi_dbg_lib_eh; module_param_named(debug_libiscsi_eh, iscsi_dbg_lib_eh, int, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug_libiscsi_eh, "Turn on debugging for error handling in libiscsi module. " "Set to 1 to turn on, and zero to turn off. Default is off."); #define ISCSI_DBG_CONN(_conn, dbg_fmt, arg...) \ do { \ if (iscsi_dbg_lib_conn) \ iscsi_conn_printk(KERN_INFO, _conn, \ "%s " dbg_fmt, \ __func__, ##arg); \ } while (0); #define ISCSI_DBG_SESSION(_session, dbg_fmt, arg...) \ do { \ if (iscsi_dbg_lib_session) \ iscsi_session_printk(KERN_INFO, _session, \ "%s " dbg_fmt, \ __func__, ##arg); \ } while (0); #define ISCSI_DBG_EH(_session, dbg_fmt, arg...) \ do { \ if (iscsi_dbg_lib_eh) \ iscsi_session_printk(KERN_INFO, _session, \ "%s " dbg_fmt, \ __func__, ##arg); \ } while (0); /* Serial Number Arithmetic, 32 bits, less than, RFC1982 */ #define SNA32_CHECK 2147483648UL static int iscsi_sna_lt(u32 n1, u32 n2) { return n1 != n2 && ((n1 < n2 && (n2 - n1 < SNA32_CHECK)) || (n1 > n2 && (n2 - n1 < SNA32_CHECK))); } /* Serial Number Arithmetic, 32 bits, less than, RFC1982 */ static int iscsi_sna_lte(u32 n1, u32 n2) { return n1 == n2 || ((n1 < n2 && (n2 - n1 < SNA32_CHECK)) || (n1 > n2 && (n2 - n1 < SNA32_CHECK))); } inline void iscsi_conn_queue_work(struct iscsi_conn *conn) { struct Scsi_Host *shost = conn->session->host; struct iscsi_host *ihost = shost_priv(shost); if (ihost->workq) queue_work(ihost->workq, &conn->xmitwork); } EXPORT_SYMBOL_GPL(iscsi_conn_queue_work); static void __iscsi_update_cmdsn(struct iscsi_session *session, uint32_t exp_cmdsn, uint32_t max_cmdsn) { /* * standard specifies this check for when to update expected and * max sequence numbers */ if (iscsi_sna_lt(max_cmdsn, exp_cmdsn - 1)) return; if (exp_cmdsn != session->exp_cmdsn && !iscsi_sna_lt(exp_cmdsn, session->exp_cmdsn)) session->exp_cmdsn = exp_cmdsn; if (max_cmdsn != session->max_cmdsn && !iscsi_sna_lt(max_cmdsn, session->max_cmdsn)) { session->max_cmdsn = max_cmdsn; /* * if the window closed with IO queued, then kick the * xmit thread */ if (!list_empty(&session->leadconn->cmdqueue) || !list_empty(&session->leadconn->mgmtqueue)) iscsi_conn_queue_work(session->leadconn); } } void iscsi_update_cmdsn(struct iscsi_session *session, struct iscsi_nopin *hdr) { __iscsi_update_cmdsn(session, be32_to_cpu(hdr->exp_cmdsn), be32_to_cpu(hdr->max_cmdsn)); } EXPORT_SYMBOL_GPL(iscsi_update_cmdsn); /** * iscsi_prep_data_out_pdu - initialize Data-Out * @task: scsi command task * @r2t: R2T info * @hdr: iscsi data in pdu * * Notes: * Initialize Data-Out within this R2T sequence and finds * proper data_offset within this SCSI command. * * This function is called with connection lock taken. **/ void iscsi_prep_data_out_pdu(struct iscsi_task *task, struct iscsi_r2t_info *r2t, struct iscsi_data *hdr) { struct iscsi_conn *conn = task->conn; unsigned int left = r2t->data_length - r2t->sent; task->hdr_len = sizeof(struct iscsi_data); memset(hdr, 0, sizeof(struct iscsi_data)); hdr->ttt = r2t->ttt; hdr->datasn = cpu_to_be32(r2t->datasn); r2t->datasn++; hdr->opcode = ISCSI_OP_SCSI_DATA_OUT; memcpy(hdr->lun, task->lun, sizeof(hdr->lun)); hdr->itt = task->hdr_itt; hdr->exp_statsn = r2t->exp_statsn; hdr->offset = cpu_to_be32(r2t->data_offset + r2t->sent); if (left > conn->max_xmit_dlength) { hton24(hdr->dlength, conn->max_xmit_dlength); r2t->data_count = conn->max_xmit_dlength; hdr->flags = 0; } else { hton24(hdr->dlength, left); r2t->data_count = left; hdr->flags = ISCSI_FLAG_CMD_FINAL; } conn->dataout_pdus_cnt++; } EXPORT_SYMBOL_GPL(iscsi_prep_data_out_pdu); static int iscsi_add_hdr(struct iscsi_task *task, unsigned len) { unsigned exp_len = task->hdr_len + len; if (exp_len > task->hdr_max) { WARN_ON(1); return -EINVAL; } WARN_ON(len & (ISCSI_PAD_LEN - 1)); /* caller must pad the AHS */ task->hdr_len = exp_len; return 0; } /* * make an extended cdb AHS */ static int iscsi_prep_ecdb_ahs(struct iscsi_task *task) { struct scsi_cmnd *cmd = task->sc; unsigned rlen, pad_len; unsigned short ahslength; struct iscsi_ecdb_ahdr *ecdb_ahdr; int rc; ecdb_ahdr = iscsi_next_hdr(task); rlen = cmd->cmd_len - ISCSI_CDB_SIZE; BUG_ON(rlen > sizeof(ecdb_ahdr->ecdb)); ahslength = rlen + sizeof(ecdb_ahdr->reserved); pad_len = iscsi_padding(rlen); rc = iscsi_add_hdr(task, sizeof(ecdb_ahdr->ahslength) + sizeof(ecdb_ahdr->ahstype) + ahslength + pad_len); if (rc) return rc; if (pad_len) memset(&ecdb_ahdr->ecdb[rlen], 0, pad_len); ecdb_ahdr->ahslength = cpu_to_be16(ahslength); ecdb_ahdr->ahstype = ISCSI_AHSTYPE_CDB; ecdb_ahdr->reserved = 0; memcpy(ecdb_ahdr->ecdb, cmd->cmnd + ISCSI_CDB_SIZE, rlen); ISCSI_DBG_SESSION(task->conn->session, "iscsi_prep_ecdb_ahs: varlen_cdb_len %d " "rlen %d pad_len %d ahs_length %d iscsi_headers_size " "%u\n", cmd->cmd_len, rlen, pad_len, ahslength, task->hdr_len); return 0; } static int iscsi_prep_bidi_ahs(struct iscsi_task *task) { struct scsi_cmnd *sc = task->sc; struct iscsi_rlength_ahdr *rlen_ahdr; int rc; rlen_ahdr = iscsi_next_hdr(task); rc = iscsi_add_hdr(task, sizeof(*rlen_ahdr)); if (rc) return rc; rlen_ahdr->ahslength = cpu_to_be16(sizeof(rlen_ahdr->read_length) + sizeof(rlen_ahdr->reserved)); rlen_ahdr->ahstype = ISCSI_AHSTYPE_RLENGTH; rlen_ahdr->reserved = 0; rlen_ahdr->read_length = cpu_to_be32(scsi_in(sc)->length); ISCSI_DBG_SESSION(task->conn->session, "bidi-in rlen_ahdr->read_length(%d) " "rlen_ahdr->ahslength(%d)\n", be32_to_cpu(rlen_ahdr->read_length), be16_to_cpu(rlen_ahdr->ahslength)); return 0; } /** * iscsi_check_tmf_restrictions - check if a task is affected by TMF * @task: iscsi task * @opcode: opcode to check for * * During TMF a task has to be checked if it's affected. * All unrelated I/O can be passed through, but I/O to the * affected LUN should be restricted. * If 'fast_abort' is set we won't be sending any I/O to the * affected LUN. * Otherwise the target is waiting for all TTTs to be completed, * so we have to send all outstanding Data-Out PDUs to the target. */ static int iscsi_check_tmf_restrictions(struct iscsi_task *task, int opcode) { struct iscsi_conn *conn = task->conn; struct iscsi_tm *tmf = &conn->tmhdr; unsigned int hdr_lun; if (conn->tmf_state == TMF_INITIAL) return 0; if ((tmf->opcode & ISCSI_OPCODE_MASK) != ISCSI_OP_SCSI_TMFUNC) return 0; switch (ISCSI_TM_FUNC_VALUE(tmf)) { case ISCSI_TM_FUNC_LOGICAL_UNIT_RESET: /* * Allow PDUs for unrelated LUNs */ hdr_lun = scsilun_to_int((struct scsi_lun *)tmf->lun); if (hdr_lun != task->sc->device->lun) return 0; /* fall through */ case ISCSI_TM_FUNC_TARGET_WARM_RESET: /* * Fail all SCSI cmd PDUs */ if (opcode != ISCSI_OP_SCSI_DATA_OUT) { iscsi_conn_printk(KERN_INFO, conn, "task [op %x/%x itt " "0x%x/0x%x] " "rejected.\n", task->hdr->opcode, opcode, task->itt, task->hdr_itt); return -EACCES; } /* * And also all data-out PDUs in response to R2T * if fast_abort is set. */ if (conn->session->fast_abort) { iscsi_conn_printk(KERN_INFO, conn, "task [op %x/%x itt " "0x%x/0x%x] fast abort.\n", task->hdr->opcode, opcode, task->itt, task->hdr_itt); return -EACCES; } break; case ISCSI_TM_FUNC_ABORT_TASK: /* * the caller has already checked if the task * they want to abort was in the pending queue so if * we are here the cmd pdu has gone out already, and * we will only hit this for data-outs */ if (opcode == ISCSI_OP_SCSI_DATA_OUT && task->hdr_itt == tmf->rtt) { ISCSI_DBG_SESSION(conn->session, "Preventing task %x/%x from sending " "data-out due to abort task in " "progress\n", task->itt, task->hdr_itt); return -EACCES; } break; } return 0; } /** * iscsi_prep_scsi_cmd_pdu - prep iscsi scsi cmd pdu * @task: iscsi task * * Prep basic iSCSI PDU fields for a scsi cmd pdu. The LLD should set * fields like dlength or final based on how much data it sends */ static int iscsi_prep_scsi_cmd_pdu(struct iscsi_task *task) { struct iscsi_conn *conn = task->conn; struct iscsi_session *session = conn->session; struct scsi_cmnd *sc = task->sc; struct iscsi_cmd *hdr; unsigned hdrlength, cmd_len; itt_t itt; int rc; rc = iscsi_check_tmf_restrictions(task, ISCSI_OP_SCSI_CMD); if (rc) return rc; if (conn->session->tt->alloc_pdu) { rc = conn->session->tt->alloc_pdu(task, ISCSI_OP_SCSI_CMD); if (rc) return rc; } hdr = (struct iscsi_cmd *) task->hdr; itt = hdr->itt; memset(hdr, 0, sizeof(*hdr)); if (session->tt->parse_pdu_itt) hdr->itt = task->hdr_itt = itt; else hdr->itt = task->hdr_itt = build_itt(task->itt, task->conn->session->age); task->hdr_len = 0; rc = iscsi_add_hdr(task, sizeof(*hdr)); if (rc) return rc; hdr->opcode = ISCSI_OP_SCSI_CMD; hdr->flags = ISCSI_ATTR_SIMPLE; int_to_scsilun(sc->device->lun, (struct scsi_lun *)hdr->lun); memcpy(task->lun, hdr->lun, sizeof(task->lun)); hdr->exp_statsn = cpu_to_be32(conn->exp_statsn); cmd_len = sc->cmd_len; if (cmd_len < ISCSI_CDB_SIZE) memset(&hdr->cdb[cmd_len], 0, ISCSI_CDB_SIZE - cmd_len); else if (cmd_len > ISCSI_CDB_SIZE) { rc = iscsi_prep_ecdb_ahs(task); if (rc) return rc; cmd_len = ISCSI_CDB_SIZE; } memcpy(hdr->cdb, sc->cmnd, cmd_len); task->imm_count = 0; if (scsi_bidi_cmnd(sc)) { hdr->flags |= ISCSI_FLAG_CMD_READ; rc = iscsi_prep_bidi_ahs(task); if (rc) return rc; } if (sc->sc_data_direction == DMA_TO_DEVICE) { unsigned out_len = scsi_out(sc)->length; struct iscsi_r2t_info *r2t = &task->unsol_r2t; hdr->data_length = cpu_to_be32(out_len); hdr->flags |= ISCSI_FLAG_CMD_WRITE; /* * Write counters: * * imm_count bytes to be sent right after * SCSI PDU Header * * unsol_count bytes(as Data-Out) to be sent * without R2T ack right after * immediate data * * r2t data_length bytes to be sent via R2T ack's * * pad_count bytes to be sent as zero-padding */ memset(r2t, 0, sizeof(*r2t)); if (session->imm_data_en) { if (out_len >= session->first_burst) task->imm_count = min(session->first_burst, conn->max_xmit_dlength); else task->imm_count = min(out_len, conn->max_xmit_dlength); hton24(hdr->dlength, task->imm_count); } else zero_data(hdr->dlength); if (!session->initial_r2t_en) { r2t->data_length = min(session->first_burst, out_len) - task->imm_count; r2t->data_offset = task->imm_count; r2t->ttt = cpu_to_be32(ISCSI_RESERVED_TAG); r2t->exp_statsn = cpu_to_be32(conn->exp_statsn); } if (!task->unsol_r2t.data_length) /* No unsolicit Data-Out's */ hdr->flags |= ISCSI_FLAG_CMD_FINAL; } else { hdr->flags |= ISCSI_FLAG_CMD_FINAL; zero_data(hdr->dlength); hdr->data_length = cpu_to_be32(scsi_in(sc)->length); if (sc->sc_data_direction == DMA_FROM_DEVICE) hdr->flags |= ISCSI_FLAG_CMD_READ; } /* calculate size of additional header segments (AHSs) */ hdrlength = task->hdr_len - sizeof(*hdr); WARN_ON(hdrlength & (ISCSI_PAD_LEN-1)); hdrlength /= ISCSI_PAD_LEN; WARN_ON(hdrlength >= 256); hdr->hlength = hdrlength & 0xFF; hdr->cmdsn = task->cmdsn = cpu_to_be32(session->cmdsn); if (session->tt->init_task && session->tt->init_task(task)) return -EIO; task->state = ISCSI_TASK_RUNNING; session->cmdsn++; conn->scsicmd_pdus_cnt++; ISCSI_DBG_SESSION(session, "iscsi prep [%s cid %d sc %p cdb 0x%x " "itt 0x%x len %d bidi_len %d cmdsn %d win %d]\n", scsi_bidi_cmnd(sc) ? "bidirectional" : sc->sc_data_direction == DMA_TO_DEVICE ? "write" : "read", conn->id, sc, sc->cmnd[0], task->itt, scsi_bufflen(sc), scsi_bidi_cmnd(sc) ? scsi_in(sc)->length : 0, session->cmdsn, session->max_cmdsn - session->exp_cmdsn + 1); return 0; } /** * iscsi_free_task - free a task * @task: iscsi cmd task * * Must be called with session lock. * This function returns the scsi command to scsi-ml or cleans * up mgmt tasks then returns the task to the pool. */ static void iscsi_free_task(struct iscsi_task *task) { struct iscsi_conn *conn = task->conn; struct iscsi_session *session = conn->session; struct scsi_cmnd *sc = task->sc; ISCSI_DBG_SESSION(session, "freeing task itt 0x%x state %d sc %p\n", task->itt, task->state, task->sc); session->tt->cleanup_task(task); task->state = ISCSI_TASK_FREE; task->sc = NULL; /* * login task is preallocated so do not free */ if (conn->login_task == task) return; kfifo_in(&session->cmdpool.queue, (void*)&task, sizeof(void*)); if (sc) { task->sc = NULL; /* SCSI eh reuses commands to verify us */ sc->SCp.ptr = NULL; /* * queue command may call this to free the task, but * not have setup the sc callback */ if (sc->scsi_done) sc->scsi_done(sc); } } void __iscsi_get_task(struct iscsi_task *task) { atomic_inc(&task->refcount); } EXPORT_SYMBOL_GPL(__iscsi_get_task); static void __iscsi_put_task(struct iscsi_task *task) { if (atomic_dec_and_test(&task->refcount)) iscsi_free_task(task); } void iscsi_put_task(struct iscsi_task *task) { struct iscsi_session *session = task->conn->session; spin_lock_bh(&session->lock); __iscsi_put_task(task); spin_unlock_bh(&session->lock); } EXPORT_SYMBOL_GPL(iscsi_put_task); /** * iscsi_complete_task - finish a task * @task: iscsi cmd task * @state: state to complete task with * * Must be called with session lock. */ static void iscsi_complete_task(struct iscsi_task *task, int state) { struct iscsi_conn *conn = task->conn; ISCSI_DBG_SESSION(conn->session, "complete task itt 0x%x state %d sc %p\n", task->itt, task->state, task->sc); if (task->state == ISCSI_TASK_COMPLETED || task->state == ISCSI_TASK_ABRT_TMF || task->state == ISCSI_TASK_ABRT_SESS_RECOV) return; WARN_ON_ONCE(task->state == ISCSI_TASK_FREE); task->state = state; if (!list_empty(&task->running)) list_del_init(&task->running); if (conn->task == task) conn->task = NULL; if (conn->ping_task == task) conn->ping_task = NULL; /* release get from queueing */ __iscsi_put_task(task); } /** * iscsi_complete_scsi_task - finish scsi task normally * @task: iscsi task for scsi cmd * @exp_cmdsn: expected cmd sn in cpu format * @max_cmdsn: max cmd sn in cpu format * * This is used when drivers do not need or cannot perform * lower level pdu processing. * * Called with session lock */ void iscsi_complete_scsi_task(struct iscsi_task *task, uint32_t exp_cmdsn, uint32_t max_cmdsn) { struct iscsi_conn *conn = task->conn; ISCSI_DBG_SESSION(conn->session, "[itt 0x%x]\n", task->itt); conn->last_recv = jiffies; __iscsi_update_cmdsn(conn->session, exp_cmdsn, max_cmdsn); iscsi_complete_task(task, ISCSI_TASK_COMPLETED); } EXPORT_SYMBOL_GPL(iscsi_complete_scsi_task); /* * session lock must be held and if not called for a task that is * still pending or from the xmit thread, then xmit thread must * be suspended. */ static void fail_scsi_task(struct iscsi_task *task, int err) { struct iscsi_conn *conn = task->conn; struct scsi_cmnd *sc; int state; /* * if a command completes and we get a successful tmf response * we will hit this because the scsi eh abort code does not take * a ref to the task. */ sc = task->sc; if (!sc) return; if (task->state == ISCSI_TASK_PENDING) { /* * cmd never made it to the xmit thread, so we should not count * the cmd in the sequencing */ conn->session->queued_cmdsn--; /* it was never sent so just complete like normal */ state = ISCSI_TASK_COMPLETED; } else if (err == DID_TRANSPORT_DISRUPTED) state = ISCSI_TASK_ABRT_SESS_RECOV; else state = ISCSI_TASK_ABRT_TMF; sc->result = err << 16; if (!scsi_bidi_cmnd(sc)) scsi_set_resid(sc, scsi_bufflen(sc)); else { scsi_out(sc)->resid = scsi_out(sc)->length; scsi_in(sc)->resid = scsi_in(sc)->length; } iscsi_complete_task(task, state); } static int iscsi_prep_mgmt_task(struct iscsi_conn *conn, struct iscsi_task *task) { struct iscsi_session *session = conn->session; struct iscsi_hdr *hdr = task->hdr; struct iscsi_nopout *nop = (struct iscsi_nopout *)hdr; uint8_t opcode = hdr->opcode & ISCSI_OPCODE_MASK; if (conn->session->state == ISCSI_STATE_LOGGING_OUT) return -ENOTCONN; if (opcode != ISCSI_OP_LOGIN && opcode != ISCSI_OP_TEXT) nop->exp_statsn = cpu_to_be32(conn->exp_statsn); /* * pre-format CmdSN for outgoing PDU. */ nop->cmdsn = cpu_to_be32(session->cmdsn); if (hdr->itt != RESERVED_ITT) { /* * TODO: We always use immediate for normal session pdus. * If we start to send tmfs or nops as non-immediate then * we should start checking the cmdsn numbers for mgmt tasks. * * During discovery sessions iscsid sends TEXT as non immediate, * but we always only send one PDU at a time. */ if (conn->c_stage == ISCSI_CONN_STARTED && !(hdr->opcode & ISCSI_OP_IMMEDIATE)) { session->queued_cmdsn++; session->cmdsn++; } } if (session->tt->init_task && session->tt->init_task(task)) return -EIO; if ((hdr->opcode & ISCSI_OPCODE_MASK) == ISCSI_OP_LOGOUT) session->state = ISCSI_STATE_LOGGING_OUT; task->state = ISCSI_TASK_RUNNING; ISCSI_DBG_SESSION(session, "mgmtpdu [op 0x%x hdr->itt 0x%x " "datalen %d]\n", hdr->opcode & ISCSI_OPCODE_MASK, hdr->itt, task->data_count); return 0; } static struct iscsi_task * __iscsi_conn_send_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, char *data, uint32_t data_size) { struct iscsi_session *session = conn->session; struct iscsi_host *ihost = shost_priv(session->host); uint8_t opcode = hdr->opcode & ISCSI_OPCODE_MASK; struct iscsi_task *task; itt_t itt; if (session->state == ISCSI_STATE_TERMINATE) return NULL; if (opcode == ISCSI_OP_LOGIN || opcode == ISCSI_OP_TEXT) { /* * Login and Text are sent serially, in * request-followed-by-response sequence. * Same task can be used. Same ITT must be used. * Note that login_task is preallocated at conn_create(). */ if (conn->login_task->state != ISCSI_TASK_FREE) { iscsi_conn_printk(KERN_ERR, conn, "Login/Text in " "progress. Cannot start new task.\n"); return NULL; } task = conn->login_task; } else { if (session->state != ISCSI_STATE_LOGGED_IN) return NULL; BUG_ON(conn->c_stage == ISCSI_CONN_INITIAL_STAGE); BUG_ON(conn->c_stage == ISCSI_CONN_STOPPED); if (!kfifo_out(&session->cmdpool.queue, (void*)&task, sizeof(void*))) return NULL; } /* * released in complete pdu for task we expect a response for, and * released by the lld when it has transmitted the task for * pdus we do not expect a response for. */ atomic_set(&task->refcount, 1); task->conn = conn; task->sc = NULL; INIT_LIST_HEAD(&task->running); task->state = ISCSI_TASK_PENDING; if (data_size) { memcpy(task->data, data, data_size); task->data_count = data_size; } else task->data_count = 0; if (conn->session->tt->alloc_pdu) { if (conn->session->tt->alloc_pdu(task, hdr->opcode)) { iscsi_conn_printk(KERN_ERR, conn, "Could not allocate " "pdu for mgmt task.\n"); goto free_task; } } itt = task->hdr->itt; task->hdr_len = sizeof(struct iscsi_hdr); memcpy(task->hdr, hdr, sizeof(struct iscsi_hdr)); if (hdr->itt != RESERVED_ITT) { if (session->tt->parse_pdu_itt) task->hdr->itt = itt; else task->hdr->itt = build_itt(task->itt, task->conn->session->age); } if (!ihost->workq) { if (iscsi_prep_mgmt_task(conn, task)) goto free_task; if (session->tt->xmit_task(task)) goto free_task; } else { list_add_tail(&task->running, &conn->mgmtqueue); iscsi_conn_queue_work(conn); } return task; free_task: __iscsi_put_task(task); return NULL; } int iscsi_conn_send_pdu(struct iscsi_cls_conn *cls_conn, struct iscsi_hdr *hdr, char *data, uint32_t data_size) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_session *session = conn->session; int err = 0; spin_lock_bh(&session->lock); if (!__iscsi_conn_send_pdu(conn, hdr, data, data_size)) err = -EPERM; spin_unlock_bh(&session->lock); return err; } EXPORT_SYMBOL_GPL(iscsi_conn_send_pdu); /** * iscsi_cmd_rsp - SCSI Command Response processing * @conn: iscsi connection * @hdr: iscsi header * @task: scsi command task * @data: cmd data buffer * @datalen: len of buffer * * iscsi_cmd_rsp sets up the scsi_cmnd fields based on the PDU and * then completes the command and task. **/ static void iscsi_scsi_cmd_rsp(struct iscsi_conn *conn, struct iscsi_hdr *hdr, struct iscsi_task *task, char *data, int datalen) { struct iscsi_cmd_rsp *rhdr = (struct iscsi_cmd_rsp *)hdr; struct iscsi_session *session = conn->session; struct scsi_cmnd *sc = task->sc; iscsi_update_cmdsn(session, (struct iscsi_nopin*)rhdr); conn->exp_statsn = be32_to_cpu(rhdr->statsn) + 1; sc->result = (DID_OK << 16) | rhdr->cmd_status; if (rhdr->response != ISCSI_STATUS_CMD_COMPLETED) { sc->result = DID_ERROR << 16; goto out; } if (rhdr->cmd_status == SAM_STAT_CHECK_CONDITION) { uint16_t senselen; if (datalen < 2) { invalid_datalen: iscsi_conn_printk(KERN_ERR, conn, "Got CHECK_CONDITION but invalid data " "buffer size of %d\n", datalen); sc->result = DID_BAD_TARGET << 16; goto out; } senselen = get_unaligned_be16(data); if (datalen < senselen) goto invalid_datalen; memcpy(sc->sense_buffer, data + 2, min_t(uint16_t, senselen, SCSI_SENSE_BUFFERSIZE)); ISCSI_DBG_SESSION(session, "copied %d bytes of sense\n", min_t(uint16_t, senselen, SCSI_SENSE_BUFFERSIZE)); } if (rhdr->flags & (ISCSI_FLAG_CMD_BIDI_UNDERFLOW | ISCSI_FLAG_CMD_BIDI_OVERFLOW)) { int res_count = be32_to_cpu(rhdr->bi_residual_count); if (scsi_bidi_cmnd(sc) && res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_BIDI_OVERFLOW || res_count <= scsi_in(sc)->length)) scsi_in(sc)->resid = res_count; else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } if (rhdr->flags & (ISCSI_FLAG_CMD_UNDERFLOW | ISCSI_FLAG_CMD_OVERFLOW)) { int res_count = be32_to_cpu(rhdr->residual_count); if (res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_OVERFLOW || res_count <= scsi_bufflen(sc))) /* write side for bidi or uni-io set_resid */ scsi_set_resid(sc, res_count); else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } out: ISCSI_DBG_SESSION(session, "cmd rsp done [sc %p res %d itt 0x%x]\n", sc, sc->result, task->itt); conn->scsirsp_pdus_cnt++; iscsi_complete_task(task, ISCSI_TASK_COMPLETED); } /** * iscsi_data_in_rsp - SCSI Data-In Response processing * @conn: iscsi connection * @hdr: iscsi pdu * @task: scsi command task **/ static void iscsi_data_in_rsp(struct iscsi_conn *conn, struct iscsi_hdr *hdr, struct iscsi_task *task) { struct iscsi_data_rsp *rhdr = (struct iscsi_data_rsp *)hdr; struct scsi_cmnd *sc = task->sc; if (!(rhdr->flags & ISCSI_FLAG_DATA_STATUS)) return; iscsi_update_cmdsn(conn->session, (struct iscsi_nopin *)hdr); sc->result = (DID_OK << 16) | rhdr->cmd_status; conn->exp_statsn = be32_to_cpu(rhdr->statsn) + 1; if (rhdr->flags & (ISCSI_FLAG_DATA_UNDERFLOW | ISCSI_FLAG_DATA_OVERFLOW)) { int res_count = be32_to_cpu(rhdr->residual_count); if (res_count > 0 && (rhdr->flags & ISCSI_FLAG_CMD_OVERFLOW || res_count <= scsi_in(sc)->length)) scsi_in(sc)->resid = res_count; else sc->result = (DID_BAD_TARGET << 16) | rhdr->cmd_status; } ISCSI_DBG_SESSION(conn->session, "data in with status done " "[sc %p res %d itt 0x%x]\n", sc, sc->result, task->itt); conn->scsirsp_pdus_cnt++; iscsi_complete_task(task, ISCSI_TASK_COMPLETED); } static void iscsi_tmf_rsp(struct iscsi_conn *conn, struct iscsi_hdr *hdr) { struct iscsi_tm_rsp *tmf = (struct iscsi_tm_rsp *)hdr; conn->exp_statsn = be32_to_cpu(hdr->statsn) + 1; conn->tmfrsp_pdus_cnt++; if (conn->tmf_state != TMF_QUEUED) return; if (tmf->response == ISCSI_TMF_RSP_COMPLETE) conn->tmf_state = TMF_SUCCESS; else if (tmf->response == ISCSI_TMF_RSP_NO_TASK) conn->tmf_state = TMF_NOT_FOUND; else conn->tmf_state = TMF_FAILED; wake_up(&conn->ehwait); } static void iscsi_send_nopout(struct iscsi_conn *conn, struct iscsi_nopin *rhdr) { struct iscsi_nopout hdr; struct iscsi_task *task; if (!rhdr && conn->ping_task) return; memset(&hdr, 0, sizeof(struct iscsi_nopout)); hdr.opcode = ISCSI_OP_NOOP_OUT | ISCSI_OP_IMMEDIATE; hdr.flags = ISCSI_FLAG_CMD_FINAL; if (rhdr) { memcpy(hdr.lun, rhdr->lun, 8); hdr.ttt = rhdr->ttt; hdr.itt = RESERVED_ITT; } else hdr.ttt = RESERVED_ITT; task = __iscsi_conn_send_pdu(conn, (struct iscsi_hdr *)&hdr, NULL, 0); if (!task) iscsi_conn_printk(KERN_ERR, conn, "Could not send nopout\n"); else if (!rhdr) { /* only track our nops */ conn->ping_task = task; conn->last_ping = jiffies; } } static int iscsi_nop_out_rsp(struct iscsi_task *task, struct iscsi_nopin *nop, char *data, int datalen) { struct iscsi_conn *conn = task->conn; int rc = 0; if (conn->ping_task != task) { /* * If this is not in response to one of our * nops then it must be from userspace. */ if (iscsi_recv_pdu(conn->cls_conn, (struct iscsi_hdr *)nop, data, datalen)) rc = ISCSI_ERR_CONN_FAILED; } else mod_timer(&conn->transport_timer, jiffies + conn->recv_timeout); iscsi_complete_task(task, ISCSI_TASK_COMPLETED); return rc; } static int iscsi_handle_reject(struct iscsi_conn *conn, struct iscsi_hdr *hdr, char *data, int datalen) { struct iscsi_reject *reject = (struct iscsi_reject *)hdr; struct iscsi_hdr rejected_pdu; int opcode, rc = 0; conn->exp_statsn = be32_to_cpu(reject->statsn) + 1; if (ntoh24(reject->dlength) > datalen || ntoh24(reject->dlength) < sizeof(struct iscsi_hdr)) { iscsi_conn_printk(KERN_ERR, conn, "Cannot handle rejected " "pdu. Invalid data length (pdu dlength " "%u, datalen %d\n", ntoh24(reject->dlength), datalen); return ISCSI_ERR_PROTO; } memcpy(&rejected_pdu, data, sizeof(struct iscsi_hdr)); opcode = rejected_pdu.opcode & ISCSI_OPCODE_MASK; switch (reject->reason) { case ISCSI_REASON_DATA_DIGEST_ERROR: iscsi_conn_printk(KERN_ERR, conn, "pdu (op 0x%x itt 0x%x) rejected " "due to DataDigest error.\n", rejected_pdu.itt, opcode); break; case ISCSI_REASON_IMM_CMD_REJECT: iscsi_conn_printk(KERN_ERR, conn, "pdu (op 0x%x itt 0x%x) rejected. Too many " "immediate commands.\n", rejected_pdu.itt, opcode); /* * We only send one TMF at a time so if the target could not * handle it, then it should get fixed (RFC mandates that * a target can handle one immediate TMF per conn). * * For nops-outs, we could have sent more than one if * the target is sending us lots of nop-ins */ if (opcode != ISCSI_OP_NOOP_OUT) return 0; if (rejected_pdu.itt == cpu_to_be32(ISCSI_RESERVED_TAG)) /* * nop-out in response to target's nop-out rejected. * Just resend. */ iscsi_send_nopout(conn, (struct iscsi_nopin*)&rejected_pdu); else { struct iscsi_task *task; /* * Our nop as ping got dropped. We know the target * and transport are ok so just clean up */ task = iscsi_itt_to_task(conn, rejected_pdu.itt); if (!task) { iscsi_conn_printk(KERN_ERR, conn, "Invalid pdu reject. Could " "not lookup rejected task.\n"); rc = ISCSI_ERR_BAD_ITT; } else rc = iscsi_nop_out_rsp(task, (struct iscsi_nopin*)&rejected_pdu, NULL, 0); } break; default: iscsi_conn_printk(KERN_ERR, conn, "pdu (op 0x%x itt 0x%x) rejected. Reason " "code 0x%x\n", rejected_pdu.itt, rejected_pdu.opcode, reject->reason); break; } return rc; } /** * iscsi_itt_to_task - look up task by itt * @conn: iscsi connection * @itt: itt * * This should be used for mgmt tasks like login and nops, or if * the LDD's itt space does not include the session age. * * The session lock must be held. */ struct iscsi_task *iscsi_itt_to_task(struct iscsi_conn *conn, itt_t itt) { struct iscsi_session *session = conn->session; int i; if (itt == RESERVED_ITT) return NULL; if (session->tt->parse_pdu_itt) session->tt->parse_pdu_itt(conn, itt, &i, NULL); else i = get_itt(itt); if (i >= session->cmds_max) return NULL; return session->cmds[i]; } EXPORT_SYMBOL_GPL(iscsi_itt_to_task); /** * __iscsi_complete_pdu - complete pdu * @conn: iscsi conn * @hdr: iscsi header * @data: data buffer * @datalen: len of data buffer * * Completes pdu processing by freeing any resources allocated at * queuecommand or send generic. session lock must be held and verify * itt must have been called. */ int __iscsi_complete_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, char *data, int datalen) { struct iscsi_session *session = conn->session; int opcode = hdr->opcode & ISCSI_OPCODE_MASK, rc = 0; struct iscsi_task *task; uint32_t itt; conn->last_recv = jiffies; rc = iscsi_verify_itt(conn, hdr->itt); if (rc) return rc; if (hdr->itt != RESERVED_ITT) itt = get_itt(hdr->itt); else itt = ~0U; ISCSI_DBG_SESSION(session, "[op 0x%x cid %d itt 0x%x len %d]\n", opcode, conn->id, itt, datalen); if (itt == ~0U) { iscsi_update_cmdsn(session, (struct iscsi_nopin*)hdr); switch(opcode) { case ISCSI_OP_NOOP_IN: if (datalen) { rc = ISCSI_ERR_PROTO; break; } if (hdr->ttt == cpu_to_be32(ISCSI_RESERVED_TAG)) break; iscsi_send_nopout(conn, (struct iscsi_nopin*)hdr); break; case ISCSI_OP_REJECT: rc = iscsi_handle_reject(conn, hdr, data, datalen); break; case ISCSI_OP_ASYNC_EVENT: conn->exp_statsn = be32_to_cpu(hdr->statsn) + 1; if (iscsi_recv_pdu(conn->cls_conn, hdr, data, datalen)) rc = ISCSI_ERR_CONN_FAILED; break; default: rc = ISCSI_ERR_BAD_OPCODE; break; } goto out; } switch(opcode) { case ISCSI_OP_SCSI_CMD_RSP: case ISCSI_OP_SCSI_DATA_IN: task = iscsi_itt_to_ctask(conn, hdr->itt); if (!task) return ISCSI_ERR_BAD_ITT; task->last_xfer = jiffies; break; case ISCSI_OP_R2T: /* * LLD handles R2Ts if they need to. */ return 0; case ISCSI_OP_LOGOUT_RSP: case ISCSI_OP_LOGIN_RSP: case ISCSI_OP_TEXT_RSP: case ISCSI_OP_SCSI_TMFUNC_RSP: case ISCSI_OP_NOOP_IN: task = iscsi_itt_to_task(conn, hdr->itt); if (!task) return ISCSI_ERR_BAD_ITT; break; default: return ISCSI_ERR_BAD_OPCODE; } switch(opcode) { case ISCSI_OP_SCSI_CMD_RSP: iscsi_scsi_cmd_rsp(conn, hdr, task, data, datalen); break; case ISCSI_OP_SCSI_DATA_IN: iscsi_data_in_rsp(conn, hdr, task); break; case ISCSI_OP_LOGOUT_RSP: iscsi_update_cmdsn(session, (struct iscsi_nopin*)hdr); if (datalen) { rc = ISCSI_ERR_PROTO; break; } conn->exp_statsn = be32_to_cpu(hdr->statsn) + 1; goto recv_pdu; case ISCSI_OP_LOGIN_RSP: case ISCSI_OP_TEXT_RSP: iscsi_update_cmdsn(session, (struct iscsi_nopin*)hdr); /* * login related PDU's exp_statsn is handled in * userspace */ goto recv_pdu; case ISCSI_OP_SCSI_TMFUNC_RSP: iscsi_update_cmdsn(session, (struct iscsi_nopin*)hdr); if (datalen) { rc = ISCSI_ERR_PROTO; break; } iscsi_tmf_rsp(conn, hdr); iscsi_complete_task(task, ISCSI_TASK_COMPLETED); break; case ISCSI_OP_NOOP_IN: iscsi_update_cmdsn(session, (struct iscsi_nopin*)hdr); if (hdr->ttt != cpu_to_be32(ISCSI_RESERVED_TAG) || datalen) { rc = ISCSI_ERR_PROTO; break; } conn->exp_statsn = be32_to_cpu(hdr->statsn) + 1; rc = iscsi_nop_out_rsp(task, (struct iscsi_nopin*)hdr, data, datalen); break; default: rc = ISCSI_ERR_BAD_OPCODE; break; } out: return rc; recv_pdu: if (iscsi_recv_pdu(conn->cls_conn, hdr, data, datalen)) rc = ISCSI_ERR_CONN_FAILED; iscsi_complete_task(task, ISCSI_TASK_COMPLETED); return rc; } EXPORT_SYMBOL_GPL(__iscsi_complete_pdu); int iscsi_complete_pdu(struct iscsi_conn *conn, struct iscsi_hdr *hdr, char *data, int datalen) { int rc; spin_lock(&conn->session->lock); rc = __iscsi_complete_pdu(conn, hdr, data, datalen); spin_unlock(&conn->session->lock); return rc; } EXPORT_SYMBOL_GPL(iscsi_complete_pdu); int iscsi_verify_itt(struct iscsi_conn *conn, itt_t itt) { struct iscsi_session *session = conn->session; int age = 0, i = 0; if (itt == RESERVED_ITT) return 0; if (session->tt->parse_pdu_itt) session->tt->parse_pdu_itt(conn, itt, &i, &age); else { i = get_itt(itt); age = ((__force u32)itt >> ISCSI_AGE_SHIFT) & ISCSI_AGE_MASK; } if (age != session->age) { iscsi_conn_printk(KERN_ERR, conn, "received itt %x expected session age (%x)\n", (__force u32)itt, session->age); return ISCSI_ERR_BAD_ITT; } if (i >= session->cmds_max) { iscsi_conn_printk(KERN_ERR, conn, "received invalid itt index %u (max cmds " "%u.\n", i, session->cmds_max); return ISCSI_ERR_BAD_ITT; } return 0; } EXPORT_SYMBOL_GPL(iscsi_verify_itt); /** * iscsi_itt_to_ctask - look up ctask by itt * @conn: iscsi connection * @itt: itt * * This should be used for cmd tasks. * * The session lock must be held. */ struct iscsi_task *iscsi_itt_to_ctask(struct iscsi_conn *conn, itt_t itt) { struct iscsi_task *task; if (iscsi_verify_itt(conn, itt)) return NULL; task = iscsi_itt_to_task(conn, itt); if (!task || !task->sc) return NULL; if (task->sc->SCp.phase != conn->session->age) { iscsi_session_printk(KERN_ERR, conn->session, "task's session age %d, expected %d\n", task->sc->SCp.phase, conn->session->age); return NULL; } return task; } EXPORT_SYMBOL_GPL(iscsi_itt_to_ctask); void iscsi_session_failure(struct iscsi_session *session, enum iscsi_err err) { struct iscsi_conn *conn; struct device *dev; unsigned long flags; spin_lock_irqsave(&session->lock, flags); conn = session->leadconn; if (session->state == ISCSI_STATE_TERMINATE || !conn) { spin_unlock_irqrestore(&session->lock, flags); return; } dev = get_device(&conn->cls_conn->dev); spin_unlock_irqrestore(&session->lock, flags); if (!dev) return; /* * if the host is being removed bypass the connection * recovery initialization because we are going to kill * the session. */ if (err == ISCSI_ERR_INVALID_HOST) iscsi_conn_error_event(conn->cls_conn, err); else iscsi_conn_failure(conn, err); put_device(dev); } EXPORT_SYMBOL_GPL(iscsi_session_failure); void iscsi_conn_failure(struct iscsi_conn *conn, enum iscsi_err err) { struct iscsi_session *session = conn->session; unsigned long flags; spin_lock_irqsave(&session->lock, flags); if (session->state == ISCSI_STATE_FAILED) { spin_unlock_irqrestore(&session->lock, flags); return; } if (conn->stop_stage == 0) session->state = ISCSI_STATE_FAILED; spin_unlock_irqrestore(&session->lock, flags); set_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx); set_bit(ISCSI_SUSPEND_BIT, &conn->suspend_rx); iscsi_conn_error_event(conn->cls_conn, err); } EXPORT_SYMBOL_GPL(iscsi_conn_failure); static int iscsi_check_cmdsn_window_closed(struct iscsi_conn *conn) { struct iscsi_session *session = conn->session; /* * Check for iSCSI window and take care of CmdSN wrap-around */ if (!iscsi_sna_lte(session->queued_cmdsn, session->max_cmdsn)) { ISCSI_DBG_SESSION(session, "iSCSI CmdSN closed. ExpCmdSn " "%u MaxCmdSN %u CmdSN %u/%u\n", session->exp_cmdsn, session->max_cmdsn, session->cmdsn, session->queued_cmdsn); return -ENOSPC; } return 0; } static int iscsi_xmit_task(struct iscsi_conn *conn) { struct iscsi_task *task = conn->task; int rc; if (test_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx)) return -ENODATA; __iscsi_get_task(task); spin_unlock_bh(&conn->session->lock); rc = conn->session->tt->xmit_task(task); spin_lock_bh(&conn->session->lock); if (!rc) { /* done with this task */ task->last_xfer = jiffies; conn->task = NULL; } __iscsi_put_task(task); return rc; } /** * iscsi_requeue_task - requeue task to run from session workqueue * @task: task to requeue * * LLDs that need to run a task from the session workqueue should call * this. The session lock must be held. This should only be called * by software drivers. */ void iscsi_requeue_task(struct iscsi_task *task) { struct iscsi_conn *conn = task->conn; /* * this may be on the requeue list already if the xmit_task callout * is handling the r2ts while we are adding new ones */ if (list_empty(&task->running)) list_add_tail(&task->running, &conn->requeue); iscsi_conn_queue_work(conn); } EXPORT_SYMBOL_GPL(iscsi_requeue_task); /** * iscsi_data_xmit - xmit any command into the scheduled connection * @conn: iscsi connection * * Notes: * The function can return -EAGAIN in which case the caller must * re-schedule it again later or recover. '0' return code means * successful xmit. **/ static int iscsi_data_xmit(struct iscsi_conn *conn) { struct iscsi_task *task; int rc = 0; spin_lock_bh(&conn->session->lock); if (test_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx)) { ISCSI_DBG_SESSION(conn->session, "Tx suspended!\n"); spin_unlock_bh(&conn->session->lock); return -ENODATA; } if (conn->task) { rc = iscsi_xmit_task(conn); if (rc) goto done; } /* * process mgmt pdus like nops before commands since we should * only have one nop-out as a ping from us and targets should not * overflow us with nop-ins */ check_mgmt: while (!list_empty(&conn->mgmtqueue)) { conn->task = list_entry(conn->mgmtqueue.next, struct iscsi_task, running); list_del_init(&conn->task->running); if (iscsi_prep_mgmt_task(conn, conn->task)) { __iscsi_put_task(conn->task); conn->task = NULL; continue; } rc = iscsi_xmit_task(conn); if (rc) goto done; } /* process pending command queue */ while (!list_empty(&conn->cmdqueue)) { conn->task = list_entry(conn->cmdqueue.next, struct iscsi_task, running); list_del_init(&conn->task->running); if (conn->session->state == ISCSI_STATE_LOGGING_OUT) { fail_scsi_task(conn->task, DID_IMM_RETRY); continue; } rc = iscsi_prep_scsi_cmd_pdu(conn->task); if (rc) { if (rc == -ENOMEM || rc == -EACCES) { list_add_tail(&conn->task->running, &conn->cmdqueue); conn->task = NULL; goto done; } else fail_scsi_task(conn->task, DID_ABORT); continue; } rc = iscsi_xmit_task(conn); if (rc) goto done; /* * we could continuously get new task requests so * we need to check the mgmt queue for nops that need to * be sent to aviod starvation */ if (!list_empty(&conn->mgmtqueue)) goto check_mgmt; } while (!list_empty(&conn->requeue)) { /* * we always do fastlogout - conn stop code will clean up. */ if (conn->session->state == ISCSI_STATE_LOGGING_OUT) break; task = list_entry(conn->requeue.next, struct iscsi_task, running); if (iscsi_check_tmf_restrictions(task, ISCSI_OP_SCSI_DATA_OUT)) break; conn->task = task; list_del_init(&conn->task->running); conn->task->state = ISCSI_TASK_RUNNING; rc = iscsi_xmit_task(conn); if (rc) goto done; if (!list_empty(&conn->mgmtqueue)) goto check_mgmt; } spin_unlock_bh(&conn->session->lock); return -ENODATA; done: spin_unlock_bh(&conn->session->lock); return rc; } static void iscsi_xmitworker(struct work_struct *work) { struct iscsi_conn *conn = container_of(work, struct iscsi_conn, xmitwork); int rc; /* * serialize Xmit worker on a per-connection basis. */ do { rc = iscsi_data_xmit(conn); } while (rc >= 0 || rc == -EAGAIN); } static inline struct iscsi_task *iscsi_alloc_task(struct iscsi_conn *conn, struct scsi_cmnd *sc) { struct iscsi_task *task; if (!kfifo_out(&conn->session->cmdpool.queue, (void *) &task, sizeof(void *))) return NULL; sc->SCp.phase = conn->session->age; sc->SCp.ptr = (char *) task; atomic_set(&task->refcount, 1); task->state = ISCSI_TASK_PENDING; task->conn = conn; task->sc = sc; task->have_checked_conn = 0; task->last_timeout = jiffies; task->last_xfer = jiffies; INIT_LIST_HEAD(&task->running); return task; } enum { FAILURE_BAD_HOST = 1, FAILURE_SESSION_FAILED, FAILURE_SESSION_FREED, FAILURE_WINDOW_CLOSED, FAILURE_OOM, FAILURE_SESSION_TERMINATE, FAILURE_SESSION_IN_RECOVERY, FAILURE_SESSION_RECOVERY_TIMEOUT, FAILURE_SESSION_LOGGING_OUT, FAILURE_SESSION_NOT_READY, }; int iscsi_queuecommand(struct scsi_cmnd *sc, void (*done)(struct scsi_cmnd *)) { struct iscsi_cls_session *cls_session; struct Scsi_Host *host; struct iscsi_host *ihost; int reason = 0; struct iscsi_session *session; struct iscsi_conn *conn; struct iscsi_task *task = NULL; sc->scsi_done = done; sc->result = 0; sc->SCp.ptr = NULL; host = sc->device->host; ihost = shost_priv(host); spin_unlock(host->host_lock); cls_session = starget_to_session(scsi_target(sc->device)); session = cls_session->dd_data; spin_lock(&session->lock); reason = iscsi_session_chkready(cls_session); if (reason) { sc->result = reason; goto fault; } if (session->state != ISCSI_STATE_LOGGED_IN) { /* * to handle the race between when we set the recovery state * and block the session we requeue here (commands could * be entering our queuecommand while a block is starting * up because the block code is not locked) */ switch (session->state) { case ISCSI_STATE_FAILED: case ISCSI_STATE_IN_RECOVERY: reason = FAILURE_SESSION_IN_RECOVERY; sc->result = DID_IMM_RETRY << 16; break; case ISCSI_STATE_LOGGING_OUT: reason = FAILURE_SESSION_LOGGING_OUT; sc->result = DID_IMM_RETRY << 16; break; case ISCSI_STATE_RECOVERY_FAILED: reason = FAILURE_SESSION_RECOVERY_TIMEOUT; sc->result = DID_TRANSPORT_FAILFAST << 16; break; case ISCSI_STATE_TERMINATE: reason = FAILURE_SESSION_TERMINATE; sc->result = DID_NO_CONNECT << 16; break; default: reason = FAILURE_SESSION_FREED; sc->result = DID_NO_CONNECT << 16; } goto fault; } conn = session->leadconn; if (!conn) { reason = FAILURE_SESSION_FREED; sc->result = DID_NO_CONNECT << 16; goto fault; } if (test_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx)) { reason = FAILURE_SESSION_IN_RECOVERY; sc->result = DID_REQUEUE; goto fault; } if (iscsi_check_cmdsn_window_closed(conn)) { reason = FAILURE_WINDOW_CLOSED; goto reject; } task = iscsi_alloc_task(conn, sc); if (!task) { reason = FAILURE_OOM; goto reject; } if (!ihost->workq) { reason = iscsi_prep_scsi_cmd_pdu(task); if (reason) { if (reason == -ENOMEM || reason == -EACCES) { reason = FAILURE_OOM; goto prepd_reject; } else { sc->result = DID_ABORT << 16; goto prepd_fault; } } if (session->tt->xmit_task(task)) { session->cmdsn--; reason = FAILURE_SESSION_NOT_READY; goto prepd_reject; } } else { list_add_tail(&task->running, &conn->cmdqueue); iscsi_conn_queue_work(conn); } session->queued_cmdsn++; spin_unlock(&session->lock); spin_lock(host->host_lock); return 0; prepd_reject: sc->scsi_done = NULL; iscsi_complete_task(task, ISCSI_TASK_COMPLETED); reject: spin_unlock(&session->lock); ISCSI_DBG_SESSION(session, "cmd 0x%x rejected (%d)\n", sc->cmnd[0], reason); spin_lock(host->host_lock); return SCSI_MLQUEUE_TARGET_BUSY; prepd_fault: sc->scsi_done = NULL; iscsi_complete_task(task, ISCSI_TASK_COMPLETED); fault: spin_unlock(&session->lock); ISCSI_DBG_SESSION(session, "iscsi: cmd 0x%x is not queued (%d)\n", sc->cmnd[0], reason); if (!scsi_bidi_cmnd(sc)) scsi_set_resid(sc, scsi_bufflen(sc)); else { scsi_out(sc)->resid = scsi_out(sc)->length; scsi_in(sc)->resid = scsi_in(sc)->length; } done(sc); spin_lock(host->host_lock); return 0; } EXPORT_SYMBOL_GPL(iscsi_queuecommand); int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, int reason) { switch (reason) { case SCSI_QDEPTH_DEFAULT: scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); break; case SCSI_QDEPTH_QFULL: scsi_track_queue_full(sdev, depth); break; case SCSI_QDEPTH_RAMP_UP: scsi_adjust_queue_depth(sdev, scsi_get_tag_type(sdev), depth); break; default: return -EOPNOTSUPP; } return sdev->queue_depth; } EXPORT_SYMBOL_GPL(iscsi_change_queue_depth); int iscsi_target_alloc(struct scsi_target *starget) { struct iscsi_cls_session *cls_session = starget_to_session(starget); struct iscsi_session *session = cls_session->dd_data; #if 0 starget->can_queue = session->scsi_cmds_max; #endif return 0; } EXPORT_SYMBOL_GPL(iscsi_target_alloc); static void iscsi_tmf_timedout(unsigned long data) { struct iscsi_conn *conn = (struct iscsi_conn *)data; struct iscsi_session *session = conn->session; spin_lock(&session->lock); if (conn->tmf_state == TMF_QUEUED) { conn->tmf_state = TMF_TIMEDOUT; ISCSI_DBG_EH(session, "tmf timedout\n"); /* unblock eh_abort() */ wake_up(&conn->ehwait); } spin_unlock(&session->lock); } static int iscsi_exec_task_mgmt_fn(struct iscsi_conn *conn, struct iscsi_tm *hdr, int age, int timeout) { struct iscsi_session *session = conn->session; struct iscsi_task *task; task = __iscsi_conn_send_pdu(conn, (struct iscsi_hdr *)hdr, NULL, 0); if (!task) { spin_unlock_bh(&session->lock); iscsi_conn_failure(conn, ISCSI_ERR_CONN_FAILED); spin_lock_bh(&session->lock); ISCSI_DBG_EH(session, "tmf exec failure\n"); return -EPERM; } conn->tmfcmd_pdus_cnt++; conn->tmf_timer.expires = timeout * HZ + jiffies; conn->tmf_timer.function = iscsi_tmf_timedout; conn->tmf_timer.data = (unsigned long)conn; add_timer(&conn->tmf_timer); ISCSI_DBG_EH(session, "tmf set timeout\n"); spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); /* * block eh thread until: * * 1) tmf response * 2) tmf timeout * 3) session is terminated or restarted or userspace has * given up on recovery */ wait_event_interruptible(conn->ehwait, age != session->age || session->state != ISCSI_STATE_LOGGED_IN || conn->tmf_state != TMF_QUEUED); if (signal_pending(current)) flush_signals(current); del_timer_sync(&conn->tmf_timer); mutex_lock(&session->eh_mutex); spin_lock_bh(&session->lock); /* if the session drops it will clean up the task */ if (age != session->age || session->state != ISCSI_STATE_LOGGED_IN) return -ENOTCONN; return 0; } /* * Fail commands. session lock held and recv side suspended and xmit * thread flushed */ static void fail_scsi_tasks(struct iscsi_conn *conn, unsigned lun, int error) { struct iscsi_task *task; int i; for (i = 0; i < conn->session->cmds_max; i++) { task = conn->session->cmds[i]; if (!task->sc || task->state == ISCSI_TASK_FREE) continue; if (lun != -1 && lun != task->sc->device->lun) continue; ISCSI_DBG_SESSION(conn->session, "failing sc %p itt 0x%x state %d\n", task->sc, task->itt, task->state); fail_scsi_task(task, error); } } /** * iscsi_suspend_queue - suspend iscsi_queuecommand * @conn: iscsi conn to stop queueing IO on * * This grabs the session lock to make sure no one is in * xmit_task/queuecommand, and then sets suspend to prevent * new commands from being queued. This only needs to be called * by offload drivers that need to sync a path like ep disconnect * with the iscsi_queuecommand/xmit_task. To start IO again libiscsi * will call iscsi_start_tx and iscsi_unblock_session when in FFP. */ void iscsi_suspend_queue(struct iscsi_conn *conn) { spin_lock_bh(&conn->session->lock); set_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx); spin_unlock_bh(&conn->session->lock); } EXPORT_SYMBOL_GPL(iscsi_suspend_queue); /** * iscsi_suspend_tx - suspend iscsi_data_xmit * @conn: iscsi conn tp stop processing IO on. * * This function sets the suspend bit to prevent iscsi_data_xmit * from sending new IO, and if work is queued on the xmit thread * it will wait for it to be completed. */ void iscsi_suspend_tx(struct iscsi_conn *conn) { struct Scsi_Host *shost = conn->session->host; struct iscsi_host *ihost = shost_priv(shost); set_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx); if (ihost->workq) flush_workqueue(ihost->workq); } EXPORT_SYMBOL_GPL(iscsi_suspend_tx); static void iscsi_start_tx(struct iscsi_conn *conn) { clear_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx); iscsi_conn_queue_work(conn); } /* * We want to make sure a ping is in flight. It has timed out. * And we are not busy processing a pdu that is making * progress but got started before the ping and is taking a while * to complete so the ping is just stuck behind it in a queue. */ static int iscsi_has_ping_timed_out(struct iscsi_conn *conn) { if (conn->ping_task && time_before_eq(conn->last_recv + (conn->recv_timeout * HZ) + (conn->ping_timeout * HZ), jiffies)) return 1; else return 0; } static enum blk_eh_timer_return iscsi_eh_cmd_timed_out(struct scsi_cmnd *sc) { enum blk_eh_timer_return rc = BLK_EH_NOT_HANDLED; struct iscsi_task *task = NULL, *running_task; struct iscsi_cls_session *cls_session; struct iscsi_session *session; struct iscsi_conn *conn; int i; cls_session = starget_to_session(scsi_target(sc->device)); session = cls_session->dd_data; ISCSI_DBG_EH(session, "scsi cmd %p timedout\n", sc); spin_lock(&session->lock); if (session->state != ISCSI_STATE_LOGGED_IN) { /* * We are probably in the middle of iscsi recovery so let * that complete and handle the error. */ rc = BLK_EH_RESET_TIMER; goto done; } conn = session->leadconn; if (!conn) { /* In the middle of shuting down */ rc = BLK_EH_RESET_TIMER; goto done; } task = (struct iscsi_task *)sc->SCp.ptr; if (!task) { /* * Raced with completion. Just reset timer, and let it * complete normally */ rc = BLK_EH_RESET_TIMER; goto done; } /* * If we have sent (at least queued to the network layer) a pdu or * recvd one for the task since the last timeout ask for * more time. If on the next timeout we have not made progress * we can check if it is the task or connection when we send the * nop as a ping. */ if (time_after(task->last_xfer, task->last_timeout)) { ISCSI_DBG_EH(session, "Command making progress. Asking " "scsi-ml for more time to complete. " "Last data xfer at %lu. Last timeout was at " "%lu\n.", task->last_xfer, task->last_timeout); task->have_checked_conn = 0; rc = BLK_EH_RESET_TIMER; goto done; } if (!conn->recv_timeout && !conn->ping_timeout) goto done; /* * if the ping timedout then we are in the middle of cleaning up * and can let the iscsi eh handle it */ if (iscsi_has_ping_timed_out(conn)) { rc = BLK_EH_RESET_TIMER; goto done; } for (i = 0; i < conn->session->cmds_max; i++) { running_task = conn->session->cmds[i]; if (!running_task->sc || running_task == task || running_task->state != ISCSI_TASK_RUNNING) continue; /* * Only check if cmds started before this one have made * progress, or this could never fail */ if (time_after(running_task->sc->jiffies_at_alloc, task->sc->jiffies_at_alloc)) continue; if (time_after(running_task->last_xfer, task->last_timeout)) { /* * This task has not made progress, but a task * started before us has transferred data since * we started/last-checked. We could be queueing * too many tasks or the LU is bad. * * If the device is bad the cmds ahead of us on * other devs will complete, and this loop will * eventually fail starting the scsi eh. */ ISCSI_DBG_EH(session, "Command has not made progress " "but commands ahead of it have. " "Asking scsi-ml for more time to " "complete. Our last xfer vs running task " "last xfer %lu/%lu. Last check %lu.\n", task->last_xfer, running_task->last_xfer, task->last_timeout); rc = BLK_EH_RESET_TIMER; goto done; } } /* Assumes nop timeout is shorter than scsi cmd timeout */ if (task->have_checked_conn) goto done; /* * Checking the transport already or nop from a cmd timeout still * running */ if (conn->ping_task) { task->have_checked_conn = 1; rc = BLK_EH_RESET_TIMER; goto done; } /* Make sure there is a transport check done */ iscsi_send_nopout(conn, NULL); task->have_checked_conn = 1; rc = BLK_EH_RESET_TIMER; done: if (task) task->last_timeout = jiffies; spin_unlock(&session->lock); ISCSI_DBG_EH(session, "return %s\n", rc == BLK_EH_RESET_TIMER ? "timer reset" : "nh"); return rc; } static void iscsi_check_transport_timeouts(unsigned long data) { struct iscsi_conn *conn = (struct iscsi_conn *)data; struct iscsi_session *session = conn->session; unsigned long recv_timeout, next_timeout = 0, last_recv; spin_lock(&session->lock); if (session->state != ISCSI_STATE_LOGGED_IN) goto done; recv_timeout = conn->recv_timeout; if (!recv_timeout) goto done; recv_timeout *= HZ; last_recv = conn->last_recv; if (iscsi_has_ping_timed_out(conn)) { iscsi_conn_printk(KERN_ERR, conn, "ping timeout of %d secs " "expired, recv timeout %d, last rx %lu, " "last ping %lu, now %lu\n", conn->ping_timeout, conn->recv_timeout, last_recv, conn->last_ping, jiffies); spin_unlock(&session->lock); iscsi_conn_failure(conn, ISCSI_ERR_CONN_FAILED); return; } if (time_before_eq(last_recv + recv_timeout, jiffies)) { /* send a ping to try to provoke some traffic */ ISCSI_DBG_CONN(conn, "Sending nopout as ping\n"); iscsi_send_nopout(conn, NULL); next_timeout = conn->last_ping + (conn->ping_timeout * HZ); } else next_timeout = last_recv + recv_timeout; ISCSI_DBG_CONN(conn, "Setting next tmo %lu\n", next_timeout); mod_timer(&conn->transport_timer, next_timeout); done: spin_unlock(&session->lock); } static void iscsi_prep_abort_task_pdu(struct iscsi_task *task, struct iscsi_tm *hdr) { memset(hdr, 0, sizeof(*hdr)); hdr->opcode = ISCSI_OP_SCSI_TMFUNC | ISCSI_OP_IMMEDIATE; hdr->flags = ISCSI_TM_FUNC_ABORT_TASK & ISCSI_FLAG_TM_FUNC_MASK; hdr->flags |= ISCSI_FLAG_CMD_FINAL; memcpy(hdr->lun, task->lun, sizeof(hdr->lun)); hdr->rtt = task->hdr_itt; hdr->refcmdsn = task->cmdsn; } int iscsi_eh_abort(struct scsi_cmnd *sc) { struct iscsi_cls_session *cls_session; struct iscsi_session *session; struct iscsi_conn *conn; struct iscsi_task *task; struct iscsi_tm *hdr; int rc, age; cls_session = starget_to_session(scsi_target(sc->device)); session = cls_session->dd_data; ISCSI_DBG_EH(session, "aborting sc %p\n", sc); mutex_lock(&session->eh_mutex); spin_lock_bh(&session->lock); /* * if session was ISCSI_STATE_IN_RECOVERY then we may not have * got the command. */ if (!sc->SCp.ptr) { ISCSI_DBG_EH(session, "sc never reached iscsi layer or " "it completed.\n"); spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); return SUCCESS; } /* * If we are not logged in or we have started a new session * then let the host reset code handle this */ if (!session->leadconn || session->state != ISCSI_STATE_LOGGED_IN || sc->SCp.phase != session->age) { spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); ISCSI_DBG_EH(session, "failing abort due to dropped " "session.\n"); return FAILED; } conn = session->leadconn; conn->eh_abort_cnt++; age = session->age; task = (struct iscsi_task *)sc->SCp.ptr; ISCSI_DBG_EH(session, "aborting [sc %p itt 0x%x]\n", sc, task->itt); /* task completed before time out */ if (!task->sc) { ISCSI_DBG_EH(session, "sc completed while abort in progress\n"); goto success; } if (task->state == ISCSI_TASK_PENDING) { fail_scsi_task(task, DID_ABORT); goto success; } /* only have one tmf outstanding at a time */ if (conn->tmf_state != TMF_INITIAL) goto failed; conn->tmf_state = TMF_QUEUED; hdr = &conn->tmhdr; iscsi_prep_abort_task_pdu(task, hdr); if (iscsi_exec_task_mgmt_fn(conn, hdr, age, session->abort_timeout)) { rc = FAILED; goto failed; } switch (conn->tmf_state) { case TMF_SUCCESS: spin_unlock_bh(&session->lock); /* * stop tx side incase the target had sent a abort rsp but * the initiator was still writing out data. */ iscsi_suspend_tx(conn); /* * we do not stop the recv side because targets have been * good and have never sent us a successful tmf response * then sent more data for the cmd. */ spin_lock_bh(&session->lock); fail_scsi_task(task, DID_ABORT); conn->tmf_state = TMF_INITIAL; memset(hdr, 0, sizeof(*hdr)); spin_unlock_bh(&session->lock); iscsi_start_tx(conn); goto success_unlocked; case TMF_TIMEDOUT: spin_unlock_bh(&session->lock); iscsi_conn_failure(conn, ISCSI_ERR_CONN_FAILED); goto failed_unlocked; case TMF_NOT_FOUND: if (!sc->SCp.ptr) { conn->tmf_state = TMF_INITIAL; memset(hdr, 0, sizeof(*hdr)); /* task completed before tmf abort response */ ISCSI_DBG_EH(session, "sc completed while abort in " "progress\n"); goto success; } /* fall through */ default: conn->tmf_state = TMF_INITIAL; goto failed; } success: spin_unlock_bh(&session->lock); success_unlocked: ISCSI_DBG_EH(session, "abort success [sc %p itt 0x%x]\n", sc, task->itt); mutex_unlock(&session->eh_mutex); return SUCCESS; failed: spin_unlock_bh(&session->lock); failed_unlocked: ISCSI_DBG_EH(session, "abort failed [sc %p itt 0x%x]\n", sc, task ? task->itt : 0); mutex_unlock(&session->eh_mutex); return FAILED; } EXPORT_SYMBOL_GPL(iscsi_eh_abort); static void iscsi_prep_lun_reset_pdu(struct scsi_cmnd *sc, struct iscsi_tm *hdr) { memset(hdr, 0, sizeof(*hdr)); hdr->opcode = ISCSI_OP_SCSI_TMFUNC | ISCSI_OP_IMMEDIATE; hdr->flags = ISCSI_TM_FUNC_LOGICAL_UNIT_RESET & ISCSI_FLAG_TM_FUNC_MASK; hdr->flags |= ISCSI_FLAG_CMD_FINAL; int_to_scsilun(sc->device->lun, (struct scsi_lun *)hdr->lun); hdr->rtt = RESERVED_ITT; } int iscsi_eh_device_reset(struct scsi_cmnd *sc) { struct iscsi_cls_session *cls_session; struct iscsi_session *session; struct iscsi_conn *conn; struct iscsi_tm *hdr; int rc = FAILED; cls_session = starget_to_session(scsi_target(sc->device)); session = cls_session->dd_data; ISCSI_DBG_EH(session, "LU Reset [sc %p lun %u]\n", sc, sc->device->lun); mutex_lock(&session->eh_mutex); spin_lock_bh(&session->lock); /* * Just check if we are not logged in. We cannot check for * the phase because the reset could come from an ioctl. */ if (!session->leadconn || session->state != ISCSI_STATE_LOGGED_IN) goto unlock; conn = session->leadconn; /* only have one tmf outstanding at a time */ if (conn->tmf_state != TMF_INITIAL) goto unlock; conn->tmf_state = TMF_QUEUED; hdr = &conn->tmhdr; iscsi_prep_lun_reset_pdu(sc, hdr); if (iscsi_exec_task_mgmt_fn(conn, hdr, session->age, session->lu_reset_timeout)) { rc = FAILED; goto unlock; } switch (conn->tmf_state) { case TMF_SUCCESS: break; case TMF_TIMEDOUT: spin_unlock_bh(&session->lock); iscsi_conn_failure(conn, ISCSI_ERR_CONN_FAILED); goto done; default: conn->tmf_state = TMF_INITIAL; goto unlock; } rc = SUCCESS; spin_unlock_bh(&session->lock); iscsi_suspend_tx(conn); spin_lock_bh(&session->lock); memset(hdr, 0, sizeof(*hdr)); fail_scsi_tasks(conn, sc->device->lun, DID_ERROR); conn->tmf_state = TMF_INITIAL; spin_unlock_bh(&session->lock); iscsi_start_tx(conn); goto done; unlock: spin_unlock_bh(&session->lock); done: ISCSI_DBG_EH(session, "dev reset result = %s\n", rc == SUCCESS ? "SUCCESS" : "FAILED"); mutex_unlock(&session->eh_mutex); return rc; } EXPORT_SYMBOL_GPL(iscsi_eh_device_reset); void iscsi_session_recovery_timedout(struct iscsi_cls_session *cls_session) { struct iscsi_session *session = cls_session->dd_data; spin_lock_bh(&session->lock); if (session->state != ISCSI_STATE_LOGGED_IN) { session->state = ISCSI_STATE_RECOVERY_FAILED; if (session->leadconn) wake_up(&session->leadconn->ehwait); } spin_unlock_bh(&session->lock); } EXPORT_SYMBOL_GPL(iscsi_session_recovery_timedout); /** * iscsi_eh_session_reset - drop session and attempt relogin * @sc: scsi command * * This function will wait for a relogin, session termination from * userspace, or a recovery/replacement timeout. */ int iscsi_eh_session_reset(struct scsi_cmnd *sc) { struct iscsi_cls_session *cls_session; struct iscsi_session *session; struct iscsi_conn *conn; cls_session = starget_to_session(scsi_target(sc->device)); session = cls_session->dd_data; conn = session->leadconn; mutex_lock(&session->eh_mutex); spin_lock_bh(&session->lock); if (session->state == ISCSI_STATE_TERMINATE) { failed: ISCSI_DBG_EH(session, "failing session reset: Could not log back into " "%s, %s [age %d]\n", session->targetname, conn->persistent_address, session->age); spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); return FAILED; } spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); /* * we drop the lock here but the leadconn cannot be destoyed while * we are in the scsi eh */ iscsi_conn_failure(conn, ISCSI_ERR_CONN_FAILED); ISCSI_DBG_EH(session, "wait for relogin\n"); wait_event_interruptible(conn->ehwait, session->state == ISCSI_STATE_TERMINATE || session->state == ISCSI_STATE_LOGGED_IN || session->state == ISCSI_STATE_RECOVERY_FAILED); if (signal_pending(current)) flush_signals(current); mutex_lock(&session->eh_mutex); spin_lock_bh(&session->lock); if (session->state == ISCSI_STATE_LOGGED_IN) { ISCSI_DBG_EH(session, "session reset succeeded for %s,%s\n", session->targetname, conn->persistent_address); } else goto failed; spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); return SUCCESS; } EXPORT_SYMBOL_GPL(iscsi_eh_session_reset); static void iscsi_prep_tgt_reset_pdu(struct scsi_cmnd *sc, struct iscsi_tm *hdr) { memset(hdr, 0, sizeof(*hdr)); hdr->opcode = ISCSI_OP_SCSI_TMFUNC | ISCSI_OP_IMMEDIATE; hdr->flags = ISCSI_TM_FUNC_TARGET_WARM_RESET & ISCSI_FLAG_TM_FUNC_MASK; hdr->flags |= ISCSI_FLAG_CMD_FINAL; hdr->rtt = RESERVED_ITT; } /** * iscsi_eh_target_reset - reset target * @sc: scsi command * * This will attempt to send a warm target reset. */ int iscsi_eh_target_reset(struct scsi_cmnd *sc) { struct iscsi_cls_session *cls_session; struct iscsi_session *session; struct iscsi_conn *conn; struct iscsi_tm *hdr; int rc = FAILED; cls_session = starget_to_session(scsi_target(sc->device)); session = cls_session->dd_data; ISCSI_DBG_EH(session, "tgt Reset [sc %p tgt %s]\n", sc, session->targetname); mutex_lock(&session->eh_mutex); spin_lock_bh(&session->lock); /* * Just check if we are not logged in. We cannot check for * the phase because the reset could come from an ioctl. */ if (!session->leadconn || session->state != ISCSI_STATE_LOGGED_IN) goto unlock; conn = session->leadconn; /* only have one tmf outstanding at a time */ if (conn->tmf_state != TMF_INITIAL) goto unlock; conn->tmf_state = TMF_QUEUED; hdr = &conn->tmhdr; iscsi_prep_tgt_reset_pdu(sc, hdr); if (iscsi_exec_task_mgmt_fn(conn, hdr, session->age, session->tgt_reset_timeout)) { rc = FAILED; goto unlock; } switch (conn->tmf_state) { case TMF_SUCCESS: break; case TMF_TIMEDOUT: spin_unlock_bh(&session->lock); iscsi_conn_failure(conn, ISCSI_ERR_CONN_FAILED); goto done; default: conn->tmf_state = TMF_INITIAL; goto unlock; } rc = SUCCESS; spin_unlock_bh(&session->lock); iscsi_suspend_tx(conn); spin_lock_bh(&session->lock); memset(hdr, 0, sizeof(*hdr)); fail_scsi_tasks(conn, -1, DID_ERROR); conn->tmf_state = TMF_INITIAL; spin_unlock_bh(&session->lock); iscsi_start_tx(conn); goto done; unlock: spin_unlock_bh(&session->lock); done: ISCSI_DBG_EH(session, "tgt %s reset result = %s\n", session->targetname, rc == SUCCESS ? "SUCCESS" : "FAILED"); mutex_unlock(&session->eh_mutex); return rc; } EXPORT_SYMBOL_GPL(iscsi_eh_target_reset); /** * iscsi_eh_recover_target - reset target and possibly the session * @sc: scsi command * * This will attempt to send a warm target reset. If that fails, * we will escalate to ERL0 session recovery. */ int iscsi_eh_recover_target(struct scsi_cmnd *sc) { int rc; rc = iscsi_eh_target_reset(sc); if (rc == FAILED) rc = iscsi_eh_session_reset(sc); return rc; } EXPORT_SYMBOL_GPL(iscsi_eh_recover_target); /* * Pre-allocate a pool of @max items of @item_size. By default, the pool * should be accessed via kfifo_{get,put} on q->queue. * Optionally, the caller can obtain the array of object pointers * by passing in a non-NULL @items pointer */ int iscsi_pool_init(struct iscsi_pool *q, int max, void ***items, int item_size) { int i, num_arrays = 1; memset(q, 0, sizeof(*q)); q->max = max; /* If the user passed an items pointer, he wants a copy of * the array. */ if (items) num_arrays++; q->pool = kzalloc(num_arrays * max * sizeof(void*), GFP_KERNEL); if (q->pool == NULL) return -ENOMEM; kfifo_init(&q->queue, (void*)q->pool, max * sizeof(void*)); for (i = 0; i < max; i++) { q->pool[i] = kzalloc(item_size, GFP_KERNEL); if (q->pool[i] == NULL) { q->max = i; goto enomem; } kfifo_in(&q->queue, (void*)&q->pool[i], sizeof(void*)); } if (items) { *items = q->pool + max; memcpy(*items, q->pool, max * sizeof(void *)); } return 0; enomem: iscsi_pool_free(q); return -ENOMEM; } EXPORT_SYMBOL_GPL(iscsi_pool_init); void iscsi_pool_free(struct iscsi_pool *q) { int i; for (i = 0; i < q->max; i++) kfree(q->pool[i]); kfree(q->pool); } EXPORT_SYMBOL_GPL(iscsi_pool_free); /** * iscsi_host_add - add host to system * @shost: scsi host * @pdev: parent device * * This should be called by partial offload and software iscsi drivers * to add a host to the system. */ int iscsi_host_add(struct Scsi_Host *shost, struct device *pdev) { if (!shost->can_queue) shost->can_queue = ISCSI_DEF_XMIT_CMDS_MAX; if (!shost->cmd_per_lun) shost->cmd_per_lun = ISCSI_DEF_CMD_PER_LUN; if (!shost->transportt->eh_timed_out) shost->transportt->eh_timed_out = iscsi_eh_cmd_timed_out; return scsi_add_host(shost, pdev); } EXPORT_SYMBOL_GPL(iscsi_host_add); /** * iscsi_host_alloc - allocate a host and driver data * @sht: scsi host template * @dd_data_size: driver host data size * @xmit_can_sleep: bool indicating if LLD will queue IO from a work queue * * This should be called by partial offload and software iscsi drivers. * To access the driver specific memory use the iscsi_host_priv() macro. */ struct Scsi_Host *iscsi_host_alloc(struct scsi_host_template *sht, int dd_data_size, bool xmit_can_sleep) { struct Scsi_Host *shost; struct iscsi_host *ihost; shost = scsi_host_alloc(sht, sizeof(struct iscsi_host) + dd_data_size); if (!shost) return NULL; ihost = shost_priv(shost); if (xmit_can_sleep) { snprintf(ihost->workq_name, sizeof(ihost->workq_name), "iscsi_q_%d", shost->host_no); ihost->workq = create_singlethread_workqueue(ihost->workq_name); if (!ihost->workq) goto free_host; } spin_lock_init(&ihost->lock); ihost->state = ISCSI_HOST_SETUP; ihost->num_sessions = 0; init_waitqueue_head(&ihost->session_removal_wq); return shost; free_host: scsi_host_put(shost); return NULL; } EXPORT_SYMBOL_GPL(iscsi_host_alloc); static void iscsi_notify_host_removed(struct iscsi_cls_session *cls_session) { iscsi_session_failure(cls_session->dd_data, ISCSI_ERR_INVALID_HOST); } /** * iscsi_host_remove - remove host and sessions * @shost: scsi host * * If there are any sessions left, this will initiate the removal and wait * for the completion. */ void iscsi_host_remove(struct Scsi_Host *shost) { struct iscsi_host *ihost = shost_priv(shost); unsigned long flags; spin_lock_irqsave(&ihost->lock, flags); ihost->state = ISCSI_HOST_REMOVED; spin_unlock_irqrestore(&ihost->lock, flags); iscsi_host_for_each_session(shost, iscsi_notify_host_removed); wait_event_interruptible(ihost->session_removal_wq, ihost->num_sessions == 0); if (signal_pending(current)) flush_signals(current); scsi_remove_host(shost); if (ihost->workq) destroy_workqueue(ihost->workq); } EXPORT_SYMBOL_GPL(iscsi_host_remove); void iscsi_host_free(struct Scsi_Host *shost) { struct iscsi_host *ihost = shost_priv(shost); kfree(ihost->netdev); kfree(ihost->hwaddress); kfree(ihost->initiatorname); scsi_host_put(shost); } EXPORT_SYMBOL_GPL(iscsi_host_free); static void iscsi_host_dec_session_cnt(struct Scsi_Host *shost) { struct iscsi_host *ihost = shost_priv(shost); unsigned long flags; shost = scsi_host_get(shost); if (!shost) { printk(KERN_ERR "Invalid state. Cannot notify host removal " "of session teardown event because host already " "removed.\n"); return; } spin_lock_irqsave(&ihost->lock, flags); ihost->num_sessions--; if (ihost->num_sessions == 0) wake_up(&ihost->session_removal_wq); spin_unlock_irqrestore(&ihost->lock, flags); scsi_host_put(shost); } /** * iscsi_session_setup - create iscsi cls session and host and session * @iscsit: iscsi transport template * @shost: scsi host * @cmds_max: session can queue * @cmd_task_size: LLD task private data size * @initial_cmdsn: initial CmdSN * * This can be used by software iscsi_transports that allocate * a session per scsi host. * * Callers should set cmds_max to the largest total numer (mgmt + scsi) of * tasks they support. The iscsi layer reserves ISCSI_MGMT_CMDS_MAX tasks * for nop handling and login/logout requests. */ struct iscsi_cls_session * iscsi_session_setup(struct iscsi_transport *iscsit, struct Scsi_Host *shost, uint16_t cmds_max, int dd_size, int cmd_task_size, uint32_t initial_cmdsn, unsigned int id) { struct iscsi_host *ihost = shost_priv(shost); struct iscsi_session *session; struct iscsi_cls_session *cls_session; int cmd_i, scsi_cmds, total_cmds = cmds_max; unsigned long flags; spin_lock_irqsave(&ihost->lock, flags); if (ihost->state == ISCSI_HOST_REMOVED) { spin_unlock_irqrestore(&ihost->lock, flags); return NULL; } ihost->num_sessions++; spin_unlock_irqrestore(&ihost->lock, flags); if (!total_cmds) total_cmds = ISCSI_DEF_XMIT_CMDS_MAX; /* * The iscsi layer needs some tasks for nop handling and tmfs, * so the cmds_max must at least be greater than ISCSI_MGMT_CMDS_MAX * + 1 command for scsi IO. */ if (total_cmds < ISCSI_TOTAL_CMDS_MIN) { printk(KERN_ERR "iscsi: invalid can_queue of %d. can_queue " "must be a power of two that is at least %d.\n", total_cmds, ISCSI_TOTAL_CMDS_MIN); goto dec_session_count; } if (total_cmds > ISCSI_TOTAL_CMDS_MAX) { printk(KERN_ERR "iscsi: invalid can_queue of %d. can_queue " "must be a power of 2 less than or equal to %d.\n", cmds_max, ISCSI_TOTAL_CMDS_MAX); total_cmds = ISCSI_TOTAL_CMDS_MAX; } if (!is_power_of_2(total_cmds)) { printk(KERN_ERR "iscsi: invalid can_queue of %d. can_queue " "must be a power of 2.\n", total_cmds); total_cmds = rounddown_pow_of_two(total_cmds); if (total_cmds < ISCSI_TOTAL_CMDS_MIN) return NULL; printk(KERN_INFO "iscsi: Rounding can_queue to %d.\n", total_cmds); } scsi_cmds = total_cmds - ISCSI_MGMT_CMDS_MAX; cls_session = iscsi_alloc_session(shost, iscsit, sizeof(struct iscsi_session) + dd_size); if (!cls_session) goto dec_session_count; session = cls_session->dd_data; session->cls_session = cls_session; session->host = shost; session->state = ISCSI_STATE_FREE; session->fast_abort = 1; session->tgt_reset_timeout = 30; session->lu_reset_timeout = 15; session->abort_timeout = 10; session->scsi_cmds_max = scsi_cmds; session->cmds_max = total_cmds; session->queued_cmdsn = session->cmdsn = initial_cmdsn; session->exp_cmdsn = initial_cmdsn + 1; session->max_cmdsn = initial_cmdsn + 1; session->max_r2t = 1; session->tt = iscsit; session->dd_data = cls_session->dd_data + sizeof(*session); mutex_init(&session->eh_mutex); spin_lock_init(&session->lock); /* initialize SCSI PDU commands pool */ if (iscsi_pool_init(&session->cmdpool, session->cmds_max, (void***)&session->cmds, cmd_task_size + sizeof(struct iscsi_task))) goto cmdpool_alloc_fail; /* pre-format cmds pool with ITT */ for (cmd_i = 0; cmd_i < session->cmds_max; cmd_i++) { struct iscsi_task *task = session->cmds[cmd_i]; if (cmd_task_size) task->dd_data = &task[1]; task->itt = cmd_i; task->state = ISCSI_TASK_FREE; INIT_LIST_HEAD(&task->running); } if (!try_module_get(iscsit->owner)) goto module_get_fail; if (iscsi_add_session(cls_session, id)) goto cls_session_fail; return cls_session; cls_session_fail: module_put(iscsit->owner); module_get_fail: iscsi_pool_free(&session->cmdpool); cmdpool_alloc_fail: iscsi_free_session(cls_session); dec_session_count: iscsi_host_dec_session_cnt(shost); return NULL; } EXPORT_SYMBOL_GPL(iscsi_session_setup); /** * iscsi_session_teardown - destroy session, host, and cls_session * @cls_session: iscsi session * * The driver must have called iscsi_remove_session before * calling this. */ void iscsi_session_teardown(struct iscsi_cls_session *cls_session) { struct iscsi_session *session = cls_session->dd_data; struct module *owner = cls_session->transport->owner; struct Scsi_Host *shost = session->host; iscsi_pool_free(&session->cmdpool); kfree(session->password); kfree(session->password_in); kfree(session->username); kfree(session->username_in); kfree(session->targetname); kfree(session->initiatorname); kfree(session->ifacename); iscsi_destroy_session(cls_session); iscsi_host_dec_session_cnt(shost); module_put(owner); } EXPORT_SYMBOL_GPL(iscsi_session_teardown); /** * iscsi_conn_setup - create iscsi_cls_conn and iscsi_conn * @cls_session: iscsi_cls_session * @dd_size: private driver data size * @conn_idx: cid */ struct iscsi_cls_conn * iscsi_conn_setup(struct iscsi_cls_session *cls_session, int dd_size, uint32_t conn_idx) { struct iscsi_session *session = cls_session->dd_data; struct iscsi_conn *conn; struct iscsi_cls_conn *cls_conn; char *data; cls_conn = iscsi_create_conn(cls_session, sizeof(*conn) + dd_size, conn_idx); if (!cls_conn) return NULL; conn = cls_conn->dd_data; memset(conn, 0, sizeof(*conn) + dd_size); conn->dd_data = cls_conn->dd_data + sizeof(*conn); conn->session = session; conn->cls_conn = cls_conn; conn->c_stage = ISCSI_CONN_INITIAL_STAGE; conn->id = conn_idx; conn->exp_statsn = 0; conn->tmf_state = TMF_INITIAL; init_timer(&conn->transport_timer); conn->transport_timer.data = (unsigned long)conn; conn->transport_timer.function = iscsi_check_transport_timeouts; INIT_LIST_HEAD(&conn->mgmtqueue); INIT_LIST_HEAD(&conn->cmdqueue); INIT_LIST_HEAD(&conn->requeue); INIT_WORK(&conn->xmitwork, iscsi_xmitworker); /* allocate login_task used for the login/text sequences */ spin_lock_bh(&session->lock); if (!kfifo_out(&session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*))) { spin_unlock_bh(&session->lock); goto login_task_alloc_fail; } spin_unlock_bh(&session->lock); data = (char *) __get_free_pages(GFP_KERNEL, get_order(ISCSI_DEF_MAX_RECV_SEG_LEN)); if (!data) goto login_task_data_alloc_fail; conn->login_task->data = conn->data = data; init_timer(&conn->tmf_timer); init_waitqueue_head(&conn->ehwait); return cls_conn; login_task_data_alloc_fail: kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); login_task_alloc_fail: iscsi_destroy_conn(cls_conn); return NULL; } EXPORT_SYMBOL_GPL(iscsi_conn_setup); /** * iscsi_conn_teardown - teardown iscsi connection * cls_conn: iscsi class connection * * TODO: we may need to make this into a two step process * like scsi-mls remove + put host */ void iscsi_conn_teardown(struct iscsi_cls_conn *cls_conn) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_session *session = conn->session; unsigned long flags; del_timer_sync(&conn->transport_timer); spin_lock_bh(&session->lock); conn->c_stage = ISCSI_CONN_CLEANUP_WAIT; if (session->leadconn == conn) { /* * leading connection? then give up on recovery. */ session->state = ISCSI_STATE_TERMINATE; wake_up(&conn->ehwait); } spin_unlock_bh(&session->lock); /* * Block until all in-progress commands for this connection * time out or fail. */ for (;;) { spin_lock_irqsave(session->host->host_lock, flags); if (!session->host->host_busy) { /* OK for ERL == 0 */ spin_unlock_irqrestore(session->host->host_lock, flags); break; } spin_unlock_irqrestore(session->host->host_lock, flags); msleep_interruptible(500); iscsi_conn_printk(KERN_INFO, conn, "iscsi conn_destroy(): " "host_busy %d host_failed %d\n", session->host->host_busy, session->host->host_failed); /* * force eh_abort() to unblock */ wake_up(&conn->ehwait); } /* flush queued up work because we free the connection below */ iscsi_suspend_tx(conn); spin_lock_bh(&session->lock); free_pages((unsigned long) conn->data, get_order(ISCSI_DEF_MAX_RECV_SEG_LEN)); kfree(conn->persistent_address); kfifo_in(&session->cmdpool.queue, (void*)&conn->login_task, sizeof(void*)); if (session->leadconn == conn) session->leadconn = NULL; spin_unlock_bh(&session->lock); iscsi_destroy_conn(cls_conn); } EXPORT_SYMBOL_GPL(iscsi_conn_teardown); int iscsi_conn_start(struct iscsi_cls_conn *cls_conn) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_session *session = conn->session; if (!session) { iscsi_conn_printk(KERN_ERR, conn, "can't start unbound connection\n"); return -EPERM; } if ((session->imm_data_en || !session->initial_r2t_en) && session->first_burst > session->max_burst) { iscsi_conn_printk(KERN_INFO, conn, "invalid burst lengths: " "first_burst %d max_burst %d\n", session->first_burst, session->max_burst); return -EINVAL; } if (conn->ping_timeout && !conn->recv_timeout) { iscsi_conn_printk(KERN_ERR, conn, "invalid recv timeout of " "zero. Using 5 seconds\n."); conn->recv_timeout = 5; } if (conn->recv_timeout && !conn->ping_timeout) { iscsi_conn_printk(KERN_ERR, conn, "invalid ping timeout of " "zero. Using 5 seconds.\n"); conn->ping_timeout = 5; } spin_lock_bh(&session->lock); conn->c_stage = ISCSI_CONN_STARTED; session->state = ISCSI_STATE_LOGGED_IN; session->queued_cmdsn = session->cmdsn; conn->last_recv = jiffies; conn->last_ping = jiffies; if (conn->recv_timeout && conn->ping_timeout) mod_timer(&conn->transport_timer, jiffies + (conn->recv_timeout * HZ)); switch(conn->stop_stage) { case STOP_CONN_RECOVER: /* * unblock eh_abort() if it is blocked. re-try all * commands after successful recovery */ conn->stop_stage = 0; conn->tmf_state = TMF_INITIAL; session->age++; if (session->age == 16) session->age = 0; break; case STOP_CONN_TERM: conn->stop_stage = 0; break; default: break; } spin_unlock_bh(&session->lock); iscsi_unblock_session(session->cls_session); wake_up(&conn->ehwait); return 0; } EXPORT_SYMBOL_GPL(iscsi_conn_start); static void fail_mgmt_tasks(struct iscsi_session *session, struct iscsi_conn *conn) { struct iscsi_task *task; int i, state; for (i = 0; i < conn->session->cmds_max; i++) { task = conn->session->cmds[i]; if (task->sc) continue; if (task->state == ISCSI_TASK_FREE) continue; ISCSI_DBG_SESSION(conn->session, "failing mgmt itt 0x%x state %d\n", task->itt, task->state); state = ISCSI_TASK_ABRT_SESS_RECOV; if (task->state == ISCSI_TASK_PENDING) state = ISCSI_TASK_COMPLETED; iscsi_complete_task(task, state); } } static void iscsi_start_session_recovery(struct iscsi_session *session, struct iscsi_conn *conn, int flag) { int old_stop_stage; mutex_lock(&session->eh_mutex); spin_lock_bh(&session->lock); if (conn->stop_stage == STOP_CONN_TERM) { spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); return; } /* * When this is called for the in_login state, we only want to clean * up the login task and connection. We do not need to block and set * the recovery state again */ if (flag == STOP_CONN_TERM) session->state = ISCSI_STATE_TERMINATE; else if (conn->stop_stage != STOP_CONN_RECOVER) session->state = ISCSI_STATE_IN_RECOVERY; old_stop_stage = conn->stop_stage; conn->stop_stage = flag; spin_unlock_bh(&session->lock); del_timer_sync(&conn->transport_timer); iscsi_suspend_tx(conn); spin_lock_bh(&session->lock); conn->c_stage = ISCSI_CONN_STOPPED; spin_unlock_bh(&session->lock); /* * for connection level recovery we should not calculate * header digest. conn->hdr_size used for optimization * in hdr_extract() and will be re-negotiated at * set_param() time. */ if (flag == STOP_CONN_RECOVER) { conn->hdrdgst_en = 0; conn->datadgst_en = 0; if (session->state == ISCSI_STATE_IN_RECOVERY && old_stop_stage != STOP_CONN_RECOVER) { ISCSI_DBG_SESSION(session, "blocking session\n"); iscsi_block_session(session->cls_session); } } /* * flush queues. */ spin_lock_bh(&session->lock); fail_scsi_tasks(conn, -1, DID_TRANSPORT_DISRUPTED); fail_mgmt_tasks(session, conn); memset(&conn->tmhdr, 0, sizeof(conn->tmhdr)); spin_unlock_bh(&session->lock); mutex_unlock(&session->eh_mutex); } void iscsi_conn_stop(struct iscsi_cls_conn *cls_conn, int flag) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_session *session = conn->session; switch (flag) { case STOP_CONN_RECOVER: case STOP_CONN_TERM: iscsi_start_session_recovery(session, conn, flag); break; default: iscsi_conn_printk(KERN_ERR, conn, "invalid stop flag %d\n", flag); } } EXPORT_SYMBOL_GPL(iscsi_conn_stop); int iscsi_conn_bind(struct iscsi_cls_session *cls_session, struct iscsi_cls_conn *cls_conn, int is_leading) { struct iscsi_session *session = cls_session->dd_data; struct iscsi_conn *conn = cls_conn->dd_data; spin_lock_bh(&session->lock); if (is_leading) session->leadconn = conn; spin_unlock_bh(&session->lock); /* * Unblock xmitworker(), Login Phase will pass through. */ clear_bit(ISCSI_SUSPEND_BIT, &conn->suspend_rx); clear_bit(ISCSI_SUSPEND_BIT, &conn->suspend_tx); return 0; } EXPORT_SYMBOL_GPL(iscsi_conn_bind); static int iscsi_switch_str_param(char **param, char *new_val_buf) { char *new_val; if (*param) { if (!strcmp(*param, new_val_buf)) return 0; } new_val = kstrdup(new_val_buf, GFP_NOIO); if (!new_val) return -ENOMEM; kfree(*param); *param = new_val; return 0; } int iscsi_set_param(struct iscsi_cls_conn *cls_conn, enum iscsi_param param, char *buf, int buflen) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_session *session = conn->session; uint32_t value; switch(param) { case ISCSI_PARAM_FAST_ABORT: sscanf(buf, "%d", &session->fast_abort); break; case ISCSI_PARAM_ABORT_TMO: sscanf(buf, "%d", &session->abort_timeout); break; case ISCSI_PARAM_LU_RESET_TMO: sscanf(buf, "%d", &session->lu_reset_timeout); break; case ISCSI_PARAM_TGT_RESET_TMO: sscanf(buf, "%d", &session->tgt_reset_timeout); break; case ISCSI_PARAM_PING_TMO: sscanf(buf, "%d", &conn->ping_timeout); break; case ISCSI_PARAM_RECV_TMO: sscanf(buf, "%d", &conn->recv_timeout); break; case ISCSI_PARAM_MAX_RECV_DLENGTH: sscanf(buf, "%d", &conn->max_recv_dlength); break; case ISCSI_PARAM_MAX_XMIT_DLENGTH: sscanf(buf, "%d", &conn->max_xmit_dlength); break; case ISCSI_PARAM_HDRDGST_EN: sscanf(buf, "%d", &conn->hdrdgst_en); break; case ISCSI_PARAM_DATADGST_EN: sscanf(buf, "%d", &conn->datadgst_en); break; case ISCSI_PARAM_INITIAL_R2T_EN: sscanf(buf, "%d", &session->initial_r2t_en); break; case ISCSI_PARAM_MAX_R2T: sscanf(buf, "%d", &session->max_r2t); break; case ISCSI_PARAM_IMM_DATA_EN: sscanf(buf, "%d", &session->imm_data_en); break; case ISCSI_PARAM_FIRST_BURST: sscanf(buf, "%d", &session->first_burst); break; case ISCSI_PARAM_MAX_BURST: sscanf(buf, "%d", &session->max_burst); break; case ISCSI_PARAM_PDU_INORDER_EN: sscanf(buf, "%d", &session->pdu_inorder_en); break; case ISCSI_PARAM_DATASEQ_INORDER_EN: sscanf(buf, "%d", &session->dataseq_inorder_en); break; case ISCSI_PARAM_ERL: sscanf(buf, "%d", &session->erl); break; case ISCSI_PARAM_IFMARKER_EN: sscanf(buf, "%d", &value); BUG_ON(value); break; case ISCSI_PARAM_OFMARKER_EN: sscanf(buf, "%d", &value); BUG_ON(value); break; case ISCSI_PARAM_EXP_STATSN: sscanf(buf, "%u", &conn->exp_statsn); break; case ISCSI_PARAM_USERNAME: return iscsi_switch_str_param(&session->username, buf); case ISCSI_PARAM_USERNAME_IN: return iscsi_switch_str_param(&session->username_in, buf); case ISCSI_PARAM_PASSWORD: return iscsi_switch_str_param(&session->password, buf); case ISCSI_PARAM_PASSWORD_IN: return iscsi_switch_str_param(&session->password_in, buf); case ISCSI_PARAM_TARGET_NAME: return iscsi_switch_str_param(&session->targetname, buf); case ISCSI_PARAM_TPGT: sscanf(buf, "%d", &session->tpgt); break; case ISCSI_PARAM_PERSISTENT_PORT: sscanf(buf, "%d", &conn->persistent_port); break; case ISCSI_PARAM_PERSISTENT_ADDRESS: return iscsi_switch_str_param(&conn->persistent_address, buf); case ISCSI_PARAM_IFACE_NAME: return iscsi_switch_str_param(&session->ifacename, buf); case ISCSI_PARAM_INITIATOR_NAME: return iscsi_switch_str_param(&session->initiatorname, buf); default: return -ENOSYS; } return 0; } EXPORT_SYMBOL_GPL(iscsi_set_param); int iscsi_session_get_param(struct iscsi_cls_session *cls_session, enum iscsi_param param, char *buf) { struct iscsi_session *session = cls_session->dd_data; int len; switch(param) { case ISCSI_PARAM_FAST_ABORT: len = sprintf(buf, "%d\n", session->fast_abort); break; case ISCSI_PARAM_ABORT_TMO: len = sprintf(buf, "%d\n", session->abort_timeout); break; case ISCSI_PARAM_LU_RESET_TMO: len = sprintf(buf, "%d\n", session->lu_reset_timeout); break; case ISCSI_PARAM_TGT_RESET_TMO: len = sprintf(buf, "%d\n", session->tgt_reset_timeout); break; case ISCSI_PARAM_INITIAL_R2T_EN: len = sprintf(buf, "%d\n", session->initial_r2t_en); break; case ISCSI_PARAM_MAX_R2T: len = sprintf(buf, "%hu\n", session->max_r2t); break; case ISCSI_PARAM_IMM_DATA_EN: len = sprintf(buf, "%d\n", session->imm_data_en); break; case ISCSI_PARAM_FIRST_BURST: len = sprintf(buf, "%u\n", session->first_burst); break; case ISCSI_PARAM_MAX_BURST: len = sprintf(buf, "%u\n", session->max_burst); break; case ISCSI_PARAM_PDU_INORDER_EN: len = sprintf(buf, "%d\n", session->pdu_inorder_en); break; case ISCSI_PARAM_DATASEQ_INORDER_EN: len = sprintf(buf, "%d\n", session->dataseq_inorder_en); break; case ISCSI_PARAM_ERL: len = sprintf(buf, "%d\n", session->erl); break; case ISCSI_PARAM_TARGET_NAME: len = sprintf(buf, "%s\n", session->targetname); break; case ISCSI_PARAM_TPGT: len = sprintf(buf, "%d\n", session->tpgt); break; case ISCSI_PARAM_USERNAME: len = sprintf(buf, "%s\n", session->username); break; case ISCSI_PARAM_USERNAME_IN: len = sprintf(buf, "%s\n", session->username_in); break; case ISCSI_PARAM_PASSWORD: len = sprintf(buf, "%s\n", session->password); break; case ISCSI_PARAM_PASSWORD_IN: len = sprintf(buf, "%s\n", session->password_in); break; case ISCSI_PARAM_IFACE_NAME: len = sprintf(buf, "%s\n", session->ifacename); break; case ISCSI_PARAM_INITIATOR_NAME: len = sprintf(buf, "%s\n", session->initiatorname); break; default: return -ENOSYS; } return len; } EXPORT_SYMBOL_GPL(iscsi_session_get_param); int iscsi_conn_get_param(struct iscsi_cls_conn *cls_conn, enum iscsi_param param, char *buf) { struct iscsi_conn *conn = cls_conn->dd_data; int len; switch(param) { case ISCSI_PARAM_PING_TMO: len = sprintf(buf, "%u\n", conn->ping_timeout); break; case ISCSI_PARAM_RECV_TMO: len = sprintf(buf, "%u\n", conn->recv_timeout); break; case ISCSI_PARAM_MAX_RECV_DLENGTH: len = sprintf(buf, "%u\n", conn->max_recv_dlength); break; case ISCSI_PARAM_MAX_XMIT_DLENGTH: len = sprintf(buf, "%u\n", conn->max_xmit_dlength); break; case ISCSI_PARAM_HDRDGST_EN: len = sprintf(buf, "%d\n", conn->hdrdgst_en); break; case ISCSI_PARAM_DATADGST_EN: len = sprintf(buf, "%d\n", conn->datadgst_en); break; case ISCSI_PARAM_IFMARKER_EN: len = sprintf(buf, "%d\n", conn->ifmarker_en); break; case ISCSI_PARAM_OFMARKER_EN: len = sprintf(buf, "%d\n", conn->ofmarker_en); break; case ISCSI_PARAM_EXP_STATSN: len = sprintf(buf, "%u\n", conn->exp_statsn); break; case ISCSI_PARAM_PERSISTENT_PORT: len = sprintf(buf, "%d\n", conn->persistent_port); break; case ISCSI_PARAM_PERSISTENT_ADDRESS: len = sprintf(buf, "%s\n", conn->persistent_address); break; default: return -ENOSYS; } return len; } EXPORT_SYMBOL_GPL(iscsi_conn_get_param); int iscsi_host_get_param(struct Scsi_Host *shost, enum iscsi_host_param param, char *buf) { struct iscsi_host *ihost = shost_priv(shost); int len; switch (param) { case ISCSI_HOST_PARAM_NETDEV_NAME: len = sprintf(buf, "%s\n", ihost->netdev); break; case ISCSI_HOST_PARAM_HWADDRESS: len = sprintf(buf, "%s\n", ihost->hwaddress); break; case ISCSI_HOST_PARAM_INITIATOR_NAME: len = sprintf(buf, "%s\n", ihost->initiatorname); break; case ISCSI_HOST_PARAM_IPADDRESS: len = sprintf(buf, "%s\n", ihost->local_address); break; default: return -ENOSYS; } return len; } EXPORT_SYMBOL_GPL(iscsi_host_get_param); int iscsi_host_set_param(struct Scsi_Host *shost, enum iscsi_host_param param, char *buf, int buflen) { struct iscsi_host *ihost = shost_priv(shost); switch (param) { case ISCSI_HOST_PARAM_NETDEV_NAME: return iscsi_switch_str_param(&ihost->netdev, buf); case ISCSI_HOST_PARAM_HWADDRESS: return iscsi_switch_str_param(&ihost->hwaddress, buf); case ISCSI_HOST_PARAM_INITIATOR_NAME: return iscsi_switch_str_param(&ihost->initiatorname, buf); default: return -ENOSYS; } return 0; } EXPORT_SYMBOL_GPL(iscsi_host_set_param); MODULE_AUTHOR("Mike Christie"); MODULE_DESCRIPTION("iSCSI library functions"); MODULE_LICENSE("GPL"); open-iscsi-2.0.874/kernel/libiscsi.h000066400000000000000000000314731277325716400172250ustar00rootroot00000000000000/* * iSCSI lib definitions * * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * Copyright (C) 2004 - 2006 Mike Christie * Copyright (C) 2004 - 2005 Dmitry Yusupov * Copyright (C) 2004 - 2005 Alex Aizman * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef LIBISCSI_H #define LIBISCSI_H #include #include #include #include #include #include "iscsi_proto.h" #include "iscsi_if.h" #include "scsi_transport_iscsi.h" struct scsi_transport_template; struct scsi_host_template; struct scsi_device; struct Scsi_Host; struct scsi_target; struct scsi_cmnd; struct socket; struct iscsi_transport; struct iscsi_cls_session; struct iscsi_cls_conn; struct iscsi_session; struct iscsi_nopin; struct device; #define ISCSI_DEF_XMIT_CMDS_MAX 128 /* must be power of 2 */ #define ISCSI_MGMT_CMDS_MAX 15 #define ISCSI_DEF_CMD_PER_LUN 32 /* Task Mgmt states */ enum { TMF_INITIAL, TMF_QUEUED, TMF_SUCCESS, TMF_FAILED, TMF_TIMEDOUT, TMF_NOT_FOUND, }; /* Connection suspend "bit" */ #define ISCSI_SUSPEND_BIT 1 #define ISCSI_ITT_MASK 0x1fff #define ISCSI_TOTAL_CMDS_MAX 4096 /* this must be a power of two greater than ISCSI_MGMT_CMDS_MAX */ #define ISCSI_TOTAL_CMDS_MIN 16 #define ISCSI_AGE_SHIFT 28 #define ISCSI_AGE_MASK 0xf #define ISCSI_ADDRESS_BUF_LEN 64 enum { /* this is the maximum possible storage for AHSs */ ISCSI_MAX_AHS_SIZE = sizeof(struct iscsi_ecdb_ahdr) + sizeof(struct iscsi_rlength_ahdr), ISCSI_DIGEST_SIZE = sizeof(__u32), }; enum { ISCSI_TASK_FREE, ISCSI_TASK_COMPLETED, ISCSI_TASK_PENDING, ISCSI_TASK_RUNNING, ISCSI_TASK_ABRT_TMF, /* aborted due to TMF */ ISCSI_TASK_ABRT_SESS_RECOV, /* aborted due to session recovery */ }; struct iscsi_r2t_info { __be32 ttt; /* copied from R2T */ __be32 exp_statsn; /* copied from R2T */ uint32_t data_length; /* copied from R2T */ uint32_t data_offset; /* copied from R2T */ int data_count; /* DATA-Out payload progress */ int datasn; /* LLDs should set/update these values */ int sent; /* R2T sequence progress */ }; struct iscsi_task { /* * Because LLDs allocate their hdr differently, this is a pointer * and length to that storage. It must be setup at session * creation time. */ struct iscsi_hdr *hdr; unsigned short hdr_max; unsigned short hdr_len; /* accumulated size of hdr used */ /* copied values in case we need to send tmfs */ itt_t hdr_itt; __be32 cmdsn; uint8_t lun[8]; int itt; /* this ITT */ unsigned imm_count; /* imm-data (bytes) */ /* offset in unsolicited stream (bytes); */ struct iscsi_r2t_info unsol_r2t; char *data; /* mgmt payload */ unsigned data_count; struct scsi_cmnd *sc; /* associated SCSI cmd*/ struct iscsi_conn *conn; /* used connection */ /* data processing tracking */ unsigned long last_xfer; unsigned long last_timeout; int have_checked_conn; /* state set/tested under session->lock */ int state; atomic_t refcount; struct list_head running; /* running cmd list */ void *dd_data; /* driver/transport data */ }; static inline int iscsi_task_has_unsol_data(struct iscsi_task *task) { return task->unsol_r2t.data_length > task->unsol_r2t.sent; } static inline void* iscsi_next_hdr(struct iscsi_task *task) { return (void*)task->hdr + task->hdr_len; } /* Connection's states */ enum { ISCSI_CONN_INITIAL_STAGE, ISCSI_CONN_STARTED, ISCSI_CONN_STOPPED, ISCSI_CONN_CLEANUP_WAIT, }; struct iscsi_conn { struct iscsi_cls_conn *cls_conn; /* ptr to class connection */ void *dd_data; /* iscsi_transport data */ struct iscsi_session *session; /* parent session */ /* * conn_stop() flag: stop to recover, stop to terminate */ int stop_stage; struct timer_list transport_timer; unsigned long last_recv; unsigned long last_ping; int ping_timeout; int recv_timeout; struct iscsi_task *ping_task; /* iSCSI connection-wide sequencing */ uint32_t exp_statsn; /* control data */ int id; /* CID */ int c_stage; /* connection state */ /* * Preallocated buffer for pdus that have data but do not * originate from scsi-ml. We never have two pdus using the * buffer at the same time. It is only allocated to * the default max recv size because the pdus we support * should always fit in this buffer */ char *data; struct iscsi_task *login_task; /* mtask used for login/text */ struct iscsi_task *task; /* xmit task in progress */ /* xmit */ struct list_head mgmtqueue; /* mgmt (control) xmit queue */ struct list_head cmdqueue; /* data-path cmd queue */ struct list_head requeue; /* tasks needing another run */ struct work_struct xmitwork; /* per-conn. xmit workqueue */ unsigned long suspend_tx; /* suspend Tx */ unsigned long suspend_rx; /* suspend Rx */ /* abort */ wait_queue_head_t ehwait; /* used in eh_abort() */ struct iscsi_tm tmhdr; struct timer_list tmf_timer; int tmf_state; /* see TMF_INITIAL, etc.*/ /* negotiated params */ unsigned max_recv_dlength; /* initiator_max_recv_dsl*/ unsigned max_xmit_dlength; /* target_max_recv_dsl */ int hdrdgst_en; int datadgst_en; int ifmarker_en; int ofmarker_en; /* values userspace uses to id a conn */ int persistent_port; char *persistent_address; /* remote portal currently connected to */ int portal_port; char portal_address[ISCSI_ADDRESS_BUF_LEN]; /* MIB-statistics */ uint64_t txdata_octets; uint64_t rxdata_octets; uint32_t scsicmd_pdus_cnt; uint32_t dataout_pdus_cnt; uint32_t scsirsp_pdus_cnt; uint32_t datain_pdus_cnt; uint32_t r2t_pdus_cnt; uint32_t tmfcmd_pdus_cnt; int32_t tmfrsp_pdus_cnt; /* custom statistics */ uint32_t eh_abort_cnt; uint32_t fmr_unalign_cnt; }; struct iscsi_pool { struct kfifo queue; /* FIFO Queue */ void **pool; /* Pool of elements */ int max; /* Max number of elements */ }; /* Session's states */ enum { ISCSI_STATE_FREE = 1, ISCSI_STATE_LOGGED_IN, ISCSI_STATE_FAILED, ISCSI_STATE_TERMINATE, ISCSI_STATE_IN_RECOVERY, ISCSI_STATE_RECOVERY_FAILED, ISCSI_STATE_LOGGING_OUT, }; struct iscsi_session { struct iscsi_cls_session *cls_session; /* * Syncs up the scsi eh thread with the iscsi eh thread when sending * task management functions. This must be taken before the session * and recv lock. */ struct mutex eh_mutex; /* iSCSI session-wide sequencing */ uint32_t cmdsn; uint32_t exp_cmdsn; uint32_t max_cmdsn; /* This tracks the reqs queued into the initiator */ uint32_t queued_cmdsn; /* configuration */ int abort_timeout; int lu_reset_timeout; int tgt_reset_timeout; int initial_r2t_en; unsigned max_r2t; int imm_data_en; unsigned first_burst; unsigned max_burst; int time2wait; int time2retain; int pdu_inorder_en; int dataseq_inorder_en; int erl; int fast_abort; int tpgt; char *username; char *username_in; char *password; char *password_in; char *targetname; char *ifacename; char *initiatorname; /* control data */ struct iscsi_transport *tt; struct Scsi_Host *host; struct iscsi_conn *leadconn; /* leading connection */ spinlock_t lock; /* protects session state, * * sequence numbers, * * session resources: * * - cmdpool, * * - mgmtpool, * * - r2tpool */ int state; /* session state */ int age; /* counts session re-opens */ int scsi_cmds_max; /* max scsi commands */ int cmds_max; /* size of cmds array */ struct iscsi_task **cmds; /* Original Cmds arr */ struct iscsi_pool cmdpool; /* PDU's pool */ void *dd_data; /* LLD private data */ }; enum { ISCSI_HOST_SETUP, ISCSI_HOST_REMOVED, }; struct iscsi_host { char *initiatorname; /* hw address or netdev iscsi connection is bound to */ char *hwaddress; char *netdev; /* local address */ int local_port; char local_address[ISCSI_ADDRESS_BUF_LEN]; wait_queue_head_t session_removal_wq; /* protects sessions and state */ spinlock_t lock; int num_sessions; int state; struct workqueue_struct *workq; char workq_name[20]; }; /* * scsi host template */ extern int iscsi_change_queue_depth(struct scsi_device *sdev, int depth, int reason); extern int iscsi_eh_abort(struct scsi_cmnd *sc); extern int iscsi_eh_recover_target(struct scsi_cmnd *sc); extern int iscsi_eh_session_reset(struct scsi_cmnd *sc); extern int iscsi_eh_device_reset(struct scsi_cmnd *sc); extern int iscsi_queuecommand(struct scsi_cmnd *sc, void (*done)(struct scsi_cmnd *)); /* * iSCSI host helpers. */ #define iscsi_host_priv(_shost) \ (shost_priv(_shost) + sizeof(struct iscsi_host)) extern int iscsi_host_set_param(struct Scsi_Host *shost, enum iscsi_host_param param, char *buf, int buflen); extern int iscsi_host_get_param(struct Scsi_Host *shost, enum iscsi_host_param param, char *buf); extern int iscsi_host_add(struct Scsi_Host *shost, struct device *pdev); extern struct Scsi_Host *iscsi_host_alloc(struct scsi_host_template *sht, int dd_data_size, bool xmit_can_sleep); extern void iscsi_host_remove(struct Scsi_Host *shost); extern void iscsi_host_free(struct Scsi_Host *shost); extern int iscsi_target_alloc(struct scsi_target *starget); /* * session management */ extern struct iscsi_cls_session * iscsi_session_setup(struct iscsi_transport *, struct Scsi_Host *shost, uint16_t, int, int, uint32_t, unsigned int); extern void iscsi_session_teardown(struct iscsi_cls_session *); extern void iscsi_session_recovery_timedout(struct iscsi_cls_session *); extern int iscsi_set_param(struct iscsi_cls_conn *cls_conn, enum iscsi_param param, char *buf, int buflen); extern int iscsi_session_get_param(struct iscsi_cls_session *cls_session, enum iscsi_param param, char *buf); #define iscsi_session_printk(prefix, _sess, fmt, a...) \ iscsi_cls_session_printk(prefix, _sess->cls_session, fmt, ##a) /* * connection management */ extern struct iscsi_cls_conn *iscsi_conn_setup(struct iscsi_cls_session *, int, uint32_t); extern void iscsi_conn_teardown(struct iscsi_cls_conn *); extern int iscsi_conn_start(struct iscsi_cls_conn *); extern void iscsi_conn_stop(struct iscsi_cls_conn *, int); extern int iscsi_conn_bind(struct iscsi_cls_session *, struct iscsi_cls_conn *, int); extern void iscsi_conn_failure(struct iscsi_conn *conn, enum iscsi_err err); extern void iscsi_session_failure(struct iscsi_session *session, enum iscsi_err err); extern int iscsi_conn_get_param(struct iscsi_cls_conn *cls_conn, enum iscsi_param param, char *buf); extern void iscsi_suspend_tx(struct iscsi_conn *conn); extern void iscsi_suspend_queue(struct iscsi_conn *conn); extern void iscsi_conn_queue_work(struct iscsi_conn *conn); #define iscsi_conn_printk(prefix, _c, fmt, a...) \ iscsi_cls_conn_printk(prefix, ((struct iscsi_conn *)_c)->cls_conn, \ fmt, ##a) /* * pdu and task processing */ extern void iscsi_update_cmdsn(struct iscsi_session *, struct iscsi_nopin *); extern void iscsi_prep_data_out_pdu(struct iscsi_task *task, struct iscsi_r2t_info *r2t, struct iscsi_data *hdr); extern int iscsi_conn_send_pdu(struct iscsi_cls_conn *, struct iscsi_hdr *, char *, uint32_t); extern int iscsi_complete_pdu(struct iscsi_conn *, struct iscsi_hdr *, char *, int); extern int __iscsi_complete_pdu(struct iscsi_conn *, struct iscsi_hdr *, char *, int); extern int iscsi_verify_itt(struct iscsi_conn *, itt_t); extern struct iscsi_task *iscsi_itt_to_ctask(struct iscsi_conn *, itt_t); extern struct iscsi_task *iscsi_itt_to_task(struct iscsi_conn *, itt_t); extern void iscsi_requeue_task(struct iscsi_task *task); extern void iscsi_put_task(struct iscsi_task *task); extern void __iscsi_get_task(struct iscsi_task *task); extern void iscsi_complete_scsi_task(struct iscsi_task *task, uint32_t exp_cmdsn, uint32_t max_cmdsn); /* * generic helpers */ extern void iscsi_pool_free(struct iscsi_pool *); extern int iscsi_pool_init(struct iscsi_pool *, int, void ***, int); /* * inline functions to deal with padding. */ static inline unsigned int iscsi_padded(unsigned int len) { return (len + ISCSI_PAD_LEN - 1) & ~(ISCSI_PAD_LEN - 1); } static inline unsigned int iscsi_padding(unsigned int len) { len &= (ISCSI_PAD_LEN - 1); if (len) len = ISCSI_PAD_LEN - len; return len; } #endif open-iscsi-2.0.874/kernel/libiscsi_tcp.c000066400000000000000000000774271277325716400200770ustar00rootroot00000000000000/* * iSCSI over TCP/IP Data-Path lib * * Copyright (C) 2004 Dmitry Yusupov * Copyright (C) 2004 Alex Aizman * Copyright (C) 2005 - 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. * * Credits: * Christoph Hellwig * FUJITA Tomonori * Arne Redlich * Zhenyu Wang */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "scsi_transport_iscsi.h" #include "iscsi_tcp.h" MODULE_AUTHOR("Mike Christie , " "Dmitry Yusupov , " "Alex Aizman "); MODULE_DESCRIPTION("iSCSI/TCP data-path"); MODULE_LICENSE("GPL"); static int iscsi_dbg_libtcp; module_param_named(debug_libiscsi_tcp, iscsi_dbg_libtcp, int, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug_libiscsi_tcp, "Turn on debugging for libiscsi_tcp " "module. Set to 1 to turn on, and zero to turn off. Default " "is off."); #define ISCSI_DBG_TCP(_conn, dbg_fmt, arg...) \ do { \ if (iscsi_dbg_libtcp) \ iscsi_conn_printk(KERN_INFO, _conn, \ "%s " dbg_fmt, \ __func__, ##arg); \ } while (0); static int iscsi_tcp_hdr_recv_done(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment); /* * Scatterlist handling: inside the iscsi_segment, we * remember an index into the scatterlist, and set data/size * to the current scatterlist entry. For highmem pages, we * kmap as needed. * * Note that the page is unmapped when we return from * TCP's data_ready handler, so we may end up mapping and * unmapping the same page repeatedly. The whole reason * for this is that we shouldn't keep the page mapped * outside the softirq. */ /** * iscsi_tcp_segment_init_sg - init indicated scatterlist entry * @segment: the buffer object * @sg: scatterlist * @offset: byte offset into that sg entry * * This function sets up the segment so that subsequent * data is copied to the indicated sg entry, at the given * offset. */ static inline void iscsi_tcp_segment_init_sg(struct iscsi_segment *segment, struct scatterlist *sg, unsigned int offset) { segment->sg = sg; segment->sg_offset = offset; segment->size = min(sg->length - offset, segment->total_size - segment->total_copied); segment->data = NULL; } /** * iscsi_tcp_segment_map - map the current S/G page * @segment: iscsi_segment * @recv: 1 if called from recv path * * We only need to possibly kmap data if scatter lists are being used, * because the iscsi passthrough and internal IO paths will never use high * mem pages. */ static void iscsi_tcp_segment_map(struct iscsi_segment *segment, int recv) { struct scatterlist *sg; if (segment->data != NULL || !segment->sg) return; sg = segment->sg; BUG_ON(segment->sg_mapped); BUG_ON(sg->length == 0); /* * If the page count is greater than one it is ok to send * to the network layer's zero copy send path. If not we * have to go the slow sendmsg path. We always map for the * recv path. */ if (page_count(sg_page(sg)) >= 1 && !recv) return; segment->sg_mapped = kmap_atomic(sg_page(sg), KM_SOFTIRQ0); segment->data = segment->sg_mapped + sg->offset + segment->sg_offset; } void iscsi_tcp_segment_unmap(struct iscsi_segment *segment) { if (segment->sg_mapped) { kunmap_atomic(segment->sg_mapped, KM_SOFTIRQ0); segment->sg_mapped = NULL; segment->data = NULL; } } EXPORT_SYMBOL_GPL(iscsi_tcp_segment_unmap); /* * Splice the digest buffer into the buffer */ static inline void iscsi_tcp_segment_splice_digest(struct iscsi_segment *segment, void *digest) { segment->data = digest; segment->digest_len = ISCSI_DIGEST_SIZE; segment->total_size += ISCSI_DIGEST_SIZE; segment->size = ISCSI_DIGEST_SIZE; segment->copied = 0; segment->sg = NULL; segment->hash = NULL; } /** * iscsi_tcp_segment_done - check whether the segment is complete * @tcp_conn: iscsi tcp connection * @segment: iscsi segment to check * @recv: set to one of this is called from the recv path * @copied: number of bytes copied * * Check if we're done receiving this segment. If the receive * buffer is full but we expect more data, move on to the * next entry in the scatterlist. * * If the amount of data we received isn't a multiple of 4, * we will transparently receive the pad bytes, too. * * This function must be re-entrant. */ int iscsi_tcp_segment_done(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment, int recv, unsigned copied) { struct scatterlist sg; unsigned int pad; ISCSI_DBG_TCP(tcp_conn->iscsi_conn, "copied %u %u size %u %s\n", segment->copied, copied, segment->size, recv ? "recv" : "xmit"); if (segment->hash && copied) { /* * If a segment is kmapd we must unmap it before sending * to the crypto layer since that will try to kmap it again. */ iscsi_tcp_segment_unmap(segment); if (!segment->data) { sg_init_table(&sg, 1); sg_set_page(&sg, sg_page(segment->sg), copied, segment->copied + segment->sg_offset + segment->sg->offset); } else sg_init_one(&sg, segment->data + segment->copied, copied); crypto_hash_update(segment->hash, &sg, copied); } segment->copied += copied; if (segment->copied < segment->size) { iscsi_tcp_segment_map(segment, recv); return 0; } segment->total_copied += segment->copied; segment->copied = 0; segment->size = 0; /* Unmap the current scatterlist page, if there is one. */ iscsi_tcp_segment_unmap(segment); /* Do we have more scatterlist entries? */ ISCSI_DBG_TCP(tcp_conn->iscsi_conn, "total copied %u total size %u\n", segment->total_copied, segment->total_size); if (segment->total_copied < segment->total_size) { /* Proceed to the next entry in the scatterlist. */ iscsi_tcp_segment_init_sg(segment, sg_next(segment->sg), 0); iscsi_tcp_segment_map(segment, recv); BUG_ON(segment->size == 0); return 0; } /* Do we need to handle padding? */ if (!(tcp_conn->iscsi_conn->session->tt->caps & CAP_PADDING_OFFLOAD)) { pad = iscsi_padding(segment->total_copied); if (pad != 0) { ISCSI_DBG_TCP(tcp_conn->iscsi_conn, "consume %d pad bytes\n", pad); segment->total_size += pad; segment->size = pad; segment->data = segment->padbuf; return 0; } } /* * Set us up for transferring the data digest. hdr digest * is completely handled in hdr done function. */ if (segment->hash) { crypto_hash_final(segment->hash, segment->digest); iscsi_tcp_segment_splice_digest(segment, recv ? segment->recv_digest : segment->digest); return 0; } return 1; } EXPORT_SYMBOL_GPL(iscsi_tcp_segment_done); /** * iscsi_tcp_segment_recv - copy data to segment * @tcp_conn: the iSCSI TCP connection * @segment: the buffer to copy to * @ptr: data pointer * @len: amount of data available * * This function copies up to @len bytes to the * given buffer, and returns the number of bytes * consumed, which can actually be less than @len. * * If hash digest is enabled, the function will update the * hash while copying. * Combining these two operations doesn't buy us a lot (yet), * but in the future we could implement combined copy+crc, * just way we do for network layer checksums. */ static int iscsi_tcp_segment_recv(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment, const void *ptr, unsigned int len) { unsigned int copy = 0, copied = 0; while (!iscsi_tcp_segment_done(tcp_conn, segment, 1, copy)) { if (copied == len) { ISCSI_DBG_TCP(tcp_conn->iscsi_conn, "copied %d bytes\n", len); break; } copy = min(len - copied, segment->size - segment->copied); ISCSI_DBG_TCP(tcp_conn->iscsi_conn, "copying %d\n", copy); memcpy(segment->data + segment->copied, ptr + copied, copy); copied += copy; } return copied; } inline void iscsi_tcp_dgst_header(struct hash_desc *hash, const void *hdr, size_t hdrlen, unsigned char digest[ISCSI_DIGEST_SIZE]) { struct scatterlist sg; sg_init_one(&sg, hdr, hdrlen); crypto_hash_digest(hash, &sg, hdrlen, digest); } EXPORT_SYMBOL_GPL(iscsi_tcp_dgst_header); static inline int iscsi_tcp_dgst_verify(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment) { if (!segment->digest_len) return 1; if (memcmp(segment->recv_digest, segment->digest, segment->digest_len)) { ISCSI_DBG_TCP(tcp_conn->iscsi_conn, "digest mismatch\n"); return 0; } return 1; } /* * Helper function to set up segment buffer */ static inline void __iscsi_segment_init(struct iscsi_segment *segment, size_t size, iscsi_segment_done_fn_t *done, struct hash_desc *hash) { memset(segment, 0, sizeof(*segment)); segment->total_size = size; segment->done = done; if (hash) { segment->hash = hash; crypto_hash_init(hash); } } inline void iscsi_segment_init_linear(struct iscsi_segment *segment, void *data, size_t size, iscsi_segment_done_fn_t *done, struct hash_desc *hash) { __iscsi_segment_init(segment, size, done, hash); segment->data = data; segment->size = size; } EXPORT_SYMBOL_GPL(iscsi_segment_init_linear); inline int iscsi_segment_seek_sg(struct iscsi_segment *segment, struct scatterlist *sg_list, unsigned int sg_count, unsigned int offset, size_t size, iscsi_segment_done_fn_t *done, struct hash_desc *hash) { struct scatterlist *sg; unsigned int i; __iscsi_segment_init(segment, size, done, hash); for_each_sg(sg_list, sg, sg_count, i) { if (offset < sg->length) { iscsi_tcp_segment_init_sg(segment, sg, offset); return 0; } offset -= sg->length; } return ISCSI_ERR_DATA_OFFSET; } EXPORT_SYMBOL_GPL(iscsi_segment_seek_sg); /** * iscsi_tcp_hdr_recv_prep - prep segment for hdr reception * @tcp_conn: iscsi connection to prep for * * This function always passes NULL for the hash argument, because when this * function is called we do not yet know the final size of the header and want * to delay the digest processing until we know that. */ void iscsi_tcp_hdr_recv_prep(struct iscsi_tcp_conn *tcp_conn) { ISCSI_DBG_TCP(tcp_conn->iscsi_conn, "(%s)\n", tcp_conn->iscsi_conn->hdrdgst_en ? "digest enabled" : "digest disabled"); iscsi_segment_init_linear(&tcp_conn->in.segment, tcp_conn->in.hdr_buf, sizeof(struct iscsi_hdr), iscsi_tcp_hdr_recv_done, NULL); } EXPORT_SYMBOL_GPL(iscsi_tcp_hdr_recv_prep); /* * Handle incoming reply to any other type of command */ static int iscsi_tcp_data_recv_done(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment) { struct iscsi_conn *conn = tcp_conn->iscsi_conn; int rc = 0; if (!iscsi_tcp_dgst_verify(tcp_conn, segment)) return ISCSI_ERR_DATA_DGST; rc = iscsi_complete_pdu(conn, tcp_conn->in.hdr, conn->data, tcp_conn->in.datalen); if (rc) return rc; iscsi_tcp_hdr_recv_prep(tcp_conn); return 0; } static void iscsi_tcp_data_recv_prep(struct iscsi_tcp_conn *tcp_conn) { struct iscsi_conn *conn = tcp_conn->iscsi_conn; struct hash_desc *rx_hash = NULL; if (conn->datadgst_en && !(conn->session->tt->caps & CAP_DIGEST_OFFLOAD)) rx_hash = tcp_conn->rx_hash; iscsi_segment_init_linear(&tcp_conn->in.segment, conn->data, tcp_conn->in.datalen, iscsi_tcp_data_recv_done, rx_hash); } /** * iscsi_tcp_cleanup_task - free tcp_task resources * @task: iscsi task * * must be called with session lock */ void iscsi_tcp_cleanup_task(struct iscsi_task *task) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_r2t_info *r2t; /* nothing to do for mgmt */ if (!task->sc) return; /* flush task's r2t queues */ while (kfifo_out(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*))) { kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); ISCSI_DBG_TCP(task->conn, "pending r2t dropped\n"); } r2t = tcp_task->r2t; if (r2t != NULL) { kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); tcp_task->r2t = NULL; } } EXPORT_SYMBOL_GPL(iscsi_tcp_cleanup_task); /** * iscsi_tcp_data_in - SCSI Data-In Response processing * @conn: iscsi connection * @task: scsi command task */ static int iscsi_tcp_data_in(struct iscsi_conn *conn, struct iscsi_task *task) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_data_rsp *rhdr = (struct iscsi_data_rsp *)tcp_conn->in.hdr; int datasn = be32_to_cpu(rhdr->datasn); unsigned total_in_length = scsi_in(task->sc)->length; /* * lib iscsi will update this in the completion handling if there * is status. */ if (!(rhdr->flags & ISCSI_FLAG_DATA_STATUS)) iscsi_update_cmdsn(conn->session, (struct iscsi_nopin*)rhdr); if (tcp_conn->in.datalen == 0) return 0; if (tcp_task->exp_datasn != datasn) { ISCSI_DBG_TCP(conn, "task->exp_datasn(%d) != rhdr->datasn(%d)" "\n", tcp_task->exp_datasn, datasn); return ISCSI_ERR_DATASN; } tcp_task->exp_datasn++; tcp_task->data_offset = be32_to_cpu(rhdr->offset); if (tcp_task->data_offset + tcp_conn->in.datalen > total_in_length) { ISCSI_DBG_TCP(conn, "data_offset(%d) + data_len(%d) > " "total_length_in(%d)\n", tcp_task->data_offset, tcp_conn->in.datalen, total_in_length); return ISCSI_ERR_DATA_OFFSET; } conn->datain_pdus_cnt++; return 0; } /** * iscsi_tcp_r2t_rsp - iSCSI R2T Response processing * @conn: iscsi connection * @task: scsi command task */ static int iscsi_tcp_r2t_rsp(struct iscsi_conn *conn, struct iscsi_task *task) { struct iscsi_session *session = conn->session; struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_r2t_rsp *rhdr = (struct iscsi_r2t_rsp *)tcp_conn->in.hdr; struct iscsi_r2t_info *r2t; int r2tsn = be32_to_cpu(rhdr->r2tsn); int rc; if (tcp_conn->in.datalen) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2t with datalen %d\n", tcp_conn->in.datalen); return ISCSI_ERR_DATALEN; } if (tcp_task->exp_datasn != r2tsn){ ISCSI_DBG_TCP(conn, "task->exp_datasn(%d) != rhdr->r2tsn(%d)\n", tcp_task->exp_datasn, r2tsn); return ISCSI_ERR_R2TSN; } /* fill-in new R2T associated with the task */ iscsi_update_cmdsn(session, (struct iscsi_nopin*)rhdr); if (!task->sc || session->state != ISCSI_STATE_LOGGED_IN) { iscsi_conn_printk(KERN_INFO, conn, "dropping R2T itt %d in recovery.\n", task->itt); return 0; } rc = kfifo_out(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); if (!rc) { iscsi_conn_printk(KERN_ERR, conn, "Could not allocate R2T. " "Target has sent more R2Ts than it " "negotiated for or driver has has leaked.\n"); return ISCSI_ERR_PROTO; } r2t->exp_statsn = rhdr->statsn; r2t->data_length = be32_to_cpu(rhdr->data_length); if (r2t->data_length == 0) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with zero data len\n"); kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } if (r2t->data_length > session->max_burst) ISCSI_DBG_TCP(conn, "invalid R2T with data len %u and max " "burst %u. Attempting to execute request.\n", r2t->data_length, session->max_burst); r2t->data_offset = be32_to_cpu(rhdr->data_offset); if (r2t->data_offset + r2t->data_length > scsi_out(task->sc)->length) { iscsi_conn_printk(KERN_ERR, conn, "invalid R2T with data len %u at offset %u " "and total length %d\n", r2t->data_length, r2t->data_offset, scsi_out(task->sc)->length); kfifo_in(&tcp_task->r2tpool.queue, (void*)&r2t, sizeof(void*)); return ISCSI_ERR_DATALEN; } r2t->ttt = rhdr->ttt; /* no flip */ r2t->datasn = 0; r2t->sent = 0; tcp_task->exp_datasn = r2tsn + 1; kfifo_in(&tcp_task->r2tqueue, (void*)&r2t, sizeof(void*)); conn->r2t_pdus_cnt++; iscsi_requeue_task(task); return 0; } /* * Handle incoming reply to DataIn command */ static int iscsi_tcp_process_data_in(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment) { struct iscsi_conn *conn = tcp_conn->iscsi_conn; struct iscsi_hdr *hdr = tcp_conn->in.hdr; int rc; if (!iscsi_tcp_dgst_verify(tcp_conn, segment)) return ISCSI_ERR_DATA_DGST; /* check for non-exceptional status */ if (hdr->flags & ISCSI_FLAG_DATA_STATUS) { rc = iscsi_complete_pdu(conn, tcp_conn->in.hdr, NULL, 0); if (rc) return rc; } iscsi_tcp_hdr_recv_prep(tcp_conn); return 0; } /** * iscsi_tcp_hdr_dissect - process PDU header * @conn: iSCSI connection * @hdr: PDU header * * This function analyzes the header of the PDU received, * and performs several sanity checks. If the PDU is accompanied * by data, the receive buffer is set up to copy the incoming data * to the correct location. */ static int iscsi_tcp_hdr_dissect(struct iscsi_conn *conn, struct iscsi_hdr *hdr) { int rc = 0, opcode, ahslen; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_task *task; /* verify PDU length */ tcp_conn->in.datalen = ntoh24(hdr->dlength); if (tcp_conn->in.datalen > conn->max_recv_dlength) { iscsi_conn_printk(KERN_ERR, conn, "iscsi_tcp: datalen %d > %d\n", tcp_conn->in.datalen, conn->max_recv_dlength); return ISCSI_ERR_DATALEN; } /* Additional header segments. So far, we don't * process additional headers. */ ahslen = hdr->hlength << 2; opcode = hdr->opcode & ISCSI_OPCODE_MASK; /* verify itt (itt encoding: age+cid+itt) */ rc = iscsi_verify_itt(conn, hdr->itt); if (rc) return rc; ISCSI_DBG_TCP(conn, "opcode 0x%x ahslen %d datalen %d\n", opcode, ahslen, tcp_conn->in.datalen); switch(opcode) { case ISCSI_OP_SCSI_DATA_IN: spin_lock(&conn->session->lock); task = iscsi_itt_to_ctask(conn, hdr->itt); if (!task) rc = ISCSI_ERR_BAD_ITT; else rc = iscsi_tcp_data_in(conn, task); if (rc) { spin_unlock(&conn->session->lock); break; } if (tcp_conn->in.datalen) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct hash_desc *rx_hash = NULL; struct scsi_data_buffer *sdb = scsi_in(task->sc); /* * Setup copy of Data-In into the Scsi_Cmnd * Scatterlist case: * We set up the iscsi_segment to point to the next * scatterlist entry to copy to. As we go along, * we move on to the next scatterlist entry and * update the digest per-entry. */ if (conn->datadgst_en && !(conn->session->tt->caps & CAP_DIGEST_OFFLOAD)) rx_hash = tcp_conn->rx_hash; ISCSI_DBG_TCP(conn, "iscsi_tcp_begin_data_in( " "offset=%d, datalen=%d)\n", tcp_task->data_offset, tcp_conn->in.datalen); task->last_xfer = jiffies; rc = iscsi_segment_seek_sg(&tcp_conn->in.segment, sdb->table.sgl, sdb->table.nents, tcp_task->data_offset, tcp_conn->in.datalen, iscsi_tcp_process_data_in, rx_hash); spin_unlock(&conn->session->lock); return rc; } rc = __iscsi_complete_pdu(conn, hdr, NULL, 0); spin_unlock(&conn->session->lock); break; case ISCSI_OP_SCSI_CMD_RSP: if (tcp_conn->in.datalen) { iscsi_tcp_data_recv_prep(tcp_conn); return 0; } rc = iscsi_complete_pdu(conn, hdr, NULL, 0); break; case ISCSI_OP_R2T: spin_lock(&conn->session->lock); task = iscsi_itt_to_ctask(conn, hdr->itt); if (!task) rc = ISCSI_ERR_BAD_ITT; else if (ahslen) rc = ISCSI_ERR_AHSLEN; else if (task->sc->sc_data_direction == DMA_TO_DEVICE) { task->last_xfer = jiffies; rc = iscsi_tcp_r2t_rsp(conn, task); } else rc = ISCSI_ERR_PROTO; spin_unlock(&conn->session->lock); break; case ISCSI_OP_LOGIN_RSP: case ISCSI_OP_TEXT_RSP: case ISCSI_OP_REJECT: case ISCSI_OP_ASYNC_EVENT: /* * It is possible that we could get a PDU with a buffer larger * than 8K, but there are no targets that currently do this. * For now we fail until we find a vendor that needs it */ if (ISCSI_DEF_MAX_RECV_SEG_LEN < tcp_conn->in.datalen) { iscsi_conn_printk(KERN_ERR, conn, "iscsi_tcp: received buffer of " "len %u but conn buffer is only %u " "(opcode %0x)\n", tcp_conn->in.datalen, ISCSI_DEF_MAX_RECV_SEG_LEN, opcode); rc = ISCSI_ERR_PROTO; break; } /* If there's data coming in with the response, * receive it to the connection's buffer. */ if (tcp_conn->in.datalen) { iscsi_tcp_data_recv_prep(tcp_conn); return 0; } /* fall through */ case ISCSI_OP_LOGOUT_RSP: case ISCSI_OP_NOOP_IN: case ISCSI_OP_SCSI_TMFUNC_RSP: rc = iscsi_complete_pdu(conn, hdr, NULL, 0); break; default: rc = ISCSI_ERR_BAD_OPCODE; break; } if (rc == 0) { /* Anything that comes with data should have * been handled above. */ if (tcp_conn->in.datalen) return ISCSI_ERR_PROTO; iscsi_tcp_hdr_recv_prep(tcp_conn); } return rc; } /** * iscsi_tcp_hdr_recv_done - process PDU header * * This is the callback invoked when the PDU header has * been received. If the header is followed by additional * header segments, we go back for more data. */ static int iscsi_tcp_hdr_recv_done(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment) { struct iscsi_conn *conn = tcp_conn->iscsi_conn; struct iscsi_hdr *hdr; /* Check if there are additional header segments * *prior* to computing the digest, because we * may need to go back to the caller for more. */ hdr = (struct iscsi_hdr *) tcp_conn->in.hdr_buf; if (segment->copied == sizeof(struct iscsi_hdr) && hdr->hlength) { /* Bump the header length - the caller will * just loop around and get the AHS for us, and * call again. */ unsigned int ahslen = hdr->hlength << 2; /* Make sure we don't overflow */ if (sizeof(*hdr) + ahslen > sizeof(tcp_conn->in.hdr_buf)) return ISCSI_ERR_AHSLEN; segment->total_size += ahslen; segment->size += ahslen; return 0; } /* We're done processing the header. See if we're doing * header digests; if so, set up the recv_digest buffer * and go back for more. */ if (conn->hdrdgst_en && !(conn->session->tt->caps & CAP_DIGEST_OFFLOAD)) { if (segment->digest_len == 0) { /* * Even if we offload the digest processing we * splice it in so we can increment the skb/segment * counters in preparation for the data segment. */ iscsi_tcp_segment_splice_digest(segment, segment->recv_digest); return 0; } iscsi_tcp_dgst_header(tcp_conn->rx_hash, hdr, segment->total_copied - ISCSI_DIGEST_SIZE, segment->digest); if (!iscsi_tcp_dgst_verify(tcp_conn, segment)) return ISCSI_ERR_HDR_DGST; } tcp_conn->in.hdr = hdr; return iscsi_tcp_hdr_dissect(conn, hdr); } /** * iscsi_tcp_recv_segment_is_hdr - tests if we are reading in a header * @tcp_conn: iscsi tcp conn * * returns non zero if we are currently processing or setup to process * a header. */ inline int iscsi_tcp_recv_segment_is_hdr(struct iscsi_tcp_conn *tcp_conn) { return tcp_conn->in.segment.done == iscsi_tcp_hdr_recv_done; } EXPORT_SYMBOL_GPL(iscsi_tcp_recv_segment_is_hdr); /** * iscsi_tcp_recv_skb - Process skb * @conn: iscsi connection * @skb: network buffer with header and/or data segment * @offset: offset in skb * @offload: bool indicating if transfer was offloaded * * Will return status of transfer in status. And will return * number of bytes copied. */ int iscsi_tcp_recv_skb(struct iscsi_conn *conn, struct sk_buff *skb, unsigned int offset, bool offloaded, int *status) { struct iscsi_tcp_conn *tcp_conn = conn->dd_data; struct iscsi_segment *segment = &tcp_conn->in.segment; struct skb_seq_state seq; unsigned int consumed = 0; int rc = 0; ISCSI_DBG_TCP(conn, "in %d bytes\n", skb->len - offset); /* * Update for each skb instead of pdu, because over slow networks a * data_in's data could take a while to read in. We also want to * account for r2ts. */ conn->last_recv = jiffies; if (unlikely(conn->suspend_rx)) { ISCSI_DBG_TCP(conn, "Rx suspended!\n"); *status = ISCSI_TCP_SUSPENDED; return 0; } if (offloaded) { segment->total_copied = segment->total_size; goto segment_done; } skb_prepare_seq_read(skb, offset, skb->len, &seq); while (1) { unsigned int avail; const u8 *ptr; avail = skb_seq_read(consumed, &ptr, &seq); if (avail == 0) { ISCSI_DBG_TCP(conn, "no more data avail. Consumed %d\n", consumed); *status = ISCSI_TCP_SKB_DONE; skb_abort_seq_read(&seq); goto skb_done; } BUG_ON(segment->copied >= segment->size); ISCSI_DBG_TCP(conn, "skb %p ptr=%p avail=%u\n", skb, ptr, avail); rc = iscsi_tcp_segment_recv(tcp_conn, segment, ptr, avail); BUG_ON(rc == 0); consumed += rc; if (segment->total_copied >= segment->total_size) { skb_abort_seq_read(&seq); goto segment_done; } } segment_done: *status = ISCSI_TCP_SEGMENT_DONE; ISCSI_DBG_TCP(conn, "segment done\n"); rc = segment->done(tcp_conn, segment); if (rc != 0) { *status = ISCSI_TCP_CONN_ERR; ISCSI_DBG_TCP(conn, "Error receiving PDU, errno=%d\n", rc); iscsi_conn_failure(conn, rc); return 0; } /* The done() functions sets up the next segment. */ skb_done: conn->rxdata_octets += consumed; return consumed; } EXPORT_SYMBOL_GPL(iscsi_tcp_recv_skb); /** * iscsi_tcp_task_init - Initialize iSCSI SCSI_READ or SCSI_WRITE commands * @conn: iscsi connection * @task: scsi command task * @sc: scsi command */ int iscsi_tcp_task_init(struct iscsi_task *task) { struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_conn *conn = task->conn; struct scsi_cmnd *sc = task->sc; int err; if (!sc) { /* * mgmt tasks do not have a scatterlist since they come * in from the iscsi interface. */ ISCSI_DBG_TCP(conn, "mtask deq [itt 0x%x]\n", task->itt); return conn->session->tt->init_pdu(task, 0, task->data_count); } BUG_ON(kfifo_len(&tcp_task->r2tqueue)); tcp_task->exp_datasn = 0; /* Prepare PDU, optionally w/ immediate data */ ISCSI_DBG_TCP(conn, "task deq [itt 0x%x imm %d unsol %d]\n", task->itt, task->imm_count, task->unsol_r2t.data_length); err = conn->session->tt->init_pdu(task, 0, task->imm_count); if (err) return err; task->imm_count = 0; return 0; } EXPORT_SYMBOL_GPL(iscsi_tcp_task_init); static struct iscsi_r2t_info *iscsi_tcp_get_curr_r2t(struct iscsi_task *task) { struct iscsi_session *session = task->conn->session; struct iscsi_tcp_task *tcp_task = task->dd_data; struct iscsi_r2t_info *r2t = NULL; if (iscsi_task_has_unsol_data(task)) r2t = &task->unsol_r2t; else { spin_lock_bh(&session->lock); if (tcp_task->r2t) { r2t = tcp_task->r2t; /* Continue with this R2T? */ if (r2t->data_length <= r2t->sent) { ISCSI_DBG_TCP(task->conn, " done with r2t %p\n", r2t); kfifo_in(&tcp_task->r2tpool.queue, (void *)&tcp_task->r2t, sizeof(void *)); tcp_task->r2t = r2t = NULL; } } if (r2t == NULL) { if (kfifo_out(&tcp_task->r2tqueue, (void *)&tcp_task->r2t, sizeof(void *)) != sizeof(void *)) r2t = NULL; else r2t = tcp_task->r2t; } spin_unlock_bh(&session->lock); } return r2t; } /** * iscsi_tcp_task_xmit - xmit normal PDU task * @task: iscsi command task * * We're expected to return 0 when everything was transmitted successfully, * -EAGAIN if there's still data in the queue, or != 0 for any other kind * of error. */ int iscsi_tcp_task_xmit(struct iscsi_task *task) { struct iscsi_conn *conn = task->conn; struct iscsi_session *session = conn->session; struct iscsi_r2t_info *r2t; int rc = 0; flush: /* Flush any pending data first. */ rc = session->tt->xmit_pdu(task); if (rc < 0) return rc; /* mgmt command */ if (!task->sc) { if (task->hdr->itt == RESERVED_ITT) iscsi_put_task(task); return 0; } /* Are we done already? */ if (task->sc->sc_data_direction != DMA_TO_DEVICE) return 0; r2t = iscsi_tcp_get_curr_r2t(task); if (r2t == NULL) { /* Waiting for more R2Ts to arrive. */ ISCSI_DBG_TCP(conn, "no R2Ts yet\n"); return 0; } rc = conn->session->tt->alloc_pdu(task, ISCSI_OP_SCSI_DATA_OUT); if (rc) return rc; iscsi_prep_data_out_pdu(task, r2t, (struct iscsi_data *) task->hdr); ISCSI_DBG_TCP(conn, "sol dout %p [dsn %d itt 0x%x doff %d dlen %d]\n", r2t, r2t->datasn - 1, task->hdr->itt, r2t->data_offset + r2t->sent, r2t->data_count); rc = conn->session->tt->init_pdu(task, r2t->data_offset + r2t->sent, r2t->data_count); if (rc) { iscsi_conn_failure(conn, ISCSI_ERR_XMIT_FAILED); return rc; } r2t->sent += r2t->data_count; goto flush; } EXPORT_SYMBOL_GPL(iscsi_tcp_task_xmit); struct iscsi_cls_conn * iscsi_tcp_conn_setup(struct iscsi_cls_session *cls_session, int dd_data_size, uint32_t conn_idx) { struct iscsi_conn *conn; struct iscsi_cls_conn *cls_conn; struct iscsi_tcp_conn *tcp_conn; cls_conn = iscsi_conn_setup(cls_session, sizeof(*tcp_conn), conn_idx); if (!cls_conn) return NULL; conn = cls_conn->dd_data; /* * due to strange issues with iser these are not set * in iscsi_conn_setup */ conn->max_recv_dlength = ISCSI_DEF_MAX_RECV_SEG_LEN; tcp_conn = conn->dd_data; tcp_conn->iscsi_conn = conn; tcp_conn->dd_data = kzalloc(dd_data_size, GFP_KERNEL); if (!tcp_conn->dd_data) { iscsi_conn_teardown(cls_conn); return NULL; } return cls_conn; } EXPORT_SYMBOL_GPL(iscsi_tcp_conn_setup); void iscsi_tcp_conn_teardown(struct iscsi_cls_conn *cls_conn) { struct iscsi_conn *conn = cls_conn->dd_data; struct iscsi_tcp_conn *tcp_conn = conn->dd_data; kfree(tcp_conn->dd_data); iscsi_conn_teardown(cls_conn); } EXPORT_SYMBOL_GPL(iscsi_tcp_conn_teardown); int iscsi_tcp_r2tpool_alloc(struct iscsi_session *session) { int i; int cmd_i; /* * initialize per-task: R2T pool and xmit queue */ for (cmd_i = 0; cmd_i < session->cmds_max; cmd_i++) { struct iscsi_task *task = session->cmds[cmd_i]; struct iscsi_tcp_task *tcp_task = task->dd_data; /* * pre-allocated x2 as much r2ts to handle race when * target acks DataOut faster than we data_xmit() queues * could replenish r2tqueue. */ /* R2T pool */ if (iscsi_pool_init(&tcp_task->r2tpool, session->max_r2t * 2, NULL, sizeof(struct iscsi_r2t_info))) { goto r2t_alloc_fail; } /* R2T xmit queue */ if (kfifo_alloc(&tcp_task->r2tqueue, session->max_r2t * 4 * sizeof(void*), GFP_KERNEL)) { iscsi_pool_free(&tcp_task->r2tpool); goto r2t_alloc_fail; } } return 0; r2t_alloc_fail: for (i = 0; i < cmd_i; i++) { struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; kfifo_free(&tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } return -ENOMEM; } EXPORT_SYMBOL_GPL(iscsi_tcp_r2tpool_alloc); void iscsi_tcp_r2tpool_free(struct iscsi_session *session) { int i; for (i = 0; i < session->cmds_max; i++) { struct iscsi_task *task = session->cmds[i]; struct iscsi_tcp_task *tcp_task = task->dd_data; kfifo_free(&tcp_task->r2tqueue); iscsi_pool_free(&tcp_task->r2tpool); } } EXPORT_SYMBOL_GPL(iscsi_tcp_r2tpool_free); void iscsi_tcp_conn_get_stats(struct iscsi_cls_conn *cls_conn, struct iscsi_stats *stats) { struct iscsi_conn *conn = cls_conn->dd_data; stats->txdata_octets = conn->txdata_octets; stats->rxdata_octets = conn->rxdata_octets; stats->scsicmd_pdus = conn->scsicmd_pdus_cnt; stats->dataout_pdus = conn->dataout_pdus_cnt; stats->scsirsp_pdus = conn->scsirsp_pdus_cnt; stats->datain_pdus = conn->datain_pdus_cnt; stats->r2t_pdus = conn->r2t_pdus_cnt; stats->tmfcmd_pdus = conn->tmfcmd_pdus_cnt; stats->tmfrsp_pdus = conn->tmfrsp_pdus_cnt; } EXPORT_SYMBOL_GPL(iscsi_tcp_conn_get_stats); open-iscsi-2.0.874/kernel/libiscsi_tcp.h000066400000000000000000000102271277325716400200650ustar00rootroot00000000000000/* * iSCSI over TCP/IP Data-Path lib * * Copyright (C) 2008 Mike Christie * Copyright (C) 2008 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef LIBISCSI_TCP_H #define LIBISCSI_TCP_H #include "libiscsi.h" struct iscsi_tcp_conn; struct iscsi_segment; struct sk_buff; struct hash_desc; typedef int iscsi_segment_done_fn_t(struct iscsi_tcp_conn *, struct iscsi_segment *); struct iscsi_segment { unsigned char *data; unsigned int size; unsigned int copied; unsigned int total_size; unsigned int total_copied; struct hash_desc *hash; unsigned char padbuf[ISCSI_PAD_LEN]; unsigned char recv_digest[ISCSI_DIGEST_SIZE]; unsigned char digest[ISCSI_DIGEST_SIZE]; unsigned int digest_len; struct scatterlist *sg; void *sg_mapped; unsigned int sg_offset; iscsi_segment_done_fn_t *done; }; /* Socket connection receive helper */ struct iscsi_tcp_recv { struct iscsi_hdr *hdr; struct iscsi_segment segment; /* Allocate buffer for BHS + AHS */ uint32_t hdr_buf[64]; /* copied and flipped values */ int datalen; }; struct iscsi_tcp_conn { struct iscsi_conn *iscsi_conn; void *dd_data; int stop_stage; /* conn_stop() flag: * * stop to recover, * * stop to terminate */ /* control data */ struct iscsi_tcp_recv in; /* TCP receive context */ /* CRC32C (Rx) LLD should set this is they do not offload */ struct hash_desc *rx_hash; }; struct iscsi_tcp_task { uint32_t exp_datasn; /* expected target's R2TSN/DataSN */ int data_offset; struct iscsi_r2t_info *r2t; /* in progress solict R2T */ struct iscsi_pool r2tpool; struct kfifo r2tqueue; void *dd_data; }; enum { ISCSI_TCP_SEGMENT_DONE, /* curr seg has been processed */ ISCSI_TCP_SKB_DONE, /* skb is out of data */ ISCSI_TCP_CONN_ERR, /* iscsi layer has fired a conn err */ ISCSI_TCP_SUSPENDED, /* conn is suspended */ }; extern void iscsi_tcp_hdr_recv_prep(struct iscsi_tcp_conn *tcp_conn); extern int iscsi_tcp_recv_skb(struct iscsi_conn *conn, struct sk_buff *skb, unsigned int offset, bool offloaded, int *status); extern void iscsi_tcp_cleanup_task(struct iscsi_task *task); extern int iscsi_tcp_task_init(struct iscsi_task *task); extern int iscsi_tcp_task_xmit(struct iscsi_task *task); /* segment helpers */ extern int iscsi_tcp_recv_segment_is_hdr(struct iscsi_tcp_conn *tcp_conn); extern int iscsi_tcp_segment_done(struct iscsi_tcp_conn *tcp_conn, struct iscsi_segment *segment, int recv, unsigned copied); extern void iscsi_tcp_segment_unmap(struct iscsi_segment *segment); extern void iscsi_segment_init_linear(struct iscsi_segment *segment, void *data, size_t size, iscsi_segment_done_fn_t *done, struct hash_desc *hash); extern int iscsi_segment_seek_sg(struct iscsi_segment *segment, struct scatterlist *sg_list, unsigned int sg_count, unsigned int offset, size_t size, iscsi_segment_done_fn_t *done, struct hash_desc *hash); /* digest helpers */ extern void iscsi_tcp_dgst_header(struct hash_desc *hash, const void *hdr, size_t hdrlen, unsigned char digest[ISCSI_DIGEST_SIZE]); extern struct iscsi_cls_conn * iscsi_tcp_conn_setup(struct iscsi_cls_session *cls_session, int dd_data_size, uint32_t conn_idx); extern void iscsi_tcp_conn_teardown(struct iscsi_cls_conn *cls_conn); /* misc helpers */ extern int iscsi_tcp_r2tpool_alloc(struct iscsi_session *session); extern void iscsi_tcp_r2tpool_free(struct iscsi_session *session); extern void iscsi_tcp_conn_get_stats(struct iscsi_cls_conn *cls_conn, struct iscsi_stats *stats); #endif /* LIBISCSI_TCP_H */ open-iscsi-2.0.874/kernel/scsi_transport_iscsi.c000066400000000000000000001642661277325716400216750ustar00rootroot00000000000000/* * iSCSI transport class definitions * * Copyright (C) IBM Corporation, 2004 * Copyright (C) Mike Christie, 2004 - 2005 * Copyright (C) Dmitry Yusupov, 2004 - 2005 * Copyright (C) Alex Aizman, 2004 - 2005 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include #include #include #include "scsi_transport_iscsi.h" #include "iscsi_if.h" #define ISCSI_SESSION_ATTRS 22 #define ISCSI_CONN_ATTRS 13 #define ISCSI_HOST_ATTRS 4 #define ISCSI_TRANSPORT_VERSION "2.0-871" static int dbg_session; module_param_named(debug_session, dbg_session, int, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug_session, "Turn on debugging for sessions in scsi_transport_iscsi " "module. Set to 1 to turn on, and zero to turn off. Default " "is off."); static int dbg_conn; module_param_named(debug_conn, dbg_conn, int, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug_conn, "Turn on debugging for connections in scsi_transport_iscsi " "module. Set to 1 to turn on, and zero to turn off. Default " "is off."); #define ISCSI_DBG_TRANS_SESSION(_session, dbg_fmt, arg...) \ do { \ if (dbg_session) \ iscsi_cls_session_printk(KERN_INFO, _session, \ "%s: " dbg_fmt, \ __func__, ##arg); \ } while (0); #define ISCSI_DBG_TRANS_CONN(_conn, dbg_fmt, arg...) \ do { \ if (dbg_conn) \ iscsi_cls_conn_printk(KERN_INFO, _conn, \ "%s: " dbg_fmt, \ __func__, ##arg); \ } while (0); struct iscsi_internal { struct scsi_transport_template t; struct iscsi_transport *iscsi_transport; struct list_head list; struct device dev; struct device_attribute *host_attrs[ISCSI_HOST_ATTRS + 1]; struct transport_container conn_cont; struct device_attribute *conn_attrs[ISCSI_CONN_ATTRS + 1]; struct transport_container session_cont; struct device_attribute *session_attrs[ISCSI_SESSION_ATTRS + 1]; }; static atomic_t iscsi_session_nr; /* sysfs session id for next new session */ static struct workqueue_struct *iscsi_eh_timer_workq; /* * list of registered transports and lock that must * be held while accessing list. The iscsi_transport_lock must * be acquired after the rx_queue_mutex. */ static LIST_HEAD(iscsi_transports); static DEFINE_SPINLOCK(iscsi_transport_lock); #define to_iscsi_internal(tmpl) \ container_of(tmpl, struct iscsi_internal, t) #define dev_to_iscsi_internal(_dev) \ container_of(_dev, struct iscsi_internal, dev) static void iscsi_transport_release(struct device *dev) { struct iscsi_internal *priv = dev_to_iscsi_internal(dev); kfree(priv); } /* * iscsi_transport_class represents the iscsi_transports that are * registered. */ static struct class iscsi_transport_class = { .name = "iscsi_transport", .dev_release = iscsi_transport_release, }; static ssize_t show_transport_handle(struct device *dev, struct device_attribute *attr, char *buf) { struct iscsi_internal *priv = dev_to_iscsi_internal(dev); return sprintf(buf, "%llu\n", (unsigned long long)iscsi_handle(priv->iscsi_transport)); } static DEVICE_ATTR(handle, S_IRUGO, show_transport_handle, NULL); #define show_transport_attr(name, format) \ static ssize_t \ show_transport_##name(struct device *dev, \ struct device_attribute *attr,char *buf) \ { \ struct iscsi_internal *priv = dev_to_iscsi_internal(dev); \ return sprintf(buf, format"\n", priv->iscsi_transport->name); \ } \ static DEVICE_ATTR(name, S_IRUGO, show_transport_##name, NULL); show_transport_attr(caps, "0x%x"); static struct attribute *iscsi_transport_attrs[] = { &dev_attr_handle.attr, &dev_attr_caps.attr, NULL, }; static struct attribute_group iscsi_transport_group = { .attrs = iscsi_transport_attrs, }; /* * iSCSI endpoint attrs */ #define iscsi_dev_to_endpoint(_dev) \ container_of(_dev, struct iscsi_endpoint, dev) #define ISCSI_ATTR(_prefix,_name,_mode,_show,_store) \ struct device_attribute dev_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) static void iscsi_endpoint_release(struct device *dev) { struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(dev); kfree(ep); } static struct class iscsi_endpoint_class = { .name = "iscsi_endpoint", .dev_release = iscsi_endpoint_release, }; static ssize_t show_ep_handle(struct device *dev, struct device_attribute *attr, char *buf) { struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(dev); return sprintf(buf, "%llu\n", (unsigned long long) ep->id); } static ISCSI_ATTR(ep, handle, S_IRUGO, show_ep_handle, NULL); static struct attribute *iscsi_endpoint_attrs[] = { &dev_attr_ep_handle.attr, NULL, }; static struct attribute_group iscsi_endpoint_group = { .attrs = iscsi_endpoint_attrs, }; #define ISCSI_MAX_EPID -1 static int iscsi_match_epid(struct device *dev, void *data) { struct iscsi_endpoint *ep = iscsi_dev_to_endpoint(dev); uint64_t *epid = (uint64_t *) data; return *epid == ep->id; } struct iscsi_endpoint * iscsi_create_endpoint(int dd_size) { struct device *dev; struct iscsi_endpoint *ep; uint64_t id; int err; for (id = 1; id < ISCSI_MAX_EPID; id++) { dev = class_find_device(&iscsi_endpoint_class, NULL, &id, iscsi_match_epid); if (!dev) break; } if (id == ISCSI_MAX_EPID) { printk(KERN_ERR "Too many connections. Max supported %u\n", ISCSI_MAX_EPID - 1); return NULL; } ep = kzalloc(sizeof(*ep) + dd_size, GFP_KERNEL); if (!ep) return NULL; ep->id = id; ep->dev.class = &iscsi_endpoint_class; dev_set_name(&ep->dev, "ep-%llu", (unsigned long long) id); err = device_register(&ep->dev); if (err) goto free_ep; err = sysfs_create_group(&ep->dev.kobj, &iscsi_endpoint_group); if (err) goto unregister_dev; if (dd_size) ep->dd_data = &ep[1]; return ep; unregister_dev: device_unregister(&ep->dev); return NULL; free_ep: kfree(ep); return NULL; } EXPORT_SYMBOL_GPL(iscsi_create_endpoint); void iscsi_destroy_endpoint(struct iscsi_endpoint *ep) { sysfs_remove_group(&ep->dev.kobj, &iscsi_endpoint_group); device_unregister(&ep->dev); } EXPORT_SYMBOL_GPL(iscsi_destroy_endpoint); struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle) { struct iscsi_endpoint *ep; struct device *dev; dev = class_find_device(&iscsi_endpoint_class, NULL, &handle, iscsi_match_epid); if (!dev) return NULL; ep = iscsi_dev_to_endpoint(dev); /* * we can drop this now because the interface will prevent * removals and lookups from racing. */ put_device(dev); return ep; } EXPORT_SYMBOL_GPL(iscsi_lookup_endpoint); static int iscsi_setup_host(struct transport_container *tc, struct device *dev, struct device *cdev) { struct Scsi_Host *shost = dev_to_shost(dev); struct iscsi_cls_host *ihost = shost->shost_data; memset(ihost, 0, sizeof(*ihost)); atomic_set(&ihost->nr_scans, 0); mutex_init(&ihost->mutex); return 0; } static DECLARE_TRANSPORT_CLASS(iscsi_host_class, "iscsi_host", iscsi_setup_host, NULL, NULL); static DECLARE_TRANSPORT_CLASS(iscsi_session_class, "iscsi_session", NULL, NULL, NULL); static DECLARE_TRANSPORT_CLASS(iscsi_connection_class, "iscsi_connection", NULL, NULL, NULL); static struct sock *nls; static DEFINE_MUTEX(rx_queue_mutex); static LIST_HEAD(sesslist); static DEFINE_SPINLOCK(sesslock); static LIST_HEAD(connlist); static DEFINE_SPINLOCK(connlock); static uint32_t iscsi_conn_get_sid(struct iscsi_cls_conn *conn) { struct iscsi_cls_session *sess = iscsi_dev_to_session(conn->dev.parent); return sess->sid; } /* * Returns the matching session to a given sid */ static struct iscsi_cls_session *iscsi_session_lookup(uint32_t sid) { unsigned long flags; struct iscsi_cls_session *sess; spin_lock_irqsave(&sesslock, flags); list_for_each_entry(sess, &sesslist, sess_list) { if (sess->sid == sid) { spin_unlock_irqrestore(&sesslock, flags); return sess; } } spin_unlock_irqrestore(&sesslock, flags); return NULL; } /* * Returns the matching connection to a given sid / cid tuple */ static struct iscsi_cls_conn *iscsi_conn_lookup(uint32_t sid, uint32_t cid) { unsigned long flags; struct iscsi_cls_conn *conn; spin_lock_irqsave(&connlock, flags); list_for_each_entry(conn, &connlist, conn_list) { if ((conn->cid == cid) && (iscsi_conn_get_sid(conn) == sid)) { spin_unlock_irqrestore(&connlock, flags); return conn; } } spin_unlock_irqrestore(&connlock, flags); return NULL; } /* * The following functions can be used by LLDs that allocate * their own scsi_hosts or by software iscsi LLDs */ static struct { int value; char *name; } iscsi_session_state_names[] = { { ISCSI_SESSION_LOGGED_IN, "LOGGED_IN" }, { ISCSI_SESSION_FAILED, "FAILED" }, { ISCSI_SESSION_FREE, "FREE" }, }; static const char *iscsi_session_state_name(int state) { int i; char *name = NULL; for (i = 0; i < ARRAY_SIZE(iscsi_session_state_names); i++) { if (iscsi_session_state_names[i].value == state) { name = iscsi_session_state_names[i].name; break; } } return name; } int iscsi_session_chkready(struct iscsi_cls_session *session) { unsigned long flags; int err; spin_lock_irqsave(&session->lock, flags); switch (session->state) { case ISCSI_SESSION_LOGGED_IN: err = 0; break; case ISCSI_SESSION_FAILED: err = DID_IMM_RETRY << 16; break; case ISCSI_SESSION_FREE: err = DID_TRANSPORT_FAILFAST << 16; break; default: err = DID_NO_CONNECT << 16; break; } spin_unlock_irqrestore(&session->lock, flags); return err; } EXPORT_SYMBOL_GPL(iscsi_session_chkready); static void iscsi_session_release(struct device *dev) { struct iscsi_cls_session *session = iscsi_dev_to_session(dev); struct Scsi_Host *shost; shost = iscsi_session_to_shost(session); scsi_host_put(shost); ISCSI_DBG_TRANS_SESSION(session, "Completing session release\n"); kfree(session); } static int iscsi_is_session_dev(const struct device *dev) { return dev->release == iscsi_session_release; } static int iscsi_iter_session_fn(struct device *dev, void *data) { void (* fn) (struct iscsi_cls_session *) = data; if (!iscsi_is_session_dev(dev)) return 0; fn(iscsi_dev_to_session(dev)); return 0; } void iscsi_host_for_each_session(struct Scsi_Host *shost, void (*fn)(struct iscsi_cls_session *)) { device_for_each_child(&shost->shost_gendev, fn, iscsi_iter_session_fn); } EXPORT_SYMBOL_GPL(iscsi_host_for_each_session); /** * iscsi_scan_finished - helper to report when running scans are done * @shost: scsi host * @time: scan run time * * This function can be used by drives like qla4xxx to report to the scsi * layer when the scans it kicked off at module load time are done. */ int iscsi_scan_finished(struct Scsi_Host *shost, unsigned long time) { struct iscsi_cls_host *ihost = shost->shost_data; /* * qla4xxx will have kicked off some session unblocks before calling * scsi_scan_host, so just wait for them to complete. */ return !atomic_read(&ihost->nr_scans); } EXPORT_SYMBOL_GPL(iscsi_scan_finished); struct iscsi_scan_data { unsigned int channel; unsigned int id; unsigned int lun; }; static int iscsi_user_scan_session(struct device *dev, void *data) { struct iscsi_scan_data *scan_data = data; struct iscsi_cls_session *session; struct Scsi_Host *shost; struct iscsi_cls_host *ihost; unsigned long flags; unsigned int id; if (!iscsi_is_session_dev(dev)) return 0; session = iscsi_dev_to_session(dev); ISCSI_DBG_TRANS_SESSION(session, "Scanning session\n"); shost = iscsi_session_to_shost(session); ihost = shost->shost_data; mutex_lock(&ihost->mutex); spin_lock_irqsave(&session->lock, flags); if (session->state != ISCSI_SESSION_LOGGED_IN) { spin_unlock_irqrestore(&session->lock, flags); goto user_scan_exit; } id = session->target_id; spin_unlock_irqrestore(&session->lock, flags); if (id != ISCSI_MAX_TARGET) { if ((scan_data->channel == SCAN_WILD_CARD || scan_data->channel == 0) && (scan_data->id == SCAN_WILD_CARD || scan_data->id == id)) scsi_scan_target(&session->dev, 0, id, scan_data->lun, 1); } user_scan_exit: mutex_unlock(&ihost->mutex); ISCSI_DBG_TRANS_SESSION(session, "Completed session scan\n"); return 0; } static int iscsi_user_scan(struct Scsi_Host *shost, uint channel, uint id, uint lun) { struct iscsi_scan_data scan_data; scan_data.channel = channel; scan_data.id = id; scan_data.lun = lun; return device_for_each_child(&shost->shost_gendev, &scan_data, iscsi_user_scan_session); } static void iscsi_scan_session(struct work_struct *work) { struct iscsi_cls_session *session = container_of(work, struct iscsi_cls_session, scan_work); struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; struct iscsi_scan_data scan_data; scan_data.channel = 0; scan_data.id = SCAN_WILD_CARD; scan_data.lun = SCAN_WILD_CARD; iscsi_user_scan_session(&session->dev, &scan_data); atomic_dec(&ihost->nr_scans); } static void session_recovery_timedout(struct work_struct *work) { struct iscsi_cls_session *session = container_of(work, struct iscsi_cls_session, recovery_work.work); unsigned long flags; iscsi_cls_session_printk(KERN_INFO, session, "session recovery timed out after %d secs\n", session->recovery_tmo); spin_lock_irqsave(&session->lock, flags); switch (session->state) { case ISCSI_SESSION_FAILED: session->state = ISCSI_SESSION_FREE; break; case ISCSI_SESSION_LOGGED_IN: case ISCSI_SESSION_FREE: /* we raced with the unblock's flush */ spin_unlock_irqrestore(&session->lock, flags); return; } spin_unlock_irqrestore(&session->lock, flags); if (session->transport->session_recovery_timedout) session->transport->session_recovery_timedout(session); ISCSI_DBG_TRANS_SESSION(session, "Unblocking SCSI target\n"); scsi_target_unblock(&session->dev); ISCSI_DBG_TRANS_SESSION(session, "Completed unblocking SCSI target\n"); } static void __iscsi_unblock_session(struct work_struct *work) { struct iscsi_cls_session *session = container_of(work, struct iscsi_cls_session, unblock_work); struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; unsigned long flags; ISCSI_DBG_TRANS_SESSION(session, "Unblocking session\n"); /* * The recovery and unblock work get run from the same workqueue, * so try to cancel it if it was going to run after this unblock. */ cancel_delayed_work(&session->recovery_work); spin_lock_irqsave(&session->lock, flags); session->state = ISCSI_SESSION_LOGGED_IN; spin_unlock_irqrestore(&session->lock, flags); /* start IO */ scsi_target_unblock(&session->dev); /* * Only do kernel scanning if the driver is properly hooked into * the async scanning code (drivers like iscsi_tcp do login and * scanning from userspace). */ if (shost->hostt->scan_finished) { if (scsi_queue_work(shost, &session->scan_work)) atomic_inc(&ihost->nr_scans); } ISCSI_DBG_TRANS_SESSION(session, "Completed unblocking session\n"); } /** * iscsi_unblock_session - set a session as logged in and start IO. * @session: iscsi session * * Mark a session as ready to accept IO. */ void iscsi_unblock_session(struct iscsi_cls_session *session) { queue_work(iscsi_eh_timer_workq, &session->unblock_work); /* * make sure all the events have completed before tell the driver * it is safe */ flush_workqueue(iscsi_eh_timer_workq); } EXPORT_SYMBOL_GPL(iscsi_unblock_session); static void __iscsi_block_session(struct work_struct *work) { struct iscsi_cls_session *session = container_of(work, struct iscsi_cls_session, block_work); unsigned long flags; ISCSI_DBG_TRANS_SESSION(session, "Blocking session\n"); spin_lock_irqsave(&session->lock, flags); session->state = ISCSI_SESSION_FAILED; spin_unlock_irqrestore(&session->lock, flags); scsi_target_block(&session->dev); ISCSI_DBG_TRANS_SESSION(session, "Completed SCSI target blocking\n"); if (session->recovery_tmo >= 0) queue_delayed_work(iscsi_eh_timer_workq, &session->recovery_work, session->recovery_tmo * HZ); } void iscsi_block_session(struct iscsi_cls_session *session) { queue_work(iscsi_eh_timer_workq, &session->block_work); } EXPORT_SYMBOL_GPL(iscsi_block_session); static void __iscsi_unbind_session(struct work_struct *work) { struct iscsi_cls_session *session = container_of(work, struct iscsi_cls_session, unbind_work); struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost = shost->shost_data; unsigned long flags; ISCSI_DBG_TRANS_SESSION(session, "Unbinding session\n"); /* Prevent new scans and make sure scanning is not in progress */ mutex_lock(&ihost->mutex); spin_lock_irqsave(&session->lock, flags); if (session->target_id == ISCSI_MAX_TARGET) { spin_unlock_irqrestore(&session->lock, flags); mutex_unlock(&ihost->mutex); return; } session->target_id = ISCSI_MAX_TARGET; spin_unlock_irqrestore(&session->lock, flags); mutex_unlock(&ihost->mutex); scsi_remove_target(&session->dev); iscsi_session_event(session, ISCSI_KEVENT_UNBIND_SESSION); ISCSI_DBG_TRANS_SESSION(session, "Completed target removal\n"); } struct iscsi_cls_session * iscsi_alloc_session(struct Scsi_Host *shost, struct iscsi_transport *transport, int dd_size) { struct iscsi_cls_session *session; session = kzalloc(sizeof(*session) + dd_size, GFP_KERNEL); if (!session) return NULL; session->transport = transport; session->recovery_tmo = 120; session->state = ISCSI_SESSION_FREE; INIT_DELAYED_WORK(&session->recovery_work, session_recovery_timedout); INIT_LIST_HEAD(&session->sess_list); INIT_WORK(&session->unblock_work, __iscsi_unblock_session); INIT_WORK(&session->block_work, __iscsi_block_session); INIT_WORK(&session->unbind_work, __iscsi_unbind_session); INIT_WORK(&session->scan_work, iscsi_scan_session); spin_lock_init(&session->lock); /* this is released in the dev's release function */ scsi_host_get(shost); session->dev.parent = &shost->shost_gendev; session->dev.release = iscsi_session_release; device_initialize(&session->dev); if (dd_size) session->dd_data = &session[1]; ISCSI_DBG_TRANS_SESSION(session, "Completed session allocation\n"); return session; } EXPORT_SYMBOL_GPL(iscsi_alloc_session); static int iscsi_get_next_target_id(struct device *dev, void *data) { struct iscsi_cls_session *session; unsigned long flags; int err = 0; if (!iscsi_is_session_dev(dev)) return 0; session = iscsi_dev_to_session(dev); spin_lock_irqsave(&session->lock, flags); if (*((unsigned int *) data) == session->target_id) err = -EEXIST; spin_unlock_irqrestore(&session->lock, flags); return err; } int iscsi_add_session(struct iscsi_cls_session *session, unsigned int target_id) { struct Scsi_Host *shost = iscsi_session_to_shost(session); struct iscsi_cls_host *ihost; unsigned long flags; unsigned int id = target_id; int err; ihost = shost->shost_data; session->sid = atomic_add_return(1, &iscsi_session_nr); if (id == ISCSI_MAX_TARGET) { for (id = 0; id < ISCSI_MAX_TARGET; id++) { err = device_for_each_child(&shost->shost_gendev, &id, iscsi_get_next_target_id); if (!err) break; } if (id == ISCSI_MAX_TARGET) { iscsi_cls_session_printk(KERN_ERR, session, "Too many iscsi targets. Max " "number of targets is %d.\n", ISCSI_MAX_TARGET - 1); err = -EOVERFLOW; goto release_host; } } session->target_id = id; dev_set_name(&session->dev, "session%u", session->sid); err = device_add(&session->dev); if (err) { iscsi_cls_session_printk(KERN_ERR, session, "could not register session's dev\n"); goto release_host; } transport_register_device(&session->dev); spin_lock_irqsave(&sesslock, flags); list_add(&session->sess_list, &sesslist); spin_unlock_irqrestore(&sesslock, flags); iscsi_session_event(session, ISCSI_KEVENT_CREATE_SESSION); ISCSI_DBG_TRANS_SESSION(session, "Completed session adding\n"); return 0; release_host: scsi_host_put(shost); return err; } EXPORT_SYMBOL_GPL(iscsi_add_session); /** * iscsi_create_session - create iscsi class session * @shost: scsi host * @transport: iscsi transport * @dd_size: private driver data size * @target_id: which target * * This can be called from a LLD or iscsi_transport. */ struct iscsi_cls_session * iscsi_create_session(struct Scsi_Host *shost, struct iscsi_transport *transport, int dd_size, unsigned int target_id) { struct iscsi_cls_session *session; session = iscsi_alloc_session(shost, transport, dd_size); if (!session) return NULL; if (iscsi_add_session(session, target_id)) { iscsi_free_session(session); return NULL; } return session; } EXPORT_SYMBOL_GPL(iscsi_create_session); static void iscsi_conn_release(struct device *dev) { struct iscsi_cls_conn *conn = iscsi_dev_to_conn(dev); struct device *parent = conn->dev.parent; ISCSI_DBG_TRANS_CONN(conn, "Releasing conn\n"); kfree(conn); put_device(parent); } static int iscsi_is_conn_dev(const struct device *dev) { return dev->release == iscsi_conn_release; } static int iscsi_iter_destroy_conn_fn(struct device *dev, void *data) { if (!iscsi_is_conn_dev(dev)) return 0; return iscsi_destroy_conn(iscsi_dev_to_conn(dev)); } void iscsi_remove_session(struct iscsi_cls_session *session) { struct Scsi_Host *shost = iscsi_session_to_shost(session); unsigned long flags; int err; ISCSI_DBG_TRANS_SESSION(session, "Removing session\n"); spin_lock_irqsave(&sesslock, flags); list_del(&session->sess_list); spin_unlock_irqrestore(&sesslock, flags); /* make sure there are no blocks/unblocks queued */ flush_workqueue(iscsi_eh_timer_workq); /* make sure the timedout callout is not running */ if (!cancel_delayed_work(&session->recovery_work)) flush_workqueue(iscsi_eh_timer_workq); /* * If we are blocked let commands flow again. The lld or iscsi * layer should set up the queuecommand to fail commands. * We assume that LLD will not be calling block/unblock while * removing the session. */ spin_lock_irqsave(&session->lock, flags); session->state = ISCSI_SESSION_FREE; spin_unlock_irqrestore(&session->lock, flags); scsi_target_unblock(&session->dev); /* flush running scans then delete devices */ scsi_flush_work(shost); __iscsi_unbind_session(&session->unbind_work); /* hw iscsi may not have removed all connections from session */ err = device_for_each_child(&session->dev, NULL, iscsi_iter_destroy_conn_fn); if (err) iscsi_cls_session_printk(KERN_ERR, session, "Could not delete all connections " "for session. Error %d.\n", err); transport_unregister_device(&session->dev); ISCSI_DBG_TRANS_SESSION(session, "Completing session removal\n"); device_del(&session->dev); } EXPORT_SYMBOL_GPL(iscsi_remove_session); void iscsi_free_session(struct iscsi_cls_session *session) { ISCSI_DBG_TRANS_SESSION(session, "Freeing session\n"); iscsi_session_event(session, ISCSI_KEVENT_DESTROY_SESSION); put_device(&session->dev); } EXPORT_SYMBOL_GPL(iscsi_free_session); /** * iscsi_destroy_session - destroy iscsi session * @session: iscsi_session * * Can be called by a LLD or iscsi_transport. There must not be * any running connections. */ int iscsi_destroy_session(struct iscsi_cls_session *session) { iscsi_remove_session(session); ISCSI_DBG_TRANS_SESSION(session, "Completing session destruction\n"); iscsi_free_session(session); return 0; } EXPORT_SYMBOL_GPL(iscsi_destroy_session); /** * iscsi_create_conn - create iscsi class connection * @session: iscsi cls session * @dd_size: private driver data size * @cid: connection id * * This can be called from a LLD or iscsi_transport. The connection * is child of the session so cid must be unique for all connections * on the session. * * Since we do not support MCS, cid will normally be zero. In some cases * for software iscsi we could be trying to preallocate a connection struct * in which case there could be two connection structs and cid would be * non-zero. */ struct iscsi_cls_conn * iscsi_create_conn(struct iscsi_cls_session *session, int dd_size, uint32_t cid) { struct iscsi_transport *transport = session->transport; struct iscsi_cls_conn *conn; unsigned long flags; int err; conn = kzalloc(sizeof(*conn) + dd_size, GFP_KERNEL); if (!conn) return NULL; if (dd_size) conn->dd_data = &conn[1]; INIT_LIST_HEAD(&conn->conn_list); conn->transport = transport; conn->cid = cid; /* this is released in the dev's release function */ if (!get_device(&session->dev)) goto free_conn; dev_set_name(&conn->dev, "connection%d:%u", session->sid, cid); conn->dev.parent = &session->dev; conn->dev.release = iscsi_conn_release; err = device_register(&conn->dev); if (err) { iscsi_cls_session_printk(KERN_ERR, session, "could not " "register connection's dev\n"); goto release_parent_ref; } transport_register_device(&conn->dev); spin_lock_irqsave(&connlock, flags); list_add(&conn->conn_list, &connlist); conn->active = 1; spin_unlock_irqrestore(&connlock, flags); ISCSI_DBG_TRANS_CONN(conn, "Completed conn creation\n"); return conn; release_parent_ref: put_device(&session->dev); free_conn: kfree(conn); return NULL; } EXPORT_SYMBOL_GPL(iscsi_create_conn); /** * iscsi_destroy_conn - destroy iscsi class connection * @conn: iscsi cls session * * This can be called from a LLD or iscsi_transport. */ int iscsi_destroy_conn(struct iscsi_cls_conn *conn) { unsigned long flags; spin_lock_irqsave(&connlock, flags); conn->active = 0; list_del(&conn->conn_list); spin_unlock_irqrestore(&connlock, flags); transport_unregister_device(&conn->dev); ISCSI_DBG_TRANS_CONN(conn, "Completing conn destruction\n"); device_unregister(&conn->dev); return 0; } EXPORT_SYMBOL_GPL(iscsi_destroy_conn); /* * iscsi interface functions */ static struct iscsi_internal * iscsi_if_transport_lookup(struct iscsi_transport *tt) { struct iscsi_internal *priv; unsigned long flags; spin_lock_irqsave(&iscsi_transport_lock, flags); list_for_each_entry(priv, &iscsi_transports, list) { if (tt == priv->iscsi_transport) { spin_unlock_irqrestore(&iscsi_transport_lock, flags); return priv; } } spin_unlock_irqrestore(&iscsi_transport_lock, flags); return NULL; } static int iscsi_multicast_skb(struct sk_buff *skb, uint32_t group, gfp_t gfp) { return nlmsg_multicast(nls, skb, 0, group, gfp); } int iscsi_recv_pdu(struct iscsi_cls_conn *conn, struct iscsi_hdr *hdr, char *data, uint32_t data_size) { struct nlmsghdr *nlh; struct sk_buff *skb; struct iscsi_uevent *ev; char *pdu; struct iscsi_internal *priv; int len = NLMSG_SPACE(sizeof(*ev) + sizeof(struct iscsi_hdr) + data_size); priv = iscsi_if_transport_lookup(conn->transport); if (!priv) return -EINVAL; skb = alloc_skb(len, GFP_ATOMIC); if (!skb) { iscsi_conn_error_event(conn, ISCSI_ERR_CONN_FAILED); iscsi_cls_conn_printk(KERN_ERR, conn, "can not deliver " "control PDU: OOM\n"); return -ENOMEM; } nlh = __nlmsg_put(skb, 0, 0, 0, (len - sizeof(*nlh)), 0); ev = NLMSG_DATA(nlh); memset(ev, 0, sizeof(*ev)); ev->transport_handle = iscsi_handle(conn->transport); ev->type = ISCSI_KEVENT_RECV_PDU; ev->r.recv_req.cid = conn->cid; ev->r.recv_req.sid = iscsi_conn_get_sid(conn); pdu = (char*)ev + sizeof(*ev); memcpy(pdu, hdr, sizeof(struct iscsi_hdr)); memcpy(pdu + sizeof(struct iscsi_hdr), data, data_size); return iscsi_multicast_skb(skb, ISCSI_NL_GRP_ISCSID, GFP_ATOMIC); } EXPORT_SYMBOL_GPL(iscsi_recv_pdu); int iscsi_offload_mesg(struct Scsi_Host *shost, struct iscsi_transport *transport, uint32_t type, char *data, uint16_t data_size) { struct nlmsghdr *nlh; struct sk_buff *skb; struct iscsi_uevent *ev; int len = NLMSG_SPACE(sizeof(*ev) + data_size); skb = alloc_skb(len, GFP_ATOMIC); if (!skb) { printk(KERN_ERR "can not deliver iscsi offload message:OOM\n"); return -ENOMEM; } nlh = __nlmsg_put(skb, 0, 0, 0, (len - sizeof(*nlh)), 0); ev = NLMSG_DATA(nlh); memset(ev, 0, sizeof(*ev)); ev->type = type; ev->transport_handle = iscsi_handle(transport); switch (type) { case ISCSI_KEVENT_PATH_REQ: ev->r.req_path.host_no = shost->host_no; break; case ISCSI_KEVENT_IF_DOWN: ev->r.notify_if_down.host_no = shost->host_no; break; } memcpy((char *)ev + sizeof(*ev), data, data_size); return iscsi_multicast_skb(skb, ISCSI_NL_GRP_UIP, GFP_ATOMIC); } EXPORT_SYMBOL_GPL(iscsi_offload_mesg); void iscsi_conn_error_event(struct iscsi_cls_conn *conn, enum iscsi_err error) { struct nlmsghdr *nlh; struct sk_buff *skb; struct iscsi_uevent *ev; struct iscsi_internal *priv; int len = NLMSG_SPACE(sizeof(*ev)); priv = iscsi_if_transport_lookup(conn->transport); if (!priv) return; skb = alloc_skb(len, GFP_ATOMIC); if (!skb) { iscsi_cls_conn_printk(KERN_ERR, conn, "gracefully ignored " "conn error (%d)\n", error); return; } nlh = __nlmsg_put(skb, 0, 0, 0, (len - sizeof(*nlh)), 0); ev = NLMSG_DATA(nlh); ev->transport_handle = iscsi_handle(conn->transport); ev->type = ISCSI_KEVENT_CONN_ERROR; ev->r.connerror.error = error; ev->r.connerror.cid = conn->cid; ev->r.connerror.sid = iscsi_conn_get_sid(conn); iscsi_multicast_skb(skb, ISCSI_NL_GRP_ISCSID, GFP_ATOMIC); iscsi_cls_conn_printk(KERN_INFO, conn, "detected conn error (%d)\n", error); } EXPORT_SYMBOL_GPL(iscsi_conn_error_event); static int iscsi_if_send_reply(uint32_t group, int seq, int type, int done, int multi, void *payload, int size) { struct sk_buff *skb; struct nlmsghdr *nlh; int len = NLMSG_SPACE(size); int flags = multi ? NLM_F_MULTI : 0; int t = done ? NLMSG_DONE : type; skb = alloc_skb(len, GFP_ATOMIC); if (!skb) { printk(KERN_ERR "Could not allocate skb to send reply.\n"); return -ENOMEM; } nlh = __nlmsg_put(skb, 0, 0, t, (len - sizeof(*nlh)), 0); nlh->nlmsg_flags = flags; memcpy(NLMSG_DATA(nlh), payload, size); return iscsi_multicast_skb(skb, group, GFP_ATOMIC); } static int iscsi_if_get_stats(struct iscsi_transport *transport, struct nlmsghdr *nlh) { struct iscsi_uevent *ev = NLMSG_DATA(nlh); struct iscsi_stats *stats; struct sk_buff *skbstat; struct iscsi_cls_conn *conn; struct nlmsghdr *nlhstat; struct iscsi_uevent *evstat; struct iscsi_internal *priv; int len = NLMSG_SPACE(sizeof(*ev) + sizeof(struct iscsi_stats) + sizeof(struct iscsi_stats_custom) * ISCSI_STATS_CUSTOM_MAX); int err = 0; priv = iscsi_if_transport_lookup(transport); if (!priv) return -EINVAL; conn = iscsi_conn_lookup(ev->u.get_stats.sid, ev->u.get_stats.cid); if (!conn) return -EEXIST; do { int actual_size; skbstat = alloc_skb(len, GFP_ATOMIC); if (!skbstat) { iscsi_cls_conn_printk(KERN_ERR, conn, "can not " "deliver stats: OOM\n"); return -ENOMEM; } nlhstat = __nlmsg_put(skbstat, 0, 0, 0, (len - sizeof(*nlhstat)), 0); evstat = NLMSG_DATA(nlhstat); memset(evstat, 0, sizeof(*evstat)); evstat->transport_handle = iscsi_handle(conn->transport); evstat->type = nlh->nlmsg_type; evstat->u.get_stats.cid = ev->u.get_stats.cid; evstat->u.get_stats.sid = ev->u.get_stats.sid; stats = (struct iscsi_stats *) ((char*)evstat + sizeof(*evstat)); memset(stats, 0, sizeof(*stats)); transport->get_stats(conn, stats); actual_size = NLMSG_SPACE(sizeof(struct iscsi_uevent) + sizeof(struct iscsi_stats) + sizeof(struct iscsi_stats_custom) * stats->custom_length); actual_size -= sizeof(*nlhstat); actual_size = NLMSG_LENGTH(actual_size); skb_trim(skbstat, NLMSG_ALIGN(actual_size)); nlhstat->nlmsg_len = actual_size; err = iscsi_multicast_skb(skbstat, ISCSI_NL_GRP_ISCSID, GFP_ATOMIC); } while (err < 0 && err != -ECONNREFUSED); return err; } /** * iscsi_session_event - send session destr. completion event * @session: iscsi class session * @event: type of event */ int iscsi_session_event(struct iscsi_cls_session *session, enum iscsi_uevent_e event) { struct iscsi_internal *priv; struct Scsi_Host *shost; struct iscsi_uevent *ev; struct sk_buff *skb; struct nlmsghdr *nlh; int rc, len = NLMSG_SPACE(sizeof(*ev)); priv = iscsi_if_transport_lookup(session->transport); if (!priv) return -EINVAL; shost = iscsi_session_to_shost(session); skb = alloc_skb(len, GFP_KERNEL); if (!skb) { iscsi_cls_session_printk(KERN_ERR, session, "Cannot notify userspace of session " "event %u\n", event); return -ENOMEM; } nlh = __nlmsg_put(skb, 0, 0, 0, (len - sizeof(*nlh)), 0); ev = NLMSG_DATA(nlh); ev->transport_handle = iscsi_handle(session->transport); ev->type = event; switch (event) { case ISCSI_KEVENT_DESTROY_SESSION: ev->r.d_session.host_no = shost->host_no; ev->r.d_session.sid = session->sid; break; case ISCSI_KEVENT_CREATE_SESSION: ev->r.c_session_ret.host_no = shost->host_no; ev->r.c_session_ret.sid = session->sid; break; case ISCSI_KEVENT_UNBIND_SESSION: ev->r.unbind_session.host_no = shost->host_no; ev->r.unbind_session.sid = session->sid; break; default: iscsi_cls_session_printk(KERN_ERR, session, "Invalid event " "%u.\n", event); kfree_skb(skb); return -EINVAL; } /* * this will occur if the daemon is not up, so we just warn * the user and when the daemon is restarted it will handle it */ rc = iscsi_multicast_skb(skb, ISCSI_NL_GRP_ISCSID, GFP_KERNEL); if (rc == -ESRCH) iscsi_cls_session_printk(KERN_ERR, session, "Cannot notify userspace of session " "event %u. Check iscsi daemon\n", event); ISCSI_DBG_TRANS_SESSION(session, "Completed handling event %d rc %d\n", event, rc); return rc; } EXPORT_SYMBOL_GPL(iscsi_session_event); static int iscsi_if_create_session(struct iscsi_internal *priv, struct iscsi_endpoint *ep, struct iscsi_uevent *ev, uint32_t initial_cmdsn, uint16_t cmds_max, uint16_t queue_depth) { struct iscsi_transport *transport = priv->iscsi_transport; struct iscsi_cls_session *session; struct Scsi_Host *shost; session = transport->create_session(ep, cmds_max, queue_depth, initial_cmdsn); if (!session) return -ENOMEM; shost = iscsi_session_to_shost(session); ev->r.c_session_ret.host_no = shost->host_no; ev->r.c_session_ret.sid = session->sid; ISCSI_DBG_TRANS_SESSION(session, "Completed creating transport session\n"); return 0; } static int iscsi_if_create_conn(struct iscsi_transport *transport, struct iscsi_uevent *ev) { struct iscsi_cls_conn *conn; struct iscsi_cls_session *session; session = iscsi_session_lookup(ev->u.c_conn.sid); if (!session) { printk(KERN_ERR "iscsi: invalid session %d.\n", ev->u.c_conn.sid); return -EINVAL; } conn = transport->create_conn(session, ev->u.c_conn.cid); if (!conn) { iscsi_cls_session_printk(KERN_ERR, session, "couldn't create a new connection."); return -ENOMEM; } ev->r.c_conn_ret.sid = session->sid; ev->r.c_conn_ret.cid = conn->cid; ISCSI_DBG_TRANS_CONN(conn, "Completed creating transport conn\n"); return 0; } static int iscsi_if_destroy_conn(struct iscsi_transport *transport, struct iscsi_uevent *ev) { struct iscsi_cls_conn *conn; conn = iscsi_conn_lookup(ev->u.d_conn.sid, ev->u.d_conn.cid); if (!conn) return -EINVAL; ISCSI_DBG_TRANS_CONN(conn, "Destroying transport conn\n"); if (transport->destroy_conn) transport->destroy_conn(conn); return 0; } static int iscsi_set_param(struct iscsi_transport *transport, struct iscsi_uevent *ev) { char *data = (char*)ev + sizeof(*ev); struct iscsi_cls_conn *conn; struct iscsi_cls_session *session; int err = 0, value = 0; session = iscsi_session_lookup(ev->u.set_param.sid); conn = iscsi_conn_lookup(ev->u.set_param.sid, ev->u.set_param.cid); if (!conn || !session) return -EINVAL; switch (ev->u.set_param.param) { case ISCSI_PARAM_SESS_RECOVERY_TMO: sscanf(data, "%d", &value); session->recovery_tmo = value; break; default: err = transport->set_param(conn, ev->u.set_param.param, data, ev->u.set_param.len); } return err; } static int iscsi_if_ep_connect(struct iscsi_transport *transport, struct iscsi_uevent *ev, int msg_type) { struct iscsi_endpoint *ep; struct sockaddr *dst_addr; struct Scsi_Host *shost = NULL; int non_blocking, err = 0; if (!transport->ep_connect) return -EINVAL; if (msg_type == ISCSI_UEVENT_TRANSPORT_EP_CONNECT_THROUGH_HOST) { shost = scsi_host_lookup(ev->u.ep_connect_through_host.host_no); if (!shost) { printk(KERN_ERR "ep connect failed. Could not find " "host no %u\n", ev->u.ep_connect_through_host.host_no); return -ENODEV; } non_blocking = ev->u.ep_connect_through_host.non_blocking; } else non_blocking = ev->u.ep_connect.non_blocking; dst_addr = (struct sockaddr *)((char*)ev + sizeof(*ev)); ep = transport->ep_connect(shost, dst_addr, non_blocking); if (IS_ERR(ep)) { err = PTR_ERR(ep); goto release_host; } ev->r.ep_connect_ret.handle = ep->id; release_host: if (shost) scsi_host_put(shost); return err; } static int iscsi_if_transport_ep(struct iscsi_transport *transport, struct iscsi_uevent *ev, int msg_type) { struct iscsi_endpoint *ep; int rc = 0; switch (msg_type) { case ISCSI_UEVENT_TRANSPORT_EP_CONNECT_THROUGH_HOST: case ISCSI_UEVENT_TRANSPORT_EP_CONNECT: rc = iscsi_if_ep_connect(transport, ev, msg_type); break; case ISCSI_UEVENT_TRANSPORT_EP_POLL: if (!transport->ep_poll) return -EINVAL; ep = iscsi_lookup_endpoint(ev->u.ep_poll.ep_handle); if (!ep) return -EINVAL; ev->r.retcode = transport->ep_poll(ep, ev->u.ep_poll.timeout_ms); break; case ISCSI_UEVENT_TRANSPORT_EP_DISCONNECT: if (!transport->ep_disconnect) return -EINVAL; ep = iscsi_lookup_endpoint(ev->u.ep_disconnect.ep_handle); if (!ep) return -EINVAL; transport->ep_disconnect(ep); break; } return rc; } static int iscsi_tgt_dscvr(struct iscsi_transport *transport, struct iscsi_uevent *ev) { struct Scsi_Host *shost; struct sockaddr *dst_addr; int err; if (!transport->tgt_dscvr) return -EINVAL; shost = scsi_host_lookup(ev->u.tgt_dscvr.host_no); if (!shost) { printk(KERN_ERR "target discovery could not find host no %u\n", ev->u.tgt_dscvr.host_no); return -ENODEV; } dst_addr = (struct sockaddr *)((char*)ev + sizeof(*ev)); err = transport->tgt_dscvr(shost, ev->u.tgt_dscvr.type, ev->u.tgt_dscvr.enable, dst_addr); scsi_host_put(shost); return err; } static int iscsi_set_host_param(struct iscsi_transport *transport, struct iscsi_uevent *ev) { char *data = (char*)ev + sizeof(*ev); struct Scsi_Host *shost; int err; if (!transport->set_host_param) return -ENOSYS; shost = scsi_host_lookup(ev->u.set_host_param.host_no); if (!shost) { printk(KERN_ERR "set_host_param could not find host no %u\n", ev->u.set_host_param.host_no); return -ENODEV; } err = transport->set_host_param(shost, ev->u.set_host_param.param, data, ev->u.set_host_param.len); scsi_host_put(shost); return err; } static int iscsi_set_path(struct iscsi_transport *transport, struct iscsi_uevent *ev) { struct Scsi_Host *shost; struct iscsi_path *params; int err; if (!transport->set_path) return -ENOSYS; shost = scsi_host_lookup(ev->u.set_path.host_no); if (!shost) { printk(KERN_ERR "set path could not find host no %u\n", ev->u.set_path.host_no); return -ENODEV; } params = (struct iscsi_path *)((char *)ev + sizeof(*ev)); err = transport->set_path(shost, params); scsi_host_put(shost); return err; } static int iscsi_if_recv_msg(struct sk_buff *skb, struct nlmsghdr *nlh, uint32_t *group) { int err = 0; struct iscsi_uevent *ev = NLMSG_DATA(nlh); struct iscsi_transport *transport = NULL; struct iscsi_internal *priv; struct iscsi_cls_session *session; struct iscsi_cls_conn *conn; struct iscsi_endpoint *ep = NULL; if (nlh->nlmsg_type == ISCSI_UEVENT_PATH_UPDATE) *group = ISCSI_NL_GRP_UIP; else *group = ISCSI_NL_GRP_ISCSID; priv = iscsi_if_transport_lookup(iscsi_ptr(ev->transport_handle)); if (!priv) return -EINVAL; transport = priv->iscsi_transport; if (!try_module_get(transport->owner)) return -EINVAL; switch (nlh->nlmsg_type) { case ISCSI_UEVENT_CREATE_SESSION: err = iscsi_if_create_session(priv, ep, ev, ev->u.c_session.initial_cmdsn, ev->u.c_session.cmds_max, ev->u.c_session.queue_depth); break; case ISCSI_UEVENT_CREATE_BOUND_SESSION: ep = iscsi_lookup_endpoint(ev->u.c_bound_session.ep_handle); if (!ep) { err = -EINVAL; break; } err = iscsi_if_create_session(priv, ep, ev, ev->u.c_bound_session.initial_cmdsn, ev->u.c_bound_session.cmds_max, ev->u.c_bound_session.queue_depth); break; case ISCSI_UEVENT_DESTROY_SESSION: session = iscsi_session_lookup(ev->u.d_session.sid); if (session) transport->destroy_session(session); else err = -EINVAL; break; case ISCSI_UEVENT_UNBIND_SESSION: session = iscsi_session_lookup(ev->u.d_session.sid); if (session) scsi_queue_work(iscsi_session_to_shost(session), &session->unbind_work); else err = -EINVAL; break; case ISCSI_UEVENT_CREATE_CONN: err = iscsi_if_create_conn(transport, ev); break; case ISCSI_UEVENT_DESTROY_CONN: err = iscsi_if_destroy_conn(transport, ev); break; case ISCSI_UEVENT_BIND_CONN: session = iscsi_session_lookup(ev->u.b_conn.sid); conn = iscsi_conn_lookup(ev->u.b_conn.sid, ev->u.b_conn.cid); if (session && conn) ev->r.retcode = transport->bind_conn(session, conn, ev->u.b_conn.transport_eph, ev->u.b_conn.is_leading); else err = -EINVAL; break; case ISCSI_UEVENT_SET_PARAM: err = iscsi_set_param(transport, ev); break; case ISCSI_UEVENT_START_CONN: conn = iscsi_conn_lookup(ev->u.start_conn.sid, ev->u.start_conn.cid); if (conn) ev->r.retcode = transport->start_conn(conn); else err = -EINVAL; break; case ISCSI_UEVENT_STOP_CONN: conn = iscsi_conn_lookup(ev->u.stop_conn.sid, ev->u.stop_conn.cid); if (conn) transport->stop_conn(conn, ev->u.stop_conn.flag); else err = -EINVAL; break; case ISCSI_UEVENT_SEND_PDU: conn = iscsi_conn_lookup(ev->u.send_pdu.sid, ev->u.send_pdu.cid); if (conn) ev->r.retcode = transport->send_pdu(conn, (struct iscsi_hdr*)((char*)ev + sizeof(*ev)), (char*)ev + sizeof(*ev) + ev->u.send_pdu.hdr_size, ev->u.send_pdu.data_size); else err = -EINVAL; break; case ISCSI_UEVENT_GET_STATS: err = iscsi_if_get_stats(transport, nlh); break; case ISCSI_UEVENT_TRANSPORT_EP_CONNECT: case ISCSI_UEVENT_TRANSPORT_EP_POLL: case ISCSI_UEVENT_TRANSPORT_EP_DISCONNECT: case ISCSI_UEVENT_TRANSPORT_EP_CONNECT_THROUGH_HOST: err = iscsi_if_transport_ep(transport, ev, nlh->nlmsg_type); break; case ISCSI_UEVENT_TGT_DSCVR: err = iscsi_tgt_dscvr(transport, ev); break; case ISCSI_UEVENT_SET_HOST_PARAM: err = iscsi_set_host_param(transport, ev); break; case ISCSI_UEVENT_PATH_UPDATE: err = iscsi_set_path(transport, ev); break; default: err = -ENOSYS; break; } module_put(transport->owner); return err; } /* * Get message from skb. Each message is processed by iscsi_if_recv_msg. * Malformed skbs with wrong lengths or invalid creds are not processed. */ static void iscsi_if_rx(struct sk_buff *skb) { mutex_lock(&rx_queue_mutex); while (skb->len >= NLMSG_SPACE(0)) { int err; uint32_t rlen; struct nlmsghdr *nlh; struct iscsi_uevent *ev; uint32_t group; nlh = nlmsg_hdr(skb); if (nlh->nlmsg_len < sizeof(*nlh) || skb->len < nlh->nlmsg_len) { break; } ev = NLMSG_DATA(nlh); rlen = NLMSG_ALIGN(nlh->nlmsg_len); if (rlen > skb->len) rlen = skb->len; err = iscsi_if_recv_msg(skb, nlh, &group); if (err) { ev->type = ISCSI_KEVENT_IF_ERROR; ev->iferror = err; } do { /* * special case for GET_STATS: * on success - sending reply and stats from * inside of if_recv_msg(), * on error - fall through. */ if (ev->type == ISCSI_UEVENT_GET_STATS && !err) break; err = iscsi_if_send_reply(group, nlh->nlmsg_seq, nlh->nlmsg_type, 0, 0, ev, sizeof(*ev)); } while (err < 0 && err != -ECONNREFUSED); skb_pull(skb, rlen); } mutex_unlock(&rx_queue_mutex); } #define ISCSI_CLASS_ATTR(_prefix,_name,_mode,_show,_store) \ struct device_attribute dev_attr_##_prefix##_##_name = \ __ATTR(_name,_mode,_show,_store) /* * iSCSI connection attrs */ #define iscsi_conn_attr_show(param) \ static ssize_t \ show_conn_param_##param(struct device *dev, \ struct device_attribute *attr, char *buf) \ { \ struct iscsi_cls_conn *conn = iscsi_dev_to_conn(dev->parent); \ struct iscsi_transport *t = conn->transport; \ return t->get_conn_param(conn, param, buf); \ } #define iscsi_conn_attr(field, param) \ iscsi_conn_attr_show(param) \ static ISCSI_CLASS_ATTR(conn, field, S_IRUGO, show_conn_param_##param, \ NULL); iscsi_conn_attr(max_recv_dlength, ISCSI_PARAM_MAX_RECV_DLENGTH); iscsi_conn_attr(max_xmit_dlength, ISCSI_PARAM_MAX_XMIT_DLENGTH); iscsi_conn_attr(header_digest, ISCSI_PARAM_HDRDGST_EN); iscsi_conn_attr(data_digest, ISCSI_PARAM_DATADGST_EN); iscsi_conn_attr(ifmarker, ISCSI_PARAM_IFMARKER_EN); iscsi_conn_attr(ofmarker, ISCSI_PARAM_OFMARKER_EN); iscsi_conn_attr(persistent_port, ISCSI_PARAM_PERSISTENT_PORT); iscsi_conn_attr(port, ISCSI_PARAM_CONN_PORT); iscsi_conn_attr(exp_statsn, ISCSI_PARAM_EXP_STATSN); iscsi_conn_attr(persistent_address, ISCSI_PARAM_PERSISTENT_ADDRESS); iscsi_conn_attr(address, ISCSI_PARAM_CONN_ADDRESS); iscsi_conn_attr(ping_tmo, ISCSI_PARAM_PING_TMO); iscsi_conn_attr(recv_tmo, ISCSI_PARAM_RECV_TMO); /* * iSCSI session attrs */ #define iscsi_session_attr_show(param, perm) \ static ssize_t \ show_session_param_##param(struct device *dev, \ struct device_attribute *attr, char *buf) \ { \ struct iscsi_cls_session *session = \ iscsi_dev_to_session(dev->parent); \ struct iscsi_transport *t = session->transport; \ \ if (perm && !capable(CAP_SYS_ADMIN)) \ return -EACCES; \ return t->get_session_param(session, param, buf); \ } #define iscsi_session_attr(field, param, perm) \ iscsi_session_attr_show(param, perm) \ static ISCSI_CLASS_ATTR(sess, field, S_IRUGO, show_session_param_##param, \ NULL); iscsi_session_attr(targetname, ISCSI_PARAM_TARGET_NAME, 0); iscsi_session_attr(initial_r2t, ISCSI_PARAM_INITIAL_R2T_EN, 0); iscsi_session_attr(max_outstanding_r2t, ISCSI_PARAM_MAX_R2T, 0); iscsi_session_attr(immediate_data, ISCSI_PARAM_IMM_DATA_EN, 0); iscsi_session_attr(first_burst_len, ISCSI_PARAM_FIRST_BURST, 0); iscsi_session_attr(max_burst_len, ISCSI_PARAM_MAX_BURST, 0); iscsi_session_attr(data_pdu_in_order, ISCSI_PARAM_PDU_INORDER_EN, 0); iscsi_session_attr(data_seq_in_order, ISCSI_PARAM_DATASEQ_INORDER_EN, 0); iscsi_session_attr(erl, ISCSI_PARAM_ERL, 0); iscsi_session_attr(tpgt, ISCSI_PARAM_TPGT, 0); iscsi_session_attr(username, ISCSI_PARAM_USERNAME, 1); iscsi_session_attr(username_in, ISCSI_PARAM_USERNAME_IN, 1); iscsi_session_attr(password, ISCSI_PARAM_PASSWORD, 1); iscsi_session_attr(password_in, ISCSI_PARAM_PASSWORD_IN, 1); iscsi_session_attr(fast_abort, ISCSI_PARAM_FAST_ABORT, 0); iscsi_session_attr(abort_tmo, ISCSI_PARAM_ABORT_TMO, 0); iscsi_session_attr(lu_reset_tmo, ISCSI_PARAM_LU_RESET_TMO, 0); iscsi_session_attr(tgt_reset_tmo, ISCSI_PARAM_TGT_RESET_TMO, 0); iscsi_session_attr(ifacename, ISCSI_PARAM_IFACE_NAME, 0); iscsi_session_attr(initiatorname, ISCSI_PARAM_INITIATOR_NAME, 0) static ssize_t show_priv_session_state(struct device *dev, struct device_attribute *attr, char *buf) { struct iscsi_cls_session *session = iscsi_dev_to_session(dev->parent); return sprintf(buf, "%s\n", iscsi_session_state_name(session->state)); } static ISCSI_CLASS_ATTR(priv_sess, state, S_IRUGO, show_priv_session_state, NULL); #define iscsi_priv_session_attr_show(field, format) \ static ssize_t \ show_priv_session_##field(struct device *dev, \ struct device_attribute *attr, char *buf) \ { \ struct iscsi_cls_session *session = \ iscsi_dev_to_session(dev->parent); \ return sprintf(buf, format"\n", session->field); \ } #define iscsi_priv_session_attr(field, format) \ iscsi_priv_session_attr_show(field, format) \ static ISCSI_CLASS_ATTR(priv_sess, field, S_IRUGO, show_priv_session_##field, \ NULL) iscsi_priv_session_attr(recovery_tmo, "%d"); /* * iSCSI host attrs */ #define iscsi_host_attr_show(param) \ static ssize_t \ show_host_param_##param(struct device *dev, \ struct device_attribute *attr, char *buf) \ { \ struct Scsi_Host *shost = transport_class_to_shost(dev); \ struct iscsi_internal *priv = to_iscsi_internal(shost->transportt); \ return priv->iscsi_transport->get_host_param(shost, param, buf); \ } #define iscsi_host_attr(field, param) \ iscsi_host_attr_show(param) \ static ISCSI_CLASS_ATTR(host, field, S_IRUGO, show_host_param_##param, \ NULL); iscsi_host_attr(netdev, ISCSI_HOST_PARAM_NETDEV_NAME); iscsi_host_attr(hwaddress, ISCSI_HOST_PARAM_HWADDRESS); iscsi_host_attr(ipaddress, ISCSI_HOST_PARAM_IPADDRESS); iscsi_host_attr(initiatorname, ISCSI_HOST_PARAM_INITIATOR_NAME); #define SETUP_PRIV_SESSION_RD_ATTR(field) \ do { \ priv->session_attrs[count] = &dev_attr_priv_sess_##field; \ count++; \ } while (0) #define SETUP_SESSION_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ priv->session_attrs[count] = &dev_attr_sess_##field; \ count++; \ } \ } while (0) #define SETUP_CONN_RD_ATTR(field, param_flag) \ do { \ if (tt->param_mask & param_flag) { \ priv->conn_attrs[count] = &dev_attr_conn_##field; \ count++; \ } \ } while (0) #define SETUP_HOST_RD_ATTR(field, param_flag) \ do { \ if (tt->host_param_mask & param_flag) { \ priv->host_attrs[count] = &dev_attr_host_##field; \ count++; \ } \ } while (0) static int iscsi_session_match(struct attribute_container *cont, struct device *dev) { struct iscsi_cls_session *session; struct Scsi_Host *shost; struct iscsi_internal *priv; if (!iscsi_is_session_dev(dev)) return 0; session = iscsi_dev_to_session(dev); shost = iscsi_session_to_shost(session); if (!shost->transportt) return 0; priv = to_iscsi_internal(shost->transportt); if (priv->session_cont.ac.class != &iscsi_session_class.class) return 0; return &priv->session_cont.ac == cont; } static int iscsi_conn_match(struct attribute_container *cont, struct device *dev) { struct iscsi_cls_session *session; struct iscsi_cls_conn *conn; struct Scsi_Host *shost; struct iscsi_internal *priv; if (!iscsi_is_conn_dev(dev)) return 0; conn = iscsi_dev_to_conn(dev); session = iscsi_dev_to_session(conn->dev.parent); shost = iscsi_session_to_shost(session); if (!shost->transportt) return 0; priv = to_iscsi_internal(shost->transportt); if (priv->conn_cont.ac.class != &iscsi_connection_class.class) return 0; return &priv->conn_cont.ac == cont; } static int iscsi_host_match(struct attribute_container *cont, struct device *dev) { struct Scsi_Host *shost; struct iscsi_internal *priv; if (!scsi_is_host_device(dev)) return 0; shost = dev_to_shost(dev); if (!shost->transportt || shost->transportt->host_attrs.ac.class != &iscsi_host_class.class) return 0; priv = to_iscsi_internal(shost->transportt); return &priv->t.host_attrs.ac == cont; } struct scsi_transport_template * iscsi_register_transport(struct iscsi_transport *tt) { struct iscsi_internal *priv; unsigned long flags; int count = 0, err; BUG_ON(!tt); priv = iscsi_if_transport_lookup(tt); if (priv) return NULL; priv = kzalloc(sizeof(*priv), GFP_KERNEL); if (!priv) return NULL; INIT_LIST_HEAD(&priv->list); priv->iscsi_transport = tt; priv->t.user_scan = iscsi_user_scan; priv->t.create_work_queue = 1; priv->dev.class = &iscsi_transport_class; dev_set_name(&priv->dev, "%s", tt->name); err = device_register(&priv->dev); if (err) goto free_priv; err = sysfs_create_group(&priv->dev.kobj, &iscsi_transport_group); if (err) goto unregister_dev; /* host parameters */ priv->t.host_attrs.ac.attrs = &priv->host_attrs[0]; priv->t.host_attrs.ac.class = &iscsi_host_class.class; priv->t.host_attrs.ac.match = iscsi_host_match; priv->t.host_size = sizeof(struct iscsi_cls_host); transport_container_register(&priv->t.host_attrs); SETUP_HOST_RD_ATTR(netdev, ISCSI_HOST_NETDEV_NAME); SETUP_HOST_RD_ATTR(ipaddress, ISCSI_HOST_IPADDRESS); SETUP_HOST_RD_ATTR(hwaddress, ISCSI_HOST_HWADDRESS); SETUP_HOST_RD_ATTR(initiatorname, ISCSI_HOST_INITIATOR_NAME); BUG_ON(count > ISCSI_HOST_ATTRS); priv->host_attrs[count] = NULL; count = 0; /* connection parameters */ priv->conn_cont.ac.attrs = &priv->conn_attrs[0]; priv->conn_cont.ac.class = &iscsi_connection_class.class; priv->conn_cont.ac.match = iscsi_conn_match; transport_container_register(&priv->conn_cont); SETUP_CONN_RD_ATTR(max_recv_dlength, ISCSI_MAX_RECV_DLENGTH); SETUP_CONN_RD_ATTR(max_xmit_dlength, ISCSI_MAX_XMIT_DLENGTH); SETUP_CONN_RD_ATTR(header_digest, ISCSI_HDRDGST_EN); SETUP_CONN_RD_ATTR(data_digest, ISCSI_DATADGST_EN); SETUP_CONN_RD_ATTR(ifmarker, ISCSI_IFMARKER_EN); SETUP_CONN_RD_ATTR(ofmarker, ISCSI_OFMARKER_EN); SETUP_CONN_RD_ATTR(address, ISCSI_CONN_ADDRESS); SETUP_CONN_RD_ATTR(port, ISCSI_CONN_PORT); SETUP_CONN_RD_ATTR(exp_statsn, ISCSI_EXP_STATSN); SETUP_CONN_RD_ATTR(persistent_address, ISCSI_PERSISTENT_ADDRESS); SETUP_CONN_RD_ATTR(persistent_port, ISCSI_PERSISTENT_PORT); SETUP_CONN_RD_ATTR(ping_tmo, ISCSI_PING_TMO); SETUP_CONN_RD_ATTR(recv_tmo, ISCSI_RECV_TMO); BUG_ON(count > ISCSI_CONN_ATTRS); priv->conn_attrs[count] = NULL; count = 0; /* session parameters */ priv->session_cont.ac.attrs = &priv->session_attrs[0]; priv->session_cont.ac.class = &iscsi_session_class.class; priv->session_cont.ac.match = iscsi_session_match; transport_container_register(&priv->session_cont); SETUP_SESSION_RD_ATTR(initial_r2t, ISCSI_INITIAL_R2T_EN); SETUP_SESSION_RD_ATTR(max_outstanding_r2t, ISCSI_MAX_R2T); SETUP_SESSION_RD_ATTR(immediate_data, ISCSI_IMM_DATA_EN); SETUP_SESSION_RD_ATTR(first_burst_len, ISCSI_FIRST_BURST); SETUP_SESSION_RD_ATTR(max_burst_len, ISCSI_MAX_BURST); SETUP_SESSION_RD_ATTR(data_pdu_in_order, ISCSI_PDU_INORDER_EN); SETUP_SESSION_RD_ATTR(data_seq_in_order, ISCSI_DATASEQ_INORDER_EN); SETUP_SESSION_RD_ATTR(erl, ISCSI_ERL); SETUP_SESSION_RD_ATTR(targetname, ISCSI_TARGET_NAME); SETUP_SESSION_RD_ATTR(tpgt, ISCSI_TPGT); SETUP_SESSION_RD_ATTR(password, ISCSI_USERNAME); SETUP_SESSION_RD_ATTR(password_in, ISCSI_USERNAME_IN); SETUP_SESSION_RD_ATTR(username, ISCSI_PASSWORD); SETUP_SESSION_RD_ATTR(username_in, ISCSI_PASSWORD_IN); SETUP_SESSION_RD_ATTR(fast_abort, ISCSI_FAST_ABORT); SETUP_SESSION_RD_ATTR(abort_tmo, ISCSI_ABORT_TMO); SETUP_SESSION_RD_ATTR(lu_reset_tmo,ISCSI_LU_RESET_TMO); SETUP_SESSION_RD_ATTR(tgt_reset_tmo,ISCSI_TGT_RESET_TMO); SETUP_SESSION_RD_ATTR(ifacename, ISCSI_IFACE_NAME); SETUP_SESSION_RD_ATTR(initiatorname, ISCSI_INITIATOR_NAME); SETUP_PRIV_SESSION_RD_ATTR(recovery_tmo); SETUP_PRIV_SESSION_RD_ATTR(state); BUG_ON(count > ISCSI_SESSION_ATTRS); priv->session_attrs[count] = NULL; spin_lock_irqsave(&iscsi_transport_lock, flags); list_add(&priv->list, &iscsi_transports); spin_unlock_irqrestore(&iscsi_transport_lock, flags); printk(KERN_NOTICE "iscsi: registered transport (%s)\n", tt->name); return &priv->t; unregister_dev: device_unregister(&priv->dev); return NULL; free_priv: kfree(priv); return NULL; } EXPORT_SYMBOL_GPL(iscsi_register_transport); int iscsi_unregister_transport(struct iscsi_transport *tt) { struct iscsi_internal *priv; unsigned long flags; BUG_ON(!tt); mutex_lock(&rx_queue_mutex); priv = iscsi_if_transport_lookup(tt); BUG_ON (!priv); spin_lock_irqsave(&iscsi_transport_lock, flags); list_del(&priv->list); spin_unlock_irqrestore(&iscsi_transport_lock, flags); transport_container_unregister(&priv->conn_cont); transport_container_unregister(&priv->session_cont); transport_container_unregister(&priv->t.host_attrs); sysfs_remove_group(&priv->dev.kobj, &iscsi_transport_group); device_unregister(&priv->dev); mutex_unlock(&rx_queue_mutex); return 0; } EXPORT_SYMBOL_GPL(iscsi_unregister_transport); static __init int iscsi_transport_init(void) { int err; printk(KERN_INFO "Loading iSCSI transport class v%s.\n", ISCSI_TRANSPORT_VERSION); atomic_set(&iscsi_session_nr, 0); err = class_register(&iscsi_transport_class); if (err) return err; err = class_register(&iscsi_endpoint_class); if (err) goto unregister_transport_class; err = transport_class_register(&iscsi_host_class); if (err) goto unregister_endpoint_class; err = transport_class_register(&iscsi_connection_class); if (err) goto unregister_host_class; err = transport_class_register(&iscsi_session_class); if (err) goto unregister_conn_class; nls = netlink_kernel_create(&init_net, NETLINK_ISCSI, 1, iscsi_if_rx, NULL, THIS_MODULE); if (!nls) { err = -ENOBUFS; goto unregister_session_class; } iscsi_eh_timer_workq = create_singlethread_workqueue("iscsi_eh"); if (!iscsi_eh_timer_workq) goto release_nls; return 0; release_nls: netlink_kernel_release(nls); unregister_session_class: transport_class_unregister(&iscsi_session_class); unregister_conn_class: transport_class_unregister(&iscsi_connection_class); unregister_host_class: transport_class_unregister(&iscsi_host_class); unregister_endpoint_class: class_unregister(&iscsi_endpoint_class); unregister_transport_class: class_unregister(&iscsi_transport_class); return err; } static void __exit iscsi_transport_exit(void) { destroy_workqueue(iscsi_eh_timer_workq); netlink_kernel_release(nls); transport_class_unregister(&iscsi_connection_class); transport_class_unregister(&iscsi_session_class); transport_class_unregister(&iscsi_host_class); class_unregister(&iscsi_endpoint_class); class_unregister(&iscsi_transport_class); } module_init(iscsi_transport_init); module_exit(iscsi_transport_exit); MODULE_AUTHOR("Mike Christie , " "Dmitry Yusupov , " "Alex Aizman "); MODULE_DESCRIPTION("iSCSI Transport Interface"); MODULE_LICENSE("GPL"); MODULE_VERSION(ISCSI_TRANSPORT_VERSION); open-iscsi-2.0.874/kernel/scsi_transport_iscsi.h000066400000000000000000000230041277325716400216620ustar00rootroot00000000000000/* * iSCSI transport class definitions * * Copyright (C) IBM Corporation, 2004 * Copyright (C) Mike Christie, 2004 - 2006 * Copyright (C) Dmitry Yusupov, 2004 - 2005 * Copyright (C) Alex Aizman, 2004 - 2005 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef SCSI_TRANSPORT_ISCSI_H #define SCSI_TRANSPORT_ISCSI_H #include #include #include #include "iscsi_if.h" struct scsi_transport_template; struct iscsi_transport; struct iscsi_endpoint; struct Scsi_Host; struct iscsi_cls_conn; struct iscsi_conn; struct iscsi_task; struct sockaddr; /** * struct iscsi_transport - iSCSI Transport template * * @name: transport name * @caps: iSCSI Data-Path capabilities * @create_session: create new iSCSI session object * @destroy_session: destroy existing iSCSI session object * @create_conn: create new iSCSI connection * @bind_conn: associate this connection with existing iSCSI session * and specified transport descriptor * @destroy_conn: destroy inactive iSCSI connection * @set_param: set iSCSI parameter. Return 0 on success, -ENODATA * when param is not supported, and a -Exx value on other * error. * @get_param get iSCSI parameter. Must return number of bytes * copied to buffer on success, -ENODATA when param * is not supported, and a -Exx value on other error * @start_conn: set connection to be operational * @stop_conn: suspend/recover/terminate connection * @send_pdu: send iSCSI PDU, Login, Logout, NOP-Out, Reject, Text. * @session_recovery_timedout: notify LLD a block during recovery timed out * @init_task: Initialize an iscsi_task and any internal structs. * When offloading the data path, this is called from * queuecommand with the session lock, or from the * iscsi_conn_send_pdu context with the session lock. * When not offloading the data path, this is called * from the scsi work queue without the session lock. * @xmit_task Requests LLD to transfer cmd task. Returns 0 or the * the number of bytes transferred on success, and -Exyz * value on error. When offloading the data path, this * is called from queuecommand with the session lock, or * from the iscsi_conn_send_pdu context with the session * lock. When not offloading the data path, this is called * from the scsi work queue without the session lock. * @cleanup_task: requests LLD to fail task. Called with session lock * and after the connection has been suspended and * terminated during recovery. If called * from abort task then connection is not suspended * or terminated but sk_callback_lock is held * * Template API provided by iSCSI Transport */ struct iscsi_transport { struct module *owner; char *name; unsigned int caps; /* LLD sets this to indicate what values it can export to sysfs */ uint64_t param_mask; uint64_t host_param_mask; struct iscsi_cls_session *(*create_session) (struct iscsi_endpoint *ep, uint16_t cmds_max, uint16_t qdepth, uint32_t sn); void (*destroy_session) (struct iscsi_cls_session *session); struct iscsi_cls_conn *(*create_conn) (struct iscsi_cls_session *sess, uint32_t cid); int (*bind_conn) (struct iscsi_cls_session *session, struct iscsi_cls_conn *cls_conn, uint64_t transport_eph, int is_leading); int (*start_conn) (struct iscsi_cls_conn *conn); void (*stop_conn) (struct iscsi_cls_conn *conn, int flag); void (*destroy_conn) (struct iscsi_cls_conn *conn); int (*set_param) (struct iscsi_cls_conn *conn, enum iscsi_param param, char *buf, int buflen); int (*get_conn_param) (struct iscsi_cls_conn *conn, enum iscsi_param param, char *buf); int (*get_session_param) (struct iscsi_cls_session *session, enum iscsi_param param, char *buf); int (*get_host_param) (struct Scsi_Host *shost, enum iscsi_host_param param, char *buf); int (*set_host_param) (struct Scsi_Host *shost, enum iscsi_host_param param, char *buf, int buflen); int (*send_pdu) (struct iscsi_cls_conn *conn, struct iscsi_hdr *hdr, char *data, uint32_t data_size); void (*get_stats) (struct iscsi_cls_conn *conn, struct iscsi_stats *stats); int (*init_task) (struct iscsi_task *task); int (*xmit_task) (struct iscsi_task *task); void (*cleanup_task) (struct iscsi_task *task); int (*alloc_pdu) (struct iscsi_task *task, uint8_t opcode); int (*xmit_pdu) (struct iscsi_task *task); int (*init_pdu) (struct iscsi_task *task, unsigned int offset, unsigned int count); void (*parse_pdu_itt) (struct iscsi_conn *conn, itt_t itt, int *index, int *age); void (*session_recovery_timedout) (struct iscsi_cls_session *session); struct iscsi_endpoint *(*ep_connect) (struct Scsi_Host *shost, struct sockaddr *dst_addr, int non_blocking); int (*ep_poll) (struct iscsi_endpoint *ep, int timeout_ms); void (*ep_disconnect) (struct iscsi_endpoint *ep); int (*tgt_dscvr) (struct Scsi_Host *shost, enum iscsi_tgt_dscvr type, uint32_t enable, struct sockaddr *dst_addr); int (*set_path) (struct Scsi_Host *shost, struct iscsi_path *params); }; /* * transport registration upcalls */ extern struct scsi_transport_template *iscsi_register_transport(struct iscsi_transport *tt); extern int iscsi_unregister_transport(struct iscsi_transport *tt); /* * control plane upcalls */ extern void iscsi_conn_error_event(struct iscsi_cls_conn *conn, enum iscsi_err error); extern int iscsi_recv_pdu(struct iscsi_cls_conn *conn, struct iscsi_hdr *hdr, char *data, uint32_t data_size); extern int iscsi_offload_mesg(struct Scsi_Host *shost, struct iscsi_transport *transport, uint32_t type, char *data, uint16_t data_size); struct iscsi_cls_conn { struct list_head conn_list; /* item in connlist */ void *dd_data; /* LLD private data */ struct iscsi_transport *transport; uint32_t cid; /* connection id */ int active; /* must be accessed with the connlock */ struct device dev; /* sysfs transport/container device */ }; #define iscsi_dev_to_conn(_dev) \ container_of(_dev, struct iscsi_cls_conn, dev) #define iscsi_conn_to_session(_conn) \ iscsi_dev_to_session(_conn->dev.parent) /* iscsi class session state */ enum { ISCSI_SESSION_LOGGED_IN, ISCSI_SESSION_FAILED, ISCSI_SESSION_FREE, }; #define ISCSI_MAX_TARGET -1 struct iscsi_cls_session { struct list_head sess_list; /* item in session_list */ struct iscsi_transport *transport; spinlock_t lock; struct work_struct block_work; struct work_struct unblock_work; struct work_struct scan_work; struct work_struct unbind_work; /* recovery fields */ int recovery_tmo; struct delayed_work recovery_work; unsigned int target_id; int state; int sid; /* session id */ void *dd_data; /* LLD private data */ struct device dev; /* sysfs transport/container device */ }; #define iscsi_dev_to_session(_dev) \ container_of(_dev, struct iscsi_cls_session, dev) #define iscsi_session_to_shost(_session) \ dev_to_shost(_session->dev.parent) #define starget_to_session(_stgt) \ iscsi_dev_to_session(_stgt->dev.parent) struct iscsi_cls_host { atomic_t nr_scans; struct mutex mutex; }; extern void iscsi_host_for_each_session(struct Scsi_Host *shost, void (*fn)(struct iscsi_cls_session *)); struct iscsi_endpoint { void *dd_data; /* LLD private data */ struct device dev; uint64_t id; }; /* * session and connection functions that can be used by HW iSCSI LLDs */ #define iscsi_cls_session_printk(prefix, _cls_session, fmt, a...) \ dev_printk(prefix, &(_cls_session)->dev, fmt, ##a) #define iscsi_cls_conn_printk(prefix, _cls_conn, fmt, a...) \ dev_printk(prefix, &(_cls_conn)->dev, fmt, ##a) extern int iscsi_session_chkready(struct iscsi_cls_session *session); extern struct iscsi_cls_session *iscsi_alloc_session(struct Scsi_Host *shost, struct iscsi_transport *transport, int dd_size); extern int iscsi_add_session(struct iscsi_cls_session *session, unsigned int target_id); extern int iscsi_session_event(struct iscsi_cls_session *session, enum iscsi_uevent_e event); extern struct iscsi_cls_session *iscsi_create_session(struct Scsi_Host *shost, struct iscsi_transport *t, int dd_size, unsigned int target_id); extern void iscsi_remove_session(struct iscsi_cls_session *session); extern void iscsi_free_session(struct iscsi_cls_session *session); extern int iscsi_destroy_session(struct iscsi_cls_session *session); extern struct iscsi_cls_conn *iscsi_create_conn(struct iscsi_cls_session *sess, int dd_size, uint32_t cid); extern int iscsi_destroy_conn(struct iscsi_cls_conn *conn); extern void iscsi_unblock_session(struct iscsi_cls_session *session); extern void iscsi_block_session(struct iscsi_cls_session *session); extern int iscsi_scan_finished(struct Scsi_Host *shost, unsigned long time); extern struct iscsi_endpoint *iscsi_create_endpoint(int dd_size); extern void iscsi_destroy_endpoint(struct iscsi_endpoint *ep); extern struct iscsi_endpoint *iscsi_lookup_endpoint(u64 handle); #endif open-iscsi-2.0.874/sysfs-documentation000066400000000000000000000311111277325716400177210ustar00rootroot00000000000000Description of iface attributes and their valid values ====================================================== == IPv4 attributes == ipaddress --------- IP address in format XXX.XXX.XXX.XXX gateway ------- IP address of the network router or gateway device in format XXX.XXX.XXX.XXX subnet ------ Broadcast address in format XXX.XXX.XXX.XXX bootproto --------- The protocol type used to initialize interface Valid values: "dhcp" or "static" dhcp_dns_address_en ------------------- Request DNS Server IP Addresses and Domain Name If bootproto is set to dhcp and dhcp_dns_address_en is enable, requests DNS addresses (option 6) and domain name (option 15) in its DHCP parameter request list. Valid values: "enable" or "disable" dhcp_slp_da_info_en ------------------- Request SLP DA Information and SLP Scope If bootproto is set to dhcp and dhcp_slp_da_info_en is enable, requests SLP DA information (option 78) and SLP scope (option 79) in its DHCP parameter request list. Valid values: "enable" or "disable" tos_en ------ Enable IPv4 type of service (ToS) When tos_en is set to enable, use value set in tos when transmitting IPv4 TCP packets on iSCSI connections. Valid values: "enable" or "disable" tos --- IPv4 Type of service (ToS) When tos_en is set to enable, use value set in tos when transmitting IPv4 TCP packets on iSCSI connections. Valid range: 8-bit value. [0-255] grat_arp_en ----------- Enable Gratuitous ARP Requests Valid values: "enable" or "disable" dhcp_alt_client_id_en --------------------- DHCP Use Alternate Client ID When dhcp_alt_client_id_en is set to enable, use the Client ID configured in dhcp_alt_client_id as its Client ID (DHCP option 61) in outgoing DHCP messages. Valid values: "enable" or "disable" dhcp_alt_client_id ------------------ DHCP Alternate Client ID When dhcp_alt_client_id_en is set to enable, use value set in dhcp_alt_client_id for Client ID in DHCP messages. Valid values: 11-byte Client ID dhcp_req_vendor_id_en --------------------- DHCP Require Vendor ID When dhcp_req_vendor_id_en is set to enable, use value set in dhcp_vendor_id as its vendor ID (DHCP option 60) in outgoing DHCP messages. Valid values: "enable" or "disable" dhcp_use_vendor_id_en --------------------- DHCP Use Vendor ID When dhcp_use_vendor_id_en is set to enable, use value set in dhcp_vendor_id as its vendor ID (DHCP option 60) in outgoing DHCP messages. Valid values: "enable" or "disable" dhcp_vendor_id -------------- DHCP Vendor ID When dhcp_req_vendor_id_en or dhcp_use_vendor_id_en is set to enable, use value set in dhcp_vendor_id for Vendor ID in DHCP messages. Valid values: 11-byte Client ID dhcp_learn_iqn_en ----------------- DHCP Learn IQN When dhcp_learn_iqn_en is set to enable, iSCSI initiator attempts to use DHCP to learn its (IQN) iSCSI name. Valid values: "enable" or "disable" fragment_disable ---------------- Fragmentation Disable. When fragment_disable is set to disable, iSCSI initiator cannot fragment IP datagrams. Valid values: "enable" or "disable" incoming_forwarding_en ---------------------- When incoming_forwarding_en is set to enable, iSCSI initiator forwards all incoming network traffic to the network driver, except for iSCSI TCP packets destined to the iSCSI initiator. Valid values: "enable" or "disable" ttl --- IPv4 Time to Live (TTL) This attribute contain TTL value sent in IPv4 TCP packets transmitted on iSCSI connections. Valid range: 8-bit value. [0-255] == IPv6 attributes == ipaddress --------- IP address in IPv6 format. link_local_addr --------------- Link local address in IPv6 format. router_addr ----------- Router address in IPv6 format. ipaddr_autocfg -------------- Autoconfigure IPv6 Address. Valid values: nd, dhcpv6 or disable qla4xxx don't support dhcpv6. link_local_autocfg ------------------ Autoconfigure IPv6 Link Local Address. IPv6 neighbor discovery protocol to discover Link Local Address. Valid values: auto or disable router_autocfg -------------- Autoconfigure IPv6 Router address. IPv6 neighbor discovery protocol to discover a default router address. Valid values: auto or disable link_local_state ---------------- This Read-only attribute show Link Local IP address state in sysfs. Valid values: Unconfigured, Acquiring, Tentative, Valid, Disabling, Invalid, Deprecated. router_state ------------ This Read-only attribute shows router state. Valid values: Unknown, Advertised, Manual, Stale. grat_neighbor_adv_en -------------------- Enable Gratuitous Neighbor Advertisement Valid values: "enable" or "disable" mld_en ------ Enable IPv6 Multicast Listener Discovery Valid values: "enable" or "disable" flow_label ---------- This attribute specifies the default value of the Flow Label field in the IPv6 header of TCP packets transmitted on iSCSI connections Valid range: 20-bit value. [0-1048575] Value zero indicates that the traffic is not assigned to a labelled flow. traffic_class ------------- This attribute specifies the IPv6 traffic class value to be used in IPv6 TCP packets transmitted from the firmware on iSCSI connections. Valid range: 8-bit value. [0-255] hop_limit --------- This attribute specifies the IPv6 hop limit value to be used in IPv6 TCP packets transmitted from the firmware on iSCSI connections Valid range: 8-bit value. [0-255] nd_reachable_tmo ---------------- This attribute specifies the time (in milliseconds) that a node assumes that the neighbor is reachable after confirmation. Valid range: 4-byte value. [0-4294967295] nd_rexmit_time -------------- This attribute specifies the time (in milliseconds) between retransmitted neighbor solicitation messages. Valid range: 4-byte value. [0-4294967295] nd_stale_tmo ------------ This attribute specifies the time (in milliseconds) after which a stale neighbor or destination cache entry is discarded. Valid range: 4-byte value. [0-4294967295] dup_addr_detect_cnt ------------------- This attribute specifies the IPv6 duplicate address detection count Valid range: 8-bit value. [0-255] 0 - Disable 1 - TryOnce 2 - TryTwice, and so on router_adv_link_mtu ------------------- IPv6 Router Advertised Link MTU Size. Valid range: 1280 bytes to 1500 bytes == Common == enabled ------- This attribute is used to enable or disable IPv4 or IPv6 protocol. Valid values: "enable" or "disable" vlan_id ------- This attribute specifies 12-bit VLAN identifier (VID) Valid range: 12-bit value. [1-4094] vlan_priority ------------- This attribute specifies Priority to outbound packets containing the specified VLAN-ID (VID) Valid range: 3-bit value. [0-7] vlan_enabled ------------ VLAN Tagging Enable. When this attribute is set to enable, use value set in vlan_id and vlan_priority to transmit IP packets, and discards IP packets that were received without a matching VLAN ID Valid values: "enable" or "disable" mtu --- Ethernet MTU Size. This field specifies the maximum payload length in byte of an Ethernet frame supported by iSCSI initiator. Valid values: 576 bytes to 9000 bytes port ---- This attribute shows the initiator iSCSI port number. ipaddress_state --------------- This Read-only attribute show IP address state. Valid values: Unconfigured, Acquiring, Tentative, Valid, Disabling, Invalid, Deprecated. delayed_ack_en -------------- When this attribute is set to enable, TCP delayed ACK is enabled. Valid values: "enable" or "disable" tcp_nagle_disable ----------------- When this attribute is set to disable, TCP Nagle algorithm is disabled. Valid values: "enable" or "disable" tcp_wsf_disable --------------- When this attribute is set to disable, TCP window scale is disabled. Valid values: "enable" or "disable" tcp_wsf ------- This attribute specifies the TCP window scale factor to be negotiated on TCP connections. Valid range: 8-bit value. [0-255] tcp_timer_scale --------------- The TCP Timer Scale is scale factor that adjusts the time interval between timer ticks on a TCP connection. The scale factor allows for faster time-outs for connections running on a very small network, versus connections running on a very large network. Valid range: 3-bit value. [0-7] tcp_timestamp_en ---------------- When this attribute is set to enable, iSCSI initiator negotiates to use time stamps in TCP headers Valid values: "enable" or "disable" cache_id -------- This Read-only attribute is used to find the valid cache entries for the interface. For IPv4, ARP cache entry For IPv6, Neighbor cache entry redirect_en ----------- For IPv4: When this attribute is set to enable, an ARP redirect can modify the address resolution protocol (ARP) table and any active connections. For IPv6: When this attribute is set to enable and neighbor advertisements are received, the connection table is examined and updated if any active connections match the IP address on the neighbor advertisement. This action is required for failover and redirect. Valid values: "enable" or "disable" def_taskmgmt_tmo ---------------- This attribute specifies timeout interval in seconds that iSCSI uses for timing out task-management commands. Valid range: 16-bit value [0-65535]. header_digest ------------- When this attribute is set to enable iSCSI initiator negotiates for HeaderDigest=CRC32 and when set to disable negotiates HeaderDigest=none. Valid values: "enable" or "disable" data_digest ----------- When this attribute is set to enable iSCSI initiator negotiates for DataDigest=CRC32 and when set to disable negotiates DataDigest=none. Valid values: "enable" or "disable" immediate_data -------------- When this attribute is set to enable iSCSI initiator negotiates for ImmediateData=yes and When set to disable negotiates ImmediateData=none Valid values: "enable" or "disable" initial_r2t ----------- When this attribute is set to enable iSCSI initiator negotiates for InitialR2T=yes. When set to disable negotiates InitialR2T=no. Valid values: "enable" or "disable" data_seq_in_order ----------------- When this attribute is set to enable iSCSI initiator set data sequences in order Valid values: "enable" or "disable" qla4xxx does not support out-of-order data sequences data_pdu_in_order ----------------- When this attribute is set to enable iSCSI initiator set Data PDU in order Valid values: "enable" or "disable" qla4xxx does not support out-of-order Data PDUs. erl --- Error Recovery Level This attribute specifies error recovery level (ERL) supported by the connection. Valid values: 2-bit value [0-2] max_recv_dlength ---------------- iSCSI Maximum Receive Data Segment Length. This attribute specifies Maximum data segment length in bytes, that receive in an iSCSI PDU. first_burst_len --------------- iSCSI First Burst Length This attribute Specifies the maximum amount of unsolicited data an iSCSI initiator can send to the target during the execution of a single SCSI command, in bytes. max_outstanding_r2t ------------------- iSCSI Maximum Outstanding R2T This attribute Specifies how many R2T PDUs per command can be outstanding during an iSCSI session. max_burst_len ------------- This attribute Specifies the maximum length for unsolicited or immediate data iSCSI session can send or receive. chap_auth --------- When this attribute is set to enable iSCSI session performs authentication during the security state of login phase. Valid values: "enable" or "disable" bidi_chap --------- When this attribute is set to enable iSCSI session generates a CHAP challenge to any target that has issued a CHAP challenge to the iSCSI session. iSCSI session issues the challenge to the target after responding to the targets challenge. This attribute is ignored if chap_auth is set to disable. Valid values: "enable" or "disable" discovery_auth_optional ----------------------- When this attribute is set to enable and the chap_auth is set to enable, iSCSI session does not require authentication on discovery sessions unless requested by the peer. When this attribute is set to disable iSCSI session requires CHAP authentication for a discovery session. Valid values: "enable" or "disable" discovery_logout ---------------- When this attribute is set to enable, iSCSI initiator initiates an iSCSI logout on a discovery session when discovery is complete (before closing the connection). When this attribute is set to disable, iSCSI initiator closes the connection when discovery is complete. Valid values: "enable" or "disable" strict_login_comp_en -------------------- When this attribute is set to enable, iSCSI initiator enforces the iSCSI login negotiation rules. When this attribute is set to disable, iSCSI initiator does not enforce iSCSI login negotiation. Valid values: "enable" or "disable" initiator_name -------------- This Read-only attribute contains the iSCSI Name string used by the firmware. open-iscsi-2.0.874/test/000077500000000000000000000000001277325716400147425ustar00rootroot00000000000000open-iscsi-2.0.874/test/README000066400000000000000000000006671277325716400156330ustar00rootroot00000000000000This directory contains regression suite. I would appreciate if developer will run it at least once after modifications done before commit or mailing list submit. ./regression.sh script expects next binaries and data files exists in current directory: - regression.dat - iscsiadm - bonnie++ (source: http://www.open-iscsi.org/bits/bonnie++.tar.gz) - disktest (source: http://www.open-iscsi.org/bits/disktest.tar.gz) Thanks! Dmitry open-iscsi-2.0.874/test/regression.dat000066400000000000000000000067651277325716400176320ustar00rootroot00000000000000#imdata inir2t hdrdgst datdgst frstbst mxbrst mxrecv mxr2t # 0 - 16 No Yes None None 4096 4096 4096 1 No Yes None None 8192 4096 4096 1 No Yes None None 16384 4096 4096 1 No Yes None None 32768 4096 4096 1 No Yes None None 65536 4096 4096 1 No Yes None None 131972 4096 4096 1 No Yes None None 4096 8192 4096 1 No Yes None None 4096 16384 4096 1 No Yes None None 4096 32768 4096 1 No Yes None None 4096 65536 4096 1 No Yes None None 4096 131072 4096 1 No Yes None None 4096 4096 8192 1 No Yes None None 4096 4096 16384 1 No Yes None None 4096 4096 32768 1 No Yes None None 4096 4096 65536 1 No Yes None None 4096 4096 131072 1 # 15 - 31 No No None None 4096 4096 4096 1 No No None None 8192 4096 4096 1 No No None None 16384 4096 4096 1 No No None None 32768 4096 4096 1 No No None None 65536 4096 4096 1 No No None None 131972 4096 4096 1 No No None None 4096 8192 4096 1 No No None None 4096 16384 4096 1 No No None None 4096 32768 4096 1 No No None None 4096 65536 4096 1 No No None None 4096 131072 4096 1 No No None None 4096 4096 8192 1 No No None None 4096 4096 16384 1 No No None None 4096 4096 32768 1 No No None None 4096 4096 65536 1 No No None None 4096 4096 131072 1 # 32 - 47 Yes No None None 4096 4096 4096 1 Yes No None None 8192 4096 4096 1 Yes No None None 16384 4096 4096 1 Yes No None None 32768 4096 4096 1 Yes No None None 65536 4096 4096 1 Yes No None None 131972 4096 4096 1 Yes No None None 4096 8192 4096 1 Yes No None None 4096 16384 4096 1 Yes No None None 4096 32768 4096 1 Yes No None None 4096 65536 4096 1 Yes No None None 4096 131072 4096 1 Yes No None None 4096 4096 8192 1 Yes No None None 4096 4096 16384 1 Yes No None None 4096 4096 32768 1 Yes No None None 4096 4096 65536 1 Yes No None None 4096 4096 131072 1 # 48 - 63 Yes Yes None None 4096 4096 4096 1 Yes Yes None None 8192 4096 4096 1 Yes Yes None None 16384 4096 4096 1 Yes Yes None None 32768 4096 4096 1 Yes Yes None None 65536 4096 4096 1 Yes Yes None None 131972 4096 4096 1 Yes Yes None None 4096 8192 4096 1 Yes Yes None None 4096 16384 4096 1 Yes Yes None None 4096 32768 4096 1 Yes Yes None None 4096 65536 4096 1 Yes Yes None None 4096 131072 4096 1 Yes Yes None None 4096 4096 8192 1 Yes Yes None None 4096 4096 16384 1 Yes Yes None None 4096 4096 32768 1 Yes Yes None None 4096 4096 65536 1 Yes Yes None None 4096 4096 131072 1 # 64 - 79 No Yes CRC32C None 4096 4096 4096 1 No Yes CRC32C None 8192 4096 4096 1 No Yes CRC32C None 16384 4096 4096 1 No Yes CRC32C None 32768 4096 4096 1 No Yes CRC32C None 65536 4096 4096 1 No Yes CRC32C None 131972 4096 4096 1 No Yes CRC32C None 4096 8192 4096 1 No Yes CRC32C None 4096 16384 4096 1 No Yes CRC32C None 4096 32768 4096 1 No Yes CRC32C None 4096 65536 4096 1 No Yes CRC32C None 4096 131072 4096 1 No Yes CRC32C None 4096 4096 8192 1 No Yes CRC32C None 4096 4096 16384 1 No Yes CRC32C None 4096 4096 32768 1 No Yes CRC32C None 4096 4096 65536 1 No Yes CRC32C None 4096 4096 131072 1 # 80 - 95 No Yes CRC32C CRC32C 4096 4096 4096 1 No Yes CRC32C CRC32C 8192 4096 4096 1 No Yes CRC32C CRC32C 16384 4096 4096 1 No Yes CRC32C CRC32C 32768 4096 4096 1 No Yes CRC32C CRC32C 65536 4096 4096 1 No Yes CRC32C CRC32C 131972 4096 4096 1 No Yes CRC32C CRC32C 4096 8192 4096 1 No Yes CRC32C CRC32C 4096 16384 4096 1 No Yes CRC32C CRC32C 4096 32768 4096 1 No Yes CRC32C CRC32C 4096 65536 4096 1 No Yes CRC32C CRC32C 4096 131072 4096 1 No Yes CRC32C CRC32C 4096 4096 8192 1 No Yes CRC32C CRC32C 4096 4096 16384 1 No Yes CRC32C CRC32C 4096 4096 32768 1 No Yes CRC32C CRC32C 4096 4096 65536 1 No Yes CRC32C CRC32C 4096 4096 131072 1 open-iscsi-2.0.874/test/regression.sh000077500000000000000000000163761277325716400174760ustar00rootroot00000000000000#!/bin/bash # # Open-iSCSI Regression Test Utility # Copyright (C) 2004 Dmitry Yusupov # maintained by open-iscsi@googlegroups.com # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published # by the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # See the file COPYING included with this distribution for more details. # PATH=".:${PATH}" FSTYPE="${FSTYPE:-ext3}" DEFAULTMOUNTOPTS='-o _netdev' [ -z "${MOUNTOPTS}" ] && MOUNTOPTS="${DEFAULTMOUNTOPTS}" # to avoid mount looking for fstype MOUNTOPTIONS="${MOUNTOPTIONS} -t ${FSTYPE}" MKFSCMD="${MKFSCMD:-mkfs.${FSTYPE}} ${MKFSOPTS}" PARTITIONSUFFIX="1" BONNIEPARAMS="${BONNIEPARAMS:--r0 -n10:0:0 -s16 -uroot -f -q}" trap regress_signal INT QUIT TERM regress_signal() { printf "\nterminating, restore defaults: " # use the other function to clean up imm_data_en="Yes" initial_r2t_en="No" hdrdgst_en="None,CRC32C" datdgst_en="None,CRC32C" c="${iscsiadm} -m node -T $target -p $ipnr -o update" first_burst="$((256*1024))" max_burst="$((16*1024*1024-1024))" max_recv_dlength="$((128*1024))" max_r2t="1" update_cfg ${iscsiadm} -m node -T $target -p $ipnr --logout 2>/dev/null >/dev/null printf "done\n" exit 0 } function update_cfg() { c="${iscsiadm} -m node -T $target -p $ipnr -o update" $c -n node.session.iscsi.ImmediateData -v $imm_data_en $c -n node.session.iscsi.InitialR2T -v $initial_r2t_en $c -n node.conn[0].iscsi.HeaderDigest -v $hdrdgst_en $c -n node.conn[0].iscsi.DataDigest -v $datdgst_en $c -n node.session.iscsi.FirstBurstLength -v $first_burst $c -n node.session.iscsi.MaxBurstLength -v $max_burst $c -n node.conn[0].iscsi.MaxRecvDataSegmentLength -v $max_recv_dlength $c -n node.session.iscsi.MaxOutstandingR2T -v $max_r2t } function disktest_run() { bsizes="512 1024 2048 4096 8192 16384 32768 65536 131072 1000000" test "x$bsize" != x && bsizes=$bsize test "x$bsize" = xbonnie && return 0; for bs in $bsizes; do echo -n "disktest -T2 -K8 -B$bs -r -ID $device: " if ! ${disktest} -T2 -K8 -B$bs -r -ID $device >/dev/null; then echo "FAILED" return 1; fi echo "PASSED" echo -n "disktest -T2 -K8 -B$bs -E16 -w -ID $device: " if ! ${disktest} -T2 -K8 -B$bs -E16 -w -ID $device >/dev/null;then echo "FAILED" return 1; fi echo "PASSED" done return 0; } function fdisk_run() { echo -n "sfdisk -Lqf $device: " sfdisk -Lqf $device >/dev/null 2>/dev/null <<-EOF 0, ; ; ; EOF rc=$? if [ $rc -ne 0 ]; then echo "FAILED" return 1; fi echo "PASSED" return 0; } function mkfs_run() { echo -n "${MKFSCMD} $device_partition: " if ! ${MKFSCMD} $device_partition 2>/dev/null >/dev/null; then echo "FAILED" return 1; fi echo "PASSED" return 0; } function bonnie_run() { dir="/tmp/iscsi.bonnie.regression.$record.$RANDOM" umount $dir 2>/dev/null >/dev/null rm -rf $dir; mkdir $dir echo -n "mount $dir: " if ! mount ${MOUNTOPTIONS} $device_partition $dir; then echo "FAILED" return 1; fi echo "PASSED" echo -n "bonnie++ ${BONNIEPARAMS}: " pushd $dir >/dev/null ${bonnie} ${BONNIEPARAMS} 2>/dev/null >/dev/null rc=$? popd >/dev/null umount $dir 2>/dev/null >/dev/null rmdir ${dir} if [ $rc -ne 0 ]; then echo "FAILED" return 1; fi echo "PASSED" return 0; } function fatal() { echo "regression.sh: $1" echo "Usage: regression.sh [-f | ] [test#[:#]] [bsize]" exit 1 } ############################ main ################################### disktest=`which disktest` iscsiadm=`which iscsiadm` bonnie=`which bonnie++` datfile=`dirname $0`"/regression.dat" test ! -e ${datfile} && fatal "can not find regression.dat" test ! -e ${disktest} && fatal "can not find disktest" test ! -e ${iscsiadm} && fatal "can not find iscsiadm" test ! -e ${bonnie} && fatal "can not find bonnie++" if test x$1 = "x-f" -o x$1 = "x--format"; then test x$2 = x && fatal "SCSI device parameter error" device=$2 else test x$1 = x && fatal "target name parameter error" test x$2 = x && fatal "ipnumber parameter error" test x$3 = x && fatal "SCSI device parameter error" target="$1" ipnr="$2" device=$3 fi device_dir="$(dirname ${device})" device_partition='' case "${device_dir}" in # /dev/sdaX /dev) device_partition="${device}1" ;; # /dev/disk/by-id/scsi-${ID_SERIAL}-part1 # where ID_SERIAL is SCSI disk SERIAL from scsi_id /dev/disk/by-id|/dev/disk/by-path) device_partition="${device}-part1" ;; # upcoming stuff /dev/iscsi/*) device_partition="${device}-part1" ;; esac if test x$1 = "x-f" -o x$1 = "x--format"; then mkfs_run exit fi if [ -z "${device_partition}" ]; then echo 'Unable to find device name for first partition.' >&2 exit 1 fi test "x$4" != x && begin="$4" test "x$5" != x && bsize="$5" if test "x$begin" != "x"; then end="${begin/*:}" begin="${begin/:*}" fi # don't say we didn't warn you if [ -z "${SKIP_WARNING}" ]; then cat <<-EOF BIG FAT WARNING! Open-iSCSI Regression Test Suite is about to start. It is going to use "$device" for its testing. iSCSI session could be re-opened during the tests several times and as the result device name could not match provided device name if some other SCSI activity happened during the test. Are you sure you want to continue? [y/n]: EOF read line if test x$line = xn -o x$line = xN -o x$line = xno -o x$line = xNO; then echo "aborting..." exit fi fi i=0 cat ${datfile} | while read line; do if echo $line | grep "^#" >/dev/null; then continue; fi if echo $line | grep "^$" >/dev/null; then continue; fi if test x$begin != x; then if test x$begin != x$i -a x$end = x; then let i=i+1 continue elif test x$begin != x -a x$end != x; then if test $i -lt $begin -o $i -gt $end; then let i=i+1 continue fi fi fi imm_data_en=`echo $line | awk '/^[YesNo]+/ {print $1}'` if test x$imm_data_en = x; then continue; fi initial_r2t_en=`echo $line | awk '{print $2}'` hdrdgst_en=`echo $line | awk '{print $3}'` datdgst_en=`echo $line | awk '{print $4}'` first_burst=`echo $line | awk '{print $5}'` max_burst=`echo $line | awk '{print $6}'` max_recv_dlength=`echo $line | awk '{print $7}'` max_r2t=`echo $line | awk '{print $8}'` # ensure we are logged out ${iscsiadm} -m node -T $target -p $ipnr --logout 2>/dev/null >/dev/null # set parameters for next run update_cfg echo "================== TEST #$i BEGIN ====================" echo "ImmediateData = $imm_data_en" echo "InitialR2T = $initial_r2t_en" echo "HeaderDigest = $hdrdgst_en" echo "DataDigest = $datdgst_en" echo "FirstBurstLength = $first_burst" echo "MaxBurstLength = $max_burst" echo "MaxRecvDataSegmentLength = $max_recv_dlength" echo "MaxOutstandingR2T = $max_r2t" # login for new test # catch errors on this if ! ${iscsiadm} -m node -T $target -p $ipnr --login; then break; fi while [ ! -e $device ] ; do sleep 1 ; done if ! disktest_run; then break; fi if ! fdisk_run; then break; fi if ! mkfs_run; then break; fi if ! bonnie_run; then break; fi let i=i+1 done regress_signal echo echo "===================== THE END ========================" open-iscsi-2.0.874/usr/000077500000000000000000000000001277325716400145745ustar00rootroot00000000000000open-iscsi-2.0.874/usr/.gitignore000066400000000000000000000000331277325716400165600ustar00rootroot00000000000000iscsiadm iscsid iscsistart open-iscsi-2.0.874/usr/Makefile000066400000000000000000000041411277325716400162340ustar00rootroot00000000000000# This Makefile will work only with GNU make. OSNAME=$(shell uname -s) # allow users to override these # eg to compile for a kernel that you aren't currently running KERNELRELEASE ?= $(shell uname -r) KSRC ?= /lib/modules/$(KERNELRELEASE)/build KSUBLEVEL=$(shell cat $(KSRC)/Makefile | awk -F= '/^SUBLEVEL =/ {print $$2}' | \ sed 's/^[ \t]*//;s/[ \t]*$$//') ifeq ($(OSNAME),Linux) ifeq ($(KSUBLEVEL),11) IPC_CFLAGS=-DNETLINK_ISCSI=12 -D_GNU_SOURCE else ifeq ($(KSUBLEVEL),12) IPC_CFLAGS=-DNETLINK_ISCSI=12 -D_GNU_SOURCE else IPC_CFLAGS=-DNETLINK_ISCSI=8 -D_GNU_SOURCE endif endif IPC_OBJ=netlink.o else ifeq ($(OSNAME),FreeBSD) IPC_CFLAGS= IPC_OBJ=ioctl.o endif endif CFLAGS ?= -O2 -g WARNFLAGS ?= -Wall -Wstrict-prototypes CFLAGS += $(WARNFLAGS) -I../include -I. -D$(OSNAME) $(IPC_CFLAGS) PROGRAMS = iscsid iscsiadm iscsistart # libc compat files SYSDEPS_SRCS = $(sort $(wildcard ../utils/sysdeps/*.o)) # sources shared between iscsid, iscsiadm and iscsistart ISCSI_LIB_SRCS = iscsi_util.o io.o auth.o iscsi_timer.o login.o log.o md5.o \ sha1.o iface.o idbm.o sysfs.o host.o session_info.o iscsi_sysfs.o \ iscsi_net_util.o iscsid_req.o transport.o iser.o cxgbi.o be2iscsi.o \ initiator_common.o iscsi_err.o flashnode.o uip_mgmt_ipc.o \ $(IPC_OBJ) $(SYSDEPS_SRCS) # core initiator files INITIATOR_SRCS = initiator.o scsi.o actor.o event_poll.o mgmt_ipc.o kern_err_table.o # fw boot files FW_BOOT_SRCS = $(sort $(wildcard ../utils/fwparam_ibft/*.o)) # core discovery files DISCOVERY_SRCS = $(FW_BOOT_SRCS) strings.o discovery.o all: $(PROGRAMS) iscsid: $(ISCSI_LIB_SRCS) $(INITIATOR_SRCS) $(DISCOVERY_SRCS) \ iscsid.o session_mgmt.o discoveryd.o mntcheck.o $(CC) $(CFLAGS) $(LDFLAGS) $^ -o $@ -lisns -lcrypto -lrt -lmount iscsiadm: $(ISCSI_LIB_SRCS) $(DISCOVERY_SRCS) iscsiadm.o session_mgmt.o mntcheck.o $(CC) $(CFLAGS) $(LDFLAGS) $^ -o $@ -lisns -lcrypto -lmount iscsistart: $(ISCSI_LIB_SRCS) $(INITIATOR_SRCS) $(FW_BOOT_SRCS) \ iscsistart.o statics.o $(CC) $(CFLAGS) $(LDFLAGS) $^ -o $@ -lrt clean: rm -f *.o $(PROGRAMS) .depend $(LIBSYS) depend: gcc $(CFLAGS) -M `ls *.c` > .depend -include .depend open-iscsi-2.0.874/usr/actor.c000066400000000000000000000162361277325716400160600ustar00rootroot00000000000000/* * iSCSI timeout & deferred work handling * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2014 Red Hat Inc. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include "actor.h" #include "log.h" #include "list.h" static LIST_HEAD(pend_list); static LIST_HEAD(ready_list); static volatile int poll_in_progress; static uint64_t actor_time_left(actor_t *thread, uint64_t current_time) { if (current_time > thread->ttschedule) return 0; else return (thread->ttschedule - current_time); } #define time_after(a,b) \ ((int64_t)(b) - (int64_t)(a) < 0) void actor_init(actor_t *thread, void (*callback)(void *), void *data) { INIT_LIST_HEAD(&thread->list); thread->state = ACTOR_NOTSCHEDULED; thread->callback = callback; thread->data = data; } void actor_delete(actor_t *thread) { log_debug(7, "thread %08lx delete: state %d", (long)thread, thread->state); switch(thread->state) { case ACTOR_WAITING: /* TODO: remove/reset alarm if we were 1st entry in pend_list */ /* priority: low */ /* fallthrough */ case ACTOR_SCHEDULED: log_debug(1, "deleting a scheduled/waiting thread!"); list_del_init(&thread->list); if (list_empty(&pend_list)) { log_debug(7, "nothing left on pend_list, deactivating alarm"); alarm(0); } break; default: break; } thread->state = ACTOR_NOTSCHEDULED; } /* * Inserts actor on pend list and sets alarm if new item is * sooner than previous entries. */ static void actor_insert_on_pend_list(actor_t *thread, uint32_t delay_secs) { struct actor *orig_head; struct actor *new_head; struct actor *next_thread; orig_head = list_first_entry_or_null(&pend_list, struct actor, list); /* insert new entry in sort order */ list_for_each_entry(next_thread, &pend_list, list) { if (time_after(next_thread->ttschedule, thread->ttschedule)) { log_debug(7, "next thread %p due %lld", next_thread, (long long)next_thread->ttschedule); log_debug(7, "new thread %p is before (%lld), inserting", thread, (long long)thread->ttschedule); /* insert new thread before the next thread */ __list_add(&thread->list, next_thread->list.prev, &next_thread->list); goto inserted; } } if (orig_head) { log_debug(7, "last thread %p due %lld", next_thread, (long long)next_thread->ttschedule); log_debug(7, "new thread %p is after (%lld), inserting at tail", thread, (long long)thread->ttschedule); } else log_debug(7, "new thread %p due %lld is first item on pend_list", thread, (long long)thread->ttschedule); /* Not before any existing entries */ list_add_tail(&thread->list, &pend_list); inserted: new_head = list_first_entry(&pend_list, struct actor, list); if (orig_head != new_head) { int result = alarm(delay_secs); log_debug(7, "new alarm set for %d seconds, old alarm %d", delay_secs, result); } } static void actor_schedule_private(actor_t *thread, uint32_t delay_secs, int head) { time_t current_time; struct timespec tv; if (clock_gettime(CLOCK_MONOTONIC_COARSE, &tv)) { log_error("clock_getime failed, can't schedule!"); return; } current_time = tv.tv_sec; log_debug(7, "thread %p schedule: delay %u state %d", thread, delay_secs, thread->state); switch(thread->state) { case ACTOR_WAITING: log_error("rescheduling a waiting thread!"); list_del(&thread->list); /* fall-through */ case ACTOR_NOTSCHEDULED: INIT_LIST_HEAD(&thread->list); if (delay_secs == 0) { thread->state = ACTOR_SCHEDULED; if (head) list_add(&thread->list, &ready_list); else list_add_tail(&thread->list, &ready_list); } else { thread->state = ACTOR_WAITING; thread->ttschedule = current_time + delay_secs; actor_insert_on_pend_list(thread, delay_secs); } break; case ACTOR_SCHEDULED: // don't do anything break; case ACTOR_INVALID: log_error("BUG: Trying to schedule a thread that has not been " "setup. Ignoring sched."); break; } } void actor_schedule_head(actor_t *thread) { actor_schedule_private(thread, 0, 1); } void actor_schedule(actor_t *thread) { actor_schedule_private(thread, 0, 0); } void actor_timer(actor_t *thread, uint32_t timeout_secs, void (*callback)(void *), void *data) { actor_init(thread, callback, data); actor_schedule_private(thread, timeout_secs, 0); } void actor_timer_mod(actor_t *thread, uint32_t new_timeout_secs, void *data) { actor_delete(thread); thread->data = data; actor_schedule_private(thread, new_timeout_secs, 0); } /* * Execute all items that have expired. * * Set an alarm if items remain. Caller must catch SIGALRM and * then re-invoke this function. */ void actor_poll(void) { struct actor *thread, *tmp; uint64_t current_time; struct timespec tv; if (poll_in_progress) { log_error("recursive actor_poll() is not allowed"); return; } if (clock_gettime(CLOCK_MONOTONIC_COARSE, &tv)) { log_error("clock_gettime failed, can't schedule!"); return; } current_time = tv.tv_sec; /* * Move items that are ripe from pend_list to ready_list. * Actors are in sorted order of ascending run time, so * stop at the first unripe entry. */ log_debug(7, "current time %" PRIu64, current_time); list_for_each_entry_safe(thread, tmp, &pend_list, list) { uint64_t time_left = actor_time_left(thread, current_time); if (time_left) { log_debug(7, "thread %08lx due %" PRIu64 ", wait %" PRIu64 " more", (long)thread, thread->ttschedule, time_left); alarm(time_left); break; } /* This entry can be run now */ list_del_init(&thread->list); log_debug(2, "thread %08lx was scheduled for " "%" PRIu64 ", curtime %" PRIu64 " q_forw %p " "&pend_list %p", (long)thread, thread->ttschedule, current_time, pend_list.next, &pend_list); list_add_tail(&thread->list, &ready_list); assert(thread->state == ACTOR_WAITING); thread->state = ACTOR_SCHEDULED; log_debug(7, "thread %08lx now in ready_list", (long)thread); } /* Disable alarm if nothing else pending */ if (list_empty(&pend_list)) { log_debug(7, "nothing on pend_list, deactivating alarm"); alarm(0); } poll_in_progress = 1; while (!list_empty(&ready_list)) { thread = list_first_entry(&ready_list, struct actor, list); list_del_init(&thread->list); if (thread->state != ACTOR_SCHEDULED) log_error("ready_list: thread state corrupted! " "Thread with state %d in actor list.", thread->state); thread->state = ACTOR_NOTSCHEDULED; log_debug(7, "exec thread %08lx callback", (long)thread); thread->callback(thread->data); log_debug(7, "thread %08lx done", (long)thread); } poll_in_progress = 0; } open-iscsi-2.0.874/usr/actor.h000066400000000000000000000030001277325716400160460ustar00rootroot00000000000000/* * iSCSI usermode single-threaded scheduler * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ACTOR_H #define ACTOR_H #include "types.h" #include "list.h" typedef enum actor_state_e { ACTOR_INVALID, ACTOR_WAITING, ACTOR_SCHEDULED, ACTOR_NOTSCHEDULED, } actor_state_e; typedef struct actor { struct list_head list; actor_state_e state; void *data; void (*callback)(void * ); time_t ttschedule; } actor_t; extern void actor_init(actor_t *thread, void (*callback)(void *), void * data); extern void actor_delete(actor_t *thread); extern void actor_schedule_head(actor_t *thread); extern void actor_schedule(actor_t *thread); extern void actor_timer(actor_t *thread, uint32_t delay_secs, void (*callback)(void *), void *data); extern void actor_timer_mod(actor_t *thread, uint32_t new_delay_secs, void *data); extern void actor_poll(void); #endif /* ACTOR_H */ open-iscsi-2.0.874/usr/auth.c000066400000000000000000001442321277325716400157070ustar00rootroot00000000000000/* * iSCSI Authorization Library * * maintained by open-iscsi@@googlegroups.com * * Originally based on: * Copyright (C) 2001 Cisco Systems, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * This file implements the iSCSI CHAP authentication method based on * RFC 3720. The code in this file is meant to be common for both kernel and * user level and makes use of only limited library functions, presently only * string.h. Routines specific to kernel, user level are implemented in * separate files under the appropriate directories. * This code in this files assumes a single thread of execution * for each iscsi_acl structure, and does no locking. */ #include #include #include #include #include #include "sysdeps.h" #include "auth.h" #include "initiator.h" #include "md5.h" #include "log.h" static const char acl_hexstring[] = "0123456789abcdefABCDEF"; static const char acl_base64_string[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; static const char acl_authmethod_set_chap_alg_list[] = "CHAP"; static const char acl_reject_option_name[] = "Reject"; void auth_md5_init(struct MD5Context *); void auth_md5_update(struct MD5Context *, unsigned char *, unsigned int); void auth_md5_final(unsigned char *, struct MD5Context *); void get_random_bytes(unsigned char *data, unsigned int length); size_t strlcpy(char *, const char *, size_t); size_t strlcat(char *, const char *, size_t); enum auth_dbg_status acl_chap_compute_rsp(struct iscsi_acl *client, int rmt_auth, unsigned int id, unsigned char *challenge_data, unsigned int challenge_length, unsigned char *response_data) { unsigned char id_data[1]; struct MD5Context context; unsigned char out_data[AUTH_STR_MAX_LEN]; unsigned int out_length = AUTH_STR_MAX_LEN; if (!client->passwd_present) return AUTH_DBG_STATUS_LOCAL_PASSWD_NOT_SET; auth_md5_init(&context); /* id byte */ id_data[0] = id; auth_md5_update(&context, id_data, 1); /* decrypt password */ if (acl_data(out_data, &out_length, client->passwd_data, client->passwd_length)) return AUTH_DBG_STATUS_PASSWD_DECRYPT_FAILED; if (!rmt_auth && !client->ip_sec && out_length < 12) return AUTH_DBG_STATUS_PASSWD_TOO_SHORT_WITH_NO_IPSEC; /* shared secret */ auth_md5_update(&context, out_data, out_length); /* clear decrypted password */ memset(out_data, 0, AUTH_STR_MAX_LEN); /* challenge value */ auth_md5_update(&context, challenge_data, challenge_length); auth_md5_final(response_data, &context); return AUTH_DBG_STATUS_NOT_SET; /* no error */ } /* * Authenticate a target's CHAP response. */ int acl_chap_auth_request(struct iscsi_acl *client, char *username, unsigned int id, unsigned char *challenge_data, unsigned int challenge_length, unsigned char *response_data, unsigned int rsp_length) { iscsi_session_t *session = client->session_handle; struct MD5Context context; unsigned char verify_data[16]; /* the expected credentials are in the session */ if (session->username_in == NULL) { log_error("failing authentication, no incoming username " "configured to authenticate target %s", session->target_name); return AUTH_STATUS_FAIL; } if (strcmp(username, session->username_in) != 0) { log_error("failing authentication, received incorrect " "username from target %s", session->target_name); return AUTH_STATUS_FAIL; } if ((session->password_in_length < 1) || (session->password_in == NULL) || (session->password_in[0] == '\0')) { log_error("failing authentication, no incoming password " "configured to authenticate target %s", session->target_name); return AUTH_STATUS_FAIL; } /* challenge length is I->T, and shouldn't need to be checked */ if (rsp_length != sizeof(verify_data)) { log_error("failing authentication, received incorrect " "CHAP response length %u from target %s", rsp_length, session->target_name); return AUTH_STATUS_FAIL; } auth_md5_init(&context); /* id byte */ verify_data[0] = id; auth_md5_update(&context, verify_data, 1); /* shared secret */ auth_md5_update(&context, (unsigned char *)session->password_in, session->password_in_length); /* challenge value */ auth_md5_update(&context, (unsigned char *)challenge_data, challenge_length); auth_md5_final(verify_data, &context); if (memcmp(response_data, verify_data, sizeof(verify_data)) == 0) { log_debug(1, "initiator authenticated target %s", session->target_name); return AUTH_STATUS_PASS; } log_error("failing authentication, received incorrect CHAP " "response from target %s", session->target_name); return AUTH_STATUS_FAIL; } void auth_md5_init(struct MD5Context *context) { MD5Init(context); } void auth_md5_update(struct MD5Context *context, unsigned char *data, unsigned int length) { MD5Update(context, data, length); } void auth_md5_final(unsigned char *hash, struct MD5Context *context) { MD5Final(hash, context); } void get_random_bytes(unsigned char *data, unsigned int length) { long r; unsigned n; int fd, r_size = sizeof(r); fd = open("/dev/urandom", O_RDONLY); while (length > 0) { if (fd == -1 || read(fd, &r, r_size) != r_size) r = rand(); r = r ^ (r >> 8); r = r ^ (r >> 4); n = r & 0x7; if (fd == -1 || read(fd, &r, r_size) != r_size) r = rand(); r = r ^ (r >> 8); r = r ^ (r >> 5); n = (n << 3) | (r & 0x7); if (fd == -1 || read(fd, &r, r_size) != r_size) r = rand(); r = r ^ (r >> 8); r = r ^ (r >> 5); n = (n << 2) | (r & 0x3); *data++ = n; length--; } if (fd) close(fd); } static const char acl_none_option_name[] = "None"; static int acl_text_to_number(const char *text, unsigned long *num) { char *end; unsigned long number = *num; if (text[0] == '0' && (text[1] == 'x' || text[1] == 'X')) number = strtoul(text + 2, &end, 16); else number = strtoul(text, &end, 10); if (*text != '\0' && *end == '\0') { *num = number; return 0; /* No error */ } else return 1; /* Error */ } static int acl_chk_string(const char *s, unsigned int max_len, unsigned int *out_len) { unsigned int len; if (!s) return 1; for (len = 0; len < max_len; len++) if (*s++ == '\0') { if (out_len) *out_len = len; return 0; } return 1; } static int acl_str_index(const char *s, int c) { char *str = strchr(s, c); if (str) return (str - s); else return -1; } static int acl_chk_auth_mthd_optn(int val) { if (val == AUTH_OPTION_NONE || val == AUTH_METHOD_CHAP) return 0; return 1; } static const char * acl_authmethod_optn_to_text(int value) { const char *s; switch (value) { case AUTH_OPTION_REJECT: s = acl_reject_option_name; break; case AUTH_OPTION_NONE: s = acl_none_option_name; break; case AUTH_METHOD_CHAP: s = acl_authmethod_set_chap_alg_list; break; default: s = NULL; } return s; } static int acl_chk_chap_alg_optn(int chap_algorithm) { if (chap_algorithm == AUTH_OPTION_NONE || chap_algorithm == AUTH_CHAP_ALG_MD5) return 0; return 1; } static int acl_data_to_text(unsigned char *data, unsigned int data_length, char *text, unsigned int text_length) { unsigned long n; if (!text || text_length == 0) return 1; if (!data || data_length == 0) { *text = '\0'; return 1; } if (text_length < 3) { *text = '\0'; return 1; } *text++ = '0'; *text++ = 'x'; text_length -= 2; while (data_length > 0) { if (text_length < 3) { *text = '\0'; return 1; } n = *data++; data_length--; *text++ = acl_hexstring[(n >> 4) & 0xf]; *text++ = acl_hexstring[n & 0xf]; text_length -= 2; } *text = '\0'; return 0; } static int acl_hex_to_data(const char *text, unsigned int text_length, unsigned char *data, unsigned int *data_lenp) { int i; unsigned int n1; unsigned int n2; unsigned int data_length = *data_lenp; if ((text_length % 2) == 1) { i = acl_str_index(acl_hexstring, *text++); if (i < 0) return 1; /* error, bad character */ if (i > 15) i -= 6; n2 = i; if (data_length < 1) return 1; /* error, too much data */ *data++ = n2; data_length--; } while (*text != '\0') { i = acl_str_index(acl_hexstring, *text++); if (i < 0) return 1; /* error, bad character */ if (i > 15) i -= 6; n1 = i; if (*text == '\0') return 1; /* error, odd string length */ i = acl_str_index(acl_hexstring, *text++); if (i < 0) return 1; /* error, bad character */ if (i > 15) i -= 6; n2 = i; if (data_length < 1) return 1; /* error, too much data */ *data++ = (n1 << 4) | n2; data_length--; } if (data_length >= *data_lenp) return 1; /* error, no data */ *data_lenp = *data_lenp - data_length; return 0; /* no error */ } static int acl_base64_to_data(const char *text, unsigned char *data, unsigned int *data_lenp) { int i; unsigned int n; unsigned int count; unsigned int data_length = *data_lenp; n = 0; count = 0; while (*text != '\0' && *text != '=') { i = acl_str_index(acl_base64_string, *text++); if (i < 0) return 1; /* error, bad character */ n = (n << 6 | (unsigned int)i); count++; if (count >= 4) { if (data_length < 3) return 1; /* error, too much data */ *data++ = n >> 16; *data++ = n >> 8; *data++ = n; data_length -= 3; n = 0; count = 0; } } while (*text != '\0') if (*text++ != '=') return 1; /* error, bad pad */ if (count == 0) { /* do nothing */ } else if (count == 2) { if (data_length < 1) return 1; /* error, too much data */ n = n >> 4; *data++ = n; data_length--; } else if (count == 3) { if (data_length < 2) return 1; /* error, too much data */ n = n >> 2; *data++ = n >> 8; *data++ = n; data_length -= 2; } else return 1; /* bad encoding */ if (data_length >= *data_lenp) return 1; /* error, no data */ *data_lenp = *data_lenp - data_length; return 0; /* no error */ } static int acl_text_to_data(const char *text, unsigned char *data, unsigned int *data_length) { int status; unsigned int text_length; status = acl_chk_string(text, 2 + 2 * AUTH_LARGE_BINARY_MAX_LEN + 1, &text_length); if (status) return status; if (text[0] == '0' && (text[1] == 'x' || text[1] == 'X')) { /* skip prefix */ text += 2; text_length -= 2; status = acl_hex_to_data(text, text_length, data, data_length); } else if (text[0] == '0' && (text[1] == 'b' || text[1] == 'B')) { /* skip prefix */ text += 2; text_length -= 2; status = acl_base64_to_data(text, data, data_length); } else status = 1; /* prefix not recognized. */ return status; } static void acl_init_key_blk(struct auth_key_block *key_blk) { char *str_block = key_blk->str_block; memset(key_blk, 0, sizeof(*key_blk)); key_blk->str_block = str_block; } static void acl_set_key_value(struct auth_key_block *key_blk, int key_type, const char *key_val) { unsigned int length; char *string; if (key_blk->key[key_type].value_set) { key_blk->dup_set = 1; return; } key_blk->key[key_type].value_set = 1; if (!key_val) return; if (acl_chk_string(key_val, AUTH_STR_MAX_LEN, &length)) { key_blk->str_too_long = 1; return; } length += 1; if ((key_blk->blk_length + length) > AUTH_STR_BLOCK_MAX_LEN) { key_blk->too_much_data = 1; return; } string = &key_blk->str_block[key_blk->blk_length]; if (strlcpy(string, key_val, length) >= length) { key_blk->too_much_data = 1; return; } key_blk->blk_length += length; key_blk->key[key_type].string = string; key_blk->key[key_type].present = 1; } static const char * acl_get_key_val(struct auth_key_block *key_blk, int key_type) { key_blk->key[key_type].processed = 1; if (!key_blk->key[key_type].present) return NULL; return key_blk->key[key_type].string; } static void acl_chk_key(struct iscsi_acl *client, int key_type, int *negotiated_option, unsigned int option_count, int *option_list, const char *(*value_to_text) (int)) { const char *key_val; int length; unsigned int i; key_val = acl_get_key_val(&client->recv_key_block, key_type); if (!key_val) { *negotiated_option = AUTH_OPTION_NOT_PRESENT; return; } while (*key_val != '\0') { length = 0; while (*key_val != '\0' && *key_val != ',') client->scratch_key_value[length++] = *key_val++; if (*key_val == ',') key_val++; client->scratch_key_value[length++] = '\0'; for (i = 0; i < option_count; i++) { const char *s = (*value_to_text)(option_list[i]); if (!s) continue; if (strcmp(client->scratch_key_value, s) == 0) { *negotiated_option = option_list[i]; return; } } } *negotiated_option = AUTH_OPTION_REJECT; } static void acl_set_key(struct iscsi_acl *client, int key_type, unsigned int option_count, int *option_list, const char *(*value_to_text)(int)) { unsigned int i; if (option_count == 0) { /* * No valid options to send, but we always want to * send something. */ acl_set_key_value(&client->send_key_block, key_type, acl_none_option_name); return; } if (option_count == 1 && option_list[0] == AUTH_OPTION_NOT_PRESENT) { acl_set_key_value(&client->send_key_block, key_type, NULL); return; } for (i = 0; i < option_count; i++) { const char *s = (*value_to_text)(option_list[i]); if (!s) continue; if (i == 0) strlcpy(client->scratch_key_value, s, AUTH_STR_MAX_LEN); else { strlcat(client->scratch_key_value, ",", AUTH_STR_MAX_LEN); strlcat(client->scratch_key_value, s, AUTH_STR_MAX_LEN); } } acl_set_key_value(&client->send_key_block, key_type, client->scratch_key_value); } static void acl_chk_auth_method_key(struct iscsi_acl *client) { acl_chk_key(client, AUTH_KEY_TYPE_AUTH_METHOD, &client->negotiated_auth_method, client->auth_method_valid_count, client->auth_method_valid_list, acl_authmethod_optn_to_text); } static void acl_set_auth_method_key(struct iscsi_acl *client, unsigned int auth_method_count, int *auth_method_list) { acl_set_key(client, AUTH_KEY_TYPE_AUTH_METHOD, auth_method_count, auth_method_list, acl_authmethod_optn_to_text); } static void acl_chk_chap_alg_key(struct iscsi_acl *client) { const char *key_val; int length; unsigned long number; unsigned int i; key_val = acl_get_key_val(&client->recv_key_block, AUTH_KEY_TYPE_CHAP_ALG); if (!key_val) { client->negotiated_chap_alg = AUTH_OPTION_NOT_PRESENT; return; } while (*key_val != '\0') { length = 0; while (*key_val != '\0' && *key_val != ',') client->scratch_key_value[length++] = *key_val++; if (*key_val == ',') key_val++; client->scratch_key_value[length++] = '\0'; if (acl_text_to_number(client->scratch_key_value, &number)) continue; for (i = 0; i < client->chap_alg_count; i++) if (number == (unsigned long)client->chap_alg_list[i]) { client->negotiated_chap_alg = number; return; } } client->negotiated_chap_alg = AUTH_OPTION_REJECT; } static void acl_set_chap_alg_key(struct iscsi_acl *client, unsigned int chap_alg_count, int *chap_alg_list) { unsigned int i; if (chap_alg_count == 0) { acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_ALG, NULL); return; } if (chap_alg_count == 1 && chap_alg_list[0] == AUTH_OPTION_NOT_PRESENT) { acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_ALG, NULL); return; } if (chap_alg_count == 1 && chap_alg_list[0] == AUTH_OPTION_REJECT) { acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_ALG, acl_reject_option_name); return; } for (i = 0; i < chap_alg_count; i++) { char s[20]; snprintf(s, sizeof(s), "%lu",(unsigned long)chap_alg_list[i]); if (i == 0) strlcpy(client->scratch_key_value, s, AUTH_STR_MAX_LEN); else { strlcat(client->scratch_key_value, ",", AUTH_STR_MAX_LEN); strlcat(client->scratch_key_value, s, AUTH_STR_MAX_LEN); } } acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_ALG, client->scratch_key_value); } static void acl_next_phase(struct iscsi_acl *client) { switch (client->phase) { case AUTH_PHASE_CONFIGURE: client->phase = AUTH_PHASE_NEGOTIATE; break; case AUTH_PHASE_NEGOTIATE: client->phase = AUTH_PHASE_AUTHENTICATE; if (client->negotiated_auth_method == AUTH_OPTION_REJECT || client->negotiated_auth_method == AUTH_OPTION_NOT_PRESENT || client->negotiated_auth_method == AUTH_OPTION_NONE) { client->local_state = AUTH_LOCAL_STATE_DONE; client->rmt_state = AUTH_RMT_STATE_DONE; if (client->auth_rmt) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; } else client->rmt_auth_status = AUTH_STATUS_PASS; switch (client->negotiated_auth_method) { case AUTH_OPTION_REJECT: client->dbg_status = AUTH_DBG_STATUS_AUTH_METHOD_REJECT; break; case AUTH_OPTION_NOT_PRESENT: client->dbg_status = AUTH_DBG_STATUS_AUTH_METHOD_NOT_PRESENT; break; case AUTH_OPTION_NONE: client->dbg_status = AUTH_DBG_STATUS_AUTH_METHOD_NONE; } } else if (client->negotiated_auth_method == AUTH_METHOD_CHAP) { client->local_state = AUTH_LOCAL_STATE_SEND_ALG; client->rmt_state = AUTH_RMT_STATE_SEND_ALG; } else { client->local_state = AUTH_LOCAL_STATE_DONE; client->rmt_state = AUTH_RMT_STATE_DONE; client->rmt_auth_status = AUTH_STATUS_FAIL; client->dbg_status = AUTH_DBG_STATUS_AUTH_METHOD_BAD; } break; case AUTH_PHASE_AUTHENTICATE: client->phase = AUTH_PHASE_DONE; break; case AUTH_PHASE_DONE: case AUTH_PHASE_ERROR: default: client->phase = AUTH_PHASE_ERROR; } } static void acl_local_auth(struct iscsi_acl *client) { unsigned int chap_identifier; unsigned char response_data[AUTH_CHAP_RSP_LEN]; unsigned long number; int status; enum auth_dbg_status dbg_status; const char *chap_identifier_key_val; const char *chap_challenge_key_val; switch (client->local_state) { case AUTH_LOCAL_STATE_SEND_ALG: if (client->node_type == TYPE_INITIATOR) { acl_set_chap_alg_key(client, client->chap_alg_count, client->chap_alg_list); client->local_state = AUTH_LOCAL_STATE_RECV_ALG; break; } /* Fall through */ case AUTH_LOCAL_STATE_RECV_ALG: acl_chk_chap_alg_key(client); if (client->node_type == TYPE_TARGET) acl_set_chap_alg_key(client, 1, &client->negotiated_chap_alg); /* Make sure only supported CHAP algorithm is used. */ if (client->negotiated_chap_alg == AUTH_OPTION_NOT_PRESENT) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_ALG_EXPECTED; break; } else if (client->negotiated_chap_alg == AUTH_OPTION_REJECT) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_ALG_REJECT; break; } else if (client->negotiated_chap_alg != AUTH_CHAP_ALG_MD5) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_ALG_BAD; break; } if (client->node_type == TYPE_TARGET) { client->local_state = AUTH_LOCAL_STATE_RECV_CHALLENGE; break; } /* Fall through */ case AUTH_LOCAL_STATE_RECV_CHALLENGE: chap_identifier_key_val = acl_get_key_val(&client->recv_key_block, AUTH_KEY_TYPE_CHAP_IDENTIFIER); chap_challenge_key_val = acl_get_key_val(&client->recv_key_block, AUTH_KEY_TYPE_CHAP_CHALLENGE); if (client->node_type == TYPE_TARGET) { if (!chap_identifier_key_val && !chap_challenge_key_val) { client->local_state = AUTH_LOCAL_STATE_DONE; break; } } if (!chap_identifier_key_val) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_IDENTIFIER_EXPECTED; break; } if (!chap_challenge_key_val) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_CHALLENGE_EXPECTED; break; } status = acl_text_to_number(chap_identifier_key_val, &number); if (status || (255 < number)) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_IDENTIFIER_BAD; break; } chap_identifier = number; if (client->recv_chap_challenge_status) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHALLENGE_BAD; break; } if (client->node_type == TYPE_TARGET && client->recv_chap_challenge.length == client->send_chap_challenge.length && memcmp(client->recv_chap_challenge.large_binary, client->send_chap_challenge.large_binary, client->send_chap_challenge.length) == 0) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_CHALLENGE_REFLECTED; break; } dbg_status = acl_chap_compute_rsp(client, 0, chap_identifier, client->recv_chap_challenge.large_binary, client->recv_chap_challenge.length, response_data); if (dbg_status != AUTH_DBG_STATUS_NOT_SET) { client->local_state = AUTH_LOCAL_STATE_ERROR; client->dbg_status = dbg_status; break; } acl_data_to_text(response_data, AUTH_CHAP_RSP_LEN, client->scratch_key_value, AUTH_STR_MAX_LEN); acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_RSP, client->scratch_key_value); acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_USERNAME, client->username); client->local_state = AUTH_LOCAL_STATE_DONE; break; case AUTH_LOCAL_STATE_DONE: break; case AUTH_LOCAL_STATE_ERROR: default: client->phase = AUTH_PHASE_ERROR; } } static void acl_rmt_auth(struct iscsi_acl *client) { unsigned char id_data[1]; unsigned char response_data[AUTH_STR_MAX_LEN]; unsigned int rsp_len = AUTH_STR_MAX_LEN; unsigned char my_rsp_data[AUTH_CHAP_RSP_LEN]; int status; enum auth_dbg_status dbg_status; const char *chap_rsp_key_val; const char *chap_username_key_val; switch (client->rmt_state) { case AUTH_RMT_STATE_SEND_ALG: if (client->node_type == TYPE_INITIATOR) { client->rmt_state = AUTH_RMT_STATE_SEND_CHALLENGE; break; } /* Fall through */ case AUTH_RMT_STATE_SEND_CHALLENGE: if (!client->auth_rmt) { client->rmt_auth_status = AUTH_STATUS_PASS; client->dbg_status = AUTH_DBG_STATUS_AUTH_RMT_FALSE; client->rmt_state = AUTH_RMT_STATE_DONE; break; } get_random_bytes(id_data, 1); client->send_chap_identifier = id_data[0]; snprintf(client->scratch_key_value, AUTH_STR_MAX_LEN, "%lu", (unsigned long)client->send_chap_identifier); acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_IDENTIFIER, client->scratch_key_value); client->send_chap_challenge.length = client->chap_challenge_len; get_random_bytes(client->send_chap_challenge.large_binary, client->send_chap_challenge.length); acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_CHALLENGE, ""); client->rmt_state = AUTH_RMT_STATE_RECV_RSP; break; case AUTH_RMT_STATE_RECV_RSP: chap_rsp_key_val = acl_get_key_val(&client->recv_key_block, AUTH_KEY_TYPE_CHAP_RSP); chap_username_key_val = acl_get_key_val(&client->recv_key_block, AUTH_KEY_TYPE_CHAP_USERNAME); if (!chap_rsp_key_val) { client->rmt_state = AUTH_RMT_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_RSP_EXPECTED; break; } if (!chap_username_key_val) { client->rmt_state = AUTH_RMT_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_USERNAME_EXPECTED; break; } status = acl_text_to_data(chap_rsp_key_val, response_data, &rsp_len); if (status) { client->rmt_state = AUTH_RMT_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_CHAP_RSP_BAD; break; } if (rsp_len == AUTH_CHAP_RSP_LEN) { dbg_status = acl_chap_compute_rsp(client, 1, client->send_chap_identifier, client->send_chap_challenge.large_binary, client->send_chap_challenge.length, my_rsp_data); if (dbg_status == AUTH_DBG_STATUS_NOT_SET && memcmp(my_rsp_data, response_data, AUTH_CHAP_RSP_LEN) == 0) { client->rmt_state = AUTH_RMT_STATE_ERROR; client->dbg_status = AUTH_DBG_STATUS_PASSWD_IDENTICAL; break; } } strlcpy(client->chap_username, chap_username_key_val, AUTH_STR_MAX_LEN); status = acl_chap_auth_request(client, client->chap_username, client->send_chap_identifier, client->send_chap_challenge. large_binary, client->send_chap_challenge. length, response_data, rsp_len); client->rmt_auth_status = (enum auth_status) status; client->auth_rsp_flag = 1; if (client->auth_server_error_flag) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->dbg_status = AUTH_DBG_STATUS_AUTH_SERVER_ERROR; } else if (client->rmt_auth_status == AUTH_STATUS_PASS) client->dbg_status = AUTH_DBG_STATUS_AUTH_PASS; else if (client->rmt_auth_status == AUTH_STATUS_FAIL) client->dbg_status = AUTH_DBG_STATUS_AUTH_FAIL; else { client->rmt_auth_status = AUTH_STATUS_FAIL; client->dbg_status = AUTH_DBG_STATUS_AUTH_STATUS_BAD; } client->rmt_state = AUTH_RMT_STATE_DONE; /* Fall through */ case AUTH_RMT_STATE_DONE: break; case AUTH_RMT_STATE_ERROR: default: client->phase = AUTH_PHASE_ERROR; } } static void acl_hand_shake(struct iscsi_acl *client) { if (client->phase == AUTH_PHASE_DONE) /* * Should only happen if authentication * protocol error occurred. */ return; if (client->node_type == TYPE_INITIATOR) /* * Target should only have set T bit on response if * initiator set it on previous message. */ if (client->recv_key_block.transit_bit && !client->transit_bit_sent_flag) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_T_BIT_SET_ILLEGAL; return; } if (client->phase == AUTH_PHASE_NEGOTIATE) { /* * Should only happen if waiting for peer * to send AuthMethod key or set Transit Bit. */ if (client->node_type == TYPE_INITIATOR) client->send_key_block.transit_bit = 1; return; } if (client->rmt_state == AUTH_RMT_STATE_RECV_RSP || client->rmt_state == AUTH_RMT_STATE_DONE) { if (client->node_type == TYPE_INITIATOR) { if (client->recv_key_block.transit_bit) { if (client->rmt_state != AUTH_RMT_STATE_DONE) goto recv_transit_bit_err; acl_next_phase(client); } else client->send_key_block.transit_bit = 1; } else { if (client->rmt_state == AUTH_RMT_STATE_DONE && client->rmt_auth_status != AUTH_STATUS_PASS) /* * Authentication failed, don't do T bit * handshake. */ acl_next_phase(client); else { /* * Target can only set T bit on response if * initiator set it on current message. */ if (client->recv_key_block.transit_bit) { client->send_key_block.transit_bit = 1; acl_next_phase(client); } } } } else if (client->node_type == TYPE_INITIATOR) if (client->recv_key_block.transit_bit) goto recv_transit_bit_err; return; recv_transit_bit_err: /* * Target set T bit on response but * initiator was not done with authentication. */ client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_T_BIT_SET_PREMATURE; } static int acl_rcv_end_status(struct iscsi_acl *client) { int auth_status; int key_type; if (client->phase == AUTH_PHASE_ERROR) return AUTH_STATUS_ERROR; if (client->phase == AUTH_PHASE_DONE) { /* Perform sanity check against configured parameters. */ if (client->auth_rmt && !client->auth_rsp_flag && client->rmt_auth_status == AUTH_STATUS_PASS) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->dbg_status = AUTH_DBG_STATUS_AUTHPASS_NOT_VALID; } auth_status = client->rmt_auth_status; } else auth_status = AUTH_STATUS_CONTINUE; if (auth_status == AUTH_STATUS_CONTINUE || auth_status == AUTH_STATUS_PASS) { if (client->send_key_block.dup_set) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_SEND_DUP_SET_KEY_VALUE; auth_status = AUTH_STATUS_FAIL; } else if (client->send_key_block.str_too_long) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_SEND_STR_TOO_LONG; auth_status = AUTH_STATUS_FAIL; } else if (client->send_key_block.too_much_data) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_SEND_TOO_MUCH_DATA; auth_status = AUTH_STATUS_FAIL; } else { /* Check that all incoming keys have been processed. */ for (key_type = AUTH_KEY_TYPE_FIRST; key_type < AUTH_KEY_TYPE_MAX_COUNT; key_type++) if (client->recv_key_block.key[key_type].present && !client->recv_key_block.key[key_type]. processed) break; if (key_type < AUTH_KEY_TYPE_MAX_COUNT) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_UNEXPECTED_KEY_PRESENT; auth_status = AUTH_STATUS_FAIL; } } } if (auth_status != AUTH_STATUS_PASS && auth_status != AUTH_STATUS_CONTINUE) { int auth_method_key_present = 0; int chap_alg_key_present = 0; /* * Suppress send keys on error, * except for AuthMethod and CHAP_A. */ if (client->node_type == TYPE_TARGET) { if (acl_get_key_val(&client->send_key_block, AUTH_KEY_TYPE_AUTH_METHOD)) auth_method_key_present = 1; else if (acl_get_key_val(&client->send_key_block, AUTH_KEY_TYPE_CHAP_ALG)) chap_alg_key_present = 1; } acl_init_key_blk(&client->send_key_block); if (client->node_type == TYPE_TARGET) { if (auth_method_key_present && client->negotiated_auth_method == AUTH_OPTION_REJECT) acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_AUTH_METHOD, acl_reject_option_name); else if (chap_alg_key_present && client->negotiated_chap_alg == AUTH_OPTION_REJECT) acl_set_key_value(&client->send_key_block, AUTH_KEY_TYPE_CHAP_ALG, acl_reject_option_name); } } client->recv_in_progress_flag = 0; return auth_status; } int acl_recv_begin(struct iscsi_acl *client) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase == AUTH_PHASE_ERROR) return AUTH_STATUS_ERROR; if (client->phase == AUTH_PHASE_DONE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } if (client->recv_in_progress_flag) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } client->recv_in_progress_flag = 1; if (client->phase == AUTH_PHASE_CONFIGURE) acl_next_phase(client); client->transit_bit_sent_flag = client->send_key_block.transit_bit; acl_init_key_blk(&client->recv_key_block); acl_init_key_blk(&client->send_key_block); return AUTH_STATUS_NO_ERROR; } int acl_recv_end(struct iscsi_acl *client, iscsi_session_t *session_handle) { int next_phase_flag = 0; if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase == AUTH_PHASE_ERROR) return AUTH_STATUS_ERROR; if (!client->recv_in_progress_flag) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } if (client->recv_end_count > AUTH_RECV_END_MAX_COUNT) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_RECV_MSG_COUNT_LIMIT; } else if (client->recv_key_block.dup_set) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_RECV_DUP_SET_KEY_VALUE; } else if (client->recv_key_block.str_too_long) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_RECV_STR_TOO_LONG; } else if (client->recv_key_block.too_much_data) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_RECV_TOO_MUCH_DATA; } client->recv_end_count++; client->session_handle = session_handle; switch (client->phase) { case AUTH_PHASE_NEGOTIATE: acl_chk_auth_method_key(client); if (client->auth_method_valid_neg_role == AUTH_NEG_ROLE_RESPONDER) { if (client->negotiated_auth_method == AUTH_OPTION_NOT_PRESENT) { if (client->auth_rmt || !client->recv_key_block.transit_bit) { /* * No AuthMethod key from peer on * first message, try moving the * process along by sending the * AuthMethod key. */ client->auth_method_valid_neg_role = AUTH_NEG_ROLE_ORIGINATOR; acl_set_auth_method_key(client, client->auth_method_valid_count, client->auth_method_valid_list); break; } /* * Special case if peer sent no AuthMethod key, * but did set Transit Bit, allowing this side * to do a null authentication, and compelete * the iSCSI security phase without either side * sending the AuthMethod key. */ } else /* Send response to AuthMethod key. */ acl_set_auth_method_key(client, 1, &client->negotiated_auth_method); if (client->node_type == TYPE_INITIATOR) acl_next_phase(client); else next_phase_flag = 1; } else { if (client->negotiated_auth_method == AUTH_OPTION_NOT_PRESENT) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; client->dbg_status = AUTH_DBG_STATUS_AUTH_METHOD_EXPECTED; break; } acl_next_phase(client); } break; case AUTH_PHASE_AUTHENTICATE: case AUTH_PHASE_DONE: break; default: client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } switch (client->phase) { case AUTH_PHASE_NEGOTIATE: if (next_phase_flag) acl_next_phase(client); break; case AUTH_PHASE_AUTHENTICATE: /* * Must call acl_local_auth() * before acl_rmt_auth() * to insure processing of the CHAP algorithm key, * and to avoid leaving an in progress request to the * authentication service. */ acl_local_auth(client); if (client->local_state != AUTH_LOCAL_STATE_ERROR) acl_rmt_auth(client); if (client->local_state == AUTH_LOCAL_STATE_ERROR || client->rmt_state == AUTH_RMT_STATE_ERROR) { client->rmt_auth_status = AUTH_STATUS_FAIL; client->phase = AUTH_PHASE_DONE; /* client->dbg_status should already be set. */ } break; case AUTH_PHASE_DONE: break; default: client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } acl_hand_shake(client); return acl_rcv_end_status(client); } const char * acl_get_key_name(int key_type) { /* * Note: The ordering of this table must match the order * defined by enum auth_key_type in iscsi-auth-client.h. */ static char *const key_names[AUTH_KEY_TYPE_MAX_COUNT] = { "AuthMethod", "CHAP_A", "CHAP_N", "CHAP_R", "CHAP_I", "CHAP_C" }; if (key_type < AUTH_KEY_TYPE_FIRST || key_type > AUTH_KEY_TYPE_LAST) return NULL; return key_names[key_type]; } int acl_get_next_key_type(int *key_type) { if (*key_type >= AUTH_KEY_TYPE_LAST) return AUTH_STATUS_ERROR; if (*key_type < AUTH_KEY_TYPE_FIRST) *key_type = AUTH_KEY_TYPE_FIRST; else (*key_type)++; return AUTH_STATUS_NO_ERROR; } int acl_recv_key_value(struct iscsi_acl *client, int key_type, const char *user_key_val) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_NEGOTIATE && client->phase != AUTH_PHASE_AUTHENTICATE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } if (key_type < AUTH_KEY_TYPE_FIRST || key_type > AUTH_KEY_TYPE_LAST) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } if (key_type == AUTH_KEY_TYPE_CHAP_CHALLENGE) { client->recv_chap_challenge.length = AUTH_LARGE_BINARY_MAX_LEN; client->recv_chap_challenge_status = acl_text_to_data(user_key_val, client->recv_chap_challenge.large_binary, &client->recv_chap_challenge.length); user_key_val = ""; } acl_set_key_value(&client->recv_key_block, key_type, user_key_val); return AUTH_STATUS_NO_ERROR; } int acl_send_key_val(struct iscsi_acl *client, int key_type, int *key_present, char *user_key_val, unsigned int max_length) { const char *key_val; if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_CONFIGURE && client->phase != AUTH_PHASE_NEGOTIATE && client->phase != AUTH_PHASE_AUTHENTICATE && client->phase != AUTH_PHASE_DONE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } if (key_type < AUTH_KEY_TYPE_FIRST || key_type > AUTH_KEY_TYPE_LAST) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } key_val = acl_get_key_val(&client->send_key_block, key_type); if (key_val) { if (key_type == AUTH_KEY_TYPE_CHAP_CHALLENGE) { if (acl_data_to_text(client->send_chap_challenge.large_binary, client->send_chap_challenge.length, user_key_val, max_length)) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } } else if (strlcpy(user_key_val, key_val, max_length) >= max_length) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } *key_present = 1; } else *key_present = 0; return AUTH_STATUS_NO_ERROR; } int acl_recv_transit_bit(struct iscsi_acl *client, int value) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_NEGOTIATE && client->phase != AUTH_PHASE_AUTHENTICATE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } if (value) client->recv_key_block.transit_bit = 1; else client->recv_key_block.transit_bit = 0; return AUTH_STATUS_NO_ERROR; } int acl_send_transit_bit(struct iscsi_acl *client, int *value) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_CONFIGURE && client->phase != AUTH_PHASE_NEGOTIATE && client->phase != AUTH_PHASE_AUTHENTICATE && client->phase != AUTH_PHASE_DONE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } *value = client->send_key_block.transit_bit; return AUTH_STATUS_NO_ERROR; } static int acl_set_option_list(struct iscsi_acl *client, unsigned int opt_count, const int *opt_list, unsigned int *clnt_optn_count, int *clnt_optn_list, unsigned int optn_max_count, int (*chk_option)(int), int (*chk_list)(unsigned int opt_count, const int *opt_list)) { unsigned int i, j; if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_CONFIGURE || opt_count > optn_max_count) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } for (i = 0; i < opt_count; i++) if (chk_option(opt_list[i])) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } /* Check for duplicate entries. */ for (i = 0; i < opt_count; i++) for (j = 0; j < opt_count; j++) { if (j == i) continue; if (opt_list[i] == opt_list[j]) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } } /* Check for key specific constraints. */ if (chk_list) if (chk_list(opt_count, opt_list)) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } for (i = 0; i < opt_count; i++) clnt_optn_list[i] = opt_list[i]; *clnt_optn_count = opt_count; return AUTH_STATUS_NO_ERROR; } static int acl_chk_auth_method_list(unsigned int option_count, const int *option_list) { unsigned int i; if (!option_list || option_count < 2) return 1; if (option_list[option_count - 1] != AUTH_OPTION_NONE) return 1; for (i = 0; i < (option_count - 1); i++) if (option_list[i] != AUTH_OPTION_NONE) return 0; return 0; } static void acl_set_auth_method_valid(struct iscsi_acl *client) { unsigned int i, j = 0; int option = 0; /* * Following checks may need to be revised if * authentication options other than CHAP and none * are supported. */ if (client->node_type == TYPE_INITIATOR) { if (client->auth_rmt) /* * If initiator doing authentication, * don't offer authentication option none. */ option = 1; else if (!client->passwd_present) /* * If initiator password not set, * only offer authentication option none. */ option = 2; } if (client->node_type == TYPE_TARGET) { if (client->auth_rmt) /* * If target doing authentication, * don't accept authentication option none. */ option = 1; else /* * If target not doing authentication, * only accept authentication option none. */ option = 2; } for (i = 0; i < client->auth_method_count; i++) { if (option == 1) { if (client->auth_method_list[i] == AUTH_OPTION_NONE) continue; } else if (option == 2) if (client->auth_method_list[i] != AUTH_OPTION_NONE) continue; client->auth_method_valid_list[j++] = client->auth_method_list[i]; } client->auth_method_valid_count = j; acl_init_key_blk(&client->send_key_block); if (client->node_type == TYPE_INITIATOR) { if (client->auth_rmt) { /* * Initiator wants to authenticate target, * always send AuthMethod key. */ client->send_key_block.transit_bit = 0; client->auth_method_valid_neg_role = AUTH_NEG_ROLE_ORIGINATOR; } else { client->send_key_block.transit_bit = 1; client->auth_method_valid_neg_role = client->auth_method_neg_role; } } else { client->send_key_block.transit_bit = 0; client->auth_method_valid_neg_role = AUTH_NEG_ROLE_RESPONDER; } if (client->auth_method_valid_neg_role == AUTH_NEG_ROLE_ORIGINATOR) acl_set_auth_method_key(client, client->auth_method_valid_count, client->auth_method_valid_list); else { int value = AUTH_OPTION_NOT_PRESENT; acl_set_auth_method_key(client, 1, &value); } } static int acl_set_auth_method_list(struct iscsi_acl *client, unsigned int option_count, const int *option_list) { int status; status = acl_set_option_list(client, option_count, option_list, &client->auth_method_count, client->auth_method_list, AUTH_METHOD_MAX_COUNT, acl_chk_auth_mthd_optn, acl_chk_auth_method_list); if (status != AUTH_STATUS_NO_ERROR) return status; /* Setting authMethod affects auth_method_valid. */ acl_set_auth_method_valid(client); return AUTH_STATUS_NO_ERROR; } static int acl_chk_chap_alg_list(unsigned int option_count, const int *option_list) { if (!option_list || option_count < 1) return 1; return 0; } static int acl_set_chap_alg_list(struct iscsi_acl *client, unsigned int option_count, const int *option_list) { return acl_set_option_list(client, option_count, option_list, &client->chap_alg_count, client->chap_alg_list, AUTH_CHAP_ALG_MAX_COUNT, acl_chk_chap_alg_optn, acl_chk_chap_alg_list); } int acl_init(int node_type, int buf_desc_count, struct auth_buffer_desc *buff_desc) { struct iscsi_acl *client; struct auth_str_block *recv_str_blk; struct auth_str_block *send_str_blk; struct auth_large_binary *recv_chap_challenge; struct auth_large_binary *send_chap_challenge; int value_list[2]; if (buf_desc_count != 5 || !buff_desc) return AUTH_STATUS_ERROR; if (!buff_desc[0].address || buff_desc[0].length != sizeof(*client)) return AUTH_STATUS_ERROR; client = (struct iscsi_acl *)buff_desc[0].address; if (!buff_desc[1].address || buff_desc[1].length != sizeof(*recv_str_blk)) return AUTH_STATUS_ERROR; recv_str_blk = (struct auth_str_block *)buff_desc[1].address; if (!buff_desc[2].address || buff_desc[2].length != sizeof(*send_str_blk)) return AUTH_STATUS_ERROR; send_str_blk = (struct auth_str_block *)buff_desc[2].address; if (!buff_desc[3].address || buff_desc[3].length != sizeof(*recv_chap_challenge)) return AUTH_STATUS_ERROR; recv_chap_challenge = (struct auth_large_binary *) buff_desc[3].address; if (!buff_desc[4].address || buff_desc[4].length != sizeof(*send_chap_challenge)) return AUTH_STATUS_ERROR; send_chap_challenge = (struct auth_large_binary *) buff_desc[4].address; memset(client, 0, sizeof(*client)); memset(recv_str_blk, 0, sizeof(*recv_str_blk)); memset(send_str_blk, 0, sizeof(*send_str_blk)); memset(recv_chap_challenge, 0, sizeof(*recv_chap_challenge)); memset(send_chap_challenge, 0, sizeof(*send_chap_challenge)); client->recv_key_block.str_block = recv_str_blk->str_block; client->send_key_block.str_block = send_str_blk->str_block; client->recv_chap_challenge.large_binary = recv_chap_challenge->large_binary; client->send_chap_challenge.large_binary = send_chap_challenge->large_binary; if (node_type != TYPE_INITIATOR && node_type != TYPE_TARGET) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } client->signature = ACL_SIGNATURE; client->node_type = (enum auth_node_type) node_type; client->auth_rmt = 1; client->passwd_present = 0; client->chap_challenge_len = AUTH_CHAP_RSP_LEN; client->ip_sec = 0; client->phase = AUTH_PHASE_CONFIGURE; client->negotiated_auth_method = AUTH_OPTION_NOT_PRESENT; client->negotiated_chap_alg = AUTH_OPTION_NOT_PRESENT; if (client->node_type == TYPE_INITIATOR) client->auth_method_neg_role = AUTH_NEG_ROLE_ORIGINATOR; else /* Initial value ignored for Target. */ client->auth_method_neg_role = AUTH_NEG_ROLE_RESPONDER; value_list[0] = AUTH_METHOD_CHAP; value_list[1] = AUTH_OPTION_NONE; /* * Must call after setting auth_rmt, password, * and auth_method_neg_role */ if (acl_set_auth_method_list(client, 2, value_list) != AUTH_STATUS_NO_ERROR) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } value_list[0] = AUTH_CHAP_ALG_MD5; if (acl_set_chap_alg_list(client, 1, value_list) != AUTH_STATUS_NO_ERROR) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } return AUTH_STATUS_NO_ERROR; } int acl_finish(struct iscsi_acl *client) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; memset(client, 0, sizeof(*client)); return AUTH_STATUS_NO_ERROR; } int acl_set_user_name(struct iscsi_acl *client, const char *username) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_CONFIGURE || acl_chk_string(username, AUTH_STR_MAX_LEN, NULL)) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } if (!username) client->username[0] = '\0'; else if (strlcpy(client->username, username, AUTH_STR_MAX_LEN) >= AUTH_STR_MAX_LEN) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } return AUTH_STATUS_NO_ERROR; } int acl_set_passwd(struct iscsi_acl *client, const unsigned char *passwd_data, unsigned int passwd_length) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_CONFIGURE || passwd_length > AUTH_STR_MAX_LEN) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } memcpy(client->passwd_data, passwd_data, passwd_length); client->passwd_length = passwd_length; client->passwd_present = 1; /* Setting password may affect auth_method_valid. */ acl_set_auth_method_valid(client); return AUTH_STATUS_NO_ERROR; } int acl_set_auth_rmt(struct iscsi_acl *client, int auth_rmt) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_CONFIGURE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } client->auth_rmt = auth_rmt; /* Setting auth_rmt may affect auth_method_valid. */ acl_set_auth_method_valid(client); return AUTH_STATUS_NO_ERROR; } int acl_set_ip_sec(struct iscsi_acl *client, int ip_sec) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_CONFIGURE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } client->ip_sec = ip_sec; return AUTH_STATUS_NO_ERROR; } int acl_get_dbg_status(struct iscsi_acl *client, int *value) { if (!client || client->signature != ACL_SIGNATURE) return AUTH_STATUS_ERROR; if (client->phase != AUTH_PHASE_DONE) { client->phase = AUTH_PHASE_ERROR; return AUTH_STATUS_ERROR; } *value = client->dbg_status; return AUTH_STATUS_NO_ERROR; } const char * acl_dbg_status_to_text(int dbg_status) { /* * Note: The ordering of this table must match the order * defined by enum auth_dbg_status in iscsi-auth-client.h. */ static char *const dbg_text[AUTH_DBG_STATUS_MAX_COUNT] = { "Debug status not set", "Authentication request passed", "Authentication not enabled", "Authentication request failed", "AuthMethod bad", "CHAP algorithm bad", "Decrypt password failed", "Local password too short with no IPSec", "Unexpected error from authentication server", "Authentication request status bad", "Authentication pass status not valid", "Same key set more than once on send", "Key value too long on send", "Too much data on send", "AuthMethod key expected", "CHAP algorithm key expected", "CHAP identifier expected", "CHAP challenge expected", "CHAP response expected", "CHAP username expected", "AuthMethod key not present", "AuthMethod negotiation failed", "AuthMethod negotiated to none", "CHAP algorithm negotiation failed", "CHAP challenge reflected", "Local password same as remote", "Local password not set", "CHAP identifier bad", "CHAP challenge bad", "CHAP response bad", "Unexpected key present", "T bit set on response, but not on previous message", "T bit set on response, but authenticaton not complete", "Message count limit reached on receive", "Same key set more than once on receive", "Key value too long on receive", "Too much data on receive" }; if (dbg_status < 0 || dbg_status >= AUTH_DBG_STATUS_MAX_COUNT) return "Unknown error"; return dbg_text[dbg_status]; } int acl_data(unsigned char *out_data, unsigned int *out_length, unsigned char *in_data, unsigned int in_length) { if (*out_length < in_length) return 1; /* error */ memcpy(out_data, in_data, in_length); *out_length = in_length; return 0; /* no error */ } open-iscsi-2.0.874/usr/auth.h000066400000000000000000000175721277325716400157220ustar00rootroot00000000000000/* * iSCSI Authorization Library * * maintained by open-iscsi@@googlegroups.com * * Originally based on: * Copyright (C) 2001 Cisco Systems, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef AUTH_CLIENT_H #define AUTH_CLIENT_H struct iscsi_session; enum { AUTH_STR_MAX_LEN = 256, AUTH_STR_BLOCK_MAX_LEN = 1024, AUTH_LARGE_BINARY_MAX_LEN = 1024, AUTH_RECV_END_MAX_COUNT = 10, ACL_SIGNATURE = 0x5984B2E3, AUTH_CHAP_RSP_LEN = 16, }; /* * Note: The ordering of these values are chosen to match * the ordering of the keys as shown in the iSCSI spec. * The order of table key_names in acl_get_key_name() * must match the order defined by enum auth_key_type. */ enum auth_key_type { AUTH_KEY_TYPE_NONE = -1, AUTH_KEY_TYPE_FIRST = 0, AUTH_KEY_TYPE_AUTH_METHOD = AUTH_KEY_TYPE_FIRST, AUTH_KEY_TYPE_CHAP_ALG, AUTH_KEY_TYPE_CHAP_USERNAME, AUTH_KEY_TYPE_CHAP_RSP, AUTH_KEY_TYPE_CHAP_IDENTIFIER, AUTH_KEY_TYPE_CHAP_CHALLENGE, AUTH_KEY_TYPE_MAX_COUNT, AUTH_KEY_TYPE_LAST = AUTH_KEY_TYPE_MAX_COUNT - 1 }; enum { /* Common options for all keys. */ AUTH_OPTION_REJECT = -2, AUTH_OPTION_NOT_PRESENT = -1, AUTH_OPTION_NONE = 1, AUTH_METHOD_CHAP = 2, AUTH_METHOD_MAX_COUNT = 2, AUTH_CHAP_ALG_MD5 = 5, AUTH_CHAP_ALG_MAX_COUNT = 2 }; enum auth_neg_role { AUTH_NEG_ROLE_ORIGINATOR = 1, AUTH_NEG_ROLE_RESPONDER = 2 }; enum auth_status { AUTH_STATUS_NO_ERROR = 0, AUTH_STATUS_ERROR, AUTH_STATUS_PASS, AUTH_STATUS_FAIL, AUTH_STATUS_CONTINUE, }; /* * Note: The order of table dbg_text in acl_dbg_status_to_text() * must match the ordered defined by enum auth_dbg_status. */ enum auth_dbg_status { AUTH_DBG_STATUS_NOT_SET = 0, AUTH_DBG_STATUS_AUTH_PASS, AUTH_DBG_STATUS_AUTH_RMT_FALSE, AUTH_DBG_STATUS_AUTH_FAIL, AUTH_DBG_STATUS_AUTH_METHOD_BAD, AUTH_DBG_STATUS_CHAP_ALG_BAD, AUTH_DBG_STATUS_PASSWD_DECRYPT_FAILED, AUTH_DBG_STATUS_PASSWD_TOO_SHORT_WITH_NO_IPSEC, AUTH_DBG_STATUS_AUTH_SERVER_ERROR, AUTH_DBG_STATUS_AUTH_STATUS_BAD, AUTH_DBG_STATUS_AUTHPASS_NOT_VALID, AUTH_DBG_STATUS_SEND_DUP_SET_KEY_VALUE, AUTH_DBG_STATUS_SEND_STR_TOO_LONG, AUTH_DBG_STATUS_SEND_TOO_MUCH_DATA, AUTH_DBG_STATUS_AUTH_METHOD_EXPECTED, AUTH_DBG_STATUS_CHAP_ALG_EXPECTED, AUTH_DBG_STATUS_CHAP_IDENTIFIER_EXPECTED, AUTH_DBG_STATUS_CHAP_CHALLENGE_EXPECTED, AUTH_DBG_STATUS_CHAP_RSP_EXPECTED, AUTH_DBG_STATUS_CHAP_USERNAME_EXPECTED, AUTH_DBG_STATUS_AUTH_METHOD_NOT_PRESENT, AUTH_DBG_STATUS_AUTH_METHOD_REJECT, AUTH_DBG_STATUS_AUTH_METHOD_NONE, AUTH_DBG_STATUS_CHAP_ALG_REJECT, AUTH_DBG_STATUS_CHAP_CHALLENGE_REFLECTED, AUTH_DBG_STATUS_PASSWD_IDENTICAL, AUTH_DBG_STATUS_LOCAL_PASSWD_NOT_SET, AUTH_DBG_STATUS_CHAP_IDENTIFIER_BAD, AUTH_DBG_STATUS_CHALLENGE_BAD, AUTH_DBG_STATUS_CHAP_RSP_BAD, AUTH_DBG_STATUS_UNEXPECTED_KEY_PRESENT, AUTH_DBG_STATUS_T_BIT_SET_ILLEGAL, AUTH_DBG_STATUS_T_BIT_SET_PREMATURE, AUTH_DBG_STATUS_RECV_MSG_COUNT_LIMIT, AUTH_DBG_STATUS_RECV_DUP_SET_KEY_VALUE, AUTH_DBG_STATUS_RECV_STR_TOO_LONG, AUTH_DBG_STATUS_RECV_TOO_MUCH_DATA, AUTH_DBG_STATUS_MAX_COUNT }; enum auth_node_type { TYPE_INITIATOR = 1, TYPE_TARGET = 2 }; enum auth_phase { AUTH_PHASE_CONFIGURE = 1, AUTH_PHASE_NEGOTIATE, AUTH_PHASE_AUTHENTICATE, AUTH_PHASE_DONE, AUTH_PHASE_ERROR }; enum auth_local_state { AUTH_LOCAL_STATE_SEND_ALG = 1, AUTH_LOCAL_STATE_RECV_ALG, AUTH_LOCAL_STATE_RECV_CHALLENGE, AUTH_LOCAL_STATE_DONE, AUTH_LOCAL_STATE_ERROR }; enum auth_rmt_state { AUTH_RMT_STATE_SEND_ALG = 1, AUTH_RMT_STATE_SEND_CHALLENGE, AUTH_RMT_STATE_RECV_RSP, AUTH_RMT_STATE_DONE, AUTH_RMT_STATE_ERROR }; struct auth_buffer_desc { unsigned int length; void *address; }; struct auth_key { unsigned int present:1; unsigned int processed:1; unsigned int value_set:1; char *string; }; struct auth_large_binary_key { unsigned int length; unsigned char *large_binary; }; struct auth_key_block { unsigned int transit_bit:1; unsigned int dup_set:1; unsigned int str_too_long:1; unsigned int too_much_data:1; unsigned int blk_length:16; char *str_block; struct auth_key key[AUTH_KEY_TYPE_MAX_COUNT]; }; struct auth_str_block { char str_block[AUTH_STR_BLOCK_MAX_LEN]; }; struct auth_large_binary { unsigned char large_binary[AUTH_LARGE_BINARY_MAX_LEN]; }; struct iscsi_acl { unsigned long signature; enum auth_node_type node_type; unsigned int auth_method_count; int auth_method_list[AUTH_METHOD_MAX_COUNT]; enum auth_neg_role auth_method_neg_role; unsigned int chap_alg_count; int chap_alg_list[AUTH_CHAP_ALG_MAX_COUNT]; int auth_rmt; char username[AUTH_STR_MAX_LEN]; int passwd_present; unsigned int passwd_length; unsigned char passwd_data[AUTH_STR_MAX_LEN]; unsigned int chap_challenge_len; int ip_sec; unsigned int auth_method_valid_count; int auth_method_valid_list[AUTH_METHOD_MAX_COUNT]; int auth_method_valid_neg_role; int recv_in_progress_flag; int recv_end_count; struct iscsi_session *session_handle; /* * session_handle can only be * used by acl_chap_auth_request */ enum auth_phase phase; enum auth_local_state local_state; enum auth_rmt_state rmt_state; enum auth_status rmt_auth_status; enum auth_dbg_status dbg_status; int negotiated_auth_method; int negotiated_chap_alg; int auth_rsp_flag; int auth_server_error_flag; int transit_bit_sent_flag; unsigned int send_chap_identifier; struct auth_large_binary_key send_chap_challenge; char chap_username[AUTH_STR_MAX_LEN]; int recv_chap_challenge_status; struct auth_large_binary_key recv_chap_challenge; char scratch_key_value[AUTH_STR_MAX_LEN]; struct auth_key_block recv_key_block; struct auth_key_block send_key_block; }; extern int acl_init(int node_type, int buf_desc_count, struct auth_buffer_desc *buff_desc); extern int acl_finish(struct iscsi_acl *client); extern int acl_recv_begin(struct iscsi_acl *client); extern int acl_recv_end(struct iscsi_acl *client, struct iscsi_session *session_handle); extern const char *acl_get_key_name(int key_type); extern int acl_get_next_key_type(int *key_type); extern int acl_recv_key_value(struct iscsi_acl *client, int key_type, const char *user_key_val); extern int acl_send_key_val(struct iscsi_acl *client, int key_type, int *key_present, char *user_key_val, unsigned int max_length); extern int acl_recv_transit_bit(struct iscsi_acl *client, int value); extern int acl_send_transit_bit(struct iscsi_acl *client, int *value); extern int acl_set_user_name(struct iscsi_acl *client, const char *username); extern int acl_set_passwd(struct iscsi_acl *client, const unsigned char *pw_data, unsigned int pw_len); extern int acl_set_auth_rmt(struct iscsi_acl *client, int auth_rmt); extern int acl_set_ip_sec(struct iscsi_acl *client, int ip_sec); extern int acl_get_dbg_status(struct iscsi_acl *client, int *value); extern const char *acl_dbg_status_to_text(int dbg_status); extern enum auth_dbg_status acl_chap_compute_rsp(struct iscsi_acl *client, int rmt_auth, unsigned int id, unsigned char *challenge_data, unsigned int challenge_len, unsigned char *response_data); extern int acl_chap_auth_request(struct iscsi_acl *client, char *username, unsigned int id, unsigned char *challenge_data, unsigned int challenge_length, unsigned char *response_data, unsigned int rsp_length); extern int acl_data(unsigned char *out_data, unsigned int *out_length, unsigned char *in_data, unsigned int in_length); #endif /* #ifndef ISCSIAUTHCLIENT_H */ open-iscsi-2.0.874/usr/be2iscsi.c000066400000000000000000000020671277325716400164500ustar00rootroot00000000000000/* * be2iscsi helpers * * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #include "initiator.h" void be2iscsi_create_conn(struct iscsi_conn *conn) { struct iscsi_session *session = conn->session; if (conn->max_recv_dlength > 65536) conn->max_recv_dlength = 65536; if (session->first_burst > 8192) session->first_burst = 8192; if (session->max_burst > 262144) session->max_burst = 262144; if (conn->max_xmit_dlength > 65536) conn->max_xmit_dlength = 65536; session->erl = 0; session->initial_r2t_en = 1; } open-iscsi-2.0.874/usr/be2iscsi.h000066400000000000000000000002161277325716400164470ustar00rootroot00000000000000#ifndef BE2ISCSI_TRANSPORT #define BE2ISCSI_TRANSPORT struct iscsi_conn; extern void be2iscsi_create_conn(struct iscsi_conn *conn); #endif open-iscsi-2.0.874/usr/config.h000066400000000000000000000220541277325716400162150ustar00rootroot00000000000000/* * iSCSI Configuration * * Copyright (C) 2002 Cisco Systems, Inc. * maintained by linux-iscsi-devel@lists.sourceforge.net * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef CONFIG_H #define CONFIG_H #include #include #include "types.h" #include "auth.h" /* for the username and password sizes */ #include "list.h" #include "iscsi_proto.h" #include "iscsi_net_util.h" /* ISIDs now have a typed naming authority in them. We use an OUI */ #define DRIVER_ISID_0 0x00 #define DRIVER_ISID_1 0x02 #define DRIVER_ISID_2 0x3D /* number of possible connections per session */ #define ISCSI_CONN_MAX 1 /* max len of interface */ #define ISCSI_MAX_IFACE_LEN 65 /* the following structures store the options set in the config file. * a structure is defined for each logically-related group of options. * if you are adding a new option, first check if it should belong * to one of the existing groups. If it does, add it. If not, define * a new structure. */ /* all authentication-related options should be added to this structure. * this structure is per-session, and can be configured * by TargetName but not Subnet. */ struct iscsi_auth_config { unsigned int authmethod; char username[AUTH_STR_MAX_LEN]; unsigned char password[AUTH_STR_MAX_LEN]; unsigned int password_length; char username_in[AUTH_STR_MAX_LEN]; unsigned char password_in[AUTH_STR_MAX_LEN]; unsigned int password_in_length; }; /* all per-connection timeouts go in this structure. * this structure is per-portal, and can be configured * both by TargetName and Subnet. */ struct iscsi_connection_timeout_config { int login_timeout; int logout_timeout; int auth_timeout; int active_timeout; int noop_out_interval; int noop_out_timeout; }; /* all per-session timeouts go in this structure. * this structure is per-session, and can be configured * by TargetName but not by Subnet. */ struct iscsi_session_timeout_config { int replacement_timeout; }; /* all error handling timeouts go in this structure. * this structure is per-portal, and can be configured * both by TargetName and Subnet. */ struct iscsi_error_timeout_config { int abort_timeout; int host_reset_timeout; int lu_reset_timeout; int tgt_reset_timeout; }; /* all TCP options go in this structure. * this structure is per-portal, and can be configured * both by TargetName and Subnet. */ struct iscsi_tcp_config { int window_size; int type_of_service; /* try to set IP TOS bits */ }; struct iscsi_conn_operational_config { int MaxRecvDataSegmentLength; int MaxXmitDataSegmentLength; int HeaderDigest; int DataDigest; int IFMarker; int OFMarker; }; /* all iSCSI operational params go in this structure. * this structure is per-portal, and can be configured * both by TargetName and Subnet. */ struct iscsi_session_operational_config { int DataPDUInOrder; int DataSequenceInOrder; int protocol; int InitialR2T; int ImmediateData; int FirstBurstLength; int MaxBurstLength; int DefaultTime2Wait; int DefaultTime2Retain; int MaxConnections; int MaxOutstandingR2T; int ERL; int FastAbort; }; #define CONFIG_DIGEST_NEVER 0 #define CONFIG_DIGEST_ALWAYS 1 #define CONFIG_DIGEST_PREFER_ON 2 #define CONFIG_DIGEST_PREFER_OFF 3 struct iscsi_sendtargets_config { int reopen_max; int use_discoveryd; int discoveryd_poll_inval; struct iscsi_auth_config auth; struct iscsi_connection_timeout_config conn_timeo; struct iscsi_conn_operational_config conn_conf; struct iscsi_session_operational_config session_conf; }; struct iscsi_isns_config { int use_discoveryd; int discoveryd_poll_inval; }; struct iscsi_slp_config { char *scopes; char *interfaces; /* for multicast, list of interfaces names, * "all", or "none" */ int poll_interval; struct iscsi_auth_config auth; }; typedef enum iscsi_startup { ISCSI_STARTUP_MANUAL, ISCSI_STARTUP_AUTOMATIC, ISCSI_STARTUP_ONBOOT, } iscsi_startup_e; typedef enum discovery_type { DISCOVERY_TYPE_SENDTARGETS, DISCOVERY_TYPE_ISNS, DISCOVERY_TYPE_OFFLOAD_SENDTARGETS, DISCOVERY_TYPE_SLP, DISCOVERY_TYPE_STATIC, DISCOVERY_TYPE_FW, } discovery_type_e; typedef struct conn_rec { iscsi_startup_e startup; char address[NI_MAXHOST]; int port; struct iscsi_tcp_config tcp; struct iscsi_connection_timeout_config timeo; struct iscsi_conn_operational_config iscsi; } conn_rec_t; typedef struct session_rec { int initial_cmdsn; int reopen_max; int xmit_thread_priority; int cmds_max; int queue_depth; int initial_login_retry_max; int nr_sessions; struct iscsi_auth_config auth; struct iscsi_session_timeout_config timeo; struct iscsi_error_timeout_config err_timeo; struct iscsi_session_operational_config iscsi; struct session_info *info; unsigned sid; /* * This is a flag passed to iscsid. If set, multiple sessions are * allowed to be initiated on this record */ unsigned char multiple; char boot_root[BOOT_NAME_MAXLEN]; char boot_nic[BOOT_NAME_MAXLEN]; char boot_target[BOOT_NAME_MAXLEN]; } session_rec_t; #define ISCSI_TRANSPORT_NAME_MAXLEN 16 #define ISCSI_MAX_STR_LEN 80 typedef struct iface_rec { struct list_head list; /* iscsi iface record name */ char name[ISCSI_MAX_IFACE_LEN]; uint32_t iface_num; /* network layer iface name (eth0) */ char netdev[IFNAMSIZ]; char ipaddress[NI_MAXHOST]; char subnet_mask[NI_MAXHOST]; char gateway[NI_MAXHOST]; char bootproto[ISCSI_MAX_STR_LEN]; char ipv6_linklocal[NI_MAXHOST]; char ipv6_router[NI_MAXHOST]; char ipv6_autocfg[NI_MAXHOST]; char linklocal_autocfg[NI_MAXHOST]; char router_autocfg[NI_MAXHOST]; uint16_t vlan_id; uint8_t vlan_priority; char vlan_state[ISCSI_MAX_STR_LEN]; char state[ISCSI_MAX_STR_LEN]; /* 0 = disable, * 1 = enable */ uint16_t mtu; uint16_t port; char delayed_ack[ISCSI_MAX_STR_LEN]; char nagle[ISCSI_MAX_STR_LEN]; char tcp_wsf_state[ISCSI_MAX_STR_LEN]; uint8_t tcp_wsf; uint8_t tcp_timer_scale; char tcp_timestamp[ISCSI_MAX_STR_LEN]; char dhcp_dns[ISCSI_MAX_STR_LEN]; char dhcp_slp_da[ISCSI_MAX_STR_LEN]; char tos_state[ISCSI_MAX_STR_LEN]; uint8_t tos; char gratuitous_arp[ISCSI_MAX_STR_LEN]; char dhcp_alt_client_id_state[ISCSI_MAX_STR_LEN]; char dhcp_alt_client_id[ISCSI_MAX_STR_LEN]; char dhcp_req_vendor_id_state[ISCSI_MAX_STR_LEN]; char dhcp_vendor_id_state[ISCSI_MAX_STR_LEN]; char dhcp_vendor_id[ISCSI_MAX_STR_LEN]; char dhcp_learn_iqn[ISCSI_MAX_STR_LEN]; char fragmentation[ISCSI_MAX_STR_LEN]; char incoming_forwarding[ISCSI_MAX_STR_LEN]; uint8_t ttl; char gratuitous_neighbor_adv[ISCSI_MAX_STR_LEN]; char redirect[ISCSI_MAX_STR_LEN]; char mld[ISCSI_MAX_STR_LEN]; uint32_t flow_label; uint32_t traffic_class; uint8_t hop_limit; uint32_t nd_reachable_tmo; uint32_t nd_rexmit_time; uint32_t nd_stale_tmo; uint8_t dup_addr_detect_cnt; uint32_t router_adv_link_mtu; uint16_t def_task_mgmt_tmo; char header_digest[ISCSI_MAX_STR_LEN]; char data_digest[ISCSI_MAX_STR_LEN]; char immediate_data[ISCSI_MAX_STR_LEN]; char initial_r2t[ISCSI_MAX_STR_LEN]; char data_seq_inorder[ISCSI_MAX_STR_LEN]; char data_pdu_inorder[ISCSI_MAX_STR_LEN]; uint8_t erl; uint32_t max_recv_dlength; uint32_t first_burst_len; uint16_t max_out_r2t; uint32_t max_burst_len; char chap_auth[ISCSI_MAX_STR_LEN]; char bidi_chap[ISCSI_MAX_STR_LEN]; char strict_login_comp[ISCSI_MAX_STR_LEN]; char discovery_auth[ISCSI_MAX_STR_LEN]; char discovery_logout[ISCSI_MAX_STR_LEN]; char port_state[ISCSI_MAX_STR_LEN]; char port_speed[ISCSI_MAX_STR_LEN]; /* * TODO: we may have to make this bigger and interconnect * specific for infiniband */ char hwaddress[ISCSI_HWADDRESS_BUF_SIZE]; char transport_name[ISCSI_TRANSPORT_NAME_MAXLEN]; /* * This is only used for boot now, but the iser guys * can use this for their virtualization idea. */ char alias[TARGET_NAME_MAXLEN + 1]; char iname[TARGET_NAME_MAXLEN + 1]; } iface_rec_t; typedef struct node_rec { struct list_head list; char name[TARGET_NAME_MAXLEN]; int tpgt; iscsi_startup_e startup; int leading_login; session_rec_t session; conn_rec_t conn[ISCSI_CONN_MAX]; iface_rec_t iface; discovery_type_e disc_type; char disc_address[NI_MAXHOST]; int disc_port; } node_rec_t; typedef struct discovery_rec { iscsi_startup_e startup; discovery_type_e type; char address[NI_MAXHOST]; int port; union { struct iscsi_sendtargets_config sendtargets; struct iscsi_slp_config slp; struct iscsi_isns_config isns; } u; } discovery_rec_t; #endif /* CONFIG_H */ open-iscsi-2.0.874/usr/cxgbi.c000066400000000000000000000014611277325716400160360ustar00rootroot00000000000000/* * cxgb3i/cxgb4i helpers * * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #include "initiator.h" void cxgbi_create_conn(struct iscsi_conn *conn) { /* card can handle up to 15360 bytes */ if (conn->max_recv_dlength > 8192) conn->max_recv_dlength = 8192; } open-iscsi-2.0.874/usr/cxgbi.h000066400000000000000000000002051277325716400160360ustar00rootroot00000000000000#ifndef CXGBI_TRANSPORT #define CXGBI_TRANSPORT struct iscsi_conn; extern void cxgbi_create_conn(struct iscsi_conn *conn); #endif open-iscsi-2.0.874/usr/discovery.c000066400000000000000000001264511277325716400167600ustar00rootroot00000000000000/* * iSCSI Discovery * * Copyright (C) 2002 Cisco Systems, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "strings.h" #include "types.h" #include "iscsi_proto.h" #include "initiator.h" #include "log.h" #include "idbm.h" #include "iscsi_settings.h" #include "sysdeps.h" #include "fw_context.h" #include "iscsid_req.h" #include "iscsi_util.h" #include "transport.h" #include "iscsi_sysfs.h" #include "iscsi_ipc.h" #include "iface.h" #include "iscsi_timer.h" #include "iscsi_err.h" /* libisns includes */ #include #include #include #ifdef SLP_ENABLE #include "iscsi-slp-discovery.h" #endif #define DISCOVERY_NEED_RECONNECT 0xdead0001 static char initiator_name[TARGET_NAME_MAXLEN + 1]; static char initiator_alias[TARGET_NAME_MAXLEN + 1]; static struct iscsi_ev_context ipc_ev_context; static int request_initiator_name(void) { int rc; iscsiadm_req_t req; iscsiadm_rsp_t rsp; memset(initiator_name, 0, sizeof(initiator_name)); initiator_name[0] = '\0'; memset(initiator_alias, 0, sizeof(initiator_alias)); initiator_alias[0] = '\0'; memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_CONFIG_INAME; rc = iscsid_exec_req(&req, &rsp, 1); if (rc) return rc; if (rsp.u.config.var[0] != '\0') strcpy(initiator_name, rsp.u.config.var); memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_CONFIG_IALIAS; rc = iscsid_exec_req(&req, &rsp, 0); if (rc) /* alias is optional so return ok */ return 0; if (rsp.u.config.var[0] != '\0') strcpy(initiator_alias, rsp.u.config.var); return 0; } void discovery_isns_free_servername(void) { if (isns_config.ic_server_name) free(isns_config.ic_server_name); isns_config.ic_server_name = NULL; } int discovery_isns_set_servername(char *address, int port) { char *server; int len; if (port > USHRT_MAX) { log_error("Invalid port %d", port); return ISCSI_ERR_INVAL; } /* 5 for port and 1 for colon and 1 for null */ len = strlen(address) + 7; server = calloc(1, len); if (!server) return ISCSI_ERR_NOMEM; snprintf(server, len, "%s:%d", address, port); isns_assign_string(&isns_config.ic_server_name, server); free(server); return 0; } int discovery_isns_query(struct discovery_rec *drec, const char *iname, const char *targetname, struct list_head *rec_list) { isns_attr_list_t key_attrs = ISNS_ATTR_LIST_INIT; isns_object_list_t objects = ISNS_OBJECT_LIST_INIT; isns_source_t *source; isns_simple_t *qry; isns_client_t *clnt; uint32_t status; int rc, i; isns_config.ic_security = 0; source = isns_source_create_iscsi(iname); if (!source) return ISCSI_ERR_NOMEM; clnt = isns_create_client(NULL, iname); if (!clnt) { rc = ISCSI_ERR_NOMEM; goto free_src; } /* do not retry forever */ isns_socket_set_disconnect_fatal(clnt->ic_socket); if (targetname) isns_attr_list_append_string(&key_attrs, ISNS_TAG_ISCSI_NAME, targetname); else /* Query for all visible targets */ isns_attr_list_append_uint32(&key_attrs, ISNS_TAG_ISCSI_NODE_TYPE, ISNS_ISCSI_TARGET_MASK); qry = isns_create_query2(clnt, &key_attrs, source); if (!qry) { rc = ISCSI_ERR_NOMEM; goto free_clnt; } isns_query_request_attr_tag(qry, ISNS_TAG_ISCSI_NAME); isns_query_request_attr_tag(qry, ISNS_TAG_ISCSI_NODE_TYPE); isns_query_request_attr_tag(qry, ISNS_TAG_PORTAL_IP_ADDRESS); isns_query_request_attr_tag(qry, ISNS_TAG_PORTAL_TCP_UDP_PORT); isns_query_request_attr_tag(qry, ISNS_TAG_PG_ISCSI_NAME); isns_query_request_attr_tag(qry, ISNS_TAG_PG_PORTAL_IP_ADDR); isns_query_request_attr_tag(qry, ISNS_TAG_PG_PORTAL_TCP_UDP_PORT); isns_query_request_attr_tag(qry, ISNS_TAG_PG_TAG); status = isns_client_call(clnt, &qry); switch (status) { case ISNS_SUCCESS: break; case ISNS_SOURCE_UNKNOWN: /* server requires that we are registered but we are not */ rc = ISCSI_ERR_ISNS_REG_FAILED; goto free_query; default: log_error("iSNS discovery failed: %s", isns_strerror(status)); rc = ISCSI_ERR_ISNS_QUERY; goto free_query; } status = isns_query_response_get_objects(qry, &objects); if (status) { log_error("Unable to extract object list from query " "response: %s", isns_strerror(status)); rc = ISCSI_ERR; goto free_query; } for (i = 0; i < objects.iol_count; ++i) { isns_object_t *obj = objects.iol_data[i]; const char *pg_tgt = NULL; struct in6_addr in_addr; uint32_t pg_port = ISCSI_LISTEN_PORT; uint32_t pg_tag = PORTAL_GROUP_TAG_UNKNOWN; char pg_addr[INET6_ADDRSTRLEN + 1]; struct node_rec *rec; if (!isns_object_is_pg(obj)) continue; if (!isns_object_get_string(obj, ISNS_TAG_PG_ISCSI_NAME, &pg_tgt)) { log_debug(1, "Missing target name"); continue; } if (!isns_object_get_ipaddr(obj, ISNS_TAG_PG_PORTAL_IP_ADDR, &in_addr)) { log_debug(1, "Missing addr"); continue; } if (IN6_IS_ADDR_V4MAPPED(&in_addr) || IN6_IS_ADDR_V4COMPAT(&in_addr)) { struct in_addr ipv4; ipv4.s_addr = in_addr.s6_addr32[3]; inet_ntop(AF_INET, &ipv4, pg_addr, sizeof(pg_addr)); } else inet_ntop(AF_INET6, &in_addr, pg_addr, sizeof(pg_addr)); if (!isns_object_get_uint32(obj, ISNS_TAG_PG_PORTAL_TCP_UDP_PORT, &pg_port)) { log_debug(1, "Missing port"); continue; } if (!isns_object_get_uint32(obj, ISNS_TAG_PG_TAG, &pg_tag)) { log_debug(1, "Missing tag"); continue; } rec = calloc(1, sizeof(*rec)); if (!rec) { rc = ISCSI_ERR_NOMEM; goto destroy_list; } idbm_node_setup_from_conf(rec); if (drec) { rec->disc_type = drec->type; rec->disc_port = drec->port; strcpy(rec->disc_address, drec->address); } strlcpy(rec->name, pg_tgt, TARGET_NAME_MAXLEN); rec->tpgt = pg_tag; rec->conn[0].port = pg_port; strlcpy(rec->conn[0].address, pg_addr, NI_MAXHOST); list_add_tail(&rec->list, rec_list); } rc = 0; isns_flush_events(); destroy_list: isns_object_list_destroy(&objects); free_query: isns_simple_free(qry); free_clnt: isns_client_destroy(clnt); free_src: isns_source_release(source); return rc; } /* * discovery_isns_reg_node - register/deregister node * @iname: initiator name * @reg: bool indicating if we are supposed to register or deregister node. * * We do a very simple registration just so we can query. */ static int discovery_isns_reg_node(const char *iname, int op_reg) { isns_simple_t *reg; isns_client_t *clnt; isns_source_t *source; int rc = 0, status; isns_config.ic_security = 0; log_debug(1, "trying to %s %s with iSNS server.", op_reg ? "register" : "deregister", iname); source = isns_source_create_iscsi(iname); if (!source) return ISCSI_ERR_NOMEM; clnt = isns_create_client(NULL, iname); if (!clnt) { rc = ISCSI_ERR_NOMEM; goto free_src; } reg = isns_simple_create(op_reg ? ISNS_DEVICE_ATTRIBUTE_REGISTER : ISNS_DEVICE_DEREGISTER, source, NULL); if (!reg) { rc = ISCSI_ERR_NOMEM; goto free_clnt; } isns_attr_list_append_string(®->is_operating_attrs, ISNS_TAG_ISCSI_NAME, iname); if (op_reg) isns_attr_list_append_uint32(®->is_operating_attrs, ISNS_TAG_ISCSI_NODE_TYPE, ISNS_ISCSI_INITIATOR_MASK); status = isns_client_call(clnt, ®); if (status != ISNS_SUCCESS) { log_error("Could not %s %s with iSNS server: %s.", reg ? "register" : "deregister", iname, isns_strerror(status)); rc = ISCSI_ERR_ISNS_REG_FAILED; } else log_debug(1, "%s %s with iSNS server successful.", op_reg ? "register" : "deregister", iname); free_clnt: isns_client_destroy(clnt); free_src: isns_source_release(source); return rc; } int discovery_isns(void *data, struct iface_rec *iface, struct list_head *rec_list) { struct discovery_rec *drec = data; char *iname; int rc, registered = 0; if (iface && strlen(iface->iname)) iname = iface->iname; else { rc = request_initiator_name(); if (rc) { log_error("Cannot perform discovery. Initiatorname " "required."); return rc; } else if (initiator_name[0] == '\0') { log_error("Cannot perform discovery. Invalid " "Initiatorname."); return ISCSI_ERR_INVAL; } iname = initiator_name; } rc = discovery_isns_set_servername(drec->address, drec->port); if (rc) return rc; retry: rc = discovery_isns_query(drec, iname, NULL, rec_list); if (!registered && rc == ISCSI_ERR_ISNS_REG_FAILED) { rc = discovery_isns_reg_node(iname, 1); if (!rc) { registered = 1; goto retry; } } if (registered) discovery_isns_reg_node(iname, 0); discovery_isns_free_servername(); return rc; } int discovery_fw(void *data, struct iface_rec *iface, struct list_head *rec_list) { struct discovery_rec *drec = data; struct boot_context *bcontext; struct list_head targets; struct node_rec *rec; int rc; INIT_LIST_HEAD(&targets); rc = fw_get_targets(&targets); if (rc) { log_error("Could not get list of targets from firmware. " "(err %d)", rc); return rc; } if (list_empty(&targets)) return 0; /* * TODO: Do we want to match the iface MAC/netdev with what is in * the firmware or could the user want to bind based on what is * in passed in or in the default ifaces? */ list_for_each_entry(bcontext, &targets, list) { rec = idbm_create_rec_from_boot_context(bcontext); if (!rec) { log_error("Could not convert firmware info to " "node record."); rc = ISCSI_ERR_NOMEM; goto free_targets; } rec->disc_type = drec->type; list_add_tail(&rec->list, rec_list); } free_targets: fw_free_targets(&targets); return rc; } int discovery_offload_sendtargets(int host_no, int do_login, discovery_rec_t *drec) { struct sockaddr_storage ss; char default_port[NI_MAXSERV]; iscsiadm_req_t req; iscsiadm_rsp_t rsp; int rc; log_debug(4, "offload st though host %d to %s", host_no, drec->address); memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_SEND_TARGETS; req.u.st.host_no = host_no; req.u.st.do_login = do_login; /* resolve the DiscoveryAddress to an IP address */ sprintf(default_port, "%d", drec->port); rc = resolve_address(drec->address, default_port, &ss); if (rc) return rc; req.u.st.ss = ss; /* * We only know how ask qla4xxx to do discovery and login * to what it finds. We are not able to get what it finds or * is able to log into so we just send the command and proceed. * * There is a way to just use the hw to send a sendtargets command * and get back the results. We should do this since it would * allows us to then process the results like software iscsi. */ rc = iscsid_exec_req(&req, &rsp, 1); if (rc) { log_error("Could not offload sendtargets to %s.", drec->address); iscsi_err_print_msg(rc); return rc; } return 0; } static int iscsi_make_text_pdu(iscsi_session_t *session, struct iscsi_hdr *hdr, char *data, int max_data_length) { struct iscsi_text *text_pdu = (struct iscsi_text *)hdr; /* initialize the PDU header */ memset(text_pdu, 0, sizeof (*text_pdu)); text_pdu->opcode = ISCSI_OP_TEXT; text_pdu->itt = htonl(session->itt); text_pdu->ttt = ISCSI_RESERVED_TAG; text_pdu->cmdsn = htonl(session->cmdsn++); text_pdu->exp_statsn = htonl(session->conn[0].exp_statsn); return 1; } static int request_targets(iscsi_session_t *session) { char data[64]; struct iscsi_text text; struct iscsi_hdr *hdr = (struct iscsi_hdr *) &text; memset(&text, 0, sizeof (text)); memset(data, 0, sizeof (data)); /* make a text PDU with SendTargets=All */ if (!iscsi_make_text_pdu(session, hdr, data, sizeof (data))) { log_error("failed to make a SendTargets PDU"); return 0; } if (!iscsi_add_text(hdr, data, sizeof (data), "SendTargets", "All")) { log_error("failed to add SendTargets text key"); return 0; } text.ttt = ISCSI_RESERVED_TAG; text.flags = ISCSI_FLAG_CMD_FINAL; if (!iscsi_io_send_pdu(&session->conn[0], hdr, ISCSI_DIGEST_NONE, data, ISCSI_DIGEST_NONE, session->conn[0].active_timeout)) { log_error("failed to send SendTargets PDU"); return 0; } return 1; } static int iterate_targets(iscsi_session_t *session, uint32_t ttt) { char data[64]; struct iscsi_text text; struct iscsi_hdr *pdu = (struct iscsi_hdr *) &text; memset(&text, 0, sizeof (text)); memset(data, 0, sizeof (data)); /* make an empty text PDU */ if (!iscsi_make_text_pdu(session, pdu, data, sizeof (data))) { log_error("failed to make an empty text PDU"); return 0; } text.ttt = ttt; text.flags = ISCSI_FLAG_CMD_FINAL; if (!iscsi_io_send_pdu(&session->conn[0], pdu, ISCSI_DIGEST_NONE, data, ISCSI_DIGEST_NONE, session->conn[0].active_timeout)) { log_error("failed to send empty text PDU"); return 0; } return 1; } static int add_portal(struct list_head *rec_list, discovery_rec_t *drec, char *targetname, char *address, char *port, char *tag) { struct sockaddr_storage ss; struct node_rec *rec; if (resolve_address(address, port, &ss)) { log_error("cannot resolve %s", address); return 0; } rec = calloc(1, sizeof(*rec)); if (!rec) return 0; idbm_node_setup_from_conf(rec); rec->disc_type = drec->type; rec->disc_port = drec->port; strcpy(rec->disc_address, drec->address); strlcpy(rec->name, targetname, TARGET_NAME_MAXLEN); if (tag && *tag) rec->tpgt = atoi(tag); else rec->tpgt = PORTAL_GROUP_TAG_UNKNOWN; if (port && *port) rec->conn[0].port = atoi(port); else rec->conn[0].port = ISCSI_LISTEN_PORT; strlcpy(rec->conn[0].address, address, NI_MAXHOST); list_add_tail(&rec->list, rec_list); return 1; } static int add_target_record(char *name, char *end, discovery_rec_t *drec, struct list_head *rec_list) { char *text = NULL; char *nul = name; size_t length; /* address = IPv4 * address = [IPv6] * address = DNSname * address = IPv4:port * address = [IPv6]:port * address = DNSname:port * address = IPv4,tag * address = [IPv6],tag * address = DNSname,tag * address = IPv4:port,tag * address = [IPv6]:port,tag * address = DNSname:port,tag */ log_debug(7, "adding target record %p, end %p", name, end); /* find the end of the name */ while ((nul < end) && (*nul != '\0')) nul++; length = nul - name; if (length > TARGET_NAME_MAXLEN) { log_error("TargetName %s too long, ignoring", name); return 0; } text = name + length; /* skip NULs after the name */ while ((text < end) && (*text == '\0')) text++; /* if no address is provided, use the default */ if (text >= end) { if (drec->address == NULL) { log_error("no default address known for target %s", name); return 0; } else { char default_port[NI_MAXSERV]; sprintf(default_port, "%d", drec->port); if (!add_portal(rec_list, drec, name, drec->address, default_port, NULL)) { log_error("failed to add default portal, " "ignoring target %s", name); return 0; } } /* finished adding the default */ return 1; } /* process TargetAddresses */ while (text < end) { char *next = text + strlen(text) + 1; log_debug(7, "text %p, next %p, end %p, %s", text, next, end, text); if (strncmp(text, "TargetAddress=", 14) == 0) { char *port = NULL; char *tag = NULL; char *address = text + 14; char *temp; if ((tag = strrchr(text, ','))) { *tag = '\0'; tag++; } if ((port = strrchr(text, ':'))) { *port = '\0'; port++; } if (*address == '[') { address++; if ((temp = strrchr(text, ']'))) *temp = '\0'; } if (!add_portal(rec_list, drec, name, address, port, tag)) { log_error("failed to add default portal, " "ignoring target %s", name); return 0; } } else log_error("unexpected SendTargets data: %s", text); text = next; } return 1; } static int process_sendtargets_response(struct str_buffer *sendtargets, int final, discovery_rec_t *drec, struct list_head *rec_list) { char *start = str_buffer_data(sendtargets); char *text = start; char *end = text + str_data_length(sendtargets); char *nul = end - 1; char *record = NULL; int num_targets = 0; if (start == end) { /* no SendTargets data */ goto done; } /* scan backwards to find the last NUL in the data, to ensure we * don't walk off the end. Since key=value pairs can span PDU * boundaries, we're not guaranteed that the end of the data has a * NUL. */ while ((nul > start) && *nul) nul--; if (nul == start) { /* couldn't find anything we can process now, * it's one big partial string */ goto done; } /* find the boundaries between target records (TargetName or final PDU) */ for (;;) { /* skip NULs */ while ((text < nul) && (*text == '\0')) text++; if (text == nul) break; log_debug(7, "processing sendtargets record %p, text %p, line %s", record, text, text); /* look for the start of a new target record */ if (strncmp(text, "TargetName=", 11) == 0) { if (record) { /* send the last record, which we just found * the end of. don't bother passing the * "TargetName=" prefix. */ if (!add_target_record(record + 11, text, drec, rec_list)) { log_error( "failed to add target record"); str_truncate_buffer(sendtargets, 0); goto done; } num_targets++; } record = text; } /* everything up til the next NUL must be part of the * current target record */ while ((text < nul) && (*text != '\0')) text++; } if (record) { if (final) { /* if this is the last PDU of the text sequence, * it also ends a target record */ log_debug(7, "processing final sendtargets record %p, " "line %s", record, record); if (add_target_record (record + 11, text, drec, rec_list)) { num_targets++; record = NULL; str_truncate_buffer(sendtargets, 0); } else { log_error("failed to add target record"); str_truncate_buffer(sendtargets, 0); goto done; } } else { /* remove the parts of the sendtargets buffer we've * processed, and move the parts we haven't to the * beginning of the buffer. */ log_debug(7, "processed %d bytes of sendtargets data, " "%d remaining", (int)(record - str_buffer_data(sendtargets)), (int)(str_buffer_data(sendtargets) + str_data_length(sendtargets) - record)); str_remove_initial(sendtargets, record - str_buffer_data(sendtargets)); } } done: return 1; } static void iscsi_free_session(struct iscsi_session *session) { list_del_init(&session->list); free(session); } static iscsi_session_t * iscsi_alloc_session(struct iscsi_sendtargets_config *config, struct iface_rec *iface, int *rc) { iscsi_session_t *session; *rc = 0; session = calloc(1, sizeof (*session)); if (session == NULL) { *rc = ISCSI_ERR_NOMEM; return NULL; } session->t = iscsi_sysfs_get_transport_by_name(iface->transport_name); if (!session->t) { log_error("iSCSI driver %s is not loaded. Load the module " "then retry the command.", iface->transport_name); *rc = ISCSI_ERR_TRANS_NOT_FOUND; goto fail; } INIT_LIST_HEAD(&session->list); /* initialize the session's leading connection */ session->conn[0].id = 0; session->conn[0].socket_fd = -1; session->conn[0].session = session; session->conn[0].login_timeout = config->conn_timeo.login_timeout; session->conn[0].auth_timeout = config->conn_timeo.auth_timeout; session->conn[0].active_timeout = config->conn_timeo.active_timeout; session->conn[0].noop_out_timeout = 0; session->conn[0].noop_out_interval = 0; session->reopen_cnt = config->reopen_max + 1; iscsi_copy_operational_params(&session->conn[0], &config->session_conf, &config->conn_conf); /* OUI and uniqifying number */ session->isid[0] = DRIVER_ISID_0; session->isid[1] = DRIVER_ISID_1; session->isid[2] = DRIVER_ISID_2; session->isid[3] = 0; session->isid[4] = 0; session->isid[5] = 0; if (strlen(iface->iname)) { strcpy(initiator_name, iface->iname); /* MNC TODO add iface alias */ } else { *rc = request_initiator_name(); if (*rc) { log_error("Cannot perform discovery. Initiatorname " "required."); goto fail; } else if (initiator_name[0] == '\0') { log_error("Cannot perform discovery. Invalid " "Initiatorname."); *rc = ISCSI_ERR_INVAL; goto fail; } } iface_copy(&session->nrec.iface, iface); session->initiator_name = initiator_name; session->initiator_alias = initiator_alias; session->portal_group_tag = PORTAL_GROUP_TAG_UNKNOWN; session->type = ISCSI_SESSION_TYPE_DISCOVERY; session->id = -1; /* setup authentication variables for the session*/ *rc = iscsi_setup_authentication(session, &config->auth); if (*rc) goto fail; list_add_tail(&session->list, &session->t->sessions); return session; fail: free(session); return NULL; } static int process_recvd_pdu(struct iscsi_hdr *pdu, discovery_rec_t *drec, struct list_head *rec_list, iscsi_session_t *session, struct str_buffer *sendtargets, int *active, int *valid_text, char *data) { int rc=0; switch (pdu->opcode) { case ISCSI_OP_TEXT_RSP:{ struct iscsi_text_rsp *text_response = (struct iscsi_text_rsp *) pdu; int dlength = ntoh24(pdu->dlength); int final = (text_response->flags & ISCSI_FLAG_CMD_FINAL) || (text_response-> ttt == ISCSI_RESERVED_TAG); size_t curr_data_length; log_debug(4, "discovery session to %s:%d received text" " response, %d data bytes, ttt 0x%x, " "final 0x%x", drec->address, drec->port, dlength, ntohl(text_response->ttt), text_response->flags & ISCSI_FLAG_CMD_FINAL); /* mark how much more data in the sendtargets * buffer is now valid */ curr_data_length = str_data_length(sendtargets); if (str_enlarge_data(sendtargets, dlength)) { log_error("Could not allocate memory to " "process SendTargets response."); rc = 0; goto done; } memcpy(str_buffer_data(sendtargets) + curr_data_length, data, dlength); *valid_text = 1; /* process as much as we can right now */ process_sendtargets_response(sendtargets, final, drec, rec_list); if (final) { /* SendTargets exchange is now complete */ *active = 0; /* from now on, after any reconnect, * assume LUNs may have changed */ } else { /* ask for more targets */ if (!iterate_targets(session, text_response->ttt)) { rc = DISCOVERY_NEED_RECONNECT; goto done; } } break; } default: log_warning( "discovery session to %s:%d received " "unexpected opcode 0x%x", drec->address, drec->port, pdu->opcode); rc = DISCOVERY_NEED_RECONNECT; goto done; } done: return(rc); } #if 0 /* Unused */ /* * Make a best effort to logout the session. */ static void iscsi_logout(iscsi_session_t * session) { struct iscsi_logout logout_req; struct iscsi_logout_rsp logout_resp; int rc; /* * Build logout request header */ memset(&logout_req, 0, sizeof (logout_req)); logout_req.opcode = ISCSI_OP_LOGOUT | ISCSI_OP_IMMEDIATE; logout_req.flags = ISCSI_FLAG_CMD_FINAL | (ISCSI_LOGOUT_REASON_CLOSE_SESSION & ISCSI_FLAG_LOGOUT_REASON_MASK); logout_req.itt = htonl(session->itt); if (++session->itt == ISCSI_RESERVED_TAG) session->itt = 1; logout_req.cmdsn = htonl(session->cmdsn); logout_req.exp_statsn = htonl(++session->conn[0].exp_statsn); /* * Send the logout request */ rc = iscsi_io_send_pdu(&session->conn[0],(struct iscsi_hdr *)&logout_req, ISCSI_DIGEST_NONE, NULL, ISCSI_DIGEST_NONE, 3); if (!rc) { log_error( "iscsid: iscsi_logout - failed to send logout PDU."); return; } /* * Read the logout response */ memset(&logout_resp, 0, sizeof(logout_resp)); rc = iscsi_io_recv_pdu(&session->conn[0], (struct iscsi_hdr *)&logout_resp, ISCSI_DIGEST_NONE, NULL, 0, ISCSI_DIGEST_NONE, 1); if (rc < 0) { log_error("iscsid: logout - failed to receive logout resp"); return; } if (logout_resp.response != ISCSI_LOGOUT_SUCCESS) { log_error("iscsid: logout failed - response = 0x%x", logout_resp.response); } } #endif /* Unused */ static void iscsi_destroy_session(struct iscsi_session *session) { struct iscsi_transport *t = session->t; struct iscsi_conn *conn = &session->conn[0]; int rc; if (session->id == -1) return; if (!(t->caps & CAP_TEXT_NEGO)) { iscsi_io_disconnect(&session->conn[0]); goto done; } log_debug(2, "%s ep disconnect", __FUNCTION__); t->template->ep_disconnect(conn); log_debug(2, "stop conn"); rc = ipc->stop_conn(session->t->handle, session->id, conn->id, STOP_CONN_TERM); if (rc) { log_error("Could not stop conn %d:%d cleanly (err %d)", session->id, conn->id, rc); goto done; } log_debug(2, "%s destroy conn", __FUNCTION__); rc = ipc->destroy_conn(session->t->handle, session->id, conn->id); if (rc) { log_error("Could not safely destroy conn %d:%d (err %d)", session->id, conn->id, rc); goto done; } log_debug(2, "%s destroy session", __FUNCTION__); rc = ipc->destroy_session(session->t->handle, session->id); if (rc) log_error("Could not safely destroy session %d (err %d)", session->id, rc); done: if (conn->socket_fd >= 0) { ipc->ctldev_close(); conn->socket_fd = -1; } session->id = -1; } static int iscsi_create_leading_conn(struct iscsi_session *session) { struct iface_rec *iface = &session->nrec.iface; struct iscsi_transport *t = session->t; struct iscsi_conn *conn = &session->conn[0]; uint32_t host_no; int rc, sleep_count = 0; if (!(t->caps & CAP_TEXT_NEGO)) { /* * If the LLD does not support TEXT PDUs then we do * discovery in userspace. */ session->use_ipc = 0; if (!iscsi_io_connect(conn)) return ISCSI_ERR_TRANS; session->id = 1; return 0; } session->use_ipc = 1; /* * for software this is the tcp socket fd set in iscsi_io_connect * and for offload this is the iscsi netlink socket fd */ conn->socket_fd = ipc->ctldev_open(); if (conn->socket_fd < 0) { log_error("Could not open netlink interface (err %d)", errno); return ISCSI_ERR_INTERNAL; } host_no = iscsi_sysfs_get_host_no_from_hwinfo(iface, &rc); if (!rc) { /* * if the netdev or mac was set, then we are going to want * to want to bind the all the conns/eps to a specific host * if offload is used. */ session->conn[0].bind_ep = 1; session->hostno = host_no; } rc = iscsi_host_set_net_params(iface, session); if (rc) { log_error("Could not set host net params (err %d)", rc); if (rc != ISCSI_ERR_AGAIN) rc = ISCSI_ERR_INTERNAL; goto close_ipc; } /* create interconnect endpoint */ log_debug(2, "%s discovery ep connect", __FUNCTION__); rc = t->template->ep_connect(conn, 1); if (rc < 0) { rc = ISCSI_ERR_TRANS; goto close_ipc; } do { rc = t->template->ep_poll(conn, 1); if (rc < 0) { rc = ISCSI_ERR_TRANS; goto disconnect; } else if (rc == 0) { if (sleep_count == conn->login_timeout) { rc = ISCSI_ERR_TRANS_TIMEOUT; goto disconnect; } sleep_count++; sleep(1); } else break; } while (1); log_debug(2, "%s discovery create session", __FUNCTION__); /* create kernel structs */ rc = ipc->create_session(session->t->handle, conn->transport_ep_handle, 1, 32, 1, &session->id, &host_no); if (rc) { log_error("Could not create kernel session (err %d).", rc); rc = ISCSI_ERR_INTERNAL; goto disconnect; } log_debug(2, "%s discovery created session %u", __FUNCTION__, session->id); session->isid[3] = (session->id >> 16) & 0xff; session->isid[4] = (session->id >> 8) & 0xff; session->isid[5] = session->id & 0xff; log_debug(2, "%s discovery create conn", __FUNCTION__); rc = ipc->create_conn(t->handle, session->id, conn->id, &conn->id); if (rc) { log_error("Could not create connection (err %d)", rc); rc = ISCSI_ERR_INTERNAL; goto disconnect; } log_debug(2, "%s discovery bind conn", __FUNCTION__); if (ipc->bind_conn(t->handle, session->id, conn->id, conn->transport_ep_handle, (conn->id == 0), &rc) || rc) { log_error("Could not bind conn %d:%d to session %d, " "(err %d)", session->id, conn->id, session->id, rc); rc = ISCSI_ERR_INTERNAL; goto disconnect; } /* all set */ return 0; disconnect: t->template->ep_disconnect(conn); if (session->id != -1 && iscsi_sysfs_session_has_leadconn(session->id)) { if (ipc->destroy_conn(session->t->handle, session->id, conn->id)) log_error("Could not safely destroy connection %d:%d", session->id, conn->id); } if (session->id != -1) { if (ipc->destroy_session(session->t->handle, session->id)) log_error("Could not safely destroy session %d", session->id); session->id = -1; } close_ipc: if (conn->socket_fd >= 0) { ipc->ctldev_close(); conn->socket_fd = -1; } log_error("Connection to discovery portal %s failed: %s", conn->host, iscsi_err_to_str(rc)); return rc; } static struct iscsi_ev_context * iscsi_ev_context_get(struct iscsi_conn *conn, int ev_size) { log_debug(2, "%s: ev_size %d", __FUNCTION__, ev_size); ipc_ev_context.data = calloc(1, ev_size); if (!ipc_ev_context.data) return NULL; return &ipc_ev_context; } static void iscsi_ev_context_put(struct iscsi_ev_context *ev_context) { if (ev_context->data) free(ev_context->data); ev_context->data = NULL; } static int iscsi_sched_ev_context(struct iscsi_ev_context *ev_context, struct iscsi_conn *conn, unsigned long tmo, int event) { if (event == EV_CONN_RECV_PDU || event == EV_CONN_LOGIN) { conn->recv_context = ev_context; return 0; } return -EIO; } static struct iscsi_ipc_ev_clbk ipc_clbk = { .get_ev_context = iscsi_ev_context_get, .put_ev_context = iscsi_ev_context_put, .sched_ev_context = iscsi_sched_ev_context, }; static int iscsi_wait_for_login(struct iscsi_conn *conn) { struct iscsi_session *session = conn->session; struct iscsi_transport *t = session->t; struct pollfd pfd; struct timeval connection_timer; int timeout, rc; uint32_t conn_state; int status = 0; if (!(t->caps & CAP_LOGIN_OFFLOAD)) return 0; iscsi_timer_set(&connection_timer, conn->active_timeout); /* prepare to poll */ memset(&pfd, 0, sizeof(pfd)); pfd.fd = conn->socket_fd; pfd.events = POLLIN | POLLPRI; timeout = iscsi_timer_msecs_until(&connection_timer); login_repoll: log_debug(4, "discovery login process polling fd %d, " "timeout in %f seconds", pfd.fd, timeout / 1000.0); pfd.revents = 0; rc = poll(&pfd, 1, timeout); log_debug(7, "discovery login process returned from poll, rc %d", rc); if (iscsi_timer_expired(&connection_timer)) { log_warning("Discovery login session timed out."); rc = ISCSI_ERR_INTERNAL; goto done; } if (rc > 0) { if (pfd.revents & (POLLIN | POLLPRI)) { timeout = iscsi_timer_msecs_until(&connection_timer); status = ipc->recv_conn_state(conn, &conn_state); if (status == -EAGAIN) goto login_repoll; else if (status < 0) { rc = ISCSI_ERR_TRANS; goto done; } if (conn_state != ISCSI_CONN_STATE_LOGGED_IN) rc = ISCSI_ERR_TRANS; else rc = 0; goto done; } if (pfd.revents & POLLHUP) { log_warning("discovery session" "terminating after hangup"); rc = ISCSI_ERR_TRANS; goto done; } if (pfd.revents & POLLNVAL) { log_warning("discovery POLLNVAL"); rc = ISCSI_ERR_INTERNAL; goto done; } if (pfd.revents & POLLERR) { log_warning("discovery POLLERR"); rc = ISCSI_ERR_INTERNAL; goto done; } } else if (rc < 0) { log_error("Login poll error"); rc = ISCSI_ERR_INTERNAL; goto done; } done: return rc; } static int iscsi_create_session(struct iscsi_session *session, struct iscsi_sendtargets_config *config, char *data, unsigned int data_len) { struct iscsi_conn *conn = &session->conn[0]; int login_status, rc = 0, login_delay = 0; uint8_t status_class = 0, status_detail = 0; unsigned int login_failures = 0; char serv[NI_MAXSERV]; struct iscsi_transport *t = session->t; set_address: /* * copy the saved address to the session, * undoing any temporary redirect */ conn->saddr = conn->failback_saddr; reconnect: /* fix decrement and test */ if (--session->reopen_cnt < 0) { log_error("connection login retries (reopen_max) %d exceeded", config->reopen_max); goto login_failed; } redirect_reconnect: session->cmdsn = 1; session->itt = 1; session->portal_group_tag = PORTAL_GROUP_TAG_UNKNOWN; /* * On reconnect, just destroy the kernel structs and start over. */ iscsi_destroy_session(session); /* slowly back off the frequency of login attempts */ if (login_failures == 0) login_delay = 0; else if (login_failures < 10) login_delay = 1; /* 10 seconds at 1 sec each */ else if (login_failures < 20) login_delay = 2; /* 20 seconds at 2 sec each */ else if (login_failures < 26) login_delay = 5; /* 30 seconds at 5 sec each */ else if (login_failures < 34) login_delay = 15; /* 60 seconds at 15 sec each */ else login_delay = 60; /* after 2 minutes, try once a minute */ getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), conn->host, sizeof(conn->host), serv, sizeof(serv), NI_NUMERICHOST|NI_NUMERICSERV); if (login_delay) { log_debug(4, "discovery session to %s:%s sleeping for %d " "seconds before next login attempt", conn->host, serv, login_delay); sleep(login_delay); } rc = iscsi_create_leading_conn(session); if (rc) { login_failures++; goto reconnect; } log_debug(1, "connected to discovery address %s", conn->host); log_debug(4, "discovery session to %s:%s starting iSCSI login", conn->host, serv); /* * Need to re-init settings because a previous login could * have set them to what was negotiated for. */ iscsi_copy_operational_params(&session->conn[0], &config->session_conf, &config->conn_conf); if (t->caps & CAP_TEXT_NEGO) { log_debug(2, "%s discovery set params", __FUNCTION__); rc = iscsi_session_set_params(conn); if (rc) { log_error("Could not set iscsi params for conn %d:%d " "(err %d)", session->id, conn->id, rc); rc = ISCSI_ERR_INTERNAL; goto login_failed; } } if ((session->t->caps & CAP_LOGIN_OFFLOAD)) goto start_conn; status_class = 0; status_detail = 0; rc = ISCSI_ERR_LOGIN; memset(data, 0, data_len); login_status = iscsi_login(session, 0, data, data_len, &status_class, &status_detail); switch (login_status) { case LOGIN_OK: case LOGIN_REDIRECT: break; case LOGIN_IO_ERROR: case LOGIN_REDIRECTION_FAILED: /* try again */ log_warning("retrying discovery login to %s", conn->host); login_failures++; goto set_address; default: case LOGIN_FAILED: case LOGIN_NEGOTIATION_FAILED: case LOGIN_AUTHENTICATION_FAILED: case LOGIN_VERSION_MISMATCH: case LOGIN_INVALID_PDU: log_error("discovery login to %s failed, giving up %d", conn->host, login_status); rc = ISCSI_ERR_FATAL_LOGIN; goto login_failed; } /* check the login status */ switch (status_class) { case ISCSI_STATUS_CLS_SUCCESS: log_debug(4, "discovery login success to %s", conn->host); login_failures = 0; break; case ISCSI_STATUS_CLS_REDIRECT: switch (status_detail) { /* the session IP address was changed by the login * library, so just try again with this portal * config but the new address. */ case ISCSI_LOGIN_STATUS_TGT_MOVED_TEMP: log_warning( "discovery login temporarily redirected to " "%s port %s", conn->host, serv); goto redirect_reconnect; case ISCSI_LOGIN_STATUS_TGT_MOVED_PERM: log_warning( "discovery login permanently redirected to " "%s port %s", conn->host, serv); /* make the new address permanent */ memset(&conn->failback_saddr, 0, sizeof(struct sockaddr_storage)); conn->failback_saddr = conn->saddr; goto redirect_reconnect; default: log_error( "discovery login rejected: redirection type " "0x%x not supported", status_detail); goto set_address; } break; case ISCSI_STATUS_CLS_INITIATOR_ERR: switch (status_detail) { case ISCSI_LOGIN_STATUS_AUTH_FAILED: case ISCSI_LOGIN_STATUS_TGT_FORBIDDEN: log_error("discovery login to %s rejected: " "initiator failed authorization", conn->host); rc = ISCSI_ERR_LOGIN_AUTH_FAILED; goto login_failed; default: log_error("discovery login to %s rejected: initiator " "error (%02x/%02x), non-retryable, giving up", conn->host, status_class, status_detail); rc = ISCSI_ERR_FATAL_LOGIN; } goto login_failed; case ISCSI_STATUS_CLS_TARGET_ERR: log_error( "discovery login to %s rejected: " "target error (%02x/%02x)", conn->host, status_class, status_detail); login_failures++; goto reconnect; default: log_error( "discovery login to %s failed, response " "with unknown status class 0x%x, detail 0x%x", conn->host, status_class, status_detail); login_failures++; goto reconnect; } if (!(t->caps & CAP_TEXT_NEGO)) return 0; start_conn: log_debug(2, "%s discovery set neg params", __FUNCTION__); rc = iscsi_session_set_neg_params(conn); if (rc) { log_error("Could not set iscsi params for conn %d:%d (err " "%d)", session->id, conn->id, rc); rc = ISCSI_ERR_INTERNAL; goto login_failed; } log_debug(2, "%s discovery start conn", __FUNCTION__); if (ipc->start_conn(t->handle, session->id, conn->id, &rc) || rc) { log_error("Cannot start conn %d:%d (err %d)", session->id, conn->id, rc); rc = ISCSI_ERR_INTERNAL; goto login_failed; } rc = iscsi_wait_for_login(conn); if (!rc) return 0; login_failed: iscsi_destroy_session(session); return rc; } int discovery_sendtargets(void *fndata, struct iface_rec *iface, struct list_head *rec_list) { discovery_rec_t *drec = fndata; iscsi_session_t *session; struct pollfd pfd; struct iscsi_hdr pdu_buffer; struct iscsi_hdr *pdu = &pdu_buffer; char *data = NULL; int active = 0, valid_text = 0; struct timeval connection_timer; int timeout; int rc = 0; struct str_buffer sendtargets; unsigned int data_len; struct iscsi_sendtargets_config *config = &drec->u.sendtargets; /* initial setup */ log_debug(1, "starting sendtargets discovery, address %s:%d, ", drec->address, drec->port); memset(&pdu_buffer, 0, sizeof (pdu_buffer)); iscsi_timer_clear(&connection_timer); /* allocate a new session, and initialize default values */ session = iscsi_alloc_session(config, iface, &rc); if (rc) return rc; ipc_ev_context.conn = &session->conn[0]; ipc_register_ev_callback(&ipc_clbk); log_debug(4, "sendtargets discovery to %s:%d using " "isid 0x%02x%02x%02x%02x%02x%02x", drec->address, drec->port, session->isid[0], session->isid[1], session->isid[2], session->isid[3], session->isid[4], session->isid[5]); /* allocate data buffers for SendTargets data */ data = malloc(session->conn[0].max_recv_dlength); if (!data) { rc = ISCSI_ERR_NOMEM; goto free_session; } data_len = session->conn[0].max_recv_dlength; str_init_buffer(&sendtargets, 0); /* resolve the DiscoveryAddress to an IP address */ rc = iscsi_setup_portal(&session->conn[0], drec->address, drec->port); if (rc) { log_error("cannot resolve host name %s", drec->address); goto free_sendtargets; } log_debug(4, "discovery timeouts: login %d, reopen_cnt %d, auth %d.", session->conn[0].login_timeout, session->reopen_cnt, session->conn[0].auth_timeout); reconnect: rc = iscsi_create_session(session, &drec->u.sendtargets, data, data_len); if (rc) goto free_sendtargets; /* reinitialize */ str_truncate_buffer(&sendtargets, 0); /* ask for targets */ if (!request_targets(session)) { goto reconnect; } active = 1; /* set timeouts */ iscsi_timer_set(&connection_timer, session->conn[0].active_timeout); /* prepare to poll */ memset(&pfd, 0, sizeof (pfd)); pfd.fd = session->conn[0].socket_fd; pfd.events = POLLIN | POLLPRI; repoll: timeout = iscsi_timer_msecs_until(&connection_timer); /* block until we receive a PDU, a TCP FIN, a TCP RST, * or a timeout */ log_debug(4, "discovery process %s:%d polling fd %d, " "timeout in %f seconds", drec->address, drec->port, pfd.fd, timeout / 1000.0); pfd.revents = 0; rc = poll(&pfd, 1, timeout); log_debug(7, "discovery process to %s:%d returned from poll, rc %d", drec->address, drec->port, rc); if (iscsi_timer_expired(&connection_timer)) { log_warning("Discovery session to %s:%d timed out.", drec->address, drec->port); rc = ISCSI_ERR_TRANS_TIMEOUT; goto reconnect; } if (rc > 0) { if (pfd.revents & (POLLIN | POLLPRI)) { timeout = iscsi_timer_msecs_until(&connection_timer); rc = iscsi_io_recv_pdu(&session->conn[0], pdu, ISCSI_DIGEST_NONE, data, data_len, ISCSI_DIGEST_NONE, timeout); if (rc == -EAGAIN) goto repoll; else if (rc < 0) { log_debug(1, "discovery session to " "%s:%d failed to recv a PDU " "response, terminating", drec->address, drec->port); rc = ISCSI_ERR_PDU_TIMEOUT; goto free_sendtargets; } /* * process iSCSI PDU received */ rc = process_recvd_pdu(pdu, drec, rec_list, session, &sendtargets, &active, &valid_text, data); if (rc == DISCOVERY_NEED_RECONNECT) goto reconnect; /* reset timers after receiving a PDU */ if (active) { iscsi_timer_set(&connection_timer, session->conn[0].active_timeout); goto repoll; } } if (pfd.revents & POLLHUP) { log_warning("discovery session to %s:%d " "terminating after hangup", drec->address, drec->port); rc = ISCSI_ERR_TRANS; goto free_sendtargets; } if (pfd.revents & POLLNVAL) { log_warning("discovery POLLNVAL"); sleep(1); goto reconnect; } if (pfd.revents & POLLERR) { log_warning("discovery POLLERR"); sleep(1); goto reconnect; } } else if (rc < 0) { log_error("poll error"); rc = ISCSI_ERR; goto free_sendtargets; } log_debug(1, "discovery process to %s:%d exiting", drec->address, drec->port); rc = 0; free_sendtargets: str_free_buffer(&sendtargets); free(data); iscsi_destroy_session(session); free_session: iscsi_free_session(session); return rc; } #ifdef SLP_ENABLE int slp_discovery(struct iscsi_slp_config *config) { struct sigaction action; char *pl; unsigned short flag = 0; memset(&action, 0, sizeof (struct sigaction)); action.sa_sigaction = NULL; action.sa_flags = 0; action.sa_handler = SIG_DFL; sigaction(SIGTERM, &action, NULL); sigaction(SIGINT, &action, NULL); sigaction(SIGPIPE, &action, NULL); action.sa_handler = sighup_handler; sigaction(SIGHUP, &action, NULL); if (iscsi_process_should_exit()) { log_debug(1, "slp discovery process %p exiting", discovery); exit(0); } discovery->pid = getpid(); pl = generate_predicate_list(discovery, &flag); while (1) { if (flag == SLP_MULTICAST_ENABLED) { discovery->flag = SLP_MULTICAST_ENABLED; slp_multicast_srv_query(discovery, pl, GENERIC_QUERY); } if (flag == SLP_UNICAST_ENABLED) { discovery->flag = SLP_UNICAST_ENABLED; slp_unicast_srv_query(discovery, pl, GENERIC_QUERY); } sleep(config->poll_interval); } exit(0); } #endif open-iscsi-2.0.874/usr/discovery.h000066400000000000000000000030061277325716400167530ustar00rootroot00000000000000/* * iSCSI discovery * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef DISCOVERY_H #define DISCOVERY_H /* discovery.c */ struct discovery_rec; struct list_head; struct iface_rec; struct node_rec; struct boot_context; extern int discovery_isns_query(struct discovery_rec *drec, const char *iname, const char *targetname, struct list_head *rec_list); extern void discovery_isns_free_servername(void); extern int discovery_isns_set_servername(char *address, int port); extern int discovery_isns(void *data, struct iface_rec *iface, struct list_head *rec_list); extern int discovery_fw(void *data, struct iface_rec *iface, struct list_head *rec_list); extern int discovery_sendtargets(void *data, struct iface_rec *iface, struct list_head *rec_list); extern int discovery_offload_sendtargets(int host_no, int do_login, struct discovery_rec *drec); #endif /* DISCOVERY_H */ open-iscsi-2.0.874/usr/discoveryd.c000066400000000000000000000653261277325716400171270ustar00rootroot00000000000000/* * iSCSI Initiator discovery daemon * * Copyright (C) 2010 Mike Christie * Copyright (C) 2010 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include "discovery.h" #include "idbm.h" #include "list.h" #include "iscsi_proto.h" #include "sysdeps.h" #include "log.h" #include "session_mgmt.h" #include "iscsi_util.h" #include "event_poll.h" #include "iface.h" #include "session_mgmt.h" #include "session_info.h" #include "iscsi_err.h" #include #include #include #include #define DISC_DEF_POLL_INVL 30 static LIST_HEAD(iscsi_targets); static int stop_discoveryd; static LIST_HEAD(isns_initiators); static LIST_HEAD(isns_refresh_list); static char *isns_entity_id = NULL; static uint32_t isns_refresh_interval; static int isns_register_nodes = 1; static void isns_reg_refresh_by_eid_qry(void *data); typedef void (do_disc_and_login_fn)(const char *def_iname, struct discovery_rec *drec, int poll_inval); static int logout_session(void *data, struct list_head *list, struct session_info *info) { struct list_head *rec_list = data; struct node_rec *rec; list_for_each_entry(rec, rec_list, list) { if (iscsi_match_session(rec, info)) return iscsi_logout_portal(info, list); } return -1; } static void discoveryd_stop(void) { struct node_rec *rec, *tmp_rec; int nr_found = 0; if (list_empty(&iscsi_targets)) goto done; /* * User requested to just login and exit. */ if (!stop_discoveryd) goto done; iscsi_logout_portals(&iscsi_targets, &nr_found, 1, logout_session); list_for_each_entry_safe(rec, tmp_rec, &iscsi_targets, list) { list_del(&rec->list); free(rec); } done: exit(0); } static void catch_signal(int signo) { log_debug(1, "%d caught signal -%d...", signo, getpid()); switch (signo) { case SIGTERM: stop_discoveryd = 1; break; default: break; } } static void setup_signal_handler(void) { struct sigaction sa_old; struct sigaction sa_new; sa_new.sa_handler = catch_signal; sigemptyset(&sa_new.sa_mask); sa_new.sa_flags = 0; sigaction(SIGTERM, &sa_new, &sa_old ); } /* * update_sessions - login/logout sessions * @new_rec_list: new target portals recs bound to ifaces * @targetname: if set we only update sessions for this target * @iname: if set we only update session for that initiator * * This will login/logout of portals. When it returns the recs on * new_rec_list will be freed or put on the iscsi_targets list. * * FIXME: if we are hitting a per problem this may be it. With targets * that do a target per lun this could get ugly. */ static void update_sessions(struct list_head *new_rec_list, const char *targetname, const char *iname) { struct node_rec *rec, *tmp_rec; struct list_head stale_rec_list; int nr_found; INIT_LIST_HEAD(&stale_rec_list); /* * Check if a target portal is no longer being sent. * Note: Due to how we reread ifaces this will also detect * changes in ifaces being access through portals. */ list_for_each_entry_safe(rec, tmp_rec, &iscsi_targets, list) { log_debug(7, "Trying to match %s %s to %s %s %s", targetname, iname, rec->name, rec->conn[0].address, rec->iface.name); if (targetname && strcmp(rec->name, targetname)) continue; if (iname) { if (strlen(rec->iface.iname) && strcmp(rec->iface.iname, iname)) continue; else if (strcmp(iname, isns_config.ic_source_name)) continue; } log_debug(5, "Matched %s %s, checking if in new targets.", targetname, iname); if (!idbm_find_rec_in_list(new_rec_list, rec->name, rec->conn[0].address, rec->conn[0].port, &rec->iface)) { log_debug(5, "Not found. Marking for logout"); list_move_tail(&rec->list, &stale_rec_list); } } list_for_each_entry_safe(rec, tmp_rec, new_rec_list, list) { if (!iscsi_check_for_running_session(rec)) iscsi_login_portal_nowait(rec); if (!idbm_find_rec_in_list(&iscsi_targets, rec->name, rec->conn[0].address, rec->conn[0].port, &rec->iface)) { log_debug(5, "%s %s %s %s not on curr target list. " "Adding.", rec->name, rec->conn[0].address, rec->iface.name, rec->iface.iname); list_move_tail(&rec->list, &iscsi_targets); } else { list_del(&rec->list); free(rec); } } if (!list_empty(&stale_rec_list)) { iscsi_logout_portals(&stale_rec_list, &nr_found, 0, logout_session); list_for_each_entry_safe(rec, tmp_rec, &stale_rec_list, list) { list_del(&rec->list); free(rec); } } } static void fork_disc(const char *def_iname, struct discovery_rec *drec, int poll_inval, do_disc_and_login_fn *do_disc_and_login) { pid_t pid; pid = fork(); if (pid == 0) { setup_signal_handler(); do_disc_and_login(def_iname, drec, poll_inval); exit(0); } else if (pid < 0) log_error("Fork failed (err %d - %s). Will not be able " "to perform discovery to %s.", errno, strerror(errno), drec->address); else { shutdown_callback(pid); log_debug(1, "iSCSI disc and login helper pid=%d", pid); reap_inc(); } } struct isns_node_list { isns_source_t *source; struct list_head list; }; /* iSNS */ static int isns_build_objs(isns_portal_info_t *portal_info, isns_object_list_t *objs) { struct isns_node_list *node; isns_object_t *inode, *entity; unsigned int i, nportals = 1; int rc = 0; log_debug(7, "isns_build_objs"); /* we currently just use all portals */ if (isns_portal_is_wildcard(portal_info)) { static isns_portal_info_t *iflist; nportals = isns_get_nr_portals(); log_debug(4, "got %d portals", nportals); if (!nportals) return ISCSI_ERR_NO_OBJS_FOUND; iflist = calloc(nportals, sizeof(isns_portal_info_t)); if (!iflist) { log_error("Unable to allocate %d portals.", nportals); return ISCSI_ERR_NOMEM; } nportals = isns_enumerate_portals(iflist, nportals); if (nportals == 0) { log_error("Unable to enumerate portals - " "no usable interfaces found"); free(iflist); return ISCSI_ERR_NO_OBJS_FOUND; } for (i = 0; i < nportals; ++i) { iflist[i].addr.sin6_port = portal_info->addr.sin6_port; iflist[i].proto = portal_info->proto; } portal_info = iflist; } if (!isns_entity_id) { isns_entity_id = calloc(1, 256); if (!isns_entity_id) return ISCSI_ERR_NOMEM; rc = getnameinfo((struct sockaddr *) &portal_info->addr, sizeof(portal_info->addr), isns_entity_id, 256, NULL, 0, 0); if (rc) { free(isns_entity_id); isns_entity_id = NULL; log_error("Could not get hostname for EID."); return ISCSI_ERR; } } entity = isns_create_entity(ISNS_ENTITY_PROTOCOL_ISCSI, isns_entity_id); if (!entity) { log_error("Could not create iSNS entity."); return ISCSI_ERR_NOMEM; } isns_object_list_append(objs, entity); for (i = 0; i < nportals; ++i, ++portal_info) { isns_object_t *portal; portal = isns_create_portal(portal_info, entity); if (!portal) { rc = ISCSI_ERR_NOMEM; goto fail; } isns_object_list_append(objs, portal); if (!isns_object_set_uint32(portal, ISNS_TAG_SCN_PORT, isns_portal_tcpudp_port(portal_info))) { rc = ISCSI_ERR_INVAL; goto fail; } } list_for_each_entry(node, &isns_initiators, list) { inode = isns_create_storage_node2(node->source, ISNS_ISCSI_INITIATOR_MASK, NULL); if (!inode) { rc = ISCSI_ERR_NOMEM; goto fail; } isns_object_list_append(objs, inode); } return 0; fail: isns_object_list_destroy(objs); return rc; } struct isns_qry_data { const char *iname; const char *targetname; }; static int isns_query_node(void *data, struct iface_rec *iface, struct list_head *recs) { struct isns_qry_data *qry_data = data; int is_def_iname = 0; const char *iname; if (qry_data->iname) { if (!strcmp(qry_data->iname, isns_config.ic_source_name)) is_def_iname = 1; if ((!is_def_iname || strlen(iface->iname)) && strcmp(iface->iname, qry_data->iname)) return 0; iname = qry_data->iname; } else { if (strlen(iface->iname)) iname = iface->iname; else iname = isns_config.ic_source_name; } return discovery_isns_query(NULL, iname, qry_data->targetname, recs); } static int isns_disc_new_portals(const char *targetname, const char *iname) { struct list_head ifaces, rec_list; struct iface_rec *iface, *tmp_iface; struct isns_qry_data qry_data; int rc; INIT_LIST_HEAD(&rec_list); INIT_LIST_HEAD(&ifaces); qry_data.targetname = targetname; qry_data.iname = iname; iface_link_ifaces(&ifaces); rc = idbm_bind_ifaces_to_nodes(isns_query_node, &qry_data, &ifaces, &rec_list); if (rc) { log_error("Could not perform iSNS DevAttrQuery for node %s.", targetname); goto free_ifaces; } update_sessions(&rec_list, targetname, iname); rc = 0; free_ifaces: list_for_each_entry_safe(iface, tmp_iface, &ifaces, list) { list_del(&iface->list); free(iface); } return rc; } static void isns_reg_refresh_with_disc(void *data) { int retries = 0, rc; log_debug(1, "Refresh registration using DevAttrQuery"); /* * it is ok to block here since we are not expecting SCNs * from the server. */ do { /* * Some servers do not support SCNs so we ping * the server by doing discovery. */ rc = isns_disc_new_portals(NULL, NULL); if (rc) { log_debug(4, "Registration refresh using DevAttrQuery " "failed (retires %d) err %d", retries, rc); sleep(1); retries++; continue; } } while (rc && retries < 3); if (rc) /* * Try to reregister from scratch. */ isns_register_nodes = 1; } struct isns_refresh_data { isns_client_t *clnt; isns_simple_t *qry; uint32_t xid; uint32_t interval; time_t start_time; struct list_head list; }; static void isns_free_refresh_data(struct isns_refresh_data *refresh_data) { list_del(&refresh_data->list); if (refresh_data->qry) isns_simple_free(refresh_data->qry); if (refresh_data->clnt) isns_client_destroy(refresh_data->clnt); free(refresh_data); } static struct isns_refresh_data *isns_find_refresh_data(uint32_t xid) { struct isns_refresh_data *refresh_data; list_for_each_entry(refresh_data, &isns_refresh_list, list) { if (refresh_data->xid == xid) return refresh_data; } return NULL; } static void isns_eid_qry_rsp(uint32_t xid, int status, isns_simple_t *rsp) { struct isns_refresh_data *refresh_data; refresh_data = isns_find_refresh_data(xid); if (!refresh_data) { log_error("EID Query respond could not match xid"); return; } if (refresh_data->clnt) { isns_client_destroy(refresh_data->clnt); refresh_data->clnt = NULL; } if (!rsp || status != ISNS_SUCCESS) { log_debug(1, "Registration refresh using eid qry failed: %s", isns_strerror(status)); isns_add_oneshot_timer(2, isns_reg_refresh_by_eid_qry, refresh_data); return; } log_debug(1, "eid qry successful"); refresh_data->start_time = time(NULL); isns_add_oneshot_timer(isns_refresh_interval, isns_reg_refresh_by_eid_qry, refresh_data); } static void isns_reg_refresh_by_eid_qry(void *data) { struct isns_refresh_data *refresh_data = data; isns_attr_list_t qry_key = ISNS_ATTR_LIST_INIT; isns_simple_t *qry; isns_client_t *clnt; int status, timeout; log_debug(1, "Refresh registration using eid qry"); if (refresh_data->start_time + refresh_data->interval <= time(NULL)) { log_error("Could not refresh registration with server " "before registration period. Starting new " "registration."); isns_free_refresh_data(refresh_data); isns_register_nodes = 1; return; } clnt = isns_create_default_client(NULL); if (!clnt) { log_error("iSNS registration refresh failed. Could not " "connect to server."); goto rearm; } refresh_data->clnt = clnt; /* * if a operation has failed we will want to adjust timers * and possibly reregister. */ isns_socket_set_report_failure(clnt->ic_socket); /* * if this is a retry or re-refresh then there will be a qry */ qry = refresh_data->qry; if (qry) goto send; isns_attr_list_append_string(&qry_key, ISNS_TAG_ENTITY_IDENTIFIER, isns_entity_id); qry = isns_create_query(clnt, &qry_key); isns_attr_list_destroy(&qry_key); if (!qry) goto rearm; isns_query_request_attr_tag(qry, ISNS_TAG_ENTITY_PROTOCOL); refresh_data->qry = qry; send: timeout = (refresh_data->start_time + refresh_data->interval) - time(NULL); status = isns_simple_transmit(clnt->ic_socket, qry, NULL, timeout, isns_eid_qry_rsp); if (status == ISNS_SUCCESS) { log_debug(7, "sent eid qry with xid %u", qry->is_xid); refresh_data->xid = qry->is_xid; return; } rearm: if (refresh_data->clnt) { isns_client_destroy(refresh_data->clnt); refresh_data->clnt = NULL; } log_debug(1, "Could not send eid qry to refresh registration."); isns_add_oneshot_timer(2, isns_reg_refresh_by_eid_qry, refresh_data); } static int isns_setup_registration_refresh(isns_simple_t *rsp, int poll_inval) { isns_object_list_t objs = ISNS_OBJECT_LIST_INIT; struct isns_refresh_data *refresh_data; int status, i, rc = 0; uint32_t interval = 0; status = isns_query_response_get_objects(rsp, &objs); if (status) { log_error("Unable to extract object list from " "registration response: %s", isns_strerror(status)); return ISCSI_ERR; } for (i = 0; i < objs.iol_count; ++i) { isns_object_t *obj = objs.iol_data[i]; if (!isns_object_is_entity(obj)) continue; if (isns_object_get_uint32(obj, ISNS_TAG_REGISTRATION_PERIOD, &interval)) break; } if (!interval) goto free_objs; refresh_data = calloc(1, sizeof(*refresh_data)); if (!refresh_data) { rc = ISCSI_ERR_NOMEM; goto free_objs; } INIT_LIST_HEAD(&refresh_data->list); list_add_tail(&refresh_data->list, &isns_refresh_list); refresh_data->start_time = time(NULL); /* * Several servers do not support SCNs properly, so for the * registration period refresh we do a DevAttrQuery for all targets * if the poll_inval is greater than 0. * * If the target does support SCNs then we just send a query * for our entity's protocol. */ /* we cut in half to give us time to handle errors */ isns_refresh_interval = interval / 2; if (!isns_refresh_interval) { log_warning("iSNS Registration Period only %d seconds.", interval); isns_refresh_interval = interval; } refresh_data->interval = interval; if (poll_inval > 0) { /* user wants to override server and do disc */ if (isns_refresh_interval > poll_inval) isns_refresh_interval = poll_inval; isns_add_timer(isns_refresh_interval, isns_reg_refresh_with_disc, refresh_data); } else /* * user wants to use server value so we just ping * with a simple qry */ isns_add_oneshot_timer(isns_refresh_interval, isns_reg_refresh_by_eid_qry, refresh_data); log_debug(5, "Got registration period of %u " "internval. Using interval of %u", interval, isns_refresh_interval); free_objs: isns_flush_events(); isns_object_list_destroy(&objs); return rc; } static void isns_cancel_refresh_timers(void) { isns_cancel_timer(isns_reg_refresh_with_disc, NULL); isns_cancel_timer(isns_reg_refresh_by_eid_qry, NULL); } static int isns_register_objs(isns_client_t *clnt, isns_object_list_t *objs, int poll_inval) { struct isns_node_list *node; isns_object_t *entity = NULL; isns_simple_t *reg; unsigned int i; int status, rc = 0; log_debug(7, "isns_register_objs"); for (i = 0; i < objs->iol_count; ++i) { if (isns_object_is_entity(objs->iol_data[i])) { entity = objs->iol_data[i]; break; } } reg = isns_create_registration(clnt, entity); if (!reg) return ISCSI_ERR_NOMEM; for (i = 0; i < objs->iol_count; ++i) isns_registration_add_object(reg, objs->iol_data[i]); isns_registration_set_replace(reg, 1); status = isns_simple_call(clnt->ic_socket, ®); if (status != ISNS_SUCCESS) { log_error("Could not register with iSNS server: %s", isns_strerror(status)); rc = ISCSI_ERR; goto free_reg; } log_debug(4, "Registered objs"); if (!poll_inval) goto free_reg; rc = isns_setup_registration_refresh(reg, poll_inval); if (rc) goto free_reg; list_for_each_entry(node, &isns_initiators, list) { isns_simple_free(reg); reg = isns_create_scn_registration2(clnt, ISNS_SCN_OBJECT_UPDATED_MASK | ISNS_SCN_OBJECT_ADDED_MASK | ISNS_SCN_OBJECT_REMOVED_MASK | ISNS_SCN_TARGET_AND_SELF_ONLY_MASK, node->source); if (!reg) { isns_cancel_refresh_timers(); rc = ISCSI_ERR_NOMEM; goto done; } status = isns_simple_call(clnt->ic_socket, ®); if (status != ISNS_SUCCESS) { log_error("SCN registration for node %s failed: %s", isns_source_name(node->source), isns_strerror(status)); /* * if the user was going to poll then ignore error * since user was probably using polling because SCNs * were not supported by server */ if (poll_inval < 0) { isns_cancel_refresh_timers(); rc = ISCSI_ERR; break; } } log_debug(4, "Registered %s for SCNs", isns_source_name(node->source)); } free_reg: isns_simple_free(reg); done: return rc; } static int isns_scn_register(isns_socket_t *svr_sock, int poll_inval) { isns_object_list_t objs = ISNS_OBJECT_LIST_INIT; isns_portal_info_t portal_info; isns_client_t *clnt; int rc; clnt = isns_create_default_client(NULL); if (!clnt) { log_error("iSNS setup failed. Could not connect to server."); return ISCSI_ERR_TRANS; } isns_socket_set_disconnect_fatal(clnt->ic_socket); log_debug(7, "isns_scn_register"); if (!isns_socket_get_portal_info(svr_sock, &portal_info)) { log_error("Could not get portal info for iSNS registration."); rc = ISCSI_ERR_NO_OBJS_FOUND; goto destroy_clnt; } rc = isns_build_objs(&portal_info, &objs); if (rc) goto destroy_clnt; rc = isns_register_objs(clnt, &objs, poll_inval); isns_object_list_destroy(&objs); if (!rc) log_warning("iSNS: Registered network entity with EID %s with " "server.", isns_entity_id); destroy_clnt: isns_client_destroy(clnt); return rc; } static isns_source_t *isns_lookup_node(char *iname) { struct isns_node_list *node; list_for_each_entry(node, &isns_initiators, list) { if (!strcmp(iname, isns_source_name(node->source))) return node->source; } return NULL; } static struct isns_node_list *isns_create_node(const char *iname) { isns_source_t *source; struct isns_node_list *node; source = isns_source_create_iscsi(iname); if (!source) return NULL; node = calloc(1, sizeof(*node)); if (!node) { isns_source_release(source); return NULL; } INIT_LIST_HEAD(&node->list); node->source = source; return node; } static int isns_create_node_list(const char *def_iname) { struct iface_rec *iface, *tmp_iface; struct list_head ifaces; struct isns_node_list *node, *tmp_node; int rc = 0; INIT_LIST_HEAD(&ifaces); iface_link_ifaces(&ifaces); if (def_iname) { node = isns_create_node(def_iname); if (!node) { rc = ISCSI_ERR_NOMEM; goto fail; } list_add_tail(&node->list, &isns_initiators); } list_for_each_entry(iface, &ifaces, list) { if (strlen(iface->iname) && !isns_lookup_node(iface->iname)) { node = isns_create_node(iface->iname); if (!node) { rc = ISCSI_ERR_NOMEM; goto fail; } list_add_tail(&node->list, &isns_initiators); } } /* fix me */ rc = 0; goto done; fail: list_for_each_entry_safe(node, tmp_node, &isns_initiators, list) { list_del(&node->list); free(node); } done: list_for_each_entry_safe(iface, tmp_iface, &ifaces, list) { list_del(&iface->list); free(iface); } return rc; } static void isns_scn_callback(isns_db_t *db, uint32_t bitmap, isns_object_template_t *node_type, const char *node_name, const char *dst_name) { log_error("SCN for initiator: %s (Target: %s, Event: %s.)", dst_name, node_name, isns_event_string(bitmap)); isns_disc_new_portals(node_name, dst_name); } static void isns_clear_refresh_list(void) { struct isns_refresh_data *refresh_data, *tmp_refresh; list_for_each_entry_safe(refresh_data, tmp_refresh, &isns_refresh_list, list) isns_free_refresh_data(refresh_data); } static int isns_scn_recv(isns_server_t *svr, isns_socket_t *svr_sock, int poll_inval) { isns_message_t *msg, *rsp; struct timeval timeout = { 0, 0 }; time_t now, then, next_timeout; unsigned int function; int rc = 0; log_debug(1, "isns_scn_recv"); while (!stop_discoveryd) { /* reap disc/login procs */ reap_proc(); /* * timer func could force a scn registration so check timers * first */ then = isns_run_timers(); now = time(NULL); next_timeout = now + 3600; if (then && then < next_timeout) next_timeout = then; if (isns_register_nodes) { isns_clear_refresh_list(); /* * it is ok to block here, because the server * should have unregistered us or this is our * first time registerting. */ rc = isns_scn_register(svr_sock, poll_inval); if (rc) { sleep(5); continue; } isns_disc_new_portals(NULL, NULL); if (!poll_inval) break; isns_register_nodes = 0; /* * the scn reg may have added timers or changed * timeout values so recheck. */ continue; } /* Determine how long we can sleep */ if (next_timeout <= now) continue; timeout.tv_sec = next_timeout - now; if ((msg = isns_recv_message(&timeout)) == NULL) continue; function = isns_message_function(msg); if (function != ISNS_STATE_CHANGE_NOTIFICATION) { log_warning("Discarding unexpected %s message", isns_function_name(function)); isns_message_release(msg); continue; } if ((rsp = isns_process_message(svr, msg)) != NULL) { isns_socket_t *sock = isns_message_socket(msg); isns_socket_send(sock, rsp); isns_message_release(rsp); } isns_message_release(msg); } log_debug(1, "isns_scn_recv done"); reap_proc(); return rc; } #define ISNS_EVENTD_PIDFILE ISNS_RUNDIR"/iscsid.isns.pid" #define ISNS_EVENTD_CTL ISNS_RUNDIR"/iscsid.isns.isnsctl" static int isns_eventd(const char *def_iname, char *disc_addr, int port, int poll_inval) { static isns_socket_t *svr_sock; isns_server_t *svr; isns_db_t *db; struct isns_node_list *tmp_node, *node; int rc = 0; isns_create_node_list(def_iname); if (list_empty(&isns_initiators)) { log_error("iSNS registration failed. Initiatorname not set."); return ISCSI_ERR_INVAL; } /* use def_iname or if not set the first iface's iname for the src */ node = list_entry(isns_initiators.next, struct isns_node_list, list); isns_assign_string(&isns_config.ic_source_name, isns_source_name(node->source)); isns_config.ic_security = 0; isns_config.ic_pidfile = ISNS_EVENTD_PIDFILE; isns_config.ic_control_socket = ISNS_EVENTD_CTL; if (discovery_isns_set_servername(disc_addr, port)) { rc = ISCSI_ERR_NOMEM; goto fail; } isns_write_pidfile(isns_config.ic_pidfile); db = isns_db_open(NULL); if (!db) { log_error("iSNS setup failed. Could not create db."); rc = ISCSI_ERR_NOMEM; goto fail; } svr = isns_create_server(node->source, db, &isns_callback_service_ops); if (!svr) { log_error("iSNS setup failed. Could not create server."); rc = ISCSI_ERR_TRANS; goto fail; } isns_server_set_scn_callback(svr, isns_scn_callback); svr_sock = isns_create_server_socket(NULL, NULL, AF_INET6, SOCK_DGRAM); if (!svr_sock) { log_error("iSNS setup failed. Could not create server socket."); rc = ISCSI_ERR_TRANS; goto fail; } rc = isns_scn_recv(svr, svr_sock, poll_inval); isns_cancel_refresh_timers(); fail: isns_clear_refresh_list(); list_for_each_entry_safe(node, tmp_node, &isns_initiators, list) { list_del(&node->list); free(node); } if (isns_entity_id) free(isns_entity_id); isns_entity_id = NULL; discovery_isns_free_servername(); if (isns_config.ic_source_name) free(isns_config.ic_source_name); isns_config.ic_source_name = NULL; return rc; } static void start_isns(const char *def_iname, struct discovery_rec *drec, int poll_inval) { int rc, port = drec->port; if (port < 0) port = ISNS_DEFAULT_PORT; rc = isns_eventd(def_iname, drec->address, port, poll_inval); log_debug(1, "start isns done %d.", rc); discoveryd_stop(); } /* SendTargets */ static void __do_st_disc_and_login(struct discovery_rec *drec) { struct list_head rec_list, setup_ifaces; struct iface_rec *iface, *tmp_iface; int rc; INIT_LIST_HEAD(&rec_list); INIT_LIST_HEAD(&setup_ifaces); /* * The disc daemon will try again in poll_interval secs * so no need to retry here */ drec->u.sendtargets.reopen_max = 0; iface_link_ifaces(&setup_ifaces); /* * disc code assumes this is not set and wants to use * the userspace IO code. */ ipc = NULL; rc = idbm_bind_ifaces_to_nodes(discovery_sendtargets, drec, &setup_ifaces, &rec_list); if (rc) { log_error("Could not perform SendTargets to %s:%d.", drec->address, drec->port); goto free_ifaces; } update_sessions(&rec_list, NULL, NULL); free_ifaces: list_for_each_entry_safe(iface, tmp_iface, &setup_ifaces, list) { list_del(&iface->list); free(iface); } } static void do_st_disc_and_login(const char *def_iname, struct discovery_rec *drec, int poll_inval) { if (poll_inval < 0) poll_inval = DISC_DEF_POLL_INVL; do { __do_st_disc_and_login(drec); if (!poll_inval) break; } while (!stop_discoveryd && !sleep(poll_inval)); discoveryd_stop(); } static int st_start(void *data, struct discovery_rec *drec) { log_debug(1, "st_start %s:%d %d", drec->address, drec->port, drec->u.sendtargets.use_discoveryd); if (!drec->u.sendtargets.use_discoveryd) return ISCSI_ERR_INVAL; fork_disc(NULL, drec, drec->u.sendtargets.discoveryd_poll_inval, do_st_disc_and_login); return 0; } static void discoveryd_st_start(void) { idbm_for_each_st_drec(NULL, st_start); } static int isns_start(void *data, struct discovery_rec *drec) { log_debug(1, "isns_start %s:%d %d", drec->address, drec->port, drec->u.isns.use_discoveryd); if (!drec->u.isns.use_discoveryd) return ISCSI_ERR_INVAL; fork_disc(data, drec, drec->u.isns.discoveryd_poll_inval, start_isns); return 0; } static void discoveryd_isns_start(const char *def_iname) { idbm_for_each_isns_drec((void *)def_iname, isns_start); } void discoveryd_start(const char *def_iname) { discoveryd_isns_start(def_iname); discoveryd_st_start(); } open-iscsi-2.0.874/usr/discoveryd.h000066400000000000000000000001541277325716400171200ustar00rootroot00000000000000#ifndef _DISC_DAEMON_H #define _DISC_DAEMON_H extern void discoveryd_start(const char *def_iname); #endif open-iscsi-2.0.874/usr/ethtool-copy.h000066400000000000000000000460551277325716400174050ustar00rootroot00000000000000/* * ethtool.h: Defines for Linux ethtool. * * Copyright (C) 1998 David S. Miller (davem@redhat.com) * Copyright 2001 Jeff Garzik * Portions Copyright 2001 Sun Microsystems (thockin@sun.com) * Portions Copyright 2002 Intel (eli.kupermann@intel.com, * christopher.leech@intel.com, * scott.feldman@intel.com) * Portions Copyright (C) Sun Microsystems 2008 */ #ifndef _LINUX_ETHTOOL_H #define _LINUX_ETHTOOL_H #include /* This should work for both 32 and 64 bit userland. */ struct ethtool_cmd { __u32 cmd; __u32 supported; /* Features this interface supports */ __u32 advertising; /* Features this interface advertises */ __u16 speed; /* The forced speed, 10Mb, 100Mb, gigabit */ __u8 duplex; /* Duplex, half or full */ __u8 port; /* Which connector port */ __u8 phy_address; __u8 transceiver; /* Which transceiver to use */ __u8 autoneg; /* Enable or disable autonegotiation */ __u8 mdio_support; __u32 maxtxpkt; /* Tx pkts before generating tx int */ __u32 maxrxpkt; /* Rx pkts before generating rx int */ __u16 speed_hi; __u8 eth_tp_mdix; __u8 reserved2; __u32 lp_advertising; /* Features the link partner advertises */ __u32 reserved[2]; }; static inline void ethtool_cmd_speed_set(struct ethtool_cmd *ep, __u32 speed) { ep->speed = (__u16)speed; ep->speed_hi = (__u16)(speed >> 16); } static inline __u32 ethtool_cmd_speed(struct ethtool_cmd *ep) { return (ep->speed_hi << 16) | ep->speed; } #define ETHTOOL_BUSINFO_LEN 32 /* these strings are set to whatever the driver author decides... */ struct ethtool_drvinfo { __u32 cmd; char driver[32]; /* driver short name, "tulip", "eepro100" */ char version[32]; /* driver version string */ char fw_version[32]; /* firmware version string, if applicable */ char bus_info[ETHTOOL_BUSINFO_LEN]; /* Bus info for this IF. */ /* For PCI devices, use pci_name(pci_dev). */ char reserved1[32]; char reserved2[12]; __u32 n_priv_flags; /* number of flags valid in ETHTOOL_GPFLAGS */ __u32 n_stats; /* number of u64's from ETHTOOL_GSTATS */ __u32 testinfo_len; __u32 eedump_len; /* Size of data from ETHTOOL_GEEPROM (bytes) */ __u32 regdump_len; /* Size of data from ETHTOOL_GREGS (bytes) */ }; #define SOPASS_MAX 6 /* wake-on-lan settings */ struct ethtool_wolinfo { __u32 cmd; __u32 supported; __u32 wolopts; __u8 sopass[SOPASS_MAX]; /* SecureOn(tm) password */ }; /* for passing single values */ struct ethtool_value { __u32 cmd; __u32 data; }; /* for passing big chunks of data */ struct ethtool_regs { __u32 cmd; __u32 version; /* driver-specific, indicates different chips/revs */ __u32 len; /* bytes */ __u8 data[0]; }; /* for passing EEPROM chunks */ struct ethtool_eeprom { __u32 cmd; __u32 magic; __u32 offset; /* in bytes */ __u32 len; /* in bytes */ __u8 data[0]; }; /* for configuring coalescing parameters of chip */ struct ethtool_coalesce { __u32 cmd; /* ETHTOOL_{G,S}COALESCE */ /* How many usecs to delay an RX interrupt after * a packet arrives. If 0, only rx_max_coalesced_frames * is used. */ __u32 rx_coalesce_usecs; /* How many packets to delay an RX interrupt after * a packet arrives. If 0, only rx_coalesce_usecs is * used. It is illegal to set both usecs and max frames * to zero as this would cause RX interrupts to never be * generated. */ __u32 rx_max_coalesced_frames; /* Same as above two parameters, except that these values * apply while an IRQ is being serviced by the host. Not * all cards support this feature and the values are ignored * in that case. */ __u32 rx_coalesce_usecs_irq; __u32 rx_max_coalesced_frames_irq; /* How many usecs to delay a TX interrupt after * a packet is sent. If 0, only tx_max_coalesced_frames * is used. */ __u32 tx_coalesce_usecs; /* How many packets to delay a TX interrupt after * a packet is sent. If 0, only tx_coalesce_usecs is * used. It is illegal to set both usecs and max frames * to zero as this would cause TX interrupts to never be * generated. */ __u32 tx_max_coalesced_frames; /* Same as above two parameters, except that these values * apply while an IRQ is being serviced by the host. Not * all cards support this feature and the values are ignored * in that case. */ __u32 tx_coalesce_usecs_irq; __u32 tx_max_coalesced_frames_irq; /* How many usecs to delay in-memory statistics * block updates. Some drivers do not have an in-memory * statistic block, and in such cases this value is ignored. * This value must not be zero. */ __u32 stats_block_coalesce_usecs; /* Adaptive RX/TX coalescing is an algorithm implemented by * some drivers to improve latency under low packet rates and * improve throughput under high packet rates. Some drivers * only implement one of RX or TX adaptive coalescing. Anything * not implemented by the driver causes these values to be * silently ignored. */ __u32 use_adaptive_rx_coalesce; __u32 use_adaptive_tx_coalesce; /* When the packet rate (measured in packets per second) * is below pkt_rate_low, the {rx,tx}_*_low parameters are * used. */ __u32 pkt_rate_low; __u32 rx_coalesce_usecs_low; __u32 rx_max_coalesced_frames_low; __u32 tx_coalesce_usecs_low; __u32 tx_max_coalesced_frames_low; /* When the packet rate is below pkt_rate_high but above * pkt_rate_low (both measured in packets per second) the * normal {rx,tx}_* coalescing parameters are used. */ /* When the packet rate is (measured in packets per second) * is above pkt_rate_high, the {rx,tx}_*_high parameters are * used. */ __u32 pkt_rate_high; __u32 rx_coalesce_usecs_high; __u32 rx_max_coalesced_frames_high; __u32 tx_coalesce_usecs_high; __u32 tx_max_coalesced_frames_high; /* How often to do adaptive coalescing packet rate sampling, * measured in seconds. Must not be zero. */ __u32 rate_sample_interval; }; /* for configuring RX/TX ring parameters */ struct ethtool_ringparam { __u32 cmd; /* ETHTOOL_{G,S}RINGPARAM */ /* Read only attributes. These indicate the maximum number * of pending RX/TX ring entries the driver will allow the * user to set. */ __u32 rx_max_pending; __u32 rx_mini_max_pending; __u32 rx_jumbo_max_pending; __u32 tx_max_pending; /* Values changeable by the user. The valid values are * in the range 1 to the "*_max_pending" counterpart above. */ __u32 rx_pending; __u32 rx_mini_pending; __u32 rx_jumbo_pending; __u32 tx_pending; }; /* for configuring link flow control parameters */ struct ethtool_pauseparam { __u32 cmd; /* ETHTOOL_{G,S}PAUSEPARAM */ /* If the link is being auto-negotiated (via ethtool_cmd.autoneg * being true) the user may set 'autonet' here non-zero to have the * pause parameters be auto-negotiated too. In such a case, the * {rx,tx}_pause values below determine what capabilities are * advertised. * * If 'autoneg' is zero or the link is not being auto-negotiated, * then {rx,tx}_pause force the driver to use/not-use pause * flow control. */ __u32 autoneg; __u32 rx_pause; __u32 tx_pause; }; #define ETH_GSTRING_LEN 32 enum ethtool_stringset { ETH_SS_TEST = 0, ETH_SS_STATS, ETH_SS_PRIV_FLAGS, }; /* for passing string sets for data tagging */ struct ethtool_gstrings { __u32 cmd; /* ETHTOOL_GSTRINGS */ __u32 string_set; /* string set id e.c. ETH_SS_TEST, etc*/ __u32 len; /* number of strings in the string set */ __u8 data[0]; }; enum ethtool_test_flags { ETH_TEST_FL_OFFLINE = (1 << 0), /* online / offline */ ETH_TEST_FL_FAILED = (1 << 1), /* test passed / failed */ }; /* for requesting NIC test and getting results*/ struct ethtool_test { __u32 cmd; /* ETHTOOL_TEST */ __u32 flags; /* ETH_TEST_FL_xxx */ __u32 reserved; __u32 len; /* result length, in number of u64 elements */ __u64 data[0]; }; /* for dumping NIC-specific statistics */ struct ethtool_stats { __u32 cmd; /* ETHTOOL_GSTATS */ __u32 n_stats; /* number of u64's being returned */ __u64 data[0]; }; struct ethtool_perm_addr { __u32 cmd; /* ETHTOOL_GPERMADDR */ __u32 size; __u8 data[0]; }; /* boolean flags controlling per-interface behavior characteristics. * When reading, the flag indicates whether or not a certain behavior * is enabled/present. When writing, the flag indicates whether * or not the driver should turn on (set) or off (clear) a behavior. * * Some behaviors may read-only (unconditionally absent or present). * If such is the case, return EINVAL in the set-flags operation if the * flag differs from the read-only value. */ enum ethtool_flags { ETH_FLAG_LRO = (1 << 15), /* LRO is enabled */ }; /* The following structures are for supporting RX network flow * classification configuration. Note, all multibyte fields, e.g., * ip4src, ip4dst, psrc, pdst, spi, etc. are expected to be in network * byte order. */ struct ethtool_tcpip4_spec { __be32 ip4src; __be32 ip4dst; __be16 psrc; __be16 pdst; __u8 tos; }; struct ethtool_ah_espip4_spec { __be32 ip4src; __be32 ip4dst; __be32 spi; __u8 tos; }; struct ethtool_rawip4_spec { __be32 ip4src; __be32 ip4dst; __u8 hdata[64]; }; struct ethtool_ether_spec { __be16 ether_type; __u8 frame_size; __u8 eframe[16]; }; #define ETH_RX_NFC_IP4 1 #define ETH_RX_NFC_IP6 2 struct ethtool_usrip4_spec { __be32 ip4src; __be32 ip4dst; __be32 l4_4_bytes; __u8 tos; __u8 ip_ver; __u8 proto; }; struct ethtool_rx_flow_spec { __u32 flow_type; union { struct ethtool_tcpip4_spec tcp_ip4_spec; struct ethtool_tcpip4_spec udp_ip4_spec; struct ethtool_tcpip4_spec sctp_ip4_spec; struct ethtool_ah_espip4_spec ah_ip4_spec; struct ethtool_ah_espip4_spec esp_ip4_spec; struct ethtool_rawip4_spec raw_ip4_spec; struct ethtool_ether_spec ether_spec; struct ethtool_usrip4_spec usr_ip4_spec; __u8 hdata[64]; } h_u, m_u; /* entry, mask */ __u64 ring_cookie; __u32 location; }; struct ethtool_rxnfc { __u32 cmd; __u32 flow_type; /* The rx flow hash value or the rule DB size */ __u64 data; struct ethtool_rx_flow_spec fs; __u32 rule_cnt; __u32 rule_locs[0]; }; #define ETHTOOL_FLASH_MAX_FILENAME 128 enum ethtool_flash_op_type { ETHTOOL_FLASH_ALL_REGIONS = 0, }; /* for passing firmware flashing related parameters */ struct ethtool_flash { __u32 cmd; __u32 region; char data[ETHTOOL_FLASH_MAX_FILENAME]; }; /* CMDs currently supported */ #define ETHTOOL_GSET 0x00000001 /* Get settings. */ #define ETHTOOL_SSET 0x00000002 /* Set settings. */ #define ETHTOOL_GDRVINFO 0x00000003 /* Get driver info. */ #define ETHTOOL_GREGS 0x00000004 /* Get NIC registers. */ #define ETHTOOL_GWOL 0x00000005 /* Get wake-on-lan options. */ #define ETHTOOL_SWOL 0x00000006 /* Set wake-on-lan options. */ #define ETHTOOL_GMSGLVL 0x00000007 /* Get driver message level */ #define ETHTOOL_SMSGLVL 0x00000008 /* Set driver msg level. */ #define ETHTOOL_NWAY_RST 0x00000009 /* Restart autonegotiation. */ #define ETHTOOL_GLINK 0x0000000a /* Get link status (ethtool_value) */ #define ETHTOOL_GEEPROM 0x0000000b /* Get EEPROM data */ #define ETHTOOL_SEEPROM 0x0000000c /* Set EEPROM data. */ #define ETHTOOL_GCOALESCE 0x0000000e /* Get coalesce config */ #define ETHTOOL_SCOALESCE 0x0000000f /* Set coalesce config. */ #define ETHTOOL_GRINGPARAM 0x00000010 /* Get ring parameters */ #define ETHTOOL_SRINGPARAM 0x00000011 /* Set ring parameters. */ #define ETHTOOL_GPAUSEPARAM 0x00000012 /* Get pause parameters */ #define ETHTOOL_SPAUSEPARAM 0x00000013 /* Set pause parameters. */ #define ETHTOOL_GRXCSUM 0x00000014 /* Get RX hw csum enable (ethtool_value) */ #define ETHTOOL_SRXCSUM 0x00000015 /* Set RX hw csum enable (ethtool_value) */ #define ETHTOOL_GTXCSUM 0x00000016 /* Get TX hw csum enable (ethtool_value) */ #define ETHTOOL_STXCSUM 0x00000017 /* Set TX hw csum enable (ethtool_value) */ #define ETHTOOL_GSG 0x00000018 /* Get scatter-gather enable * (ethtool_value) */ #define ETHTOOL_SSG 0x00000019 /* Set scatter-gather enable * (ethtool_value). */ #define ETHTOOL_TEST 0x0000001a /* execute NIC self-test. */ #define ETHTOOL_GSTRINGS 0x0000001b /* get specified string set */ #define ETHTOOL_PHYS_ID 0x0000001c /* identify the NIC */ #define ETHTOOL_GSTATS 0x0000001d /* get NIC-specific statistics */ #define ETHTOOL_GTSO 0x0000001e /* Get TSO enable (ethtool_value) */ #define ETHTOOL_STSO 0x0000001f /* Set TSO enable (ethtool_value) */ #define ETHTOOL_GPERMADDR 0x00000020 /* Get permanent hardware address */ #define ETHTOOL_GUFO 0x00000021 /* Get UFO enable (ethtool_value) */ #define ETHTOOL_SUFO 0x00000022 /* Set UFO enable (ethtool_value) */ #define ETHTOOL_GGSO 0x00000023 /* Get GSO enable (ethtool_value) */ #define ETHTOOL_SGSO 0x00000024 /* Set GSO enable (ethtool_value) */ #define ETHTOOL_GFLAGS 0x00000025 /* Get flags bitmap(ethtool_value) */ #define ETHTOOL_SFLAGS 0x00000026 /* Set flags bitmap(ethtool_value) */ #define ETHTOOL_GPFLAGS 0x00000027 /* Get driver-private flags bitmap */ #define ETHTOOL_SPFLAGS 0x00000028 /* Set driver-private flags bitmap */ #define ETHTOOL_GRXFH 0x00000029 /* Get RX flow hash configuration */ #define ETHTOOL_SRXFH 0x0000002a /* Set RX flow hash configuration */ #define ETHTOOL_GGRO 0x0000002b /* Get GRO enable (ethtool_value) */ #define ETHTOOL_SGRO 0x0000002c /* Set GRO enable (ethtool_value) */ #define ETHTOOL_GRXRINGS 0x0000002d /* Get RX rings available for LB */ #define ETHTOOL_GRXCLSRLCNT 0x0000002e /* Get RX class rule count */ #define ETHTOOL_GRXCLSRULE 0x0000002f /* Get RX classification rule */ #define ETHTOOL_GRXCLSRLALL 0x00000030 /* Get all RX classification rule */ #define ETHTOOL_SRXCLSRLDEL 0x00000031 /* Delete RX classification rule */ #define ETHTOOL_SRXCLSRLINS 0x00000032 /* Insert RX classification rule */ #define ETHTOOL_FLASHDEV 0x00000033 /* Flash firmware to device */ #define ETHTOOL_RESET 0x00000034 /* Reset hardware */ /* compatibility with older code */ #define SPARC_ETH_GSET ETHTOOL_GSET #define SPARC_ETH_SSET ETHTOOL_SSET /* Indicates what features are supported by the interface. */ #define SUPPORTED_10baseT_Half (1 << 0) #define SUPPORTED_10baseT_Full (1 << 1) #define SUPPORTED_100baseT_Half (1 << 2) #define SUPPORTED_100baseT_Full (1 << 3) #define SUPPORTED_1000baseT_Half (1 << 4) #define SUPPORTED_1000baseT_Full (1 << 5) #define SUPPORTED_Autoneg (1 << 6) #define SUPPORTED_TP (1 << 7) #define SUPPORTED_AUI (1 << 8) #define SUPPORTED_MII (1 << 9) #define SUPPORTED_FIBRE (1 << 10) #define SUPPORTED_BNC (1 << 11) #define SUPPORTED_10000baseT_Full (1 << 12) #define SUPPORTED_Pause (1 << 13) #define SUPPORTED_Asym_Pause (1 << 14) #define SUPPORTED_2500baseX_Full (1 << 15) #define SUPPORTED_Backplane (1 << 16) #define SUPPORTED_1000baseKX_Full (1 << 17) #define SUPPORTED_10000baseKX4_Full (1 << 18) #define SUPPORTED_10000baseKR_Full (1 << 19) #define SUPPORTED_10000baseR_FEC (1 << 20) /* Indicates what features are advertised by the interface. */ #define ADVERTISED_10baseT_Half (1 << 0) #define ADVERTISED_10baseT_Full (1 << 1) #define ADVERTISED_100baseT_Half (1 << 2) #define ADVERTISED_100baseT_Full (1 << 3) #define ADVERTISED_1000baseT_Half (1 << 4) #define ADVERTISED_1000baseT_Full (1 << 5) #define ADVERTISED_Autoneg (1 << 6) #define ADVERTISED_TP (1 << 7) #define ADVERTISED_AUI (1 << 8) #define ADVERTISED_MII (1 << 9) #define ADVERTISED_FIBRE (1 << 10) #define ADVERTISED_BNC (1 << 11) #define ADVERTISED_10000baseT_Full (1 << 12) #define ADVERTISED_Pause (1 << 13) #define ADVERTISED_Asym_Pause (1 << 14) #define ADVERTISED_2500baseX_Full (1 << 15) #define ADVERTISED_Backplane (1 << 16) #define ADVERTISED_1000baseKX_Full (1 << 17) #define ADVERTISED_10000baseKX4_Full (1 << 18) #define ADVERTISED_10000baseKR_Full (1 << 19) #define ADVERTISED_10000baseR_FEC (1 << 20) /* The following are all involved in forcing a particular link * mode for the device for setting things. When getting the * devices settings, these indicate the current mode and whether * it was foced up into this mode or autonegotiated. */ /* The forced speed, 10Mb, 100Mb, gigabit, 2.5Gb, 10GbE. */ #define SPEED_10 10 #define SPEED_100 100 #define SPEED_1000 1000 #define SPEED_2500 2500 #define SPEED_10000 10000 /* Duplex, half or full. */ #define DUPLEX_HALF 0x00 #define DUPLEX_FULL 0x01 /* Which connector port. */ #define PORT_TP 0x00 #define PORT_AUI 0x01 #define PORT_MII 0x02 #define PORT_FIBRE 0x03 #define PORT_BNC 0x04 #define PORT_DA 0x05 #define PORT_NONE 0xef #define PORT_OTHER 0xff /* Which transceiver to use. */ #define XCVR_INTERNAL 0x00 #define XCVR_EXTERNAL 0x01 #define XCVR_DUMMY1 0x02 #define XCVR_DUMMY2 0x03 #define XCVR_DUMMY3 0x04 /* Enable or disable autonegotiation. If this is set to enable, * the forced link modes above are completely ignored. */ #define AUTONEG_DISABLE 0x00 #define AUTONEG_ENABLE 0x01 /* Mode MDI or MDI-X */ #define ETH_TP_MDI_INVALID 0x00 #define ETH_TP_MDI 0x01 #define ETH_TP_MDI_X 0x02 /* Wake-On-Lan options. */ #define WAKE_PHY (1 << 0) #define WAKE_UCAST (1 << 1) #define WAKE_MCAST (1 << 2) #define WAKE_BCAST (1 << 3) #define WAKE_ARP (1 << 4) #define WAKE_MAGIC (1 << 5) #define WAKE_MAGICSECURE (1 << 6) /* only meaningful if WAKE_MAGIC */ /* L3-L4 network traffic flow types */ #define TCP_V4_FLOW 0x01 #define UDP_V4_FLOW 0x02 #define SCTP_V4_FLOW 0x03 #define AH_ESP_V4_FLOW 0x04 #define TCP_V6_FLOW 0x05 #define UDP_V6_FLOW 0x06 #define SCTP_V6_FLOW 0x07 #define AH_ESP_V6_FLOW 0x08 #define AH_V4_FLOW 0x09 #define ESP_V4_FLOW 0x0a #define AH_V6_FLOW 0x0b #define ESP_V6_FLOW 0x0c #define IP_USER_FLOW 0x0d #define IPV4_FLOW 0x10 #define IPV6_FLOW 0x11 /* L3-L4 network traffic flow hash options */ #define RXH_L2DA (1 << 1) #define RXH_VLAN (1 << 2) #define RXH_L3_PROTO (1 << 3) #define RXH_IP_SRC (1 << 4) #define RXH_IP_DST (1 << 5) #define RXH_L4_B_0_1 (1 << 6) /* src port in case of TCP/UDP/SCTP */ #define RXH_L4_B_2_3 (1 << 7) /* dst port in case of TCP/UDP/SCTP */ #define RXH_DISCARD (1 << 31) #define RX_CLS_FLOW_DISC 0xffffffffffffffffULL /* Reset flags */ /* The reset() operation must clear the flags for the components which * were actually reset. On successful return, the flags indicate the * components which were not reset, either because they do not exist * in the hardware or because they cannot be reset independently. The * driver must never reset any components that were not requested. */ enum ethtool_reset_flags { /* These flags represent components dedicated to the interface * the command is addressed to. Shift any flag left by * ETH_RESET_SHARED_SHIFT to reset a shared component of the * same type. */ ETH_RESET_MGMT = 1 << 0, /* Management processor */ ETH_RESET_IRQ = 1 << 1, /* Interrupt requester */ ETH_RESET_DMA = 1 << 2, /* DMA engine */ ETH_RESET_FILTER = 1 << 3, /* Filtering/flow direction */ ETH_RESET_OFFLOAD = 1 << 4, /* Protocol offload */ ETH_RESET_MAC = 1 << 5, /* Media access controller */ ETH_RESET_PHY = 1 << 6, /* Transceiver/PHY */ ETH_RESET_RAM = 1 << 7, /* RAM shared between * multiple components */ ETH_RESET_DEDICATED = 0x0000ffff, /* All components dedicated to * this interface */ ETH_RESET_ALL = 0xffffffff, /* All components used by this * interface, even if shared */ }; #define ETH_RESET_SHARED_SHIFT 16 #endif /* _LINUX_ETHTOOL_H */ open-iscsi-2.0.874/usr/event_poll.c000066400000000000000000000114701277325716400171120ustar00rootroot00000000000000/* * iSCSI daemon event handler * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * Originally based on: * (C) 2004 FUJITA Tomonori * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include "mgmt_ipc.h" #include "iscsi_ipc.h" #include "sysfs.h" #include "iscsid.h" #include "log.h" #include "iscsi_ipc.h" #include "actor.h" #include "initiator.h" #include "iscsi_err.h" static unsigned int reap_count; #define REAP_WAKEUP 1000 /* in millisecs */ void reap_inc(void) { reap_count++; } void reap_proc(void) { int rc, i, max_reaps; /* * We don't really need reap_count, but calling wait() all the * time seems excessive. */ max_reaps = reap_count; for (i = 0; i < max_reaps; i++) { rc = waitpid(0, NULL, WNOHANG); if (rc > 0) { reap_count--; log_debug(6, "reaped pid %d, reap_count now %d", rc, reap_count); } } } static LIST_HEAD(shutdown_callbacks); struct shutdown_callback { struct list_head list; pid_t pid; }; int shutdown_callback(pid_t pid) { struct shutdown_callback *cb; cb = calloc(1, sizeof(*cb)); if (!cb) return ENOMEM; INIT_LIST_HEAD(&cb->list); cb->pid = pid; log_debug(1, "adding %d for shutdown cb", pid); list_add_tail(&cb->list, &shutdown_callbacks); return 0; } static void shutdown_notify_pids(void) { struct shutdown_callback *cb; list_for_each_entry(cb, &shutdown_callbacks, list) { log_debug(1, "Killing %d", cb->pid); kill(cb->pid, SIGTERM); } } static int shutdown_wait_pids(void) { struct shutdown_callback *cb, *tmp; list_for_each_entry_safe(cb, tmp, &shutdown_callbacks, list) { /* * the proc reaper could clean it up, so wait for any * sign that it is gone. */ if (waitpid(cb->pid, NULL, WNOHANG)) { log_debug(1, "%d done", cb->pid); list_del(&cb->list); free(cb); } } return list_empty(&shutdown_callbacks); } #define POLL_CTRL 0 #define POLL_IPC 1 #define POLL_ALARM 2 #define POLL_MAX 3 static int event_loop_stop; static queue_task_t *shutdown_qtask; void event_loop_exit(queue_task_t *qtask) { shutdown_qtask = qtask; event_loop_stop = 1; } void event_loop(struct iscsi_ipc *ipc, int control_fd, int mgmt_ipc_fd) { struct pollfd poll_array[POLL_MAX]; int res, has_shutdown_children = 0; sigset_t sigset; int sig_fd; /* Mask off SIGALRM so we can recv it via signalfd */ sigemptyset(&sigset); sigaddset(&sigset, SIGALRM); sigprocmask(SIG_SETMASK, &sigset, NULL); sig_fd = signalfd(-1, &sigset, SFD_NONBLOCK); if (sig_fd == -1) { log_error("signalfd failed: %m"); return; } poll_array[POLL_CTRL].fd = control_fd; poll_array[POLL_CTRL].events = POLLIN; poll_array[POLL_IPC].fd = mgmt_ipc_fd; poll_array[POLL_IPC].events = POLLIN; poll_array[POLL_ALARM].fd = sig_fd; poll_array[POLL_ALARM].events = POLLIN; event_loop_stop = 0; while (1) { if (event_loop_stop) { if (!has_shutdown_children) { has_shutdown_children = 1; shutdown_notify_pids(); } if (shutdown_wait_pids()) break; } /* Runs actors and may set alarm for future actors */ actor_poll(); res = poll(poll_array, POLL_MAX, reap_count ? REAP_WAKEUP : -1); if (res > 0) { log_debug(6, "poll result %d", res); if (poll_array[POLL_CTRL].revents) ipc->ctldev_handle(); if (poll_array[POLL_IPC].revents) mgmt_ipc_handle(mgmt_ipc_fd); if (poll_array[POLL_ALARM].revents) { struct signalfd_siginfo si; if (read(sig_fd, &si, sizeof(si)) == -1) { log_error("got sigfd read() error, errno (%d), " "exiting", errno); break; } else { log_debug(1, "Poll was woken by an alarm"); } } } else if (res < 0) { if (errno == EINTR) { log_debug(1, "event_loop interrupted"); } else { log_error("got poll() error (%d), errno (%d), " "exiting", res, errno); break; } } reap_proc(); /* * flush sysfs cache since kernel objs may * have changed as a result of handling op */ sysfs_cleanup(); } if (shutdown_qtask) mgmt_ipc_write_rsp(shutdown_qtask, ISCSI_SUCCESS); close(sig_fd); sigprocmask(SIG_UNBLOCK, &sigset, NULL); } open-iscsi-2.0.874/usr/event_poll.h000066400000000000000000000017461277325716400171240ustar00rootroot00000000000000/* * iSCSI event poll/loop * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef EVENT_POLL_H #define EVENT_POLL_H struct iscsi_ipc; struct queue_task; int shutdown_callback(pid_t pid); void reap_proc(void); void reap_inc(void); void event_loop(struct iscsi_ipc *ipc, int control_fd, int mgmt_ipc_fd); void event_loop_exit(struct queue_task *qtask); #endif open-iscsi-2.0.874/usr/flashnode.c000066400000000000000000000452161277325716400167130ustar00rootroot00000000000000/* * iSCSI flashnode helpers * * Copyright (C) 2013 QLogic Corporation. * Maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include "log.h" #include "idbm.h" #include "iscsi_util.h" #include "transport.h" #include "iscsi_sysfs.h" #include "list.h" #include "sysdeps.h" #include "idbm_fields.h" #include "iscsi_err.h" #include "iscsi_ipc.h" #include "iscsi_netlink.h" #include "flashnode.h" #include "iscsi_settings.h" char key[NAME_MAXVAL]; char *to_key(const char *fmt) { int i = 0; memset(key, 0, sizeof(key)); sprintf(key, fmt, i); return key; } int flashnode_info_print_flat(void *data, struct flashnode_rec *fnode, uint32_t host_no, uint32_t flashnode_idx) { printf("%s: [%d] ", fnode->transport_name, flashnode_idx); if (!strlen((char *)fnode->conn[0].ipaddress)) printf("%s:", UNKNOWN_VALUE); else if (strchr((char *)fnode->conn[0].ipaddress, '.')) printf("%s:", fnode->conn[0].ipaddress); else printf("[%s]:", fnode->conn[0].ipaddress); if (!fnode->conn[0].port) printf("%s,", UNKNOWN_VALUE); else printf("%u,", fnode->conn[0].port); printf("%u ", fnode->sess.tpgt); if (!strlen(fnode->sess.targetname)) printf("%s\n", UNKNOWN_VALUE); else printf("%s\n", fnode->sess.targetname); return 0; } static int flashnode_fill_isid(struct flashnode_rec *fnode, struct iovec *iov) { struct iscsi_flashnode_param_info *fnode_param; struct nlattr *attr; int len; uint8_t isid[6]; len = sizeof(struct iscsi_flashnode_param_info) + 6; iov->iov_base = iscsi_nla_alloc(ISCSI_FLASHNODE_ISID, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); fnode_param = (struct iscsi_flashnode_param_info *)ISCSI_NLA_DATA(attr); fnode_param->param = ISCSI_FLASHNODE_ISID; fnode_param->len = 6; sscanf(fnode->sess.isid, "%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx", &isid[0], &isid[1], &isid[2], &isid[3], &isid[4], &isid[5]); memcpy(fnode_param->value, isid, fnode_param->len); return 0; } static int flashnode_fill_ipv4_addr(struct flashnode_rec *fnode, struct iovec *iov, int param_type) { struct iscsi_flashnode_param_info *fnode_param; struct nlattr *attr; int len; int rc; len = sizeof(struct iscsi_flashnode_param_info) + 4; iov->iov_base = iscsi_nla_alloc(param_type, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); fnode_param = (struct iscsi_flashnode_param_info *)ISCSI_NLA_DATA(attr); fnode_param->param = param_type; fnode_param->len = 4; switch (param_type) { case ISCSI_FLASHNODE_IPADDR: rc = inet_pton(AF_INET, (char *)fnode->conn[0].ipaddress, fnode_param->value); break; case ISCSI_FLASHNODE_REDIRECT_IPADDR: rc = inet_pton(AF_INET, (char *)fnode->conn[0].redirect_ipaddr, fnode_param->value); break; default: goto free; } if (rc <= 0) goto free; return 0; free: free(iov->iov_base); iov->iov_base = NULL; iov->iov_len = 0; return 1; } static int flashnode_fill_ipv6_addr(struct flashnode_rec *fnode, struct iovec *iov, int param_type) { struct iscsi_flashnode_param_info *fnode_param; struct nlattr *attr; int len; int rc; len = sizeof(struct iscsi_flashnode_param_info) + 16; iov->iov_base = iscsi_nla_alloc(param_type, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); fnode_param = (struct iscsi_flashnode_param_info *)ISCSI_NLA_DATA(attr); fnode_param->param = param_type; fnode_param->len = 16; switch (param_type) { case ISCSI_FLASHNODE_IPADDR: rc = inet_pton(AF_INET6, (char *)fnode->conn[0].ipaddress, fnode_param->value); break; case ISCSI_FLASHNODE_REDIRECT_IPADDR: rc = inet_pton(AF_INET6, (char *)fnode->conn[0].redirect_ipaddr, fnode_param->value); break; case ISCSI_FLASHNODE_LINK_LOCAL_IPV6: rc = inet_pton(AF_INET6, (char *)fnode->conn[0].link_local_ipv6, fnode_param->value); break; default: goto free; } if (rc <= 0) goto free; return 0; free: free(iov->iov_base); iov->iov_base = NULL; iov->iov_len = 0; return 1; } static int flashnode_fill_ipaddr(struct flashnode_rec *fnode, struct iovec *iov, int param_type) { int rc = 0; if (!strncmp(fnode->sess.portal_type, "ipv4", 4)) rc = flashnode_fill_ipv4_addr(fnode, iov, param_type); else rc = flashnode_fill_ipv6_addr(fnode, iov, param_type); return rc; } static int flashnode_fill_uint8(struct flashnode_rec *fnode, struct iovec *iov, int param_type, uint8_t val) { struct iscsi_flashnode_param_info *fnode_param; struct nlattr *attr; int len; len = sizeof(struct iscsi_flashnode_param_info) + 1; iov->iov_base = iscsi_nla_alloc(param_type, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); fnode_param = (struct iscsi_flashnode_param_info *)ISCSI_NLA_DATA(attr); fnode_param->param = param_type; fnode_param->len = 1; fnode_param->value[0] = val; return 0; } static int flashnode_fill_uint16(struct flashnode_rec *fnode, struct iovec *iov, int param_type, uint16_t val) { struct iscsi_flashnode_param_info *fnode_param; struct nlattr *attr; int len; len = sizeof(struct iscsi_flashnode_param_info) + 2; iov->iov_base = iscsi_nla_alloc(param_type, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); fnode_param = (struct iscsi_flashnode_param_info *)ISCSI_NLA_DATA(attr); fnode_param->param = param_type; fnode_param->len = 2; memcpy(fnode_param->value, &val, fnode_param->len); return 0; } static int flashnode_fill_uint32(struct flashnode_rec *fnode, struct iovec *iov, int param_type, uint32_t val) { struct iscsi_flashnode_param_info *fnode_param; struct nlattr *attr; int len; len = sizeof(struct iscsi_flashnode_param_info) + 4; iov->iov_base = iscsi_nla_alloc(param_type, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); fnode_param = (struct iscsi_flashnode_param_info *)ISCSI_NLA_DATA(attr); fnode_param->param = param_type; fnode_param->len = 4; memcpy(fnode_param->value, &val, fnode_param->len); return 0; } static int flashnode_fill_str(struct flashnode_rec *fnode, struct iovec *iov, int param_type, char *buf, int buflen) { struct iscsi_flashnode_param_info *fnode_param; struct nlattr *attr; int len; len = sizeof(struct iscsi_flashnode_param_info) + buflen; iov->iov_base = iscsi_nla_alloc(param_type, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); fnode_param = (struct iscsi_flashnode_param_info *)ISCSI_NLA_DATA(attr); fnode_param->param = param_type; fnode_param->len = buflen; memcpy(fnode_param->value, buf, fnode_param->len); return 0; } int flashnode_build_config(struct list_head *params, struct flashnode_rec *fnode, struct iovec *iovs) { struct user_param *param; struct iovec *iov = NULL; int count = 0; int port = 3260; /* start at 2, because 0 is for nlmsghdr and 1 for event */ iov = iovs + 2; list_for_each_entry(param, params, list) { if (!strcmp(param->name, FLASHNODE_SESS_AUTO_SND_TGT_DISABLE)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_AUTO_SND_TGT_DISABLE, fnode->sess.auto_snd_tgt_disable)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DISCOVERY_SESS)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_DISCOVERY_SESS, fnode->sess.discovery_session)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_ENTRY_EN)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_ENTRY_EN, fnode->sess.entry_enable)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_IMM_DATA_EN)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_IMM_DATA_EN, fnode->sess.immediate_data)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_INITIAL_R2T_EN)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_INITIAL_R2T_EN, fnode->sess.initial_r2t)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DATASEQ_INORDER)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_DATASEQ_INORDER, fnode->sess.data_seq_in_order)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_PDU_INORDER)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_PDU_INORDER, fnode->sess.data_pdu_in_order)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_CHAP_AUTH_EN)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_CHAP_AUTH_EN, fnode->sess.chap_auth_en)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DISCOVERY_LOGOUT_EN)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_DISCOVERY_LOGOUT_EN, fnode->sess.discovery_logout_en)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_BIDI_CHAP_EN )) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_BIDI_CHAP_EN, fnode->sess.bidi_chap_en)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DISCOVERY_AUTH_OPTIONAL)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_DISCOVERY_AUTH_OPTIONAL, fnode->sess.discovery_auth_optional)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_ERL)) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_ERL, fnode->sess.erl)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DEF_TIME2WAIT)) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_DEF_TIME2WAIT, fnode->sess.def_time2wait)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DEF_TIME2RETAIN)) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_DEF_TIME2RETAIN, fnode->sess.def_time2retain)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_MAX_R2T)) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_MAX_R2T, fnode->sess.max_outstanding_r2t)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_TSID)) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_TSID, fnode->sess.tsid)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_MAX_BURST)) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_MAX_BURST, fnode->sess.max_burst_len)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DEF_TASKMGMT_TMO)) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_DEF_TASKMGMT_TMO, fnode->sess.def_taskmgmt_tmo)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_NAME)) { if (!flashnode_fill_str(fnode, &iov[count], ISCSI_FLASHNODE_NAME, fnode->sess.targetname, sizeof(fnode->sess.targetname))) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_FIRST_BURST)) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_FIRST_BURST, fnode->sess.first_burst_len)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_ISID)) { if (!flashnode_fill_isid(fnode, &iov[count])) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_ALIAS)) { if (!flashnode_fill_str(fnode, &iov[count], ISCSI_FLASHNODE_ALIAS, fnode->sess.targetalias, sizeof(fnode->sess.targetalias))) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_TPGT)) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_TPGT, fnode->sess.tpgt)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DISCOVERY_PARENT_IDX)) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_DISCOVERY_PARENT_IDX, fnode->sess.discovery_parent_idx)) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_DISCOVERY_PARENT_TYPE)) { if (!flashnode_fill_str(fnode, &iov[count], ISCSI_FLASHNODE_DISCOVERY_PARENT_TYPE, fnode->sess.discovery_parent_type, sizeof(fnode->sess.discovery_parent_type))) count++; } else if (!strcmp(param->name, FLASHNODE_SESS_PORTAL_TYPE)) { if (!flashnode_fill_str(fnode, &iov[count], ISCSI_FLASHNODE_PORTAL_TYPE, fnode->sess.portal_type, sizeof(fnode->sess.portal_type))) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_SESS_CHAP_OUT_IDX))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_CHAP_OUT_IDX, fnode->sess.chap_out_idx)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_PORT))) { if (fnode->conn[0].port) port = fnode->conn[0].port; if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_PORT, port)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_IPADDR))) { if (!flashnode_fill_ipaddr(fnode, &iov[count], ISCSI_FLASHNODE_IPADDR)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_MAX_RECV_DLENGTH))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_MAX_RECV_DLENGTH, fnode->conn[0].max_recv_dlength)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_IS_FW_ASSIGNED_IPV6))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_IS_FW_ASSIGNED_IPV6, fnode->conn[0].is_fw_assigned_ipv6)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_HDR_DGST_EN))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_HDR_DGST_EN, fnode->conn[0].header_digest_en)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_DATA_DGST_EN))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_DATA_DGST_EN, fnode->conn[0].data_digest_en)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_SNACK_REQ_EN))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_SNACK_REQ_EN, fnode->conn[0].snack_req_en)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_TCP_TIMESTAMP_STAT))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_TCP_TIMESTAMP_STAT, fnode->conn[0].tcp_timestamp_stat)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_TCP_NAGLE_DISABLE))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_TCP_NAGLE_DISABLE, fnode->conn[0].tcp_nagle_disable)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_TCP_WSF_DISABLE))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_TCP_WSF_DISABLE, fnode->conn[0].tcp_wsf_disable)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_TCP_TIMER_SCALE))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_TCP_TIMER_SCALE, fnode->conn[0].tcp_timer_scale)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_TCP_TIMESTAMP_EN))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_TCP_TIMESTAMP_EN, fnode->conn[0].tcp_timestamp_en)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_IP_FRAG_DISABLE))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_IP_FRAG_DISABLE, fnode->conn[0].fragment_disable)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_MAX_XMIT_DLENGTH))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_MAX_XMIT_DLENGTH, fnode->conn[0].max_xmit_dlength)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_KEEPALIVE_TMO))) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_KEEPALIVE_TMO, fnode->conn[0].keepalive_tmo)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_REDIRECT_IPADDR))) { if (!flashnode_fill_ipaddr(fnode, &iov[count], ISCSI_FLASHNODE_REDIRECT_IPADDR)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_MAX_SEGMENT_SIZE))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_MAX_SEGMENT_SIZE, fnode->conn[0].max_segment_size)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_LOCAL_PORT))) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_LOCAL_PORT, fnode->conn[0].local_port)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_IPV4_TOS))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_IPV4_TOS, fnode->conn[0].ipv4_tos)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_IPV6_TC))) { if (!flashnode_fill_uint8(fnode, &iov[count], ISCSI_FLASHNODE_IPV6_TC, fnode->conn[0].ipv6_traffic_class)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_IPV6_FLOW_LABEL))) { if (!flashnode_fill_uint16(fnode, &iov[count], ISCSI_FLASHNODE_IPV6_FLOW_LABEL, fnode->conn[0].ipv6_flow_lbl)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_LINK_LOCAL_IPV6))) { if (!flashnode_fill_ipv6_addr(fnode, &iov[count], ISCSI_FLASHNODE_LINK_LOCAL_IPV6)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_TCP_XMIT_WSF))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_TCP_XMIT_WSF, fnode->conn[0].tcp_xmit_wsf)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_TCP_RECV_WSF))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_TCP_RECV_WSF, fnode->conn[0].tcp_recv_wsf)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_STATSN))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_STATSN, fnode->conn[0].stat_sn)) count++; } else if (!strcmp(param->name, to_key(FLASHNODE_CONN_EXP_STATSN))) { if (!flashnode_fill_uint32(fnode, &iov[count], ISCSI_FLASHNODE_EXP_STATSN, fnode->conn[0].exp_stat_sn)) count++; } } return count; } open-iscsi-2.0.874/usr/flashnode.h000066400000000000000000000075301277325716400167150ustar00rootroot00000000000000/* * iSCSI flashnode helpers * * Copyright (C) 2013 QLogic Corporation. * Maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef FLASHNODE_H #define FLASHNODE_H #include #include #include #include "types.h" #include "config.h" #include "auth.h" #define MAX_FLASHNODE_IDX UINT_MAX typedef enum portal_type { IPV4, IPV6, } portal_type_e; typedef struct flashnode_sess_rec { char targetname[TARGET_NAME_MAXLEN]; char targetalias[TARGET_NAME_MAXLEN]; char username[AUTH_STR_MAX_LEN]; char username_in[AUTH_STR_MAX_LEN]; char password[AUTH_STR_MAX_LEN]; char password_in[AUTH_STR_MAX_LEN]; /* indicates if discovery was done through iSNS discovery service * or through sendTarget */ char discovery_parent_type[ISCSI_MAX_STR_LEN]; char isid[16]; char portal_type[5]; /* ipv4 or ipv6 */ unsigned first_burst_len; unsigned max_burst_len; uint16_t def_time2wait; uint16_t def_time2retain; uint16_t max_outstanding_r2t; uint16_t tsid; uint16_t def_taskmgmt_tmo; uint16_t tpgt; uint16_t chap_out_idx; uint16_t chap_in_idx; /* index of iSCSI discovery session if the entry is * discovered by iSCSI discovery session */ uint16_t discovery_parent_idx; /* Firmware auto sendtarget discovery disable */ uint8_t auto_snd_tgt_disable; uint8_t discovery_session; /* indicates if this flashnode entry is enabled or disabled */ uint8_t entry_enable; uint8_t immediate_data; uint8_t initial_r2t; uint8_t data_seq_in_order; uint8_t data_pdu_in_order; uint8_t chap_auth_en; /* enables firmware to auto logout the discovery session on discovery * completion */ uint8_t discovery_logout_en; uint8_t bidi_chap_en; /* makes authentication for discovery session optional */ uint8_t discovery_auth_optional; uint8_t erl; uint8_t is_boot_target; } flashnode_sess_rec_t; typedef struct flashnode_conn_rec { char ipaddress[NI_MAXHOST]; char redirect_ipaddr[NI_MAXHOST]; char link_local_ipv6[NI_MAXHOST]; unsigned max_recv_dlength; unsigned max_xmit_dlength; unsigned max_segment_size; unsigned tcp_xmit_wsf; unsigned tcp_recv_wsf; uint32_t stat_sn; uint32_t exp_stat_sn; uint16_t keepalive_tmo; uint16_t port; uint16_t local_port; uint16_t ipv6_flow_lbl; /* Link local IPv6 address is assigned by firmware or driver */ uint8_t is_fw_assigned_ipv6; uint8_t header_digest_en; uint8_t data_digest_en; uint8_t snack_req_en; /* tcp timestamp negotiation status */ uint8_t tcp_timestamp_stat; uint8_t tcp_nagle_disable; /* tcp window scale factor */ uint8_t tcp_wsf_disable; uint8_t tcp_timer_scale; uint8_t tcp_timestamp_en; uint8_t fragment_disable; uint8_t ipv4_tos; uint8_t ipv6_traffic_class; } flashnode_conn_rec_t; struct flashnode_rec { struct list_head list; char transport_name[ISCSI_TRANSPORT_NAME_MAXLEN]; flashnode_sess_rec_t sess; flashnode_conn_rec_t conn[ISCSI_CONN_MAX]; }; extern int flashnode_info_print_flat(void *data, struct flashnode_rec *tgt, uint32_t host_no, uint32_t flashnode_idx); extern int iscsi_logout_flashnode_sid(struct iscsi_transport *t, uint32_t host_no, uint32_t sid); extern int flashnode_build_config(struct list_head *params, struct flashnode_rec *flashnode, struct iovec *iovs); #endif open-iscsi-2.0.874/usr/host.c000066400000000000000000000251301277325716400157160ustar00rootroot00000000000000/* * iSCSI host helpers * * Copyright (C) 2008 Mike Christie * Copyright (C) 2008 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include "list.h" #include "iscsi_util.h" #include "log.h" #include "iscsi_sysfs.h" #include "version.h" #include "iscsi_settings.h" #include "mgmt_ipc.h" #include "host.h" #include "session_info.h" #include "transport.h" #include "initiator.h" #include "iface.h" #include "iscsi_err.h" #include "iscsi_netlink.h" static int match_host_to_session(void *data, struct session_info *info) { uint32_t host_no = *(uint32_t *) data; uint32_t info_host_no; int rc; info_host_no = iscsi_sysfs_get_host_no_from_sid(info->sid, &rc); if (rc) { log_error("could not get host_no for session%d err %d.", info->sid, rc); return 0; } return host_no == info_host_no; } static void print_host_info(struct iface_rec *iface, char *prefix) { if (strlen(iface->transport_name)) printf("%sTransport: %s\n", prefix, iface->transport_name); else printf("%sTransport: %s\n", prefix, UNKNOWN_VALUE); if (strlen(iface->iname)) printf("%sInitiatorname: %s\n", prefix, iface->iname); else printf("%sInitiatorname: %s\n", prefix, UNKNOWN_VALUE); if (!strlen(iface->ipaddress)) printf("%sIPaddress: %s\n", prefix, UNKNOWN_VALUE); else if (strchr(iface->ipaddress, '.')) printf("%sIPaddress: %s\n", prefix, iface->ipaddress); else printf("%sIPaddress: [%s]\n", prefix, iface->ipaddress); if (strlen(iface->hwaddress)) printf("%sHWaddress: %s\n", prefix, iface->hwaddress); else printf("%sHWaddress: %s\n", prefix, UNKNOWN_VALUE); if (strlen(iface->netdev)) printf("%sNetdev: %s\n", prefix, iface->netdev); else printf("%sNetdev: %s\n", prefix, UNKNOWN_VALUE); } static int host_info_print_flat(void *data, struct host_info *hinfo) { struct iface_rec *iface = &hinfo->iface; if (strlen(iface->transport_name)) printf("%s: ", iface->transport_name); else printf("%s: ", UNKNOWN_VALUE); printf("[%u] ", hinfo->host_no); if (!strlen(iface->ipaddress)) printf("%s,", UNKNOWN_VALUE); else if (strchr(iface->ipaddress, '.')) printf("%s,", iface->ipaddress); else printf("[%s],", iface->ipaddress); if (strlen(iface->hwaddress)) printf("[%s],", iface->hwaddress); else printf("[%s],", UNKNOWN_VALUE); if (strlen(iface->netdev)) printf("%s ", iface->netdev); else printf("%s ", UNKNOWN_VALUE); if (strlen(iface->iname)) printf("%s\n", iface->iname); else printf("%s\n", UNKNOWN_VALUE); return 0; } static int print_host_iface(void *data, struct iface_rec *iface) { char *prefix = data; printf("%s**********\n", prefix); printf("%sInterface:\n", prefix); printf("%s**********\n", prefix); printf("%sKernel Name: %s\n", prefix, iface->name); if (!strlen(iface->ipaddress)) printf("%sIPaddress: %s\n", prefix, UNKNOWN_VALUE); else if (strchr(iface->ipaddress, '.')) { printf("%sIPaddress: %s\n", prefix, iface->ipaddress); if (!strlen(iface->gateway)) printf("%sGateway: %s\n", prefix, UNKNOWN_VALUE); else printf("%sGateway: %s\n", prefix, iface->gateway); if (!strlen(iface->subnet_mask)) printf("%sSubnet: %s\n", prefix, UNKNOWN_VALUE); else printf("%sSubnet: %s\n", prefix, iface->subnet_mask); if (!strlen(iface->bootproto)) printf("%sBootProto: %s\n", prefix, UNKNOWN_VALUE); else printf("%sBootProto: %s\n", prefix, iface->bootproto); } else { printf("%sIPaddress: [%s]\n", prefix, iface->ipaddress); if (!strlen(iface->ipv6_autocfg)) printf("%sIPaddress Autocfg: %s\n", prefix, UNKNOWN_VALUE); else printf("%sIPaddress Autocfg: %s\n", prefix, iface->ipv6_autocfg); if (!strlen(iface->ipv6_linklocal)) printf("%sLink Local Address: %s\n", prefix, UNKNOWN_VALUE); else printf("%sLink Local Address: [%s]\n", prefix, iface->ipv6_linklocal); if (!strlen(iface->linklocal_autocfg)) printf("%sLink Local Autocfg: %s\n", prefix, UNKNOWN_VALUE); else printf("%sLink Local Autocfg: %s\n", prefix, iface->linklocal_autocfg); if (!strlen(iface->ipv6_router)) printf("%sRouter Address: %s\n", prefix, UNKNOWN_VALUE); else printf("%sRouter Address: [%s]\n", prefix, iface->ipv6_router); } if (!strlen(iface->port_state)) printf("%sPort State: %s\n", prefix, UNKNOWN_VALUE); else printf("%sPort State: %s\n", prefix, iface->port_state); if (!strlen(iface->port_speed)) printf("%sPort Speed: %s\n", prefix, UNKNOWN_VALUE); else printf("%sPort Speed: %s\n", prefix, iface->port_speed); if (!iface->port) printf("%sPort: %s\n", prefix, UNKNOWN_VALUE); else printf("%sPort: %u\n", prefix, iface->port); if (!iface->mtu) printf("%sMTU: %s\n", prefix, UNKNOWN_VALUE); else printf("%sMTU: %u\n", prefix, iface->mtu); if (iface->vlan_id == UINT16_MAX) printf("%sVLAN ID: %s\n", prefix, UNKNOWN_VALUE); else printf("%sVLAN ID: %u\n", prefix, iface->vlan_id); if (iface->vlan_priority == UINT8_MAX) printf("%sVLAN priority: %s\n", prefix, UNKNOWN_VALUE); else printf("%sVLAN priority: %u\n", prefix, iface->vlan_priority); return 0; } static void print_host_ifaces(struct host_info *hinfo, char *prefix) { int nr_found; iscsi_sysfs_for_each_iface_on_host(prefix, hinfo->host_no, &nr_found, print_host_iface); } static int host_info_print_tree(void *data, struct host_info *hinfo) { struct list_head sessions; struct session_link_info link_info; int err, num_found = 0; unsigned int session_info_flags = *(unsigned int *)data; char state[SCSI_MAX_STATE_VALUE]; INIT_LIST_HEAD(&sessions); printf("Host Number: %u\n", hinfo->host_no); if (!iscsi_sysfs_get_host_state(state, hinfo->host_no)) printf("\tState: %s\n", state); else printf("\tState: Unknown\n"); print_host_info(&hinfo->iface, "\t"); print_host_ifaces(hinfo, "\t"); if (!session_info_flags) return 0; link_info.list = &sessions; link_info.match_fn = match_host_to_session; link_info.data = &hinfo->host_no; err = iscsi_sysfs_for_each_session(&link_info, &num_found, session_info_create_list, 0); if (err || !num_found) return 0; printf("\t*********\n"); printf("\tSessions:\n"); printf("\t*********\n"); session_info_print_tree(&sessions, "\t", session_info_flags, 0); session_info_free_list(&sessions); return 0; } int host_info_print(int info_level, uint32_t host_no) { int num_found = 0, err = 0; char *version; unsigned int flags = 0; switch (info_level) { case 0: case -1: err = iscsi_sysfs_for_each_host(NULL, &num_found, host_info_print_flat); break; case 4: version = iscsi_sysfs_get_iscsi_kernel_version(); if (version) { printf("iSCSI Transport Class version %s\n", version); printf("version %s\n", ISCSI_VERSION_STR); free(version); } flags |= SESSION_INFO_SCSI_DEVS; /* fall through */ case 3: flags |= SESSION_INFO_ISCSI_PARAMS; /* fall through */ case 2: flags |= SESSION_INFO_ISCSI_STATE | SESSION_INFO_IFACE; /* fall through */ case 1: if (host_no != -1) { struct host_info hinfo; memset(&hinfo, 0, sizeof(struct host_info)); hinfo.host_no = host_no; iscsi_sysfs_get_hostinfo_by_host_no(&hinfo); host_info_print_tree(&flags, &hinfo); num_found = 1; break; } transport_probe_for_offload(); err = iscsi_sysfs_for_each_host(&flags, &num_found, host_info_print_tree); break; default: log_error("Invalid info level %d. Try 0 - 4.", info_level); return ISCSI_ERR_INVAL; } if (err) { log_error("Can not get list of iSCSI hosts: %s", iscsi_err_to_str(err)); return err; } else if (!num_found) { log_error("No iSCSI hosts."); return ISCSI_ERR_NO_OBJS_FOUND; } return 0; } static int chap_fill_param_uint(struct iovec *iov, int param, uint32_t param_val, int param_len) { struct iscsi_param_info *param_info; struct nlattr *attr; int len; uint8_t val8 = 0; uint16_t val16 = 0; uint32_t val32 = 0; char *val = NULL; len = sizeof(struct iscsi_param_info) + param_len; iov->iov_base = iscsi_nla_alloc(param, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); param_info = (struct iscsi_param_info *)ISCSI_NLA_DATA(attr); param_info->param = param; param_info->len = param_len; switch (param_len) { case 1: val8 = (uint8_t)param_val; val = (char *)&val8; break; case 2: val16 = (uint16_t)param_val; val = (char *)&val16; break; case 4: val32 = (uint32_t)param_val; val = (char *)&val32; break; default: goto free; } memcpy(param_info->value, val, param_len); return 0; free: free(iov->iov_base); iov->iov_base = NULL; iov->iov_len = 0; return 1; } static int chap_fill_param_str(struct iovec *iov, int param, char *param_val, int param_len) { struct iscsi_param_info *param_info; struct nlattr *attr; int len; len = sizeof(struct iscsi_param_info) + param_len; iov->iov_base = iscsi_nla_alloc(param, len); if (!iov->iov_base) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); param_info = (struct iscsi_param_info *)ISCSI_NLA_DATA(attr); param_info->param = param; param_info->len = param_len; memcpy(param_info->value, param_val, param_len); return 0; } int chap_build_config(struct iscsi_chap_rec *crec, struct iovec *iovs) { struct iovec *iov = NULL; int count = 0; /* start at 2, because 0 is for nlmsghdr and 1 for event */ iov = iovs + 2; if (!chap_fill_param_uint(&iov[count], ISCSI_CHAP_PARAM_INDEX, crec->chap_tbl_idx, sizeof(crec->chap_tbl_idx))) count++; if (!chap_fill_param_uint(&iov[count], ISCSI_CHAP_PARAM_CHAP_TYPE, crec->chap_type, sizeof(crec->chap_type))) count++; if (!chap_fill_param_str(&iov[count], ISCSI_CHAP_PARAM_USERNAME, crec->username, strlen(crec->username))) count++; if (!chap_fill_param_str(&iov[count], ISCSI_CHAP_PARAM_PASSWORD, (char *)crec->password, strlen((char *)crec->password))) count++; if (!chap_fill_param_uint(&iov[count], ISCSI_CHAP_PARAM_PASSWORD_LEN, crec->password_length, sizeof(crec->password_length))) count++; return count; } open-iscsi-2.0.874/usr/host.h000066400000000000000000000007621277325716400157270ustar00rootroot00000000000000#ifndef ISCSI_HOST_H #define ISCSI_HOST_H #include #include "types.h" #include "config.h" #define MAX_HOST_NO UINT_MAX #define MAX_CHAP_ENTRIES 2048 #define MAX_CHAP_BUF_SZ 4096 #define REQ_CHAP_BUF_SZ (MAX_CHAP_BUF_SZ + sizeof(struct iscsi_uevent)) struct host_info { struct iface_rec iface; uint32_t host_no; }; extern int host_info_print(int info_level, uint32_t host_no); extern int chap_build_config(struct iscsi_chap_rec *crec, struct iovec *iovs); #endif open-iscsi-2.0.874/usr/idbm.c000066400000000000000000002465251277325716400156710ustar00rootroot00000000000000/* * iSCSI Discovery Database Library * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include "idbm.h" #include "idbm_fields.h" #include "log.h" #include "iscsi_util.h" #include "iscsi_settings.h" #include "transport.h" #include "iscsi_sysfs.h" #include "iface.h" #include "sysdeps.h" #include "fw_context.h" #include "iscsi_err.h" #define IDBM_HIDE 0 /* Hide parameter when print. */ #define IDBM_SHOW 1 /* Show parameter when print. */ #define IDBM_MASKED 2 /* Show "stars" instead of real value when print */ static struct idbm *db; #define __recinfo_str(_key, _info, _rec, _name, _show, _n, _mod) do { \ _info[_n].type = TYPE_STR; \ strlcpy(_info[_n].name, _key, NAME_MAXVAL); \ if (strlen((char*)_rec->_name)) \ strlcpy((char*)_info[_n].value, (char*)_rec->_name, \ VALUE_MAXVAL); \ _info[_n].data = &_rec->_name; \ _info[_n].data_len = sizeof(_rec->_name); \ _info[_n].visible = _show; \ _info[_n].can_modify = _mod; \ _n++; \ } while(0) #define __recinfo_int(_key, _info, _rec, _name, _show, _n, _mod) do { \ _info[_n].type = TYPE_INT; \ strlcpy(_info[_n].name, _key, NAME_MAXVAL); \ snprintf(_info[_n].value, VALUE_MAXVAL, "%d", _rec->_name); \ _info[_n].data = &_rec->_name; \ _info[_n].data_len = sizeof(_rec->_name); \ _info[_n].visible = _show; \ _info[_n].can_modify = _mod; \ _n++; \ } while(0) #define __recinfo_uint8(_key, _info, _rec, _name, _show, _n, _mod) do { \ _info[_n].type = TYPE_UINT8; \ strlcpy(_info[_n].name, _key, NAME_MAXVAL); \ snprintf(_info[_n].value, VALUE_MAXVAL, "%d", _rec->_name); \ _info[_n].data = &_rec->_name; \ _info[_n].data_len = sizeof(_rec->_name); \ _info[_n].visible = _show; \ _info[_n].can_modify = _mod; \ _n++; \ } while (0) #define __recinfo_uint16(_key, _info, _rec, _name, _show, _n, _mod) do { \ _info[_n].type = TYPE_UINT16; \ strlcpy(_info[_n].name, _key, NAME_MAXVAL); \ snprintf(_info[_n].value, VALUE_MAXVAL, "%d", _rec->_name); \ _info[_n].data = &_rec->_name; \ _info[_n].data_len = sizeof(_rec->_name); \ _info[_n].visible = _show; \ _info[_n].can_modify = _mod; \ _n++; \ } while (0) #define __recinfo_uint32(_key, _info, _rec, _name, _show, _n, _mod) do { \ _info[_n].type = TYPE_UINT32; \ strlcpy(_info[_n].name, _key, NAME_MAXVAL); \ snprintf(_info[_n].value, VALUE_MAXVAL, "%d", _rec->_name); \ _info[_n].data = &_rec->_name; \ _info[_n].data_len = sizeof(_rec->_name); \ _info[_n].visible = _show; \ _info[_n].can_modify = _mod; \ _n++; \ } while (0) #define __recinfo_int_o2(_key,_info,_rec,_name,_show,_op0,_op1,_n, _mod) do { \ _info[_n].type = TYPE_INT_O; \ strlcpy(_info[_n].name, _key, NAME_MAXVAL); \ if (_rec->_name == 0) strlcpy(_info[_n].value, _op0, VALUE_MAXVAL); \ if (_rec->_name == 1) strlcpy(_info[_n].value, _op1, VALUE_MAXVAL); \ _info[_n].data = &_rec->_name; \ _info[_n].data_len = sizeof(_rec->_name); \ _info[_n].visible = _show; \ _info[_n].opts[0] = _op0; \ _info[_n].opts[1] = _op1; \ _info[_n].numopts = 2; \ _info[_n].can_modify = _mod; \ _n++; \ } while(0) #define __recinfo_int_o3(_key,_info,_rec,_name,_show,_op0,_op1,_op2,_n, \ _mod) do { \ __recinfo_int_o2(_key,_info,_rec,_name,_show,_op0,_op1,_n, _mod); \ _n--; \ if (_rec->_name == 2) strlcpy(_info[_n].value, _op2, VALUE_MAXVAL);\ _info[_n].opts[2] = _op2; \ _info[_n].numopts = 3; \ _n++; \ } while(0) #define __recinfo_int_o4(_key,_info,_rec,_name,_show,_op0,_op1,_op2,_op3,_n, \ _mod) do { \ __recinfo_int_o3(_key,_info,_rec,_name,_show,_op0,_op1,_op2,_n, _mod); \ _n--; \ if (_rec->_name == 3) strlcpy(_info[_n].value, _op3, VALUE_MAXVAL); \ _info[_n].opts[3] = _op3; \ _info[_n].numopts = 4; \ _n++; \ } while(0) #define __recinfo_int_o5(_key,_info,_rec,_name,_show,_op0,_op1,_op2,_op3, \ _op4,_n, _mod) do { \ __recinfo_int_o4(_key,_info,_rec,_name,_show,_op0,_op1,_op2,_op3, \ _n,_mod); \ _n--; \ if (_rec->_name == 4) strlcpy(_info[_n].value, _op4, VALUE_MAXVAL); \ _info[_n].opts[4] = _op4; \ _info[_n].numopts = 5; \ _n++; \ } while(0) #define __recinfo_int_o6(_key,_info,_rec,_name,_show,_op0,_op1,_op2, \ _op3,_op4,_op5,_n,_mod) do { \ __recinfo_int_o5(_key,_info,_rec,_name,_show,_op0,_op1,_op2,_op3, \ _op4,_n,_mod); \ _n--; \ if (_rec->_name == 5) strlcpy(_info[_n].value, _op5, VALUE_MAXVAL); \ _info[_n].opts[5] = _op5; \ _info[_n].numopts = 6; \ _n++; \ } while(0) static void idbm_recinfo_discovery(discovery_rec_t *r, recinfo_t *ri) { int num = 0; __recinfo_int_o2(DISC_STARTUP, ri, r, startup, IDBM_SHOW, "manual", "automatic", num, 1); __recinfo_int_o6(DISC_TYPE, ri, r, type, IDBM_SHOW, "sendtargets", "isns", "offload_send_targets", "slp", "static", "fw", num, 0); switch (r->type) { case DISCOVERY_TYPE_SENDTARGETS: __recinfo_str(DISC_ST_ADDR, ri, r, address, IDBM_SHOW, num, 0); __recinfo_int(DISC_ST_PORT, ri, r, port, IDBM_SHOW, num, 0); __recinfo_int_o2(DISC_ST_AUTH_METHOD, ri, r, u.sendtargets.auth.authmethod, IDBM_SHOW, "None", "CHAP", num, 1); __recinfo_str(DISC_ST_USERNAME, ri, r, u.sendtargets.auth.username, IDBM_SHOW, num, 1); __recinfo_str(DISC_ST_PASSWORD, ri, r, u.sendtargets.auth.password, IDBM_MASKED, num, 1); __recinfo_int(DISC_ST_PASSWORD_LEN, ri, r, u.sendtargets.auth.password_length, IDBM_HIDE, num, 1); __recinfo_str(DISC_ST_USERNAME_IN, ri, r, u.sendtargets.auth.username_in, IDBM_SHOW, num, 1); __recinfo_str(DISC_ST_PASSWORD_IN, ri, r, u.sendtargets.auth.password_in, IDBM_MASKED, num, 1); __recinfo_int(DISC_ST_PASSWORD_IN_LEN, ri, r, u.sendtargets.auth.password_in_length, IDBM_HIDE, num, 1); __recinfo_int(DISC_ST_LOGIN_TMO, ri, r, u.sendtargets.conn_timeo.login_timeout, IDBM_SHOW, num, 1); __recinfo_int_o2(DISC_ST_USE_DISC_DAEMON, ri, r, u.sendtargets.use_discoveryd, IDBM_SHOW, "No", "Yes", num, 1); __recinfo_int(DISC_ST_DISC_DAEMON_POLL_INVAL, ri, r, u.sendtargets.discoveryd_poll_inval, IDBM_SHOW, num, 1); __recinfo_int(DISC_ST_REOPEN_MAX, ri, r, u.sendtargets.reopen_max, IDBM_SHOW, num, 1); __recinfo_int(DISC_ST_AUTH_TMO, ri, r, u.sendtargets.conn_timeo.auth_timeout, IDBM_SHOW, num, 1); __recinfo_int(DISC_ST_ACTIVE_TMO, ri, r, u.sendtargets.conn_timeo.active_timeout, IDBM_SHOW, num, 1); __recinfo_int(DISC_ST_MAX_RECV_DLEN, ri, r, u.sendtargets.conn_conf.MaxRecvDataSegmentLength, IDBM_SHOW, num, 1); break; case DISCOVERY_TYPE_ISNS: __recinfo_str(DISC_ISNS_ADDR, ri, r, address, IDBM_SHOW, num, 0); __recinfo_int(DISC_ISNS_PORT, ri, r, port, IDBM_SHOW, num, 0); __recinfo_int_o2(DISC_ISNS_USE_DISC_DAEMON, ri, r, u.isns.use_discoveryd, IDBM_SHOW, "No", "Yes", num, 1); __recinfo_int(DISC_ISNS_DISC_DAEMON_POLL_INVAL, ri, r, u.isns.discoveryd_poll_inval, IDBM_SHOW, num, 1); break; default: break; } } void idbm_recinfo_node(node_rec_t *r, recinfo_t *ri) { int num = 0, i; int iface_type; iface_type = iface_get_iptype(&r->iface); __recinfo_str(NODE_NAME, ri, r, name, IDBM_SHOW, num, 0); __recinfo_int(NODE_TPGT, ri, r, tpgt, IDBM_SHOW, num, 0); __recinfo_int_o3(NODE_STARTUP, ri, r, startup, IDBM_SHOW, "manual", "automatic", "onboot", num, 1); __recinfo_int_o2(NODE_LEADING_LOGIN, ri, r, leading_login, IDBM_SHOW, "No", "Yes", num, 1); /* * Note: because we do not add the iface.iscsi_ifacename to * sysfs iscsiadm does some weird matching. We can change the iface * values if a session is not running, but node record ifaces values * have to be changed and so do the iface record ones. * * Users should nornmally not want to change the iface ones * in the node record directly and instead do it through * the iface mode which will do the right thing (although that * needs some locking). */ __recinfo_str(IFACE_HWADDR, ri, r, iface.hwaddress, IDBM_SHOW, num, 1); __recinfo_str(IFACE_IPADDR, ri, r, iface.ipaddress, IDBM_SHOW, num, 1); __recinfo_str(IFACE_ISCSINAME, ri, r, iface.name, IDBM_SHOW, num, 1); __recinfo_str(IFACE_NETNAME, ri, r, iface.netdev, IDBM_SHOW, num, 1); __recinfo_str(IFACE_GATEWAY, ri, r, iface.gateway, IDBM_SHOW, num, 1); __recinfo_str(IFACE_SUBNET_MASK, ri, r, iface.subnet_mask, IDBM_SHOW, num, 1); /* * svn 780 compat: older versions used node.transport_name and * rec->transport_name */ __recinfo_str(IFACE_TRANSPORTNAME, ri, r, iface.transport_name, IDBM_SHOW, num, 1); __recinfo_str(IFACE_INAME, ri, r, iface.iname, IDBM_SHOW, num, 1); __recinfo_str(IFACE_STATE, ri, r, iface.state, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_VLAN_ID, ri, r, iface.vlan_id, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_VLAN_PRIORITY, ri, r, iface.vlan_priority, IDBM_SHOW, num, 1); __recinfo_str(IFACE_VLAN_STATE, ri, r, iface.vlan_state, IDBM_SHOW, num, 1); __recinfo_int(IFACE_NUM, ri, r, iface.iface_num, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_MTU, ri, r, iface.mtu, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_PORT, ri, r, iface.port, IDBM_SHOW, num, 1); if (iface_type == ISCSI_IFACE_TYPE_IPV4) { __recinfo_str(IFACE_BOOT_PROTO, ri, r, iface.bootproto, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_ALT_CID, ri, r, iface.dhcp_alt_client_id_state, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_ALT_CID_STR, ri, r, iface.dhcp_alt_client_id, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_DNS, ri, r, iface.dhcp_dns, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_LEARN_IQN, ri, r, iface.dhcp_learn_iqn, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_REQ_VID, ri, r, iface.dhcp_req_vendor_id_state, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_VID, ri, r, iface.dhcp_vendor_id_state, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_VID_STR, ri, r, iface.dhcp_vendor_id, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_SLP_DA, ri, r, iface.dhcp_slp_da, IDBM_SHOW, num, 1); __recinfo_str(IFACE_FRAGMENTATION, ri, r, iface.fragmentation, IDBM_SHOW, num, 1); __recinfo_str(IFACE_GRAT_ARP, ri, r, iface.gratuitous_arp, IDBM_SHOW, num, 1); __recinfo_str(IFACE_IN_FORWARD, ri, r, iface.incoming_forwarding, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TOS_STATE, ri, r, iface.tos_state, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TOS, ri, r, iface.tos, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TTL, ri, r, iface.ttl, IDBM_SHOW, num, 1); } else if (iface_type == ISCSI_IFACE_TYPE_IPV6) { __recinfo_str(IFACE_IPV6_AUTOCFG, ri, r, iface.ipv6_autocfg, IDBM_SHOW, num, 1); __recinfo_str(IFACE_LINKLOCAL_AUTOCFG, ri, r, iface.linklocal_autocfg, IDBM_SHOW, num, 1); __recinfo_str(IFACE_ROUTER_AUTOCFG, ri, r, iface.router_autocfg, IDBM_SHOW, num, 1); __recinfo_str(IFACE_LINKLOCAL, ri, r, iface.ipv6_linklocal, IDBM_SHOW, num, 1); __recinfo_str(IFACE_ROUTER, ri, r, iface.ipv6_router, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_DUP_ADDR_DETECT_CNT, ri, r, iface.dup_addr_detect_cnt, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_FLOW_LABEL, ri, r, iface.flow_label, IDBM_SHOW, num, 1); __recinfo_str(IFACE_GRAT_NEIGHBOR_ADV, ri, r, iface.gratuitous_neighbor_adv, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_HOP_LIMIT, ri, r, iface.hop_limit, IDBM_SHOW, num, 1); __recinfo_str(IFACE_MLD, ri, r, iface.mld, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_ND_REACHABLE_TMO, ri, r, iface.nd_reachable_tmo, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_ND_REXMIT_TIME, ri, r, iface.nd_rexmit_time, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_ND_STALE_TMO, ri, r, iface.nd_stale_tmo, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_RTR_ADV_LINK_MTU, ri, r, iface.router_adv_link_mtu, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TRAFFIC_CLASS, ri, r, iface.traffic_class, IDBM_SHOW, num, 1); } __recinfo_str(IFACE_DELAYED_ACK, ri, r, iface.delayed_ack, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TCP_NAGLE, ri, r, iface.nagle, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TCP_WSF_STATE, ri, r, iface.tcp_wsf_state, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TCP_WSF, ri, r, iface.tcp_wsf, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TCP_TIMER_SCALE, ri, r, iface.tcp_timer_scale, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TCP_TIMESTAMP, ri, r, iface.tcp_timestamp, IDBM_SHOW, num, 1); __recinfo_str(IFACE_REDIRECT, ri, r, iface.redirect, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_DEF_TMF_TMO, ri, r, iface.def_task_mgmt_tmo, IDBM_SHOW, num, 1); __recinfo_str(IFACE_HDRDGST, ri, r, iface.header_digest, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DATADGST, ri, r, iface.data_digest, IDBM_SHOW, num, 1); __recinfo_str(IFACE_IMM_DATA, ri, r, iface.immediate_data, IDBM_SHOW, num, 1); __recinfo_str(IFACE_INITIAL_R2T, ri, r, iface.initial_r2t, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DSEQ_INORDER, ri, r, iface.data_seq_inorder, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DPDU_INORDER, ri, r, iface.data_pdu_inorder, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_ERL, ri, r, iface.erl, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_MAX_RECV_DLEN, ri, r, iface.max_recv_dlength, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_FIRST_BURST, ri, r, iface.first_burst_len, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_MAX_R2T, ri, r, iface.max_out_r2t, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_MAX_BURST, ri, r, iface.max_burst_len, IDBM_SHOW, num, 1); __recinfo_str(IFACE_CHAP_AUTH, ri, r, iface.chap_auth, IDBM_SHOW, num, 1); __recinfo_str(IFACE_BIDI_CHAP, ri, r, iface.bidi_chap, IDBM_SHOW, num, 1); __recinfo_str(IFACE_STRICT_LOGIN_COMP, ri, r, iface.strict_login_comp, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DISCOVERY_AUTH, ri, r, iface.discovery_auth, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DISCOVERY_LOGOUT, ri, r, iface.discovery_logout, IDBM_SHOW, num, 1); __recinfo_str(NODE_DISC_ADDR, ri, r, disc_address, IDBM_SHOW, num, 0); __recinfo_int(NODE_DISC_PORT, ri, r, disc_port, IDBM_SHOW, num, 0); __recinfo_int_o6(NODE_DISC_TYPE, ri, r, disc_type, IDBM_SHOW, "send_targets", "isns", "offload_send_targets", "slp", "static", "fw", num, 0); __recinfo_int(SESSION_INIT_CMDSN, ri, r, session.initial_cmdsn, IDBM_SHOW, num, 1); __recinfo_int(SESSION_INIT_LOGIN_RETRY, ri, r, session.initial_login_retry_max, IDBM_SHOW, num, 1); __recinfo_int(SESSION_XMIT_THREAD_PRIORITY, ri, r, session.xmit_thread_priority, IDBM_SHOW, num, 1); __recinfo_int(SESSION_CMDS_MAX, ri, r, session.cmds_max, IDBM_SHOW, num, 1); __recinfo_int(SESSION_QDEPTH, ri, r, session.queue_depth, IDBM_SHOW, num, 1); __recinfo_int(SESSION_NR_SESSIONS, ri, r, session.nr_sessions, IDBM_SHOW, num, 1); __recinfo_int_o2(SESSION_AUTH_METHOD, ri, r, session.auth.authmethod, IDBM_SHOW, "None", "CHAP", num, 1); __recinfo_str(SESSION_USERNAME, ri, r, session.auth.username, IDBM_SHOW, num, 1); __recinfo_str(SESSION_PASSWORD, ri, r, session.auth.password, IDBM_MASKED, num, 1); __recinfo_int(SESSION_PASSWORD_LEN, ri, r, session.auth.password_length, IDBM_HIDE, num, 1); __recinfo_str(SESSION_USERNAME_IN, ri, r, session.auth.username_in, IDBM_SHOW, num, 1); __recinfo_str(SESSION_PASSWORD_IN, ri, r, session.auth.password_in, IDBM_MASKED, num, 1); __recinfo_int(SESSION_PASSWORD_IN_LEN, ri, r, session.auth.password_in_length, IDBM_HIDE, num, 1); __recinfo_int(SESSION_REPLACEMENT_TMO, ri, r, session.timeo.replacement_timeout, IDBM_SHOW, num, 1); __recinfo_int(SESSION_ABORT_TMO, ri, r, session.err_timeo.abort_timeout, IDBM_SHOW, num, 1); __recinfo_int(SESSION_LU_RESET_TMO, ri, r, session.err_timeo.lu_reset_timeout, IDBM_SHOW, num, 1); __recinfo_int(SESSION_TGT_RESET_TMO, ri, r, session.err_timeo.tgt_reset_timeout, IDBM_SHOW, num, 1); __recinfo_int(SESSION_HOST_RESET_TMO, ri, r, session.err_timeo.host_reset_timeout, IDBM_SHOW, num, 1); __recinfo_int_o2(SESSION_FAST_ABORT, ri, r, session.iscsi.FastAbort, IDBM_SHOW, "No", "Yes", num, 1); __recinfo_int_o2(SESSION_INITIAL_R2T, ri, r, session.iscsi.InitialR2T, IDBM_SHOW, "No", "Yes", num, 1); __recinfo_int_o2(SESSION_IMM_DATA, ri, r, session.iscsi.ImmediateData, IDBM_SHOW, "No", "Yes", num, 1); __recinfo_int(SESSION_FIRST_BURST, ri, r, session.iscsi.FirstBurstLength, IDBM_SHOW, num, 1); __recinfo_int(SESSION_MAX_BURST, ri, r, session.iscsi.MaxBurstLength, IDBM_SHOW, num, 1); __recinfo_int(SESSION_DEF_TIME2RETAIN, ri, r, session.iscsi.DefaultTime2Retain, IDBM_SHOW, num, 1); __recinfo_int(SESSION_DEF_TIME2WAIT, ri, r, session.iscsi.DefaultTime2Wait, IDBM_SHOW, num, 1); __recinfo_int(SESSION_MAX_CONNS, ri, r, session.iscsi.MaxConnections, IDBM_SHOW, num, 1); __recinfo_int(SESSION_MAX_R2T, ri, r, session.iscsi.MaxOutstandingR2T, IDBM_SHOW, num, 1); __recinfo_int(SESSION_ERL, ri, r, session.iscsi.ERL, IDBM_SHOW, num, 1); for (i = 0; i < ISCSI_CONN_MAX; i++) { char key[NAME_MAXVAL]; sprintf(key, CONN_ADDR, i); __recinfo_str(key, ri, r, conn[i].address, IDBM_SHOW, num, 0); sprintf(key, CONN_PORT, i); __recinfo_int(key, ri, r, conn[i].port, IDBM_SHOW, num, 0); sprintf(key, CONN_STARTUP, i); __recinfo_int_o3(key, ri, r, conn[i].startup, IDBM_SHOW, "manual", "automatic", "onboot", num, 1); sprintf(key, CONN_WINDOW_SIZE, i); __recinfo_int(key, ri, r, conn[i].tcp.window_size, IDBM_SHOW, num, 1); sprintf(key, CONN_SERVICE_TYPE, i); __recinfo_int(key, ri, r, conn[i].tcp.type_of_service, IDBM_SHOW, num, 1); sprintf(key, CONN_LOGOUT_TMO, i); __recinfo_int(key, ri, r, conn[i].timeo.logout_timeout, IDBM_SHOW, num, 1); sprintf(key, CONN_LOGIN_TMO, i); __recinfo_int(key, ri, r, conn[i].timeo.login_timeout, IDBM_SHOW, num, 1); sprintf(key, CONN_AUTH_TMO, i); __recinfo_int(key, ri, r, conn[i].timeo.auth_timeout, IDBM_SHOW, num, 1); sprintf(key, CONN_NOP_INT, i); __recinfo_int(key, ri, r, conn[i].timeo.noop_out_interval, IDBM_SHOW, num, 1); sprintf(key, CONN_NOP_TMO, i); __recinfo_int(key, ri, r, conn[i].timeo.noop_out_timeout, IDBM_SHOW, num, 1); sprintf(key, CONN_MAX_XMIT_DLEN, i); __recinfo_int(key, ri, r, conn[i].iscsi.MaxXmitDataSegmentLength, IDBM_SHOW, num, 1); sprintf(key, CONN_MAX_RECV_DLEN, i); __recinfo_int(key, ri, r, conn[i].iscsi.MaxRecvDataSegmentLength, IDBM_SHOW, num, 1); sprintf(key, CONN_HDR_DIGEST, i); __recinfo_int_o4(key, ri, r, conn[i].iscsi.HeaderDigest, IDBM_SHOW, "None", "CRC32C", "CRC32C,None", "None,CRC32C", num, 1); sprintf(key, CONN_DATA_DIGEST, i); __recinfo_int_o4(key, ri, r, conn[i].iscsi.DataDigest, IDBM_SHOW, "None", "CRC32C", "CRC32C,None", "None,CRC32C", num, 1); sprintf(key, CONN_IFMARKER, i); __recinfo_int_o2(key, ri, r, conn[i].iscsi.IFMarker, IDBM_SHOW, "No", "Yes", num, 1); sprintf(key, CONN_OFMARKER, i); __recinfo_int_o2(key, ri, r, conn[i].iscsi.OFMarker, IDBM_SHOW, "No", "Yes", num, 1); } } void idbm_recinfo_iface(iface_rec_t *r, recinfo_t *ri) { int num = 0; int iface_type; iface_type = iface_get_iptype(r); __recinfo_str(IFACE_ISCSINAME, ri, r, name, IDBM_SHOW, num, 0); __recinfo_str(IFACE_NETNAME, ri, r, netdev, IDBM_SHOW, num, 1); __recinfo_str(IFACE_IPADDR, ri, r, ipaddress, IDBM_SHOW, num, 1); __recinfo_str(IFACE_HWADDR, ri, r, hwaddress, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TRANSPORTNAME, ri, r, transport_name, IDBM_SHOW, num, 1); __recinfo_str(IFACE_INAME, ri, r, iname, IDBM_SHOW, num, 1); __recinfo_str(IFACE_STATE, ri, r, state, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_VLAN_ID, ri, r, vlan_id, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_VLAN_PRIORITY, ri, r, vlan_priority, IDBM_SHOW, num, 1); __recinfo_str(IFACE_VLAN_STATE, ri, r, vlan_state, IDBM_SHOW, num, 1); __recinfo_int(IFACE_NUM, ri, r, iface_num, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_MTU, ri, r, mtu, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_PORT, ri, r, port, IDBM_SHOW, num, 1); if (iface_type == ISCSI_IFACE_TYPE_IPV4) { __recinfo_str(IFACE_BOOT_PROTO, ri, r, bootproto, IDBM_SHOW, num, 1); __recinfo_str(IFACE_SUBNET_MASK, ri, r, subnet_mask, IDBM_SHOW, num, 1); __recinfo_str(IFACE_GATEWAY, ri, r, gateway, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_ALT_CID, ri, r, dhcp_alt_client_id_state, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_ALT_CID_STR, ri, r, dhcp_alt_client_id, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_DNS, ri, r, dhcp_dns, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_LEARN_IQN, ri, r, dhcp_learn_iqn, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_REQ_VID, ri, r, dhcp_req_vendor_id_state, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_VID, ri, r, dhcp_vendor_id_state, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_VID_STR, ri, r, dhcp_vendor_id, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DHCP_SLP_DA, ri, r, dhcp_slp_da, IDBM_SHOW, num, 1); __recinfo_str(IFACE_FRAGMENTATION, ri, r, fragmentation, IDBM_SHOW, num, 1); __recinfo_str(IFACE_GRAT_ARP, ri, r, gratuitous_arp, IDBM_SHOW, num, 1); __recinfo_str(IFACE_IN_FORWARD, ri, r, incoming_forwarding, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TOS_STATE, ri, r, tos_state, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TOS, ri, r, tos, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TTL, ri, r, ttl, IDBM_SHOW, num, 1); } else if (iface_type == ISCSI_IFACE_TYPE_IPV6) { __recinfo_str(IFACE_IPV6_AUTOCFG, ri, r, ipv6_autocfg, IDBM_SHOW, num, 1); __recinfo_str(IFACE_LINKLOCAL_AUTOCFG, ri, r, linklocal_autocfg, IDBM_SHOW, num, 1); __recinfo_str(IFACE_ROUTER_AUTOCFG, ri, r, router_autocfg, IDBM_SHOW, num, 1); __recinfo_str(IFACE_LINKLOCAL, ri, r, ipv6_linklocal, IDBM_SHOW, num, 1); __recinfo_str(IFACE_ROUTER, ri, r, ipv6_router, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_DUP_ADDR_DETECT_CNT, ri, r, dup_addr_detect_cnt, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_FLOW_LABEL, ri, r, flow_label, IDBM_SHOW, num, 1); __recinfo_str(IFACE_GRAT_NEIGHBOR_ADV, ri, r, gratuitous_neighbor_adv, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_HOP_LIMIT, ri, r, hop_limit, IDBM_SHOW, num, 1); __recinfo_str(IFACE_MLD, ri, r, mld, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_ND_REACHABLE_TMO, ri, r, nd_reachable_tmo, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_ND_REXMIT_TIME, ri, r, nd_rexmit_time, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_ND_STALE_TMO, ri, r, nd_stale_tmo, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_RTR_ADV_LINK_MTU, ri, r, router_adv_link_mtu, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TRAFFIC_CLASS, ri, r, traffic_class, IDBM_SHOW, num, 1); } __recinfo_str(IFACE_DELAYED_ACK, ri, r, delayed_ack, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TCP_NAGLE, ri, r, nagle, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TCP_WSF_STATE, ri, r, tcp_wsf_state, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TCP_WSF, ri, r, tcp_wsf, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_TCP_TIMER_SCALE, ri, r, tcp_timer_scale, IDBM_SHOW, num, 1); __recinfo_str(IFACE_TCP_TIMESTAMP, ri, r, tcp_timestamp, IDBM_SHOW, num, 1); __recinfo_str(IFACE_REDIRECT, ri, r, redirect, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_DEF_TMF_TMO, ri, r, def_task_mgmt_tmo, IDBM_SHOW, num, 1); __recinfo_str(IFACE_HDRDGST, ri, r, header_digest, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DATADGST, ri, r, data_digest, IDBM_SHOW, num, 1); __recinfo_str(IFACE_IMM_DATA, ri, r, immediate_data, IDBM_SHOW, num, 1); __recinfo_str(IFACE_INITIAL_R2T, ri, r, initial_r2t, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DSEQ_INORDER, ri, r, data_seq_inorder, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DPDU_INORDER, ri, r, data_pdu_inorder, IDBM_SHOW, num, 1); __recinfo_uint8(IFACE_ERL, ri, r, erl, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_MAX_RECV_DLEN, ri, r, max_recv_dlength, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_FIRST_BURST, ri, r, first_burst_len, IDBM_SHOW, num, 1); __recinfo_uint16(IFACE_MAX_R2T, ri, r, max_out_r2t, IDBM_SHOW, num, 1); __recinfo_uint32(IFACE_MAX_BURST, ri, r, max_burst_len, IDBM_SHOW, num, 1); __recinfo_str(IFACE_CHAP_AUTH, ri, r, chap_auth, IDBM_SHOW, num, 1); __recinfo_str(IFACE_BIDI_CHAP, ri, r, bidi_chap, IDBM_SHOW, num, 1); __recinfo_str(IFACE_STRICT_LOGIN_COMP, ri, r, strict_login_comp, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DISCOVERY_AUTH, ri, r, discovery_auth, IDBM_SHOW, num, 1); __recinfo_str(IFACE_DISCOVERY_LOGOUT, ri, r, discovery_logout, IDBM_SHOW, num, 1); } void idbm_recinfo_host_chap(struct iscsi_chap_rec *r, recinfo_t *ri) { int num = 0; __recinfo_uint16(HOST_AUTH_INDEX, ri, r, chap_tbl_idx, IDBM_SHOW, num, 1); if (r->chap_type == CHAP_TYPE_OUT) { __recinfo_str(HOST_AUTH_USERNAME, ri, r, username, IDBM_SHOW, num, 1); __recinfo_str(HOST_AUTH_PASSWORD, ri, r, password, IDBM_MASKED, num, 1); __recinfo_int(HOST_AUTH_PASSWORD_LEN, ri, r, password_length, IDBM_HIDE, num, 1); } else { __recinfo_str(HOST_AUTH_USERNAME_IN, ri, r, username, IDBM_SHOW, num, 1); __recinfo_str(HOST_AUTH_PASSWORD_IN, ri, r, password, IDBM_MASKED, num, 1); __recinfo_int(HOST_AUTH_PASSWORD_IN_LEN, ri, r, password_length, IDBM_HIDE, num, 1); } } void idbm_recinfo_flashnode(struct flashnode_rec *r, recinfo_t *ri) { int num = 0; int i; __recinfo_uint8(FLASHNODE_SESS_AUTO_SND_TGT_DISABLE, ri, r, sess.auto_snd_tgt_disable, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_DISCOVERY_SESS, ri, r, sess.discovery_session, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_PORTAL_TYPE, ri, r, sess.portal_type, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_ENTRY_EN, ri, r, sess.entry_enable, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_IMM_DATA_EN, ri, r, sess.immediate_data, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_INITIAL_R2T_EN, ri, r, sess.initial_r2t, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_DATASEQ_INORDER, ri, r, sess.data_seq_in_order, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_PDU_INORDER, ri, r, sess.data_pdu_in_order, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_CHAP_AUTH_EN, ri, r, sess.chap_auth_en, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_DISCOVERY_LOGOUT_EN, ri, r, sess.discovery_logout_en, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_BIDI_CHAP_EN, ri, r, sess.bidi_chap_en, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_DISCOVERY_AUTH_OPTIONAL, ri, r, sess.discovery_auth_optional, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_ERL, ri, r, sess.erl, IDBM_SHOW, num, 1); __recinfo_uint32(FLASHNODE_SESS_FIRST_BURST, ri, r, sess.first_burst_len, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_DEF_TIME2WAIT, ri, r, sess.def_time2wait, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_DEF_TIME2RETAIN, ri, r, sess.def_time2retain, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_MAX_R2T, ri, r, sess.max_outstanding_r2t, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_ISID, ri, r, sess.isid, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_TSID, ri, r, sess.tsid, IDBM_SHOW, num, 1); __recinfo_uint32(FLASHNODE_SESS_MAX_BURST, ri, r, sess.max_burst_len, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_DEF_TASKMGMT_TMO, ri, r, sess.def_taskmgmt_tmo, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_ALIAS, ri, r, sess.targetalias, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_NAME, ri, r, sess.targetname, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_DISCOVERY_PARENT_IDX, ri, r, sess.discovery_parent_idx, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_DISCOVERY_PARENT_TYPE, ri, r, sess.discovery_parent_type, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_TPGT, ri, r, sess.tpgt, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_CHAP_OUT_IDX, ri, r, sess.chap_out_idx, IDBM_SHOW, num, 1); __recinfo_uint16(FLASHNODE_SESS_CHAP_IN_IDX, ri, r, sess.chap_in_idx, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_USERNAME, ri, r, sess.username, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_USERNAME_IN, ri, r, sess.username_in, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_PASSWORD, ri, r, sess.password, IDBM_SHOW, num, 1); __recinfo_str(FLASHNODE_SESS_PASSWORD_IN, ri, r, sess.password_in, IDBM_SHOW, num, 1); __recinfo_uint8(FLASHNODE_SESS_IS_BOOT_TGT, ri, r, sess.is_boot_target, IDBM_SHOW, num, 1); for (i = 0; i < ISCSI_CONN_MAX; i++) { char key[NAME_MAXVAL]; sprintf(key, FLASHNODE_CONN_IS_FW_ASSIGNED_IPV6, i); __recinfo_uint8(key, ri, r, conn[i].is_fw_assigned_ipv6, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_HDR_DGST_EN, i); __recinfo_uint8(key, ri, r, conn[i].header_digest_en, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_DATA_DGST_EN, i); __recinfo_uint8(key, ri, r, conn[i].data_digest_en, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_SNACK_REQ_EN, i); __recinfo_uint8(key, ri, r, conn[i].snack_req_en, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_TCP_TIMESTAMP_STAT, i); __recinfo_uint8(key, ri, r, conn[i].tcp_timestamp_stat, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_TCP_NAGLE_DISABLE, i); __recinfo_uint8(key, ri, r, conn[i].tcp_nagle_disable, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_TCP_WSF_DISABLE, i); __recinfo_uint8(key, ri, r, conn[i].tcp_wsf_disable, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_TCP_TIMER_SCALE, i); __recinfo_uint8(key, ri, r, conn[i].tcp_timer_scale, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_TCP_TIMESTAMP_EN, i); __recinfo_uint8(key, ri, r, conn[i].tcp_timestamp_en, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_IP_FRAG_DISABLE, i); __recinfo_uint8(key, ri, r, conn[i].fragment_disable, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_MAX_XMIT_DLENGTH, i); __recinfo_uint32(key, ri, r, conn[i].max_xmit_dlength, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_MAX_RECV_DLENGTH, i); __recinfo_uint32(key, ri, r, conn[i].max_recv_dlength, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_KEEPALIVE_TMO, i); __recinfo_uint16(key, ri, r, conn[i].keepalive_tmo, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_PORT, i); __recinfo_uint16(key, ri, r, conn[i].port, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_IPADDR, i); __recinfo_str(key, ri, r, conn[i].ipaddress, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_REDIRECT_IPADDR, i); __recinfo_str(key, ri, r, conn[i].redirect_ipaddr, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_MAX_SEGMENT_SIZE, i); __recinfo_uint32(key, ri, r, conn[i].max_segment_size, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_LOCAL_PORT, i); __recinfo_uint16(key, ri, r, conn[i].local_port, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_IPV4_TOS, i); __recinfo_uint8(key, ri, r, conn[i].ipv4_tos, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_IPV6_TC, i); __recinfo_uint8(key, ri, r, conn[i].ipv6_traffic_class, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_IPV6_FLOW_LABEL, i); __recinfo_uint16(key, ri, r, conn[i].ipv6_flow_lbl, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_LINK_LOCAL_IPV6, i); __recinfo_str(key, ri, r, conn[i].link_local_ipv6, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_TCP_XMIT_WSF, i); __recinfo_uint32(key, ri, r, conn[i].tcp_xmit_wsf, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_TCP_RECV_WSF, i); __recinfo_uint32(key, ri, r, conn[i].tcp_recv_wsf, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_STATSN, i); __recinfo_uint32(key, ri, r, conn[i].stat_sn, IDBM_SHOW, num, 1); sprintf(key, FLASHNODE_CONN_EXP_STATSN, i); __recinfo_uint32(key, ri, r, conn[i].exp_stat_sn, IDBM_SHOW, num, 1); } } recinfo_t *idbm_recinfo_alloc(int max_keys) { recinfo_t *info; info = malloc(sizeof(recinfo_t)*max_keys); if (!info) return NULL; memset(info, 0, sizeof(recinfo_t)*max_keys); return info; } void idbm_print(int type, void *rec, int show, FILE *f) { int i; recinfo_t *info; info = idbm_recinfo_alloc(MAX_KEYS); if (!info) return; switch (type) { case IDBM_PRINT_TYPE_DISCOVERY: idbm_recinfo_discovery((discovery_rec_t*)rec, info); break; case IDBM_PRINT_TYPE_NODE: idbm_recinfo_node((node_rec_t*)rec, info); break; case IDBM_PRINT_TYPE_IFACE: idbm_recinfo_iface((struct iface_rec *)rec, info); break; case IDBM_PRINT_TYPE_HOST_CHAP: idbm_recinfo_host_chap((struct iscsi_chap_rec *)rec, info); break; case IDBM_PRINT_TYPE_FLASHNODE: idbm_recinfo_flashnode((struct flashnode_rec *)rec, info); break; } fprintf(f, "%s\n", ISCSI_BEGIN_REC); for (i = 0; i < MAX_KEYS; i++) { if (!info[i].visible) continue; if (!show && info[i].visible == IDBM_MASKED) { if (*(char*)info[i].data) { fprintf(f, "%s = ********\n", info[i].name); continue; } /* fall through */ } if (strlen(info[i].value)) fprintf(f, "%s = %s\n", info[i].name, info[i].value); else if (f == stdout) fprintf(f, "%s = \n", info[i].name); } fprintf(f, "%s\n", ISCSI_END_REC); free(info); } static void idbm_setup_session_defaults(struct iscsi_session_operational_config *conf) { conf->InitialR2T = 0; conf->ImmediateData = 1; conf->FirstBurstLength = DEF_INI_FIRST_BURST_LEN; conf->MaxBurstLength = DEF_INI_MAX_BURST_LEN; conf->DefaultTime2Wait = ISCSI_DEF_TIME2WAIT; conf->DefaultTime2Retain = 0; conf->MaxConnections = 1; conf->MaxOutstandingR2T = 1; conf->ERL = 0; conf->FastAbort = 1; } static void idbm_setup_conn_defaults(struct iscsi_conn_operational_config *conf) { conf->MaxXmitDataSegmentLength = 0; conf->MaxRecvDataSegmentLength = DEF_INI_MAX_RECV_SEG_LEN; conf->HeaderDigest = CONFIG_DIGEST_NEVER; conf->DataDigest = CONFIG_DIGEST_NEVER; conf->IFMarker = 0; conf->OFMarker = 0; } static void idbm_discovery_setup_defaults(discovery_rec_t *rec, discovery_type_e type) { memset(rec, 0, sizeof(discovery_rec_t)); rec->startup = ISCSI_STARTUP_MANUAL; rec->type = type; switch (type) { case DISCOVERY_TYPE_SENDTARGETS: rec->u.sendtargets.discoveryd_poll_inval = 30; rec->u.sendtargets.use_discoveryd = 0; rec->u.sendtargets.reopen_max = 5; rec->u.sendtargets.auth.authmethod = 0; rec->u.sendtargets.auth.password_length = 0; rec->u.sendtargets.auth.password_in_length = 0; rec->u.sendtargets.conn_timeo.login_timeout=15; rec->u.sendtargets.conn_timeo.auth_timeout = 45; rec->u.sendtargets.conn_timeo.active_timeout=30; idbm_setup_session_defaults(&rec->u.sendtargets.session_conf); idbm_setup_conn_defaults(&rec->u.sendtargets.conn_conf); /* override def setting */ rec->u.sendtargets.conn_conf.MaxRecvDataSegmentLength = DEF_INI_DISC_MAX_RECV_SEG_LEN; break; case DISCOVERY_TYPE_SLP: rec->u.slp.interfaces = NULL; rec->u.slp.scopes = NULL; rec->u.slp.poll_interval = 5 * 60; /* 5 minutes */ rec->u.slp.auth.authmethod = 0; rec->u.slp.auth.password_length = 0; rec->u.slp.auth.password_in_length = 0; rec->u.slp.auth.password_in_length = 0; break; case DISCOVERY_TYPE_ISNS: rec->u.isns.use_discoveryd = 0; rec->u.isns.discoveryd_poll_inval = -1; break; default: break; } } int idbm_rec_update_param(recinfo_t *info, char *name, char *value, int line_number) { int i; int passwd_done = 0; char passwd_len[8]; setup_passwd_len: for (i=0; i '%s'", name, info[i].value, value); /* parse recinfo by type */ if (info[i].type == TYPE_INT) { if (!info[i].data) continue; *(int*)info[i].data = strtoul(value, NULL, 10); goto updated; } else if (info[i].type == TYPE_UINT8) { if (!info[i].data) continue; *(uint8_t *)info[i].data = strtoul(value, NULL, 10); goto updated; } else if (info[i].type == TYPE_UINT16) { if (!info[i].data) continue; *(uint16_t *)info[i].data = strtoul(value, NULL, 10); goto updated; } else if (info[i].type == TYPE_UINT32) { if (!info[i].data) continue; *(uint32_t *)info[i].data = strtoul(value, NULL, 10); goto updated; } else if (info[i].type == TYPE_STR) { if (!info[i].data) continue; strlcpy((char*)info[i].data, value, info[i].data_len); goto updated; } for (j=0; jnrec); idbm_discovery_setup_defaults(&db->drec_st, DISCOVERY_TYPE_SENDTARGETS); idbm_discovery_setup_defaults(&db->drec_slp, DISCOVERY_TYPE_SLP); idbm_discovery_setup_defaults(&db->drec_isns, DISCOVERY_TYPE_ISNS); idbm_recinfo_discovery(&db->drec_st, db->dinfo_st); idbm_recinfo_discovery(&db->drec_slp, db->dinfo_slp); idbm_recinfo_discovery(&db->drec_isns, db->dinfo_isns); idbm_recinfo_node(&db->nrec, db->ninfo); if (!db->get_config_file) { log_debug(1, "Could not get config file. No config file fn"); return; } config_file = db->get_config_file(); if (!config_file) { log_debug(1, "Could not get config file for sync config"); return; } f = fopen(config_file, "r"); if (!f) { log_debug(1, "cannot open configuration file %s. " "Default location is %s.", config_file, CONFIG_FILE); return; } log_debug(5, "updating defaults from '%s'", config_file); idbm_recinfo_config(db->dinfo_st, f); idbm_recinfo_config(db->dinfo_slp, f); idbm_recinfo_config(db->dinfo_isns, f); idbm_recinfo_config(db->ninfo, f); fclose(f); /* update password lengths */ if (*db->drec_st.u.sendtargets.auth.password) db->drec_st.u.sendtargets.auth.password_length = strlen((char*)db->drec_st.u.sendtargets.auth.password); if (*db->drec_st.u.sendtargets.auth.password_in) db->drec_st.u.sendtargets.auth.password_in_length = strlen((char*)db->drec_st.u.sendtargets.auth.password_in); if (*db->drec_slp.u.slp.auth.password) db->drec_slp.u.slp.auth.password_length = strlen((char*)db->drec_slp.u.slp.auth.password); if (*db->drec_slp.u.slp.auth.password_in) db->drec_slp.u.slp.auth.password_in_length = strlen((char*)db->drec_slp.u.slp.auth.password_in); if (*db->nrec.session.auth.password) db->nrec.session.auth.password_length = strlen((char*)db->nrec.session.auth.password); if (*db->nrec.session.auth.password_in) db->nrec.session.auth.password_in_length = strlen((char*)db->nrec.session.auth.password_in); } void idbm_node_setup_from_conf(node_rec_t *rec) { memset(rec, 0, sizeof(*rec)); idbm_node_setup_defaults(rec); idbm_sync_config(); memcpy(rec, &db->nrec, sizeof(*rec)); } int idbm_print_discovery_info(discovery_rec_t *rec, int show) { idbm_print(IDBM_PRINT_TYPE_DISCOVERY, rec, show, stdout); return 1; } int idbm_print_node_info(void *data, node_rec_t *rec) { int show = *((int *)data); idbm_print(IDBM_PRINT_TYPE_NODE, rec, show, stdout); return 0; } int idbm_print_iface_info(void *data, struct iface_rec *iface) { int show = *((int *)data); idbm_print(IDBM_PRINT_TYPE_IFACE, iface, show, stdout); return 0; } int idbm_print_host_chap_info(struct iscsi_chap_rec *chap) { /* User only calls this to print chap so always print */ idbm_print(IDBM_PRINT_TYPE_HOST_CHAP, chap, 1, stdout); return 0; } int idbm_print_flashnode_info(struct flashnode_rec *fnode) { idbm_print(IDBM_PRINT_TYPE_FLASHNODE, fnode, 1, stdout); return 0; } int idbm_print_node_flat(void *data, node_rec_t *rec) { if (strchr(rec->conn[0].address, '.')) printf("%s:%d,%d %s\n", rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->name); else printf("[%s]:%d,%d %s\n", rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->name); return 0; } int idbm_print_node_tree(struct node_rec *last_rec, struct node_rec *rec, char *prefix) { if (!last_rec || strcmp(last_rec->name, rec->name)) { printf("%sTarget: %s\n", prefix, rec->name); if (last_rec) memset(last_rec, 0, sizeof(node_rec_t)); } if (!last_rec || ((strcmp(last_rec->conn[0].address, rec->conn[0].address) || last_rec->conn[0].port != rec->conn[0].port))) { if (strchr(rec->conn[0].address, '.')) printf("%s\tPortal: %s:%d,%d\n", prefix, rec->conn[0].address, rec->conn[0].port, rec->tpgt); else printf("%s\tPortal: [%s]:%d,%d\n", prefix, rec->conn[0].address, rec->conn[0].port, rec->tpgt); } if (last_rec) memcpy(last_rec, rec, sizeof(node_rec_t)); return 0; } int idbm_print_node_and_iface_tree(void *data, node_rec_t *rec) { idbm_print_node_tree(data, rec, ""); printf("\t\tIface Name: %s\n", rec->iface.name); return 0; } static int get_params_from_disc_link(char *link, char **target, char **tpgt, char **address, char **port, char **ifaceid) { (*target) = link; *address = strchr(*target, ','); if (!(*address)) return ISCSI_ERR_INVAL; *(*address)++ = '\0'; *port = strchr(*address, ','); if (!(*port)) return ISCSI_ERR_INVAL; *(*port)++ = '\0'; *tpgt = strchr(*port, ','); if (!(*tpgt)) return ISCSI_ERR_INVAL; *(*tpgt)++ = '\0'; *ifaceid = strchr(*tpgt, ','); if (!(*ifaceid)) return ISCSI_ERR_INVAL; *(*ifaceid)++ = '\0'; return 0; } int idbm_lock(void) { int fd, i, ret; if (db->refs > 0) { db->refs++; return 0; } if (access(LOCK_DIR, F_OK) != 0) { if (mkdir(LOCK_DIR, 0660) != 0) { log_error("Could not open %s: %s", LOCK_DIR, strerror(errno)); return ISCSI_ERR_IDBM; } } fd = open(LOCK_FILE, O_RDWR | O_CREAT, 0666); if (fd >= 0) close(fd); for (i = 0; i < 3000; i++) { ret = link(LOCK_FILE, LOCK_WRITE_FILE); if (ret == 0) break; if (errno != EEXIST) { log_error("Maybe you are not root?"); log_error("Could not lock discovery DB: %s: %s", LOCK_WRITE_FILE, strerror(errno)); return ISCSI_ERR_IDBM; } else if (i == 0) log_debug(2, "Waiting for discovery DB lock"); usleep(10000); } db->refs = 1; return 0; } void idbm_unlock(void) { if (db->refs > 1) { db->refs--; return; } db->refs = 0; unlink(LOCK_WRITE_FILE); } /* * Backwards Compat: * If the portal is a file then we are doing the old style default * session behavior (svn pre 780). */ static FILE *idbm_open_rec_r(char *portal, char *config) { struct stat statb; log_debug(5, "Looking for config file %s config %s.", portal, config); if (stat(portal, &statb)) { log_debug(5, "Could not stat %s err %d.", portal, errno); return NULL; } if (S_ISDIR(statb.st_mode)) { strlcat(portal, "/", PATH_MAX); strlcat(portal, config, PATH_MAX); } return fopen(portal, "r"); } static int __idbm_rec_read(node_rec_t *out_rec, char *conf) { recinfo_t *info; FILE *f; int rc = 0; info = idbm_recinfo_alloc(MAX_KEYS); if (!info) return ISCSI_ERR_NOMEM; rc = idbm_lock(); if (rc) goto free_info; f = fopen(conf, "r"); if (!f) { log_debug(5, "Could not open %s err %s", conf, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } memset(out_rec, 0, sizeof(*out_rec)); idbm_node_setup_defaults(out_rec); idbm_recinfo_node(out_rec, info); idbm_recinfo_config(info, f); fclose(f); unlock: idbm_unlock(); free_info: free(info); return rc; } int idbm_rec_read(node_rec_t *out_rec, char *targetname, int tpgt, char *ip, int port, struct iface_rec *iface) { struct stat statb; char *portal; int rc; portal = calloc(1, PATH_MAX); if (!portal) return ISCSI_ERR_IDBM; /* try old style portal as config */ snprintf(portal, PATH_MAX, "%s/%s/%s,%d", NODE_CONFIG_DIR, targetname, ip, port); log_debug(5, "rec read looking for config file %s.", portal); if (!stat(portal, &statb)) goto read; snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d/%s", NODE_CONFIG_DIR, targetname, ip, port, tpgt, iface->name); log_debug(5, "rec read looking for config file %s.", portal); if (!strlen(iface->name)) { rc = ISCSI_ERR_INVAL; goto free_portal; } if (stat(portal, &statb)) { log_debug(5, "Could not stat %s: %s.", portal, strerror(errno)); free(portal); return ISCSI_ERR_IDBM; } read: rc = __idbm_rec_read(out_rec, portal); free_portal: free(portal); return rc; } static int print_discovered_flat(void *data, node_rec_t *rec) { struct discovery_rec *drec = data; if (rec->disc_type != drec->type) goto no_match; if (drec->type == DISCOVERY_TYPE_SENDTARGETS || drec->type == DISCOVERY_TYPE_ISNS) { if (rec->disc_port != drec->port || strcmp(rec->disc_address, drec->address)) goto no_match; } idbm_print_node_flat(NULL, rec); return 0; no_match: return -1; } struct discovered_tree_info { struct discovery_rec *drec; struct node_rec *last_rec; }; static int print_discovered_tree(void *data, node_rec_t *rec) { struct discovered_tree_info *tree_info = data; struct discovery_rec *drec = tree_info->drec; if (rec->disc_type != drec->type) goto no_match; if (strlen(drec->address)) { if (rec->disc_port != drec->port || strcmp(rec->disc_address, drec->address)) goto no_match; } idbm_print_node_and_iface_tree(tree_info->last_rec, rec); return 0; no_match: return -1; } static int idbm_print_discovered(discovery_rec_t *drec, int info_level) { int num_found = 0; if (info_level < 1) idbm_for_each_rec(&num_found, drec, print_discovered_flat); else { struct discovered_tree_info tree_info; struct node_rec last_rec; memset(&last_rec, 0, sizeof(struct node_rec)); tree_info.drec = drec; tree_info.last_rec = &last_rec; idbm_for_each_rec(&num_found, &tree_info, print_discovered_tree); } return num_found; } static int idbm_for_each_drec(int type, char *config_root, void *data, idbm_drec_op_fn *fn) { DIR *entity_dirfd; struct dirent *entity_dent; int found = 0; discovery_rec_t drec; char *tmp_port; entity_dirfd = opendir(config_root); if (!entity_dirfd) return found; while ((entity_dent = readdir(entity_dirfd))) { if (!strcmp(entity_dent->d_name, ".") || !strcmp(entity_dent->d_name, "..")) continue; log_debug(5, "found %s", entity_dent->d_name); tmp_port = strchr(entity_dent->d_name, ','); if (!tmp_port) continue; /* * pre 872 tools dumped the target portal symlinks in the isns * dir instead of the server. If we find one of those links * (by checking if there is a valid port) we skip it. */ if (strchr(tmp_port, ':') || strchr(tmp_port, '.')) continue; *tmp_port++ = '\0'; memset(&drec, 0, sizeof(drec)); if (idbm_discovery_read(&drec, type, entity_dent->d_name, atoi(tmp_port))) { log_error("Could not read discovery record for " "%s:%s.", entity_dent->d_name, tmp_port); continue; } if (!fn(data, &drec)) found++; } closedir(entity_dirfd); return found; } int idbm_for_each_st_drec(void *data, idbm_drec_op_fn *fn) { return idbm_for_each_drec(DISCOVERY_TYPE_SENDTARGETS, ST_CONFIG_DIR, data, fn); } int idbm_for_each_isns_drec(void *data, idbm_drec_op_fn *fn) { return idbm_for_each_drec(DISCOVERY_TYPE_ISNS, ISNS_CONFIG_DIR, data, fn); } static int __idbm_print_all_by_drec(void *data, struct discovery_rec *drec) { int info_level = *(int *)data; if (info_level >= 1) { printf("DiscoveryAddress: %s,%d\n", drec->address, drec->port); idbm_print_discovered(drec, info_level); } else printf("%s:%d via %s\n", drec->address, drec->port, drec->type == DISCOVERY_TYPE_ISNS ? "isns" : "sendtargets"); return 0; } static int idbm_print_all_st(int info_level) { int rc; rc = idbm_for_each_st_drec(&info_level, __idbm_print_all_by_drec); if (rc < 0) return 0; return rc; } static int idbm_print_all_isns(int info_level) { int rc; rc = idbm_for_each_isns_drec(&info_level, __idbm_print_all_by_drec); if (rc < 0) return 0; return rc; } int idbm_print_all_discovery(int info_level) { discovery_rec_t *drec; int found = 0, tmp; if (info_level < 1) { found = idbm_print_all_st(info_level); found += idbm_print_all_isns(info_level); return found; } drec = calloc(1, sizeof(*drec)); if (!drec) return 0; tmp = 0; printf("SENDTARGETS:\n"); tmp = idbm_print_all_st(info_level); if (!tmp) printf("No targets found.\n"); found += tmp; tmp = 0; printf("iSNS:\n"); tmp = idbm_print_all_isns(info_level); if (!tmp) { /* * pre 872 tools did not store the server ip,port so * we drop down here, to just look for target portals. */ drec->type = DISCOVERY_TYPE_ISNS; tmp = idbm_print_discovered(drec, info_level); if (!tmp) printf("No targets found.\n"); } found += tmp; tmp = 0; printf("STATIC:\n"); drec->type = DISCOVERY_TYPE_STATIC; tmp = idbm_print_discovered(drec, info_level); if (!tmp) printf("No targets found.\n"); found += tmp; tmp = 0; printf("FIRMWARE:\n"); drec->type = DISCOVERY_TYPE_FW; tmp = idbm_print_discovered(drec, info_level); if (!tmp) printf("No targets found.\n"); found += tmp; free(drec); return found; } /** * idbm_for_each_iface - iterate over bound iface recs * @found: nr of recs found so far * @data: data pointer passed to fn * @fn: iterator function ran over each bound iface rec * @targetname: rec's target name * @tpgt: rec's portal group tag * @ip: rec's ip address * @port: rec's port * * This will run fn over all recs with the {targetname,tpgt,ip,port} * id. It does not iterate over the ifaces setup in /etc/iscsi/ifaces. * * fn should return -1 if it skipped the rec, an ISCSI_ERR error code if * the operation failed or 0 if fn was run successfully. */ static int idbm_for_each_iface(int *found, void *data, idbm_iface_op_fn *fn, char *targetname, int tpgt, char *ip, int port) { DIR *iface_dirfd; struct dirent *iface_dent; struct stat statb; node_rec_t rec; int rc = 0; char *portal; portal = calloc(1, PATH_MAX); if (!portal) return ISCSI_ERR_NOMEM; if (tpgt >= 0) goto read_iface; /* old style portal as a config */ snprintf(portal, PATH_MAX, "%s/%s/%s,%d", NODE_CONFIG_DIR, targetname, ip, port); if (stat(portal, &statb)) { log_error("iface iter could not stat %s.", portal); rc = ISCSI_ERR_IDBM; goto free_portal; } rc = __idbm_rec_read(&rec, portal); if (rc) goto free_portal; rc = fn(data, &rec); if (!rc) (*found)++; else if (rc == -1) rc = 0; goto free_portal; read_iface: snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d", NODE_CONFIG_DIR, targetname, ip, port, tpgt); iface_dirfd = opendir(portal); if (!iface_dirfd) { log_error("iface iter could not read dir %s.", portal); rc = ISCSI_ERR_IDBM; goto free_portal; } while ((iface_dent = readdir(iface_dirfd))) { int curr_rc; if (!strcmp(iface_dent->d_name, ".") || !strcmp(iface_dent->d_name, "..")) continue; log_debug(5, "iface iter found %s.", iface_dent->d_name); memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d/%s", NODE_CONFIG_DIR, targetname, ip, port, tpgt, iface_dent->d_name); if (__idbm_rec_read(&rec, portal)) continue; curr_rc = fn(data, &rec); /* less than zero means it was not a match */ if (curr_rc > 0 && !rc) rc = curr_rc; else if (curr_rc == 0) (*found)++; } closedir(iface_dirfd); free_portal: free(portal); return rc; } /* * backwards compat * The portal could be a file or dir with interfaces */ int idbm_for_each_portal(int *found, void *data, idbm_portal_op_fn *fn, char *targetname) { DIR *portal_dirfd; struct dirent *portal_dent; int rc = 0; char *portal; portal = calloc(1, PATH_MAX); if (!portal) return ISCSI_ERR_NOMEM; snprintf(portal, PATH_MAX, "%s/%s", NODE_CONFIG_DIR, targetname); portal_dirfd = opendir(portal); if (!portal_dirfd) { rc = ISCSI_ERR_IDBM; goto done; } while ((portal_dent = readdir(portal_dirfd))) { char *tmp_port, *tmp_tpgt; int curr_rc; if (!strcmp(portal_dent->d_name, ".") || !strcmp(portal_dent->d_name, "..")) continue; log_debug(5, "found %s", portal_dent->d_name); tmp_port = strchr(portal_dent->d_name, ','); if (!tmp_port) continue; *tmp_port++ = '\0'; tmp_tpgt = strchr(tmp_port, ','); if (tmp_tpgt) *tmp_tpgt++ = '\0'; curr_rc = fn(found, data, targetname, tmp_tpgt ? atoi(tmp_tpgt) : -1, portal_dent->d_name, atoi(tmp_port)); /* less than zero means it was not a match */ if (curr_rc > 0 && !rc) rc = curr_rc; } closedir(portal_dirfd); done: free(portal); return rc; } int idbm_for_each_node(int *found, void *data, idbm_node_op_fn *fn) { DIR *node_dirfd; struct dirent *node_dent; int rc = 0; *found = 0; node_dirfd = opendir(NODE_CONFIG_DIR); if (!node_dirfd) /* on start up node dir may not be created */ return 0; while ((node_dent = readdir(node_dirfd))) { int curr_rc; if (!strcmp(node_dent->d_name, ".") || !strcmp(node_dent->d_name, "..")) continue; log_debug(5, "searching %s", node_dent->d_name); curr_rc = fn(found, data, node_dent->d_name); /* less than zero means it was not a match */ if (curr_rc > 0 && !rc) rc = curr_rc; } closedir(node_dirfd); return rc; } static int iface_fn(void *data, node_rec_t *rec) { struct rec_op_data *op_data = data; return op_data->fn(op_data->data, rec); } static int portal_fn(int *found, void *data, char *targetname, int tpgt, char *ip, int port) { return idbm_for_each_iface(found, data, iface_fn, targetname, tpgt, ip, port); } static int node_fn(int *found, void *data, char *targetname) { return idbm_for_each_portal(found, data, portal_fn, targetname); } int idbm_for_each_rec(int *found, void *data, idbm_iface_op_fn *fn) { struct rec_op_data op_data; memset(&op_data, 0, sizeof(struct rec_op_data)); op_data.data = data; op_data.fn = fn; return idbm_for_each_node(found, &op_data, node_fn); } static struct { char *config_root; char *config_name; } disc_type_to_config_vals[] = { { ST_CONFIG_DIR, ST_CONFIG_NAME }, { ISNS_CONFIG_DIR, ISNS_CONFIG_NAME }, }; int idbm_discovery_read(discovery_rec_t *out_rec, int drec_type, char *addr, int port) { recinfo_t *info; char *portal; int rc = 0; FILE *f; if (drec_type > 1) return ISCSI_ERR_INVAL; memset(out_rec, 0, sizeof(discovery_rec_t)); info = idbm_recinfo_alloc(MAX_KEYS); if (!info) return ISCSI_ERR_NOMEM; portal = malloc(PATH_MAX); if (!portal) { rc = ISCSI_ERR_NOMEM; goto free_info; } snprintf(portal, PATH_MAX, "%s/%s,%d", disc_type_to_config_vals[drec_type].config_root, addr, port); log_debug(5, "Looking for config file %s", portal); rc = idbm_lock(); if (rc) goto free_info; f = idbm_open_rec_r(portal, disc_type_to_config_vals[drec_type].config_name); if (!f) { log_debug(1, "Could not open %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } idbm_discovery_setup_defaults(out_rec, drec_type); idbm_recinfo_discovery(out_rec, info); idbm_recinfo_config(info, f); fclose(f); unlock: idbm_unlock(); free_info: free(portal); free(info); return rc; } /* * Backwards Compat: * If the portal is a file then we are doing the old style default * session behavior (svn pre 780). */ static FILE *idbm_open_rec_w(char *portal, char *config) { struct stat statb; FILE *f; int err; log_debug(5, "Looking for config file %s", portal); err = stat(portal, &statb); if (err) goto mkdir_portal; if (!S_ISDIR(statb.st_mode)) { /* * Old style portal as a file. Let's update it. */ if (unlink(portal)) { log_error("Could not convert %s to %s/%s. " "err %d", portal, portal, config, errno); return NULL; } mkdir_portal: if (mkdir(portal, 0660) != 0) { log_error("Could not make dir %s err %d", portal, errno); return NULL; } } strlcat(portal, "/", PATH_MAX); strlcat(portal, config, PATH_MAX); f = fopen(portal, "w"); if (!f) log_error("Could not open %s err %d", portal, errno); return f; } static int idbm_rec_write(node_rec_t *rec) { struct stat statb; FILE *f; char *portal; int rc = 0; portal = malloc(PATH_MAX); if (!portal) { log_error("Could not alloc portal"); return ISCSI_ERR_NOMEM; } snprintf(portal, PATH_MAX, "%s", NODE_CONFIG_DIR); if (access(portal, F_OK) != 0) { if (mkdir(portal, 0660) != 0) { log_error("Could not make %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto free_portal; } } snprintf(portal, PATH_MAX, "%s/%s", NODE_CONFIG_DIR, rec->name); if (access(portal, F_OK) != 0) { if (mkdir(portal, 0660) != 0) { log_error("Could not make %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto free_portal; } } snprintf(portal, PATH_MAX, "%s/%s/%s,%d", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port); log_debug(5, "Looking for config file %s", portal); rc = idbm_lock(); if (rc) goto free_portal; rc = stat(portal, &statb); if (rc) { rc = 0; /* * older iscsiadm versions had you create the config then set * set the tgpt. In new versions you must pass all the info in * from the start */ if (rec->tpgt == PORTAL_GROUP_TAG_UNKNOWN) /* drop down to old style portal as config */ goto open_conf; else goto mkdir_portal; } if (!S_ISDIR(statb.st_mode)) { /* * older iscsiadm versions had you create the config then set * set the tgpt. In new versions you must pass all the info in * from the start */ if (rec->tpgt == PORTAL_GROUP_TAG_UNKNOWN) /* drop down to old style portal as config */ goto open_conf; /* * Old style portal as a file, but with tpgt. Let's update it. */ if (unlink(portal)) { log_error("Could not convert %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } } else { rc = ISCSI_ERR_INVAL; goto unlock; } mkdir_portal: snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt); if (stat(portal, &statb)) { if (mkdir(portal, 0660) != 0) { log_error("Could not make dir %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } } snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d/%s", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); open_conf: f = fopen(portal, "w"); if (!f) { log_error("Could not open %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } idbm_print(IDBM_PRINT_TYPE_NODE, rec, 1, f); fclose(f); unlock: idbm_unlock(); free_portal: free(portal); return rc; } static int idbm_discovery_write(discovery_rec_t *rec) { FILE *f; char *portal; int rc = 0; if (rec->type > 1) return ISCSI_ERR_INVAL; portal = malloc(PATH_MAX); if (!portal) { log_error("Could not alloc portal"); return ISCSI_ERR_NOMEM; } rc = idbm_lock(); if (rc) goto free_portal; snprintf(portal, PATH_MAX, "%s", disc_type_to_config_vals[rec->type].config_root); if (access(portal, F_OK) != 0) { if (mkdir(portal, 0660) != 0) { log_error("Could not make %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } } snprintf(portal, PATH_MAX, "%s/%s,%d", disc_type_to_config_vals[rec->type].config_root, rec->address, rec->port); f = idbm_open_rec_w(portal, disc_type_to_config_vals[rec->type].config_name); if (!f) { log_error("Could not open %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } idbm_print(IDBM_PRINT_TYPE_DISCOVERY, rec, 1, f); fclose(f); unlock: idbm_unlock(); free_portal: free(portal); return rc; } int idbm_add_discovery(discovery_rec_t *newrec) { discovery_rec_t rec; if (!idbm_discovery_read(&rec, newrec->type, newrec->address, newrec->port)) { log_debug(7, "disc rec already exists"); /* fall through */ } else log_debug(7, "adding new DB record"); return idbm_discovery_write(newrec); } static int setup_disc_to_node_link(char *disc_portal, node_rec_t *rec) { struct stat statb; int rc = 0; switch (rec->disc_type) { case DISCOVERY_TYPE_SENDTARGETS: /* st dir setup when we create its discovery node */ snprintf(disc_portal, PATH_MAX, "%s/%s,%d/%s,%s,%d,%d,%s", ST_CONFIG_DIR, rec->disc_address, rec->disc_port, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); break; case DISCOVERY_TYPE_FW: if (access(FW_CONFIG_DIR, F_OK) != 0) { if (mkdir(FW_CONFIG_DIR, 0660) != 0) { log_error("Could not make %s: %s", FW_CONFIG_DIR, strerror(errno)); rc = ISCSI_ERR_IDBM; } } snprintf(disc_portal, PATH_MAX, "%s/%s,%s,%d,%d,%s", FW_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); break; case DISCOVERY_TYPE_STATIC: if (access(STATIC_CONFIG_DIR, F_OK) != 0) { if (mkdir(STATIC_CONFIG_DIR, 0660) != 0) { log_error("Could not make %s; %s", STATIC_CONFIG_DIR, strerror(errno)); rc = ISCSI_ERR_IDBM; } } snprintf(disc_portal, PATH_MAX, "%s/%s,%s,%d,%d,%s", STATIC_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); break; case DISCOVERY_TYPE_ISNS: if (access(ISNS_CONFIG_DIR, F_OK) != 0) { if (mkdir(ISNS_CONFIG_DIR, 0660) != 0) { log_error("Could not make %s: %s", ISNS_CONFIG_DIR, strerror(errno)); rc = ISCSI_ERR_IDBM; } } /* * Older tools lumped all portals together in the * isns config dir. In 2.0-872, the isns dir added * a isns server (ddress and port) dir like sendtargets. * * If we found a older style link we return that so it * can be removed. If this function is called for * addition of a rec then the older link should have been * removed and we break down below. */ snprintf(disc_portal, PATH_MAX, "%s/%s,%s,%d,%d,%s", ISNS_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); if (!stat(disc_portal, &statb)) { log_debug(7, "using old style isns dir %s.", disc_portal); break; } snprintf(disc_portal, PATH_MAX, "%s/%s,%d", ISNS_CONFIG_DIR, rec->disc_address, rec->disc_port); if (!stat(disc_portal, &statb) && S_ISDIR(statb.st_mode)) { /* * if there is a dir for this isns server then * assume we are using the new style links */ snprintf(disc_portal, PATH_MAX, "%s/%s,%d/%s,%s,%d,%d,%s", ISNS_CONFIG_DIR, rec->disc_address, rec->disc_port, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); break; } /* adding a older link */ snprintf(disc_portal, PATH_MAX, "%s/%s,%s,%d,%d,%s", ISNS_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); break; case DISCOVERY_TYPE_SLP: default: rc = ISCSI_ERR_INVAL; } return rc; } int idbm_add_node(node_rec_t *newrec, discovery_rec_t *drec, int overwrite) { node_rec_t rec; char *node_portal, *disc_portal; int rc; if (!idbm_rec_read(&rec, newrec->name, newrec->tpgt, newrec->conn[0].address, newrec->conn[0].port, &newrec->iface)) { if (!overwrite) return 0; rc = idbm_delete_node(&rec); if (rc) return rc; log_debug(7, "overwriting existing record"); } else log_debug(7, "adding new DB record"); if (drec) { newrec->disc_type = drec->type; newrec->disc_port = drec->port; strcpy(newrec->disc_address, drec->address); } rc = idbm_rec_write(newrec); /* * if a old app passed in a bogus tpgt then we do not create links * since it will set a different tpgt in another iscsiadm call */ if (rc || !drec || newrec->tpgt == PORTAL_GROUP_TAG_UNKNOWN) return rc; node_portal = calloc(2, PATH_MAX); if (!node_portal) return ISCSI_ERR_NOMEM; disc_portal = node_portal + PATH_MAX; snprintf(node_portal, PATH_MAX, "%s/%s/%s,%d,%d", NODE_CONFIG_DIR, newrec->name, newrec->conn[0].address, newrec->conn[0].port, newrec->tpgt); rc = setup_disc_to_node_link(disc_portal, newrec); if (rc) goto free_portal; log_debug(7, "node addition making link from %s to %s", node_portal, disc_portal); rc = idbm_lock(); if (rc) goto free_portal; if (symlink(node_portal, disc_portal)) { if (errno == EEXIST) log_debug(7, "link from %s to %s exists", node_portal, disc_portal); else { rc = ISCSI_ERR_IDBM; log_error("Could not make link from disc source %s to " "node %s: %s", disc_portal, node_portal, strerror(errno)); } } idbm_unlock(); free_portal: free(node_portal); return rc; } static int idbm_bind_iface_to_nodes(idbm_disc_nodes_fn *disc_node_fn, void *data, struct iface_rec *iface, struct list_head *bound_recs) { struct node_rec *rec, *tmp; struct list_head new_recs; int rc; INIT_LIST_HEAD(&new_recs); rc = disc_node_fn(data, iface, &new_recs); if (rc) return rc; list_for_each_entry_safe(rec, tmp, &new_recs, list) { list_del_init(&rec->list); list_add_tail(&rec->list, bound_recs); iface_copy(&rec->iface, iface); } return 0; } static int discovery_error_fatal(int err) { switch (err) { /* No error */ case ISCSI_SUCCESS: /* Transport errors or timeouts are not fatal */ case ISCSI_ERR_TRANS: case ISCSI_ERR_TRANS_TIMEOUT: return 0; } return 1; } int idbm_bind_ifaces_to_nodes(idbm_disc_nodes_fn *disc_node_fn, void *data, struct list_head *ifaces, struct list_head *bound_recs) { struct list_head def_ifaces; struct node_rec *rec, *tmp_rec; struct iface_rec *iface, *tmp_iface; struct iscsi_transport *t; int rc = 0, found = 0; INIT_LIST_HEAD(&def_ifaces); if (!ifaces || list_empty(ifaces)) { iface_link_ifaces(&def_ifaces); list_for_each_entry_safe(iface, tmp_iface, &def_ifaces, list) { list_del(&iface->list); t = iscsi_sysfs_get_transport_by_name(iface->transport_name); /* * only auto bind to software iscsi if it is * not the default iface (that is handled below) */ if (!t || strcmp(t->name, DEFAULT_TRANSPORT) || !strcmp(iface->name, DEFAULT_IFACENAME)) { free(iface); continue; } rc = idbm_bind_iface_to_nodes(disc_node_fn, data, iface, bound_recs); free(iface); if (discovery_error_fatal(rc)) goto fail; found = 1; } /* create default iface with old/default behavior */ if (!found) { struct iface_rec def_iface; memset(&def_iface, 0, sizeof(struct iface_rec)); iface_setup_defaults(&def_iface); return idbm_bind_iface_to_nodes(disc_node_fn, data, &def_iface, bound_recs); } } else { list_for_each_entry(iface, ifaces, list) { if (strcmp(iface->name, DEFAULT_IFACENAME) && !iface_is_valid(iface)) { log_error("iface %s is not valid. Will not " "bind node to it. Iface settings " iface_fmt, iface->name, iface_str(iface)); continue; } rc = idbm_bind_iface_to_nodes(disc_node_fn, data, iface, bound_recs); if (discovery_error_fatal(rc)) goto fail; } } return 0; fail: list_for_each_entry_safe(iface, tmp_iface, &def_ifaces, list) { list_del(&iface->list); free(iface); } list_for_each_entry_safe(rec, tmp_rec, bound_recs, list) { list_del(&rec->list); free(rec); } return rc; } static void idbm_rm_disc_node_links(char *disc_dir) { char *target = NULL, *tpgt = NULL, *port = NULL; char *address = NULL, *iface_id = NULL; DIR *disc_dirfd; struct dirent *disc_dent; node_rec_t *rec; rec = calloc(1, sizeof(*rec)); if (!rec) return; disc_dirfd = opendir(disc_dir); if (!disc_dirfd) goto free_rec; /* rm links to nodes */ while ((disc_dent = readdir(disc_dirfd))) { if (!strcmp(disc_dent->d_name, ".") || !strcmp(disc_dent->d_name, "..")) continue; if (get_params_from_disc_link(disc_dent->d_name, &target, &tpgt, &address, &port, &iface_id)) { log_error("Improperly formed disc to node link"); continue; } log_debug(5, "disc removal removing link %s %s %s %s", target, address, port, iface_id); memset(rec, 0, sizeof(*rec)); strlcpy(rec->name, target, TARGET_NAME_MAXLEN); rec->tpgt = atoi(tpgt); rec->conn[0].port = atoi(port); strlcpy(rec->conn[0].address, address, NI_MAXHOST); strlcpy(rec->iface.name, iface_id, ISCSI_MAX_IFACE_LEN); if (idbm_delete_node(rec)) log_error("Could not delete node %s/%s/%s,%s/%s", NODE_CONFIG_DIR, target, address, port, iface_id); } closedir(disc_dirfd); free_rec: free(rec); } int idbm_delete_discovery(discovery_rec_t *drec) { char *portal; struct stat statb; int rc = 0; portal = calloc(1, PATH_MAX); if (!portal) return ISCSI_ERR_NOMEM; snprintf(portal, PATH_MAX, "%s/%s,%d", disc_type_to_config_vals[drec->type].config_root, drec->address, drec->port); log_debug(5, "Removing config file %s", portal); if (stat(portal, &statb)) { log_debug(5, "Could not stat %s to delete disc err %d", portal, errno); goto free_portal; } if (S_ISDIR(statb.st_mode)) { strlcat(portal, "/", PATH_MAX); strlcat(portal, disc_type_to_config_vals[drec->type].config_name, PATH_MAX); } if (unlink(portal)) log_debug(5, "Could not remove %s err %d", portal, errno); memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s,%d", disc_type_to_config_vals[drec->type].config_root, drec->address, drec->port); idbm_rm_disc_node_links(portal); /* rm portal dir */ if (S_ISDIR(statb.st_mode)) { memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s,%d", disc_type_to_config_vals[drec->type].config_root, drec->address, drec->port); rmdir(portal); } free_portal: free(portal); return rc; } /* * Backwards Compat or SLP: * if there is no link then this is pre svn 780 version where * we did not link the disc source and node */ static int idbm_remove_disc_to_node_link(node_rec_t *rec, char *portal) { int rc = 0; struct stat statb; node_rec_t *tmprec; tmprec = malloc(sizeof(*tmprec)); if (!tmprec) return ISCSI_ERR_NOMEM; memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d/%s", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); rc = __idbm_rec_read(tmprec, portal); if (rc) { /* old style recs will not have tpgt or a link so skip */ rc = 0; goto done; } log_debug(7, "found drec %s %d", tmprec->disc_address, tmprec->disc_port); /* rm link from discovery source to node */ memset(portal, 0, PATH_MAX); rc = setup_disc_to_node_link(portal, tmprec); if (rc) goto done; rc = idbm_lock(); if (rc) goto done; if (!stat(portal, &statb)) { if (unlink(portal)) { log_error("Could not remove link %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; } else log_debug(7, "rmd %s", portal); } else log_debug(7, "Could not stat %s", portal); idbm_unlock(); done: free(tmprec); return rc; } static int st_disc_filter(const struct dirent *dir) { return strcmp(dir->d_name, ".") && strcmp(dir->d_name, "..") && strcmp(dir->d_name, ST_CONFIG_NAME); } int idbm_delete_node(node_rec_t *rec) { struct stat statb; char *portal; int rc = 0, dir_rm_rc = 0; portal = calloc(1, PATH_MAX); if (!portal) return ISCSI_ERR_NOMEM; rc = idbm_remove_disc_to_node_link(rec, portal); if (rc) goto free_portal; memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s/%s,%d", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port); log_debug(5, "Removing config file %s iface id %s", portal, rec->iface.name); rc = idbm_lock(); if (rc) goto free_portal; if (!stat(portal, &statb)) goto rm_conf; snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d/%s", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt, rec->iface.name); log_debug(5, "Removing config file %s", portal); if (!stat(portal, &statb)) goto rm_conf; log_error("Could not stat %s to delete node: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; rm_conf: if (unlink(portal)) { log_error("Could not remove %s: %s", portal, strerror(errno)); rc = ISCSI_ERR_IDBM; goto unlock; } memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt); if (!stat(portal, &statb)) { struct dirent **namelist; int n, i; memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s/%s,%d,%d", NODE_CONFIG_DIR, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt); n = scandir(portal, &namelist, st_disc_filter, alphasort); if (n < 0) goto free_portal; if (n == 0) dir_rm_rc = rmdir(portal); for (i = 0; i < n; i++) free(namelist[i]); free(namelist); } /* rm target dir */ if (!dir_rm_rc) { memset(portal, 0, PATH_MAX); snprintf(portal, PATH_MAX, "%s/%s", NODE_CONFIG_DIR, rec->name); rmdir(portal); } unlock: idbm_unlock(); free_portal: free(portal); return rc; } void idbm_sendtargets_defaults(struct iscsi_sendtargets_config *cfg) { idbm_sync_config(); memcpy(cfg, &db->drec_st.u.sendtargets, sizeof(struct iscsi_sendtargets_config)); } void idbm_isns_defaults(struct iscsi_isns_config *cfg) { idbm_sync_config(); memcpy(cfg, &db->drec_isns.u.isns, sizeof(struct iscsi_isns_config)); } void idbm_slp_defaults(struct iscsi_slp_config *cfg) { memcpy(cfg, &db->drec_slp.u.slp, sizeof(struct iscsi_slp_config)); } struct user_param *idbm_alloc_user_param(char *name, char *value) { struct user_param *param; param = calloc(1, sizeof(*param)); if (!param) return NULL; INIT_LIST_HEAD(¶m->list); param->name = strdup(name); if (!param->name) goto free_param; param->value = strdup(value); if (!param->value) goto free_name; return param; free_name: free(param->name); free_param: free(param); return NULL; } int idbm_node_set_rec_from_param(struct list_head *params, node_rec_t *rec, int verify) { struct user_param *param; recinfo_t *info; int rc = 0; if (list_empty(params)) return 0; info = idbm_recinfo_alloc(MAX_KEYS); if (!info) return ISCSI_ERR_NOMEM; idbm_recinfo_node(rec, info); if (verify) { list_for_each_entry(param, params, list) { rc = idbm_verify_param(info, param->name); if (rc) goto free_info; } } list_for_each_entry(param, params, list) { rc = idbm_rec_update_param(info, param->name, param->value, 0); if (rc) { if (rc == ISCSI_ERR_INVAL) log_error("Unknown parameter %s.", param->name); goto free_info; } } free_info: free(info); return rc; } int idbm_node_set_param(void *data, node_rec_t *rec) { int rc; rc = idbm_node_set_rec_from_param(data, rec, 1); if (rc) return rc; return idbm_rec_write(rec); } int idbm_discovery_set_param(void *data, discovery_rec_t *rec) { struct list_head *params = data; struct user_param *param; recinfo_t *info; int rc = 0; info = idbm_recinfo_alloc(MAX_KEYS); if (!info) return ISCSI_ERR_NOMEM; idbm_recinfo_discovery((discovery_rec_t *)rec, info); list_for_each_entry(param, params, list) { rc = idbm_verify_param(info, param->name); if (rc) goto free_info; } list_for_each_entry(param, params, list) { rc = idbm_rec_update_param(info, param->name, param->value, 0); if (rc) goto free_info; } rc = idbm_discovery_write((discovery_rec_t *)rec); if (rc) goto free_info; free_info: free(info); return rc; } int idbm_init(idbm_get_config_file_fn *fn) { /* make sure root db dir is there */ if (access(ISCSI_CONFIG_ROOT, F_OK) != 0) { if (mkdir(ISCSI_CONFIG_ROOT, 0660) != 0) { log_error("Could not make %s %d", ISCSI_CONFIG_ROOT, errno); return errno; } } db = malloc(sizeof(idbm_t)); if (!db) { log_error("out of memory on idbm allocation"); return ISCSI_ERR_NOMEM; } memset(db, 0, sizeof(idbm_t)); db->get_config_file = fn; return 0; } void idbm_terminate(void) { if (db) free(db); } /** * idbm_create_rec - allocate and setup a node record * @targetname: target name * @tgpt: target portal group * @ip: ip address of portal * @port: port of portal * @iface: iscsi iface info * @verbose: flag indicating whether to log ifaces setup errors * * The iface only needs to have the name set. This function will * read in the other values. */ struct node_rec *idbm_create_rec(char *targetname, int tpgt, char *ip, int port, struct iface_rec *iface, int verbose) { struct node_rec *rec; rec = calloc(1, sizeof(*rec)); if (!rec) { log_error("Could not not allocate memory to create node " "record."); return NULL; } idbm_node_setup_defaults(rec); if (targetname) strlcpy(rec->name, targetname, TARGET_NAME_MAXLEN); rec->tpgt = tpgt; rec->conn[0].port = port; if (ip) strlcpy(rec->conn[0].address, ip, NI_MAXHOST); memset(&rec->iface, 0, sizeof(struct iface_rec)); if (iface) { iface_copy(&rec->iface, iface); if (strlen(iface->name)) { if (iface_conf_read(&rec->iface)) { if (verbose) log_error("Could not read iface info " "for %s.", iface->name); goto free_rec; } } } return rec; free_rec: free(rec); return NULL; } struct node_rec *idbm_create_rec_from_boot_context(struct boot_context *context) { struct node_rec *rec; /* tpgt hard coded to 1 ??? */ rec = idbm_create_rec(context->targetname, 1, context->target_ipaddr, context->target_port, NULL, 1); if (!rec) { log_error("Could not setup rec for fw discovery login."); return NULL; } iface_setup_defaults(&rec->iface); strlcpy(rec->session.auth.username, context->chap_name, sizeof(context->chap_name)); strlcpy((char *)rec->session.auth.password, context->chap_password, sizeof(context->chap_password)); strlcpy(rec->session.auth.username_in, context->chap_name_in, sizeof(context->chap_name_in)); strlcpy((char *)rec->session.auth.password_in, context->chap_password_in, sizeof(context->chap_password_in)); rec->session.auth.password_length = strlen((char *)context->chap_password); rec->session.auth.password_in_length = strlen((char *)context->chap_password_in); strlcpy(rec->session.boot_root, context->boot_root, sizeof(context->boot_root)); strlcpy(rec->session.boot_nic, context->boot_nic, sizeof(context->boot_nic)); strlcpy(rec->session.boot_target, context->boot_target, sizeof(context->boot_target)); iface_setup_from_boot_context(&rec->iface, context); return rec; } void idbm_node_setup_defaults(node_rec_t *rec) { int i; memset(rec, 0, sizeof(node_rec_t)); INIT_LIST_HEAD(&rec->list); rec->tpgt = PORTAL_GROUP_TAG_UNKNOWN; rec->disc_type = DISCOVERY_TYPE_STATIC; rec->leading_login = 0; rec->session.cmds_max = CMDS_MAX; rec->session.xmit_thread_priority = XMIT_THREAD_PRIORITY; rec->session.initial_cmdsn = 0; rec->session.queue_depth = QUEUE_DEPTH; rec->session.nr_sessions = 1; rec->session.initial_login_retry_max = DEF_INITIAL_LOGIN_RETRIES_MAX; rec->session.reopen_max = 32; rec->session.auth.authmethod = 0; rec->session.auth.password_length = 0; rec->session.auth.password_in_length = 0; rec->session.err_timeo.abort_timeout = DEF_ABORT_TIMEO; rec->session.err_timeo.lu_reset_timeout = DEF_LU_RESET_TIMEO; rec->session.err_timeo.tgt_reset_timeout = DEF_TGT_RESET_TIMEO; rec->session.err_timeo.host_reset_timeout = DEF_HOST_RESET_TIMEO; rec->session.timeo.replacement_timeout = DEF_REPLACEMENT_TIMEO; rec->session.info = NULL; rec->session.sid = 0; rec->session.multiple = 0; idbm_setup_session_defaults(&rec->session.iscsi); for (i=0; iconn[i].startup = ISCSI_STARTUP_MANUAL; rec->conn[i].port = ISCSI_LISTEN_PORT; rec->conn[i].tcp.window_size = TCP_WINDOW_SIZE; rec->conn[i].tcp.type_of_service = 0; rec->conn[i].timeo.login_timeout= DEF_LOGIN_TIMEO; rec->conn[i].timeo.logout_timeout= DEF_LOGOUT_TIMEO; rec->conn[i].timeo.auth_timeout = 45; rec->conn[i].timeo.noop_out_interval = DEF_NOOP_OUT_INTERVAL; rec->conn[i].timeo.noop_out_timeout = DEF_NOOP_OUT_TIMEO; idbm_setup_conn_defaults(&rec->conn[i].iscsi); } iface_setup_defaults(&rec->iface); } struct node_rec * idbm_find_rec_in_list(struct list_head *rec_list, char *targetname, char *addr, int port, struct iface_rec *iface) { struct node_rec *rec; list_for_each_entry(rec, rec_list, list) { if (__iscsi_match_session(rec, targetname, addr, port, iface, MATCH_ANY_SID)) return rec; } return NULL; } open-iscsi-2.0.874/usr/idbm.h000066400000000000000000000152661277325716400156720ustar00rootroot00000000000000/* * iSCSI Discovery Database Library * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef IDBM_H #define IDBM_H #include #include #include "initiator.h" #include "config.h" #include "list.h" #include "flashnode.h" #define NODE_CONFIG_DIR ISCSI_CONFIG_ROOT"nodes" #define SLP_CONFIG_DIR ISCSI_CONFIG_ROOT"slp" #define ISNS_CONFIG_DIR ISCSI_CONFIG_ROOT"isns" #define STATIC_CONFIG_DIR ISCSI_CONFIG_ROOT"static" #define FW_CONFIG_DIR ISCSI_CONFIG_ROOT"fw" #define ST_CONFIG_DIR ISCSI_CONFIG_ROOT"send_targets" #define ST_CONFIG_NAME "st_config" #define ISNS_CONFIG_NAME "isns_config" #define TYPE_INT 0 #define TYPE_INT_O 1 #define TYPE_STR 2 #define TYPE_UINT8 3 #define TYPE_UINT16 4 #define TYPE_UINT32 5 #define MAX_KEYS 256 /* number of keys total(including CNX_MAX) */ #define NAME_MAXVAL 128 /* the maximum length of key name */ #define VALUE_MAXVAL 256 /* the maximum length of 223 bytes in the RFC. */ #define OPTS_MAXVAL 8 typedef struct recinfo { int type; char name[NAME_MAXVAL]; char value[VALUE_MAXVAL]; void *data; int data_len; int visible; char* opts[OPTS_MAXVAL]; int numopts; /* * bool indicating if we can change it or not. * TODO: make it a enum that can indicate wheter it also requires * a relogin to pick up if a session is running. */ int can_modify; } recinfo_t; typedef char *(idbm_get_config_file_fn)(void); typedef struct idbm { void *discdb; void *nodedb; char *configfile; int refs; idbm_get_config_file_fn *get_config_file; node_rec_t nrec; recinfo_t ninfo[MAX_KEYS]; discovery_rec_t drec_st; recinfo_t dinfo_st[MAX_KEYS]; discovery_rec_t drec_slp; recinfo_t dinfo_slp[MAX_KEYS]; discovery_rec_t drec_isns; recinfo_t dinfo_isns[MAX_KEYS]; } idbm_t; struct user_param { struct list_head list; char *name; char *value; int param; }; typedef int (idbm_iface_op_fn)(void *data, node_rec_t *rec); typedef int (idbm_portal_op_fn)(int *found, void *data, char *targetname, int tpgt, char *ip, int port); typedef int (idbm_node_op_fn)(int *found, void *data, char *targetname); struct rec_op_data { void *data; node_rec_t *match_rec; idbm_iface_op_fn *fn; }; extern int idbm_for_each_portal(int *found, void *data, idbm_portal_op_fn *fn, char *targetname); extern int idbm_for_each_node(int *found, void *data, idbm_node_op_fn *fn); extern int idbm_for_each_rec(int *found, void *data, idbm_iface_op_fn *fn); typedef int (idbm_drec_op_fn)(void *data, discovery_rec_t *drec); extern int idbm_for_each_st_drec(void *data, idbm_drec_op_fn *fn); extern int idbm_for_each_isns_drec(void *data, idbm_drec_op_fn *fn); extern int idbm_init(idbm_get_config_file_fn *fn); extern void idbm_node_setup_from_conf(node_rec_t *rec); extern void idbm_terminate(void); extern int idbm_print_iface_info(void *data, struct iface_rec *iface); extern int idbm_print_node_info(void *data, node_rec_t *rec); extern int idbm_print_node_flat(void *data, node_rec_t *rec); extern int idbm_print_node_tree(struct node_rec *last_rec, struct node_rec *rec, char *prefix); extern int idbm_print_node_and_iface_tree(void *data, node_rec_t *rec); extern int idbm_print_discovery_info(discovery_rec_t *rec, int show); extern int idbm_print_all_discovery(int info_level); extern int idbm_delete_discovery(discovery_rec_t *rec); extern void idbm_node_setup_defaults(node_rec_t *rec); extern int idbm_delete_node(node_rec_t *rec); extern int idbm_add_node(node_rec_t *newrec, discovery_rec_t *drec, int overwrite); struct list_head; typedef int (idbm_disc_nodes_fn)(void *data, struct iface_rec *iface, struct list_head *recs); extern int idbm_bind_ifaces_to_nodes(idbm_disc_nodes_fn *disc_node_fn, void *data, struct list_head *ifaces, struct list_head *bound_recs); extern int idbm_add_discovery(discovery_rec_t *newrec); extern void idbm_sendtargets_defaults(struct iscsi_sendtargets_config *cfg); extern void idbm_isns_defaults(struct iscsi_isns_config *cfg); extern void idbm_slp_defaults(struct iscsi_slp_config *cfg); extern int idbm_discovery_read(discovery_rec_t *rec, int type, char *addr, int port); extern int idbm_rec_read(node_rec_t *out_rec, char *target_name, int tpgt, char *addr, int port, struct iface_rec *iface); extern int idbm_node_set_rec_from_param(struct list_head *params, node_rec_t *rec, int verify); extern int idbm_node_set_param(void *data, node_rec_t *rec); extern int idbm_discovery_set_param(void *data, discovery_rec_t *rec); struct user_param *idbm_alloc_user_param(char *name, char *value); extern void idbm_node_setup_defaults(node_rec_t *rec); extern struct node_rec *idbm_find_rec_in_list(struct list_head *rec_list, char *targetname, char *addr, int port, struct iface_rec *iface); /* lower level idbm functions for use by iface.c */ extern void idbm_recinfo_config(recinfo_t *info, FILE *f); extern void idbm_recinfo_iface(struct iface_rec *r, recinfo_t *ri); extern int idbm_lock(void); extern void idbm_unlock(void); extern recinfo_t *idbm_recinfo_alloc(int max_keys); extern int idbm_verify_param(recinfo_t *info, char *name); extern int idbm_rec_update_param(recinfo_t *info, char *name, char *value, int line_number); extern void idbm_recinfo_node(node_rec_t *r, recinfo_t *ri); enum { IDBM_PRINT_TYPE_DISCOVERY, IDBM_PRINT_TYPE_NODE, IDBM_PRINT_TYPE_IFACE, IDBM_PRINT_TYPE_HOST_CHAP, IDBM_PRINT_TYPE_FLASHNODE }; extern void idbm_print(int type, void *rec, int show, FILE *f); struct boot_context; extern struct node_rec *idbm_create_rec(char *targetname, int tpgt, char *ip, int port, struct iface_rec *iface, int verbose); extern struct node_rec * idbm_create_rec_from_boot_context(struct boot_context *context); extern int idbm_print_host_chap_info(struct iscsi_chap_rec *chap); extern void idbm_recinfo_host_chap(struct iscsi_chap_rec *r, recinfo_t *ri); extern int idbm_print_flashnode_info(struct flashnode_rec *target); extern void idbm_recinfo_flashnode(struct flashnode_rec *r, recinfo_t *ri); #endif /* IDBM_H */ open-iscsi-2.0.874/usr/idbm_fields.h000066400000000000000000000311401277325716400172050ustar00rootroot00000000000000#ifndef IDBM_FIELDS_H #define IDBM_FIELDS_H #include "version.h" #define ISCSI_BEGIN_REC "# BEGIN RECORD "ISCSI_VERSION_STR #define ISCSI_END_REC "# END RECORD" /* node fields */ #define NODE_NAME "node.name" #define NODE_TPGT "node.tpgt" #define NODE_STARTUP "node.startup" #define NODE_LEADING_LOGIN "node.leading_login" #define NODE_DISC_ADDR "node.discovery_address" #define NODE_DISC_PORT "node.discovery_port" #define NODE_DISC_TYPE "node.discovery_type" #define NODE_BOOT_LUN "node.boot_lun" /* session fields */ #define SESSION_INIT_CMDSN "node.session.initial_cmdsn" #define SESSION_INIT_LOGIN_RETRY "node.session.initial_login_retry_max" #define SESSION_CMDS_MAX "node.session.cmds_max" #define SESSION_XMIT_THREAD_PRIORITY "node.session.xmit_thread_priority" #define SESSION_QDEPTH "node.session.queue_depth" #define SESSION_NR_SESSIONS "node.session.nr_sessions" #define SESSION_AUTH_METHOD "node.session.auth.authmethod" #define SESSION_USERNAME "node.session.auth.username" #define SESSION_PASSWORD "node.session.auth.password" #define SESSION_PASSWORD_LEN "node.session.auth.password_length" #define SESSION_USERNAME_IN "node.session.auth.username_in" #define SESSION_PASSWORD_IN "node.session.auth.password_in" #define SESSION_PASSWORD_IN_LEN "node.session.auth.password_in_length" #define SESSION_REPLACEMENT_TMO "node.session.timeo.replacement_timeout" #define SESSION_ABORT_TMO "node.session.err_timeo.abort_timeout" #define SESSION_LU_RESET_TMO "node.session.err_timeo.lu_reset_timeout" #define SESSION_TGT_RESET_TMO "node.session.err_timeo.tgt_reset_timeout" #define SESSION_HOST_RESET_TMO "node.session.err_timeo.host_reset_timeout" #define SESSION_FAST_ABORT "node.session.iscsi.FastAbort" #define SESSION_INITIAL_R2T "node.session.iscsi.InitialR2T" #define SESSION_IMM_DATA "node.session.iscsi.ImmediateData" #define SESSION_FIRST_BURST "node.session.iscsi.FirstBurstLength" #define SESSION_MAX_BURST "node.session.iscsi.MaxBurstLength" #define SESSION_DEF_TIME2RETAIN "node.session.iscsi.DefaultTime2Retain" #define SESSION_DEF_TIME2WAIT "node.session.iscsi.DefaultTime2Wait" #define SESSION_MAX_CONNS "node.session.iscsi.MaxConnections" #define SESSION_MAX_R2T "node.session.iscsi.MaxOutstandingR2T" #define SESSION_ERL "node.session.iscsi.ERL" /* connections fields */ #define CONN_ADDR "node.conn[%d].address" #define CONN_PORT "node.conn[%d].port" #define CONN_STARTUP "node.conn[%d].startup" #define CONN_WINDOW_SIZE "node.conn[%d].tcp.window_size" #define CONN_SERVICE_TYPE "node.conn[%d].tcp.type_of_service" #define CONN_LOGOUT_TMO "node.conn[%d].timeo.logout_timeout" #define CONN_LOGIN_TMO "node.conn[%d].timeo.login_timeout" #define CONN_AUTH_TMO "node.conn[%d].timeo.auth_timeout" #define CONN_NOP_INT "node.conn[%d].timeo.noop_out_interval" #define CONN_NOP_TMO "node.conn[%d].timeo.noop_out_timeout" #define CONN_MAX_XMIT_DLEN "node.conn[%d].iscsi.MaxXmitDataSegmentLength" #define CONN_MAX_RECV_DLEN "node.conn[%d].iscsi.MaxRecvDataSegmentLength" #define CONN_HDR_DIGEST "node.conn[%d].iscsi.HeaderDigest" #define CONN_DATA_DIGEST "node.conn[%d].iscsi.DataDigest" #define CONN_IFMARKER "node.conn[%d].iscsi.IFMarker" #define CONN_OFMARKER "node.conn[%d].iscsi.OFMarker" /* iface fields */ #define IFACE_HWADDR "iface.hwaddress" #define IFACE_ISCSINAME "iface.iscsi_ifacename" #define IFACE_NETNAME "iface.net_ifacename" #define IFACE_TRANSPORTNAME "iface.transport_name" #define IFACE_INAME "iface.initiatorname" #define IFACE_ISID "iface.isid" #define IFACE_BOOT_PROTO "iface.bootproto" #define IFACE_IPADDR "iface.ipaddress" #define IFACE_SUBNET_MASK "iface.subnet_mask" #define IFACE_GATEWAY "iface.gateway" #define IFACE_PRIMARY_DNS "iface.primary_dns" #define IFACE_SEC_DNS "iface.secondary_dns" #define IFACE_VLAN_ID "iface.vlan_id" #define IFACE_VLAN_PRIORITY "iface.vlan_priority" #define IFACE_VLAN_STATE "iface.vlan_state" #define IFACE_LINKLOCAL "iface.ipv6_linklocal" #define IFACE_ROUTER "iface.ipv6_router" #define IFACE_IPV6_AUTOCFG "iface.ipv6_autocfg" #define IFACE_LINKLOCAL_AUTOCFG "iface.linklocal_autocfg" #define IFACE_ROUTER_AUTOCFG "iface.router_autocfg" #define IFACE_STATE "iface.state" #define IFACE_NUM "iface.iface_num" #define IFACE_MTU "iface.mtu" #define IFACE_PORT "iface.port" #define IFACE_DELAYED_ACK "iface.delayed_ack" #define IFACE_TCP_NAGLE "iface.tcp_nagle" #define IFACE_TCP_WSF_STATE "iface.tcp_wsf_state" #define IFACE_TCP_WSF "iface.tcp_wsf" #define IFACE_TCP_TIMER_SCALE "iface.tcp_timer_scale" #define IFACE_TCP_TIMESTAMP "iface.tcp_timestamp" #define IFACE_DHCP_DNS "iface.dhcp_dns" #define IFACE_DHCP_SLP_DA "iface.dhcp_slp_da" #define IFACE_TOS_STATE "iface.tos_state" #define IFACE_TOS "iface.tos" #define IFACE_GRAT_ARP "iface.gratuitous_arp" #define IFACE_DHCP_ALT_CID "iface.dhcp_alt_client_id_state" #define IFACE_DHCP_ALT_CID_STR "iface.dhcp_alt_client_id" #define IFACE_DHCP_REQ_VID "iface.dhcp_req_vendor_id_state" #define IFACE_DHCP_VID "iface.dhcp_vendor_id_state" #define IFACE_DHCP_VID_STR "iface.dhcp_vendor_id" #define IFACE_DHCP_LEARN_IQN "iface.dhcp_learn_iqn" #define IFACE_FRAGMENTATION "iface.fragmentation" #define IFACE_IN_FORWARD "iface.incoming_forwarding" #define IFACE_TTL "iface.ttl" #define IFACE_GRAT_NEIGHBOR_ADV "iface.gratuitous_neighbor_adv" #define IFACE_REDIRECT "iface.redirect" #define IFACE_IGNORE_ICMP_ECHO_REQ "iface.ignore_icmp_echo_request" #define IFACE_MLD "iface.mld" #define IFACE_FLOW_LABEL "iface.flow_label" #define IFACE_TRAFFIC_CLASS "iface.traffic_class" #define IFACE_HOP_LIMIT "iface.hop_limit" #define IFACE_ND_REACHABLE_TMO "iface.nd_reachable_tmo" #define IFACE_ND_REXMIT_TIME "iface.nd_rexmit_time" #define IFACE_ND_STALE_TMO "iface.nd_stale_tmo" #define IFACE_DUP_ADDR_DETECT_CNT "iface.dup_addr_detect_cnt" #define IFACE_RTR_ADV_LINK_MTU "iface.router_adv_link_mtu" #define IFACE_DEF_TMF_TMO "iface.def_task_mgmt_timeout" #define IFACE_HDRDGST "iface.header_digest" #define IFACE_DATADGST "iface.data_digest" #define IFACE_IMM_DATA "iface.immediate_data" #define IFACE_INITIAL_R2T "iface.initial_r2t" #define IFACE_DSEQ_INORDER "iface.data_seq_inorder" #define IFACE_DPDU_INORDER "iface.data_pdu_inorder" #define IFACE_ERL "iface.erl" #define IFACE_MAX_RECV_DLEN "iface.max_receive_data_len" #define IFACE_FIRST_BURST "iface.first_burst_len" #define IFACE_MAX_R2T "iface.max_outstanding_r2t" #define IFACE_MAX_BURST "iface.max_burst_len" #define IFACE_CHAP_AUTH "iface.chap_auth" #define IFACE_BIDI_CHAP "iface.bidi_chap" #define IFACE_STRICT_LOGIN_COMP "iface.strict_login_compliance" #define IFACE_DISCOVERY_AUTH "iface.discovery_auth" #define IFACE_DISCOVERY_LOGOUT "iface.discovery_logout" /* discovery fields */ #define DISC_STARTUP "discovery.startup" #define DISC_TYPE "discovery.type" /* sendtargets */ #define DISC_ST_ADDR "discovery.sendtargets.address" #define DISC_ST_PORT "discovery.sendtargets.port" #define DISC_ST_AUTH_METHOD "discovery.sendtargets.auth.authmethod" #define DISC_ST_USERNAME "discovery.sendtargets.auth.username" #define DISC_ST_PASSWORD "discovery.sendtargets.auth.password" #define DISC_ST_PASSWORD_LEN "discovery.sendtargets.auth.password_length" #define DISC_ST_USERNAME_IN "discovery.sendtargets.auth.username_in" #define DISC_ST_PASSWORD_IN "discovery.sendtargets.auth.password_in" #define DISC_ST_PASSWORD_IN_LEN "discovery.sendtargets.auth.password_in_length" #define DISC_ST_LOGIN_TMO "discovery.sendtargets.timeo.login_timeout" #define DISC_ST_REOPEN_MAX "discovery.sendtargets.reopen_max" #define DISC_ST_DISC_DAEMON_POLL_INVAL "discovery.sendtargets.discoveryd_poll_inval" #define DISC_ST_USE_DISC_DAEMON "discovery.sendtargets.use_discoveryd" #define DISC_ST_AUTH_TMO "discovery.sendtargets.timeo.auth_timeout" #define DISC_ST_ACTIVE_TMO "discovery.sendtargets.timeo.active_timeout" #define DISC_ST_MAX_RECV_DLEN "discovery.sendtargets.iscsi.MaxRecvDataSegmentLength" #define DISC_ISNS_DISC_DAEMON_POLL_INVAL "discovery.isns.discoveryd_poll_inval" #define DISC_ISNS_USE_DISC_DAEMON "discovery.isns.use_discoveryd" #define DISC_ISNS_ADDR "discovery.sendtargets.address" #define DISC_ISNS_PORT "discovery.sendtargets.port" /* host auth fields */ #define HOST_AUTH_INDEX "host.auth.tbl_idx" #define HOST_AUTH_METHOD "host.auth.authmethod" #define HOST_AUTH_USERNAME "host.auth.username" #define HOST_AUTH_PASSWORD "host.auth.password" #define HOST_AUTH_PASSWORD_LEN "host.auth.password_length" #define HOST_AUTH_USERNAME_IN "host.auth.username_in" #define HOST_AUTH_PASSWORD_IN "host.auth.password_in" #define HOST_AUTH_PASSWORD_IN_LEN "host.auth.password_in_length" /* flash target session fields */ #define FLASHNODE_SESS_AUTO_SND_TGT_DISABLE "flashnode.session.auto_snd_tgt_disable" #define FLASHNODE_SESS_DISCOVERY_SESS "flashnode.session.discovery_session" #define FLASHNODE_SESS_PORTAL_TYPE "flashnode.session.portal_type" #define FLASHNODE_SESS_ENTRY_EN "flashnode.session.entry_enable" #define FLASHNODE_SESS_IMM_DATA_EN "flashnode.session.immediate_data" #define FLASHNODE_SESS_INITIAL_R2T_EN "flashnode.session.initial_r2t" #define FLASHNODE_SESS_DATASEQ_INORDER "flashnode.session.data_seq_in_order" #define FLASHNODE_SESS_PDU_INORDER "flashnode.session.data_pdu_in_order" #define FLASHNODE_SESS_CHAP_AUTH_EN "flashnode.session.chap_auth_en" #define FLASHNODE_SESS_DISCOVERY_LOGOUT_EN "flashnode.session.discovery_logout_en" #define FLASHNODE_SESS_BIDI_CHAP_EN "flashnode.session.bidi_chap_en" #define FLASHNODE_SESS_DISCOVERY_AUTH_OPTIONAL "flashnode.session.discovery_auth_optional" #define FLASHNODE_SESS_ERL "flashnode.session.erl" #define FLASHNODE_SESS_FIRST_BURST "flashnode.session.first_burst_len" #define FLASHNODE_SESS_DEF_TIME2WAIT "flashnode.session.def_time2wait" #define FLASHNODE_SESS_DEF_TIME2RETAIN "flashnode.session.def_time2retain" #define FLASHNODE_SESS_MAX_R2T "flashnode.session.max_outstanding_r2t" #define FLASHNODE_SESS_ISID "flashnode.session.isid" #define FLASHNODE_SESS_TSID "flashnode.session.tsid" #define FLASHNODE_SESS_MAX_BURST "flashnode.session.max_burst_len" #define FLASHNODE_SESS_DEF_TASKMGMT_TMO "flashnode.session.def_taskmgmt_tmo" #define FLASHNODE_SESS_ALIAS "flashnode.session.targetalias" #define FLASHNODE_SESS_NAME "flashnode.session.targetname" #define FLASHNODE_SESS_TPGT "flashnode.session.tpgt" #define FLASHNODE_SESS_DISCOVERY_PARENT_IDX "flashnode.session.discovery_parent_idx" #define FLASHNODE_SESS_DISCOVERY_PARENT_TYPE "flashnode.session.discovery_parent_type" #define FLASHNODE_SESS_CHAP_OUT_IDX "flashnode.session.chap_out_idx" #define FLASHNODE_SESS_CHAP_IN_IDX "flashnode.session.chap_in_idx" #define FLASHNODE_SESS_USERNAME "flashnode.session.username" #define FLASHNODE_SESS_USERNAME_IN "flashnode.session.username_in" #define FLASHNODE_SESS_PASSWORD "flashnode.session.password" #define FLASHNODE_SESS_PASSWORD_IN "flashnode.session.password_in" #define FLASHNODE_SESS_IS_BOOT_TGT "flashnode.session.is_boot_target" /* flash target connection fields */ #define FLASHNODE_CONN_IS_FW_ASSIGNED_IPV6 "flashnode.conn[%d].is_fw_assigned_ipv6" #define FLASHNODE_CONN_HDR_DGST_EN "flashnode.conn[%d].header_digest_en" #define FLASHNODE_CONN_DATA_DGST_EN "flashnode.conn[%d].data_digest_en" #define FLASHNODE_CONN_SNACK_REQ_EN "flashnode.conn[%d].snack_req_en" #define FLASHNODE_CONN_TCP_TIMESTAMP_STAT "flashnode.conn[%d].tcp_timestamp_stat" #define FLASHNODE_CONN_TCP_NAGLE_DISABLE "flashnode.conn[%d].tcp_nagle_disable" #define FLASHNODE_CONN_TCP_WSF_DISABLE "flashnode.conn[%d].tcp_wsf_disable" #define FLASHNODE_CONN_TCP_TIMER_SCALE "flashnode.conn[%d].tcp_timer_scale" #define FLASHNODE_CONN_TCP_TIMESTAMP_EN "flashnode.conn[%d].tcp_timestamp_en" #define FLASHNODE_CONN_IP_FRAG_DISABLE "flashnode.conn[%d].fragment_disable" #define FLASHNODE_CONN_MAX_RECV_DLENGTH "flashnode.conn[%d].max_recv_dlength" #define FLASHNODE_CONN_MAX_XMIT_DLENGTH "flashnode.conn[%d].max_xmit_dlength" #define FLASHNODE_CONN_KEEPALIVE_TMO "flashnode.conn[%d].keepalive_tmo" #define FLASHNODE_CONN_PORT "flashnode.conn[%d].port" #define FLASHNODE_CONN_IPADDR "flashnode.conn[%d].ipaddress" #define FLASHNODE_CONN_REDIRECT_IPADDR "flashnode.conn[%d].redirect_ipaddr" #define FLASHNODE_CONN_MAX_SEGMENT_SIZE "flashnode.conn[%d].max_segment_size" #define FLASHNODE_CONN_LOCAL_PORT "flashnode.conn[%d].local_port" #define FLASHNODE_CONN_IPV4_TOS "flashnode.conn[%d].ipv4_tos" #define FLASHNODE_CONN_IPV6_TC "flashnode.conn[%d].ipv6_traffic_class" #define FLASHNODE_CONN_IPV6_FLOW_LABEL "flashnode.conn[%d].ipv6_flow_label" #define FLASHNODE_CONN_LINK_LOCAL_IPV6 "flashnode.conn[%d].link_local_ipv6" #define FLASHNODE_CONN_TCP_XMIT_WSF "flashnode.conn[%d].tcp_xmit_wsf" #define FLASHNODE_CONN_TCP_RECV_WSF "flashnode.conn[%d].tcp_recv_wsf" #define FLASHNODE_CONN_STATSN "flashnode.conn[%d].statsn" #define FLASHNODE_CONN_EXP_STATSN "flashnode.conn[%d].exp_statsn" #endif open-iscsi-2.0.874/usr/iface.c000066400000000000000000001771651277325716400160300ustar00rootroot00000000000000/* * iSCSI iface helpers * * Copyright (C) 2008 Mike Christie * Copyright (C) 2008 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include "log.h" #include "list.h" #include "iscsi_sysfs.h" #include "iscsi_settings.h" #include "config.h" #include "transport.h" #include "idbm.h" #include "iface.h" #include "session_info.h" #include "host.h" #include "fw_context.h" #include "sysdeps.h" #include "iscsi_err.h" #include "iscsi_netlink.h" /* * Default ifaces for use with transports that do not bind to hardware * by defaults (transports that let the interconnect layer to the routing * by defaults). */ /* * iSCSI over TCP/IP */ static struct iface_rec iface_default = { .name = "default", .transport_name = "tcp", }; /* * iSER */ static struct iface_rec iface_iser = { .name = "iser", .transport_name = "iser", }; static struct iface_rec *default_ifaces[] = { &iface_default, &iface_iser, NULL, }; static struct iface_rec *iface_match_default(struct iface_rec *iface) { struct iface_rec *def_iface; int i = 0; while ((def_iface = default_ifaces[i++])) { if (!strcmp(iface->name, def_iface->name)) return def_iface; } return NULL; } static void iface_init(struct iface_rec *iface) { if (!strlen(iface->name)) sprintf(iface->name, DEFAULT_IFACENAME); } /* * default is to use tcp through whatever the network layer * selects for us with the /etc/iscsi/initiatorname.iscsi iname. */ void iface_setup_defaults(struct iface_rec *iface) { sprintf(iface->transport_name, DEFAULT_TRANSPORT); iface_init(iface); } struct iface_rec *iface_alloc(char *ifname, int *err) { struct iface_rec *iface; if (!strlen(ifname) || strlen(ifname) + 1 > ISCSI_MAX_IFACE_LEN) { *err = ISCSI_ERR_INVAL; return NULL; } iface = calloc(1, sizeof(*iface)); if (!iface) { *err = ISCSI_ERR_NOMEM; return NULL; } strlcpy(iface->name, ifname, ISCSI_MAX_IFACE_LEN); INIT_LIST_HEAD(&iface->list); return iface; } static int __iface_conf_read(struct iface_rec *iface) { char *iface_conf; recinfo_t *info; FILE *f; int rc = 0; iface_conf = calloc(1, PATH_MAX); if (!iface_conf) return ISCSI_ERR_NOMEM; info = idbm_recinfo_alloc(MAX_KEYS); if (!info) { rc = ISCSI_ERR_NOMEM; goto free_conf; } snprintf(iface_conf, PATH_MAX, "%s/%s", IFACE_CONFIG_DIR, iface->name); log_debug(5, "looking for iface conf %s", iface_conf); f = fopen(iface_conf, "r"); if (!f) { /* * if someone passes in default but has not defined * an iface with default then we do it for them */ if (!strcmp(iface->name, DEFAULT_IFACENAME)) { iface_setup_defaults(iface); rc = 0; } else rc = ISCSI_ERR_IDBM; goto free_info; } iface_init(iface); idbm_recinfo_iface(iface, info); idbm_recinfo_config(info, f); fclose(f); free_info: free(info); free_conf: free(iface_conf); return rc; } int iface_conf_read(struct iface_rec *iface) { struct iface_rec *def_iface; int rc, retry = 0; def_iface = iface_match_default(iface); if (def_iface) { /* * older tools allowed default to have different * transport_names so we do not want to overwrite * it. */ if (!strcmp(def_iface->name, DEFAULT_IFACENAME)) { if (!strlen(iface->name)) strcpy(iface->name, def_iface->name); if (!strlen(iface->netdev)) strcpy(iface->netdev, def_iface->netdev); if (!strlen(iface->hwaddress)) strcpy(iface->hwaddress, def_iface->hwaddress); if (!strlen(iface->transport_name)) strcpy(iface->transport_name, def_iface->transport_name); if (!strlen(iface->iname)) strcpy(iface->iname, def_iface->iname); } else { iface_init(iface); iface_copy(iface, def_iface); } return 0; } retry_read: rc = idbm_lock(); if (rc) return rc; rc = __iface_conf_read(iface); idbm_unlock(); /* * cmd was run before running -m iface, so force def bindings * creation to see if that was the one requested */ if (retry < 1 && rc == ISCSI_ERR_IDBM) { iface_setup_host_bindings(); retry++; goto retry_read; } return rc; } int iface_conf_delete(struct iface_rec *iface) { struct iface_rec *def_iface; char *iface_conf; int rc = 0; def_iface = iface_match_default(iface); if (def_iface) { log_error("iface %s is a special interface and " "cannot be deleted.", iface->name); return ISCSI_ERR_INVAL; } iface_conf = calloc(1, PATH_MAX); if (!iface_conf) return ISCSI_ERR_NOMEM; sprintf(iface_conf, "%s/%s", IFACE_CONFIG_DIR, iface->name); rc = idbm_lock(); if (rc) goto free_conf; if (unlink(iface_conf)) rc = ISCSI_ERR_IDBM; idbm_unlock(); free_conf: free(iface_conf); return rc; } int iface_conf_write(struct iface_rec *iface) { struct iface_rec *def_iface; char *iface_conf; FILE *f; int rc = 0; def_iface = iface_match_default(iface); if (def_iface) { log_error("iface %s is a special interface and " "is not stored in %s.", iface->name, IFACE_CONFIG_DIR); return ISCSI_ERR_INVAL; } iface_conf = calloc(1, PATH_MAX); if (!iface_conf) return ISCSI_ERR_NOMEM; sprintf(iface_conf, "%s/%s", IFACE_CONFIG_DIR, iface->name); f = fopen(iface_conf, "w"); if (!f) { rc = ISCSI_ERR_IDBM; goto free_conf; } rc = idbm_lock(); if (rc) goto close_f; idbm_print(IDBM_PRINT_TYPE_IFACE, iface, 1, f); idbm_unlock(); close_f: fclose(f); free_conf: free(iface_conf); return rc; } int iface_conf_update(struct list_head *params, struct iface_rec *iface) { struct iface_rec *def_iface; recinfo_t *info; struct user_param *param; int rc = 0; def_iface = iface_match_default(iface); if (def_iface) { log_error("iface %s is a special interface and " "cannot be modified.", iface->name); return ISCSI_ERR_INVAL; } info = idbm_recinfo_alloc(MAX_KEYS); if (!info) return ISCSI_ERR_NOMEM; idbm_recinfo_iface(iface, info); list_for_each_entry(param, params, list) { rc = idbm_verify_param(info, param->name); if (rc) goto free_info; } list_for_each_entry(param, params, list) { rc = idbm_rec_update_param(info, param->name, param->value, 0); if (rc) goto free_info; } rc = iface_conf_write(iface); free_info: free(info); return rc; } #if 0 /* Unused */ static int iface_get_next_id(void) { struct stat statb; char *iface_conf; int i, rc = ENOSPC; iface_conf = calloc(1, PATH_MAX); if (!iface_conf) return ENOMEM; for (i = 0; i < INT_MAX; i++) { memset(iface_conf, 0, PATH_MAX); /* check len */ snprintf(iface_conf, PATH_MAX, "iface%d", i); if (strlen(iface_conf) > ISCSI_MAX_IFACE_LEN - 1) { log_error("iface namespace is full. Remove unused " "iface definitions from %s or send mail " "to open-iscsi@googlegroups.com to report " "the problem", IFACE_CONFIG_DIR); rc = ENOSPC; break; } memset(iface_conf, 0, PATH_MAX); snprintf(iface_conf, PATH_MAX, "%s/iface%d", IFACE_CONFIG_DIR, i); if (!stat(iface_conf, &statb)) continue; if (errno == ENOENT) { rc = i; break; } } free(iface_conf); return rc; } #endif /* Unused */ struct iface_search { struct iface_rec *pattern; struct iface_rec *found; }; static int __iface_get_by_net_binding(void *data, struct iface_rec *iface) { struct iface_search *search = data; if (!strcmp(search->pattern->name, iface->name)) { iface_copy(search->found, iface); return 1; } if (iface_is_bound_by_hwaddr(search->pattern)) { if (!strcasecmp(iface->hwaddress, search->pattern->hwaddress)) { iface_copy(search->found, iface); return 1; } else return 0; } if (iface_is_bound_by_netdev(search->pattern)) { if (!strcmp(iface->netdev, search->pattern->netdev)) { iface_copy(search->found, iface); return 1; } else return 0; } /* if (iface_is_bound_by_ipaddr(search->pattern)) { if (!strcmp(iface->ipaddress, search->pattern->ipaddress)) { iface_copy(search->found, iface); return 1; } else return 0; } */ return 0; } /* * Before 2.0.870, we only could bind by netdeivce or hwaddress, * so we did a simple reverse lookup to go from sysfs info to * the iface name. After 2.0.870 we added a lot of options to the * iface binding so we added the ifacename to the kernel. * * This function is for older kernels that do not export the ifacename. * If the user was doing iscsi_tcp session binding we will find * the iface by matching net info. */ int iface_get_by_net_binding(struct iface_rec *pattern, struct iface_rec *out_rec) { int num_found = 0, rc; struct iface_search search; if (!iface_is_bound_by_hwaddr(pattern) && !iface_is_bound_by_netdev(pattern)) { sprintf(out_rec->name, DEFAULT_IFACENAME); return 0; } search.pattern = pattern; search.found = out_rec; rc = iface_for_each_iface(&search, 0, &num_found, __iface_get_by_net_binding); if (rc == 1) return 0; return ISCSI_ERR_NO_OBJS_FOUND; } int iface_get_iptype(struct iface_rec *iface) { /* address might not be set if user config with another tool */ if (!strlen(iface->ipaddress) || !strcmp(UNKNOWN_VALUE, iface->ipaddress)) { /* try to figure out by name */ if (strstr(iface->name, "ipv4")) return ISCSI_IFACE_TYPE_IPV4; else if (strstr(iface->name, "ipv6")) return ISCSI_IFACE_TYPE_IPV6; else /* assume ipv4 by default */ return ISCSI_IFACE_TYPE_IPV4; } else { if (strcmp(iface->bootproto, "dhcp") && !strstr(iface->ipaddress, ".")) return ISCSI_IFACE_TYPE_IPV6; else return ISCSI_IFACE_TYPE_IPV4; } } static int iface_setup_binding_from_kern_iface(void *data, struct iface_rec *kern_iface) { struct host_info *hinfo = data; struct iface_rec iface; char iface_path[PATH_MAX]; if (!strlen(hinfo->iface.hwaddress)) { log_error("Invalid offload iSCSI host %u. Missing " "hwaddress. Try upgrading %s driver.", hinfo->host_no, hinfo->iface.transport_name); return 0; } memset(&iface, 0, sizeof(struct iface_rec)); if (kern_iface) { memcpy(&iface, kern_iface, sizeof(iface)); snprintf(iface.name, sizeof(iface.name), "%s.%s.%s.%u", kern_iface->transport_name, kern_iface->hwaddress, iface_get_iptype(kern_iface) == ISCSI_IFACE_TYPE_IPV4 ? "ipv4" : "ipv6", kern_iface->iface_num); } else { snprintf(iface.name, sizeof(iface.name), "%s.%s", hinfo->iface.transport_name, hinfo->iface.hwaddress); } strcpy(iface.hwaddress, hinfo->iface.hwaddress); strcpy(iface.transport_name, hinfo->iface.transport_name); memset(iface_path, 0, sizeof(iface_path)); snprintf(iface_path, PATH_MAX, "%s/%s", IFACE_CONFIG_DIR, iface.name); if (access(iface_path, F_OK) != 0) { /* not found so create it */ if (iface_conf_write(&iface)) { log_error("Could not create default iface conf %s.", iface.name); /* fall through - will not be persistent */ } } return 0; } static int __iface_setup_host_bindings(void *data, struct host_info *hinfo) { struct iface_rec *def_iface; struct iscsi_transport *t; int i = 0, nr_found; t = iscsi_sysfs_get_transport_by_hba(hinfo->host_no); if (!t) return 0; /* do not setup binding for hosts using non offload drivers */ while ((def_iface = default_ifaces[i++])) { if (!strcmp(t->name, def_iface->transport_name)) return 0; } nr_found = 0; iscsi_sysfs_for_each_iface_on_host(hinfo, hinfo->host_no, &nr_found, iface_setup_binding_from_kern_iface); if (!nr_found) iface_setup_binding_from_kern_iface(hinfo, NULL); return 0; } /* * Create a default iface for offload cards. We assume that we will * be able identify each host by MAC. */ void iface_setup_host_bindings(void) { int nr_found = 0; if (idbm_lock()) return; if (access(IFACE_CONFIG_DIR, F_OK) != 0) { if (mkdir(IFACE_CONFIG_DIR, 0660) != 0) { log_error("Could not make %s. HW/OFFLOAD iscsi " "may not be supported", IFACE_CONFIG_DIR); idbm_unlock(); return; } } idbm_unlock(); transport_probe_for_offload(); if (iscsi_sysfs_for_each_host(NULL, &nr_found, __iface_setup_host_bindings)) log_error("Could not scan scsi hosts. HW/OFFLOAD iscsi " "operations may not be supported, or please " "see README for instructions on setting up ifaces."); } void iface_copy(struct iface_rec *dst, struct iface_rec *src) { if (strlen(src->name)) strcpy(dst->name, src->name); if (src->iface_num) dst->iface_num = src->iface_num; if (strlen(src->netdev)) strcpy(dst->netdev, src->netdev); if (strlen(src->ipaddress)) strcpy(dst->ipaddress, src->ipaddress); if (strlen(src->subnet_mask)) strcpy(dst->subnet_mask, src->subnet_mask); if (strlen(src->gateway)) strcpy(dst->gateway, src->gateway); if (strlen(src->bootproto)) strcpy(dst->bootproto, src->bootproto); if (strlen(src->ipv6_linklocal)) strcpy(dst->ipv6_linklocal, src->ipv6_linklocal); if (strlen(src->ipv6_router)) strcpy(dst->ipv6_router, src->ipv6_router); if (strlen(src->ipv6_autocfg)) strcpy(dst->ipv6_autocfg, src->ipv6_autocfg); if (strlen(src->linklocal_autocfg)) strcpy(dst->linklocal_autocfg, src->linklocal_autocfg); if (strlen(src->router_autocfg)) strcpy(dst->router_autocfg, src->router_autocfg); if (src->vlan_id) dst->vlan_id = src->vlan_id; if (src->vlan_priority) dst->vlan_priority = src->vlan_priority; if (strlen(src->vlan_state)) strcpy(dst->vlan_state, src->vlan_state); if (strlen(src->state)) strcpy(dst->state, src->state); if (src->mtu) dst->mtu = src->mtu; if (src->port) dst->port = src->port; if (strlen(src->delayed_ack)) strcpy(dst->delayed_ack, src->delayed_ack); if (strlen(src->nagle)) strcpy(dst->nagle, src->nagle); if (strlen(src->tcp_wsf_state)) strcpy(dst->tcp_wsf_state, src->tcp_wsf_state); if (src->tcp_wsf) dst->tcp_wsf = src->tcp_wsf; if (src->tcp_timer_scale) dst->tcp_timer_scale = src->tcp_timer_scale; if (strlen(src->tcp_timestamp)) strcpy(dst->tcp_timestamp, src->tcp_timestamp); if (strlen(src->dhcp_dns)) strcpy(dst->dhcp_dns, src->dhcp_dns); if (strlen(src->dhcp_slp_da)) strcpy(dst->dhcp_slp_da, src->dhcp_slp_da); if (strlen(src->tos_state)) strcpy(dst->tos_state, src->tos_state); if (src->tos) dst->tos = src->tos; if (strlen(src->gratuitous_arp)) strcpy(dst->gratuitous_arp, src->gratuitous_arp); if (strlen(src->dhcp_alt_client_id_state)) strcpy(dst->dhcp_alt_client_id_state, src->dhcp_alt_client_id_state); if (strlen(src->dhcp_alt_client_id)) strcpy(dst->dhcp_alt_client_id, src->dhcp_alt_client_id); if (strlen(src->dhcp_req_vendor_id_state)) strcpy(dst->dhcp_req_vendor_id_state, src->dhcp_req_vendor_id_state); if (strlen(src->dhcp_vendor_id_state)) strcpy(dst->dhcp_vendor_id_state, src->dhcp_vendor_id_state); if (strlen(src->dhcp_vendor_id)) strcpy(dst->dhcp_vendor_id, src->dhcp_vendor_id); if (strlen(src->dhcp_learn_iqn)) strcpy(dst->dhcp_learn_iqn, src->dhcp_learn_iqn); if (strlen(src->fragmentation)) strcpy(dst->fragmentation, src->fragmentation); if (strlen(src->incoming_forwarding)) strcpy(dst->incoming_forwarding, src->incoming_forwarding); if (src->ttl) dst->ttl = src->ttl; if (strlen(src->gratuitous_neighbor_adv)) strcpy(dst->gratuitous_neighbor_adv, src->gratuitous_neighbor_adv); if (strlen(src->redirect)) strcpy(dst->redirect, src->redirect); if (strlen(src->mld)) strcpy(dst->mld, src->mld); if (src->flow_label) dst->flow_label = src->flow_label; if (src->traffic_class) dst->traffic_class = src->traffic_class; if (src->hop_limit) dst->hop_limit = src->hop_limit; if (src->nd_reachable_tmo) dst->nd_reachable_tmo = src->nd_reachable_tmo; if (src->nd_rexmit_time) dst->nd_rexmit_time = src->nd_rexmit_time; if (src->nd_stale_tmo) dst->nd_stale_tmo = src->nd_stale_tmo; if (src->dup_addr_detect_cnt) dst->dup_addr_detect_cnt = src->dup_addr_detect_cnt; if (src->router_adv_link_mtu) dst->router_adv_link_mtu = src->router_adv_link_mtu; if (src->def_task_mgmt_tmo) dst->def_task_mgmt_tmo = src->def_task_mgmt_tmo; if (strlen(src->header_digest)) strcpy(dst->header_digest, src->header_digest); if (strlen(src->data_digest)) strcpy(dst->data_digest, src->data_digest); if (strlen(src->immediate_data)) strcpy(dst->immediate_data, src->immediate_data); if (strlen(src->initial_r2t)) strcpy(dst->initial_r2t, src->initial_r2t); if (strlen(src->data_seq_inorder)) strcpy(dst->data_seq_inorder, src->data_seq_inorder); if (strlen(src->data_pdu_inorder)) strcpy(dst->data_pdu_inorder, src->data_pdu_inorder); if (src->erl) dst->erl = src->erl; if (src->max_recv_dlength) dst->max_recv_dlength = src->max_recv_dlength; if (src->first_burst_len) dst->first_burst_len = src->first_burst_len; if (src->max_out_r2t) dst->max_out_r2t = src->max_out_r2t; if (src->max_burst_len) dst->max_burst_len = src->max_burst_len; if (strlen(src->chap_auth)) strcpy(dst->chap_auth, src->chap_auth); if (strlen(src->bidi_chap)) strcpy(dst->bidi_chap, src->bidi_chap); if (strlen(src->strict_login_comp)) strcpy(dst->strict_login_comp, src->strict_login_comp); if (strlen(src->discovery_auth)) strcpy(dst->discovery_auth, src->discovery_auth); if (strlen(src->discovery_logout)) strcpy(dst->discovery_logout, src->discovery_logout); if (strlen(src->hwaddress)) strcpy(dst->hwaddress, src->hwaddress); if (strlen(src->transport_name)) strcpy(dst->transport_name, src->transport_name); if (strlen(src->iname)) strcpy(dst->iname, src->iname); } int iface_is_valid(struct iface_rec *iface) { if (!iface) return 0; if (!strlen(iface->name)) return 0; if (!strlen(iface->transport_name)) return 0; if (iface_is_bound_by_hwaddr(iface)) return 1; if (iface_is_bound_by_netdev(iface)) return 1; // if (iface_is_bound_by_ipaddr(iface)) // return 1; /* bound by transport name */ return 1; } int iface_match(struct iface_rec *pattern, struct iface_rec *iface) { if (!pattern || !iface) return 1; if (!strlen(pattern->name)) return 1; if (!strcmp(pattern->name, iface->name)) { if (!strcmp(pattern->name, DEFAULT_IFACENAME)) return 1; /* * For default we allow the same name, but different * transports. */ if (!strlen(pattern->transport_name)) return 1; if (!strcmp(pattern->transport_name, iface->transport_name)) return 1; /* fall through */ } return 0; } int iface_is_bound_by_hwaddr(struct iface_rec *iface) { if (iface && strlen(iface->hwaddress) && strcmp(iface->hwaddress, DEFAULT_HWADDRESS)) return 1; return 0; } int iface_is_bound_by_netdev(struct iface_rec *iface) { if (iface && strlen(iface->netdev) && strcmp(iface->netdev, DEFAULT_NETDEV)) return 1; return 0; } int iface_is_bound_by_ipaddr(struct iface_rec *iface) { if (iface && strlen(iface->ipaddress) && strcmp(iface->ipaddress, DEFAULT_IPADDRESS)) return 1; return 0; } void iface_print(struct iface_rec *iface, char *prefix) { if (strlen(iface->name)) printf("%sIface Name: %s\n", prefix, iface->name); else printf("%sIface Name: %s\n", prefix, UNKNOWN_VALUE); if (strlen(iface->transport_name)) printf("%sIface Transport: %s\n", prefix, iface->transport_name); else printf("%sIface Transport: %s\n", prefix, UNKNOWN_VALUE); if (strlen(iface->iname)) printf("%sIface Initiatorname: %s\n", prefix, iface->iname); else printf("%sIface Initiatorname: %s\n", prefix, UNKNOWN_VALUE); if (!strlen(iface->ipaddress)) printf("%sIface IPaddress: %s\n", prefix, UNKNOWN_VALUE); else if (strchr(iface->ipaddress, '.')) printf("%sIface IPaddress: %s\n", prefix, iface->ipaddress); else printf("%sIface IPaddress: [%s]\n", prefix, iface->ipaddress); if (strlen(iface->hwaddress)) printf("%sIface HWaddress: %s\n", prefix, iface->hwaddress); else printf("%sIface HWaddress: %s\n", prefix, UNKNOWN_VALUE); if (strlen(iface->netdev)) printf("%sIface Netdev: %s\n", prefix, iface->netdev); else printf("%sIface Netdev: %s\n", prefix, UNKNOWN_VALUE); } struct iface_print_node_data { struct node_rec *last_rec; struct iface_rec *match_iface; }; static int iface_print_nodes(void *data, node_rec_t *rec) { struct iface_print_node_data *print_data = data; if (!iface_match(print_data->match_iface, &rec->iface)) return -1; idbm_print_node_tree(print_data->last_rec, rec, "\t"); return 0; } /** * iface_print_tree - print out binding info * @iface: iface to print out * * Currently this looks like the iface conf print, because we only * have the binding info. When we store the iface specific node settings * in the iface record then it will look different. */ int iface_print_tree(void *data, struct iface_rec *iface) { struct node_rec last_rec; struct iface_print_node_data print_data; int num_found = 0; printf("Iface: %s\n", iface->name); memset(&last_rec, 0, sizeof(struct node_rec )); print_data.match_iface = iface; print_data.last_rec = &last_rec; idbm_for_each_rec(&num_found, &print_data, iface_print_nodes); return 0; } int iface_print_flat(void *data, struct iface_rec *iface) { printf("%s %s,%s,%s,%s,%s\n", strlen(iface->name) ? iface->name : UNKNOWN_VALUE, strlen(iface->transport_name) ? iface->transport_name : UNKNOWN_VALUE, strlen(iface->hwaddress) ? iface->hwaddress : UNKNOWN_VALUE, strlen(iface->ipaddress) ? iface->ipaddress : UNKNOWN_VALUE, strlen(iface->netdev) ? iface->netdev : UNKNOWN_VALUE, strlen(iface->iname) ? iface->iname : UNKNOWN_VALUE); return 0; } int iface_for_each_iface(void *data, int skip_def, int *nr_found, iface_op_fn *fn) { DIR *iface_dirfd; struct dirent *iface_dent; struct iface_rec *iface, *def_iface; int err = 0, i = 0; if (!skip_def) { while ((def_iface = default_ifaces[i++])) { iface = iface_alloc(def_iface->name, &err); if (!iface) { log_error("Could not add iface %s.", def_iface->name); continue; } iface_copy(iface, def_iface); err = fn(data, iface); free(iface); if (err) return err; (*nr_found)++; } } iface_dirfd = opendir(IFACE_CONFIG_DIR); if (!iface_dirfd) return errno; while ((iface_dent = readdir(iface_dirfd))) { if (!strcmp(iface_dent->d_name, ".") || !strcmp(iface_dent->d_name, "..")) continue; log_debug(5, "iface_for_each_iface found %s", iface_dent->d_name); iface = iface_alloc(iface_dent->d_name, &err); if (!iface || err) { if (err == ISCSI_ERR_INVAL) log_error("Invalid iface name %s. Must be " "from 1 to %d characters.", iface_dent->d_name, ISCSI_MAX_IFACE_LEN - 1); else log_error("Could not add iface %s.", iface_dent->d_name); continue; } err = idbm_lock(); if (err) { free(iface); continue; } err = __iface_conf_read(iface); idbm_unlock(); if (err) { log_error("Could not read def iface %s (err %d)", iface->name, err); free(iface); continue; } if (!iface_is_valid(iface)) { log_debug(5, "iface is not valid " "Iface settings " iface_fmt, iface_str(iface)); free(iface); continue; } err = fn(data, iface); free(iface); if (err) break; (*nr_found)++; } closedir(iface_dirfd); return err; } static int iface_link(void *data, struct iface_rec *iface) { struct list_head *ifaces = data; struct iface_rec *iface_copy; iface_copy = calloc(1, sizeof(*iface_copy)); if (!iface_copy) return ISCSI_ERR_NOMEM; memcpy(iface_copy, iface, sizeof(*iface_copy)); INIT_LIST_HEAD(&iface_copy->list); list_add_tail(&iface_copy->list, ifaces); return 0; } /** * iface_link_ifaces - link non default ifaces * @ifaces: list to add ifaces to * * This will return a list of the ifaces created by iscsiadm * or the user. It does not return the static default ones. */ void iface_link_ifaces(struct list_head *ifaces) { int nr_found = 0; iface_for_each_iface(ifaces, 1, &nr_found, iface_link); } /** * iface_setup_from_boot_context - setup iface from boot context info * @iface: iface t setup * @context: boot context info * * Returns 1 if setup for offload. */ int iface_setup_from_boot_context(struct iface_rec *iface, struct boot_context *context) { struct iscsi_transport *t = NULL; uint32_t hostno; if (strlen(context->initiatorname)) strlcpy(iface->iname, context->initiatorname, sizeof(iface->iname)); if (strlen(context->scsi_host_name)) { if (sscanf(context->scsi_host_name, "iscsi_boot%u", &hostno) != 1) { log_error("Could not parse %s's host no.", context->scsi_host_name); return 0; } } else if (strlen(context->iface)) { /* this ifdef is only temp until distros and firmwares are updated */ #ifdef OFFLOAD_BOOT_SUPPORTED char transport_name[ISCSI_TRANSPORT_NAME_MAXLEN]; int rc; memset(transport_name, 0, ISCSI_TRANSPORT_NAME_MAXLEN); /* make sure offload driver is loaded */ if (!net_get_transport_name_from_netdev(context->iface, transport_name)) t = iscsi_sysfs_get_transport_by_name(transport_name); if (net_ifup_netdev(context->iface)) log_warning("Could not bring up netdev %s for boot", context->iface); hostno = iscsi_sysfs_get_host_no_from_hwaddress(context->mac, &rc); if (rc) { /* * If the MAC in the boot info does not match an iscsi * host then the MAC must be for network card, so boot * is not going to be offloaded. */ log_debug(3, "Could not match %s to host", context->mac); return 0; } strlcpy(iface->netdev, context->iface, sizeof(iface->netdev)); #else return 0; #endif } else return 0; /* * set up for access through a offload card. */ if (!t) t = iscsi_sysfs_get_transport_by_hba(hostno); if (!t) { log_error("Could not get transport for host%u. " "Make sure the iSCSI driver is loaded.", hostno); return 0; } strcpy(iface->transport_name, t->name); memset(iface->name, 0, sizeof(iface->name)); snprintf(iface->name, sizeof(iface->name), "%s.%s", iface->transport_name, context->mac); strlcpy(iface->hwaddress, context->mac, sizeof(iface->hwaddress)); strlcpy(iface->ipaddress, context->ipaddr, sizeof(iface->ipaddress)); iface->vlan_id = atoi(context->vlan); strlcpy(iface->subnet_mask, context->mask, sizeof(iface->subnet_mask)); strlcpy(iface->gateway, context->gateway, sizeof(iface->gateway)); log_debug(1, "iface " iface_fmt "", iface_str(iface)); return 1; } /** * iface_create_ifaces_from_boot_contexts - create ifaces based on boot info * @ifaces: list to store ifaces in * @targets: list of targets to create ifaces from * * This function will create an iface struct based on the boot info * and it will create (or update if existing already) an iface rec in * the ifaces dir based on the info. */ int iface_create_ifaces_from_boot_contexts(struct list_head *ifaces, struct list_head *targets) { struct boot_context *context; struct iface_rec *iface, *tmp_iface; int rc = 0; list_for_each_entry(context, targets, list) { rc = 0; /* use dummy name. If valid it will get overwritten below */ iface = iface_alloc(DEFAULT_IFACENAME, &rc); if (!iface) { log_error("Could not setup iface %s for boot", context->iface); goto fail; } if (!iface_setup_from_boot_context(iface, context)) { /* no offload so forget it */ free(iface); continue; } rc = iface_conf_write(iface); if (rc) { log_error("Could not setup default iface conf " "for %s.", iface->name); free(iface); goto fail; } list_add_tail(&iface->list, ifaces); } return 0; fail: list_for_each_entry_safe(iface, tmp_iface, ifaces, list) { list_del(&iface->list); free(iface); } return rc; } struct iface_param_count { struct iface_rec *primary; int count; }; #define IFACE_NET_PARAM_EN_CNT(param_val, cnt) { \ if (!strcmp(param_val, "disable") || \ !strcmp(param_val, "enable")) \ (*cnt)++; \ } /** * iface_get_common_param_count - Gets common parameters count for given iface * @iface: iface to setup * @count: number of parameters to set */ static void iface_get_common_param_count(struct iface_rec *iface, int *count) { if (strcmp(iface->vlan_state, "disable")) { /* vlan_state enabled */ (*count)++; if (iface->vlan_id) /* For vlan value */ (*count)++; } else { /* vlan_state disabled */ (*count)++; } if (iface->mtu) (*count)++; if (iface->port) (*count)++; IFACE_NET_PARAM_EN_CNT(iface->delayed_ack, count); IFACE_NET_PARAM_EN_CNT(iface->nagle, count); IFACE_NET_PARAM_EN_CNT(iface->tcp_wsf_state, count); IFACE_NET_PARAM_EN_CNT(iface->tcp_timestamp, count); IFACE_NET_PARAM_EN_CNT(iface->redirect, count); IFACE_NET_PARAM_EN_CNT(iface->header_digest, count); IFACE_NET_PARAM_EN_CNT(iface->data_digest, count); IFACE_NET_PARAM_EN_CNT(iface->immediate_data, count); IFACE_NET_PARAM_EN_CNT(iface->initial_r2t, count); IFACE_NET_PARAM_EN_CNT(iface->data_seq_inorder, count); IFACE_NET_PARAM_EN_CNT(iface->data_pdu_inorder, count); IFACE_NET_PARAM_EN_CNT(iface->chap_auth, count); IFACE_NET_PARAM_EN_CNT(iface->bidi_chap, count); IFACE_NET_PARAM_EN_CNT(iface->strict_login_comp, count); IFACE_NET_PARAM_EN_CNT(iface->discovery_auth, count); IFACE_NET_PARAM_EN_CNT(iface->discovery_logout, count); if (iface->tcp_wsf) (*count)++; if (iface->tcp_timer_scale) (*count)++; if (iface->def_task_mgmt_tmo) (*count)++; if (iface->erl) (*count)++; if (iface->max_recv_dlength) (*count)++; if (iface->first_burst_len) (*count)++; if (iface->max_burst_len) (*count)++; if (iface->max_out_r2t) (*count)++; } /** * __iface_get_param_count - Gets netconfig parameter count for given iface * @data: iface_param_count structure * @iface: iface to setup */ static int __iface_get_param_count(void *data, struct iface_rec *iface) { struct iface_param_count *iface_params = data; int iptype = ISCSI_IFACE_TYPE_IPV4; int count = 0; if (strcmp(iface_params->primary->hwaddress, iface->hwaddress)) return 0; iptype = iface_get_iptype(iface); if (iptype == ISCSI_IFACE_TYPE_IPV4) { if (strcmp(iface->state, "disable")) { if (strstr(iface->bootproto, "dhcp")) { /* DHCP enabled */ count++; } else { /* DHCP disabled */ count++; if (strstr(iface->ipaddress, ".")) { /* User configured IPv4 Address */ count++; if (strstr(iface->subnet_mask, ".")) /* User configured Subnet */ count++; if (strstr(iface->gateway, ".")) /* User configured Gateway */ count++; } else { /* * IPv4 Address not valid, decrement * count of DHCP */ count--; } } /* * If IPv4 configuration in iface file is valid, * enable state and other parameters (if any) */ if (count) { /* iface state */ count++; IFACE_NET_PARAM_EN_CNT(iface->dhcp_dns, &count); IFACE_NET_PARAM_EN_CNT(iface->dhcp_slp_da, &count); IFACE_NET_PARAM_EN_CNT(iface->tos_state, &count); IFACE_NET_PARAM_EN_CNT(iface->gratuitous_arp, &count); IFACE_NET_PARAM_EN_CNT( iface->dhcp_alt_client_id_state, &count); if (iface->dhcp_alt_client_id[0]) count++; IFACE_NET_PARAM_EN_CNT( iface->dhcp_req_vendor_id_state, &count); IFACE_NET_PARAM_EN_CNT( iface->dhcp_vendor_id_state, &count); if (iface->dhcp_vendor_id[0]) count++; IFACE_NET_PARAM_EN_CNT(iface->dhcp_learn_iqn, &count); IFACE_NET_PARAM_EN_CNT(iface->fragmentation, &count); IFACE_NET_PARAM_EN_CNT( iface->incoming_forwarding, &count); if (iface->tos) count++; if (iface->ttl) count++; iface_get_common_param_count(iface, &count); } } else { /* IPv4 is disabled, iface state */ count++; } } else if (iptype == ISCSI_IFACE_TYPE_IPV6) { if (strcmp(iface->state, "disable")) { /* IPv6 Address */ if (strstr(iface->ipv6_autocfg, "nd") || strstr(iface->ipv6_autocfg, "dhcpv6")) { /* Autocfg enabled */ count++; } else { /* Autocfg disabled */ count++; if (strstr(iface->ipaddress, ":")) /* User configured IPv6 Address */ count++; else /* * IPv6 Address not valid, decrement * count of IPv6 Autocfg */ count--; } /* IPv6 LinkLocal Address */ if (strstr(iface->linklocal_autocfg, "auto")) /* Autocfg enabled */ count++; else { /* Autocfg disabled */ count++; if (strstr(iface->ipv6_linklocal, ":")) /* User configured LinkLocal Address */ count++; else /* * LinkLocal Address not valid, * decrement count of LinkLocal Autocfg */ count--; } /* IPv6 Router Address */ if (strstr(iface->router_autocfg, "auto")) /* Autocfg enabled */ count++; else { /* Autocfg disabled */ count++; if (strstr(iface->ipv6_router, ":")) /* User configured Router Address */ count++; else /* * Router Address not valid, * decrement count of Router Autocfg */ count--; } /* * If IPv6 configuration in iface file is valid, * enable state and other parameters (if any) */ if (count) { /* iface state */ count++; IFACE_NET_PARAM_EN_CNT( iface->gratuitous_neighbor_adv, &count); IFACE_NET_PARAM_EN_CNT(iface->mld, &count); if (iface->flow_label) count++; if (iface->traffic_class) count++; if (iface->hop_limit) count++; if (iface->nd_reachable_tmo) count++; if (iface->nd_rexmit_time) count++; if (iface->nd_stale_tmo) count++; if (iface->dup_addr_detect_cnt) count++; if (iface->router_adv_link_mtu) count++; iface_get_common_param_count(iface, &count); } } else { /* IPv6 is disabled, iface state */ count++; } } iface_params->count += count; return 0; } /** * iface_get_param_count - Gets netconfig parameter count from iface * @iface: iface to setup * @iface_all: Flag for number of ifaces to traverse (1 for all) * * Returns netconfig parameter count. */ int iface_get_param_count(struct iface_rec *iface, int iface_all) { int num_found = 0, rc; struct iface_param_count iface_params; log_debug(8, "In iface_get_param_count"); iface_params.primary = iface; iface_params.count = 0; if (iface_all) rc = iface_for_each_iface(&iface_params, 0, &num_found, __iface_get_param_count); else rc = __iface_get_param_count(&iface_params, iface); log_debug(8, "iface_get_param_count: rc = %d, count = %d", rc, iface_params.count); return iface_params.count; } /* write integer parameter value */ static int iface_fill_int_param_val(struct iovec *iov, uint32_t iface_num, uint8_t iface_type, uint16_t param, uint8_t param_type, uint32_t param_len, uint32_t param_val) { int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; uint8_t val8 = 0; uint16_t val16 = 0; uint32_t val32 = 0; char *val = NULL; len = sizeof(struct iscsi_iface_param_info) + param_len; iov->iov_base = iscsi_nla_alloc(param, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->iface_num = iface_num; net_param->len = param_len; net_param->param = param; net_param->iface_type = iface_type; net_param->param_type = param_type; switch (param_len) { case 1: val8 = (uint8_t)param_val; val = (char *)&val8; break; case 2: val16 = (uint16_t)param_val; val = (char *)&val16; break; case 4: val32 = (uint32_t)param_val; val = (char *)&val32; break; default: goto free; } memcpy(net_param->value, val, param_len); return 0; free: free(iov->iov_base); iov->iov_base = NULL; iov->iov_len = 0; return 1; } #define IFACE_SET_PARAM_INTVAL(iov, inum, itype, param, ptype, plen, \ ival, gcnt, lcnt) { \ if (ival && !iface_fill_int_param_val(iov, inum, itype, param, \ ptype, plen, ival)) { \ (*gcnt)++; \ (*lcnt)++; \ } \ } /* IPv4/IPv6 VLAN_ID: decimal value <= 4095 */ static int iface_fill_vlan_id(struct iovec *iov, struct iface_rec *iface, uint32_t iface_type) { int len; struct iscsi_iface_param_info *net_param; uint16_t vlan = 0; struct nlattr *attr; len = sizeof(struct iscsi_iface_param_info) + 2; iov->iov_base = iscsi_nla_alloc(ISCSI_NET_PARAM_VLAN_TAG, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->param = ISCSI_NET_PARAM_VLAN_TAG; net_param->iface_type = iface_type; net_param->iface_num = iface->iface_num; net_param->param_type = ISCSI_NET_PARAM; net_param->len = 2; if (iface->vlan_id <= ISCSI_MAX_VLAN_ID && iface->vlan_priority <= ISCSI_MAX_VLAN_PRIORITY) /* * Bit 15-13: User Priority of VLAN * Bit 11-00: VLAN ID */ vlan = (iface->vlan_priority << 13) | (iface->vlan_id & ISCSI_MAX_VLAN_ID); memcpy(net_param->value, &vlan, net_param->len); return 0; } /* disable/enable parameters */ static int iface_fill_param_state(struct iovec *iov, uint32_t iface_num, uint8_t iface_type, uint16_t param, uint8_t param_type, char *param_val) { int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; if (!param_val[0]) return 1; len = sizeof(struct iscsi_iface_param_info) + 1; iov->iov_base = iscsi_nla_alloc(param, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->iface_num = iface_num; net_param->len = 1; net_param->param = param; net_param->iface_type = iface_type; net_param->param_type = param_type; if (!strcmp(param_val, "disable")) net_param->value[0] = ISCSI_NET_PARAM_DISABLE; else if (!strcmp(param_val, "enable")) net_param->value[0] = ISCSI_NET_PARAM_ENABLE; else goto free; return 0; free: free(iov->iov_base); iov->iov_base = NULL; iov->iov_len = 0; return 1; } #define IFACE_SET_PARAM_STATE(iov, inum, itype, param, ptype, ival, \ gcnt, lcnt) { \ if (!iface_fill_param_state(iov, inum, itype, param, ptype, \ ival)) { \ (*gcnt)++; \ (*lcnt)++; \ } \ } /* IPv4 Bootproto: DHCP/static */ static int iface_fill_net_bootproto(struct iovec *iov, struct iface_rec *iface) { int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; len = sizeof(struct iscsi_iface_param_info) + 1; iov->iov_base = iscsi_nla_alloc(ISCSI_NET_PARAM_IPV4_BOOTPROTO, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->param = ISCSI_NET_PARAM_IPV4_BOOTPROTO; net_param->iface_type = ISCSI_IFACE_TYPE_IPV4; net_param->iface_num = iface->iface_num; net_param->param_type = ISCSI_NET_PARAM; net_param->len = 1; if (!strcmp(iface->bootproto, "dhcp")) net_param->value[0] = ISCSI_BOOTPROTO_DHCP; else net_param->value[0] = ISCSI_BOOTPROTO_STATIC; return 0; } /* IPv6 IPAddress Autocfg: nd/dhcpv6/disable */ static int iface_fill_net_autocfg(struct iovec *iov, struct iface_rec *iface) { int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; len = sizeof(struct iscsi_iface_param_info) + 1; iov->iov_base = iscsi_nla_alloc(ISCSI_NET_PARAM_IPV6_ADDR_AUTOCFG, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->param = ISCSI_NET_PARAM_IPV6_ADDR_AUTOCFG; net_param->iface_type = ISCSI_IFACE_TYPE_IPV6; net_param->param_type = ISCSI_NET_PARAM; net_param->len = 1; if (!strcmp(iface->ipv6_autocfg, "nd")) net_param->value[0] = ISCSI_IPV6_AUTOCFG_ND_ENABLE; else if (!strcmp(iface->ipv6_autocfg, "dhcpv6")) net_param->value[0] = ISCSI_IPV6_AUTOCFG_DHCPV6_ENABLE; else net_param->value[0] = ISCSI_IPV6_AUTOCFG_DISABLE; return 0; } /* IPv6 LinkLocal Autocfg: enable/disable */ static int iface_fill_linklocal_autocfg(struct iovec *iov, struct iface_rec *iface) { int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; len = sizeof(struct iscsi_iface_param_info) + 1; iov->iov_base = iscsi_nla_alloc(ISCSI_NET_PARAM_IPV6_LINKLOCAL_AUTOCFG, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->param = ISCSI_NET_PARAM_IPV6_LINKLOCAL_AUTOCFG; net_param->iface_type = ISCSI_IFACE_TYPE_IPV6; net_param->param_type = ISCSI_NET_PARAM; net_param->len = 1; if (strstr(iface->linklocal_autocfg, "auto")) net_param->value[0] = ISCSI_IPV6_LINKLOCAL_AUTOCFG_ENABLE; else net_param->value[0] = ISCSI_IPV6_LINKLOCAL_AUTOCFG_DISABLE; return 0; } /* IPv6 Router Autocfg: enable/disable */ static int iface_fill_router_autocfg(struct iovec *iov, struct iface_rec *iface) { int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; len = sizeof(struct iscsi_iface_param_info) + 1; iov->iov_base = iscsi_nla_alloc(ISCSI_NET_PARAM_IPV6_ROUTER_AUTOCFG, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->param = ISCSI_NET_PARAM_IPV6_ROUTER_AUTOCFG; net_param->iface_type = ISCSI_IFACE_TYPE_IPV6; net_param->param_type = ISCSI_NET_PARAM; net_param->len = 1; if (strstr(iface->router_autocfg, "auto")) net_param->value[0] = ISCSI_IPV6_ROUTER_AUTOCFG_ENABLE; else net_param->value[0] = ISCSI_IPV6_ROUTER_AUTOCFG_DISABLE; return 0; } /* IPv4 IPAddress/Subnet Mask/Gateway: 4 bytes */ static int iface_fill_net_ipv4_addr(struct iovec *iov, uint32_t iface_num, uint16_t param, char *param_val) { int rc = 1; int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; len = sizeof(struct iscsi_iface_param_info) + 4; iov->iov_base = iscsi_nla_alloc(param, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->param = param; net_param->iface_type = ISCSI_IFACE_TYPE_IPV4; net_param->iface_num = iface_num; net_param->len = 4; net_param->param_type = ISCSI_NET_PARAM; rc = inet_pton(AF_INET, param_val, net_param->value); if (rc <= 0) goto free; /* validate */ if (!net_param->value[0] && !net_param->value[1] && !net_param->value[2] && !net_param->value[3]) goto free; return 0; free: free(iov->iov_base); iov->iov_base = NULL; iov->iov_len = 0; return 1; } #define IFACE_SET_NET_PARAM_IPV4_ADDR(iov, inum, param, ival, gcnt, \ lcnt) { \ if (strstr(ival, ".")) { \ if (!iface_fill_net_ipv4_addr(iov, inum, param, ival)) {\ (*gcnt)++; \ (*lcnt)++; \ } \ } \ } /* IPv6 IPAddress/LinkLocal/Router: 16 bytes */ static int iface_fill_net_ipv6_addr(struct iovec *iov, uint32_t iface_num, uint16_t param, char *param_val) { int rc; int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; len = sizeof(struct iscsi_iface_param_info) + 16; iov->iov_base = iscsi_nla_alloc(param, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->param = param; net_param->iface_type = ISCSI_IFACE_TYPE_IPV6; net_param->iface_num = iface_num; net_param->param_type = ISCSI_NET_PARAM; net_param->len = 16; rc = inet_pton(AF_INET6, param_val, net_param->value); if (rc <= 0) goto free; return 0; free: free(iov->iov_base); iov->iov_base = NULL; iov->iov_len = 0; return 1; } #define IFACE_SET_NET_PARAM_IPV6_ADDR(iov, inum, param, ival, gcnt, \ lcnt) { \ if (strstr(ival, ":")) { \ if (!iface_fill_net_ipv6_addr(iov, inum, param, ival)) {\ (*gcnt)++; \ (*lcnt)++; \ } \ } \ } /* write string parameter value */ static int iface_fill_str_param_val(struct iovec *iov, uint32_t iface_num, uint8_t iface_type, uint16_t param, uint32_t param_len, char *param_val) { int len; struct iscsi_iface_param_info *net_param; struct nlattr *attr; if (!param_val[0]) return 1; len = sizeof(struct iscsi_iface_param_info) + param_len; iov->iov_base = iscsi_nla_alloc(param, len); if (!(iov->iov_base)) return 1; attr = iov->iov_base; iov->iov_len = NLA_ALIGN(attr->nla_len); net_param = (struct iscsi_iface_param_info *)ISCSI_NLA_DATA(attr); net_param->iface_num = iface_num; net_param->len = param_len; net_param->param = param; net_param->iface_type = iface_type; net_param->param_type = ISCSI_NET_PARAM; memcpy(net_param->value, param_val, param_len); return 0; } #define IFACE_SET_NET_PARAM_STRVAL(iov, inum, itype, param, plen, \ ival, gcnt, lcnt) { \ if (!iface_fill_str_param_val(iov, inum, itype, param, plen, \ ival)) { \ (*gcnt)++; \ (*lcnt)++; \ } \ } struct iface_net_config { struct iface_rec *primary; struct iovec *iovs; int count; }; static int __iface_build_net_config(void *data, struct iface_rec *iface) { struct iface_net_config *net_config = data; struct iovec *iov; int iptype = ISCSI_IFACE_TYPE_IPV4; int count = 0; if (strcmp(net_config->primary->hwaddress, iface->hwaddress)) return 0; /* start at 2, because 0 is for nlmsghdr and 1 for event */ iov = net_config->iovs + 2; if (!iface->port) iface->port = 3260; iptype = iface_get_iptype(iface); switch (iptype) { case ISCSI_IFACE_TYPE_IPV4: if (!strcmp(iface->state, "disable")) { IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IFACE_ENABLE, ISCSI_NET_PARAM, iface->state, &net_config->count, &count); return 0; } if (strstr(iface->bootproto, "dhcp")) { if (!iface_fill_net_bootproto(&iov[net_config->count], iface)) { net_config->count++; count++; } } else if (strstr(iface->ipaddress, ".")) { if (!iface_fill_net_bootproto(&iov[net_config->count], iface)) { net_config->count++; count++; } IFACE_SET_NET_PARAM_IPV4_ADDR(&iov[net_config->count], iface->iface_num, ISCSI_NET_PARAM_IPV4_ADDR, iface->ipaddress, &net_config->count, &count); IFACE_SET_NET_PARAM_IPV4_ADDR(&iov[net_config->count], iface->iface_num, ISCSI_NET_PARAM_IPV4_SUBNET, iface->subnet_mask, &net_config->count, &count); IFACE_SET_NET_PARAM_IPV4_ADDR(&iov[net_config->count], iface->iface_num, ISCSI_NET_PARAM_IPV4_GW, iface->gateway, &net_config->count, &count); } /* * If IPv4 configuration in iface file is valid, * fill state and other parameters (if any) */ if (count) { IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_DNS_ADDR_EN, ISCSI_NET_PARAM, iface->dhcp_dns, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_SLP_DA_EN, ISCSI_NET_PARAM, iface->dhcp_slp_da, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_TOS_EN, ISCSI_NET_PARAM, iface->tos_state, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_TOS, ISCSI_NET_PARAM, 1, iface->tos, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_GRAT_ARP_EN, ISCSI_NET_PARAM, iface->gratuitous_arp, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_ALT_CLIENT_ID_EN, ISCSI_NET_PARAM, iface->dhcp_alt_client_id_state, &net_config->count, &count); IFACE_SET_NET_PARAM_STRVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_ALT_CLIENT_ID, strlen(iface->dhcp_alt_client_id), iface->dhcp_alt_client_id, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_REQ_VENDOR_ID_EN, ISCSI_NET_PARAM, iface->dhcp_req_vendor_id_state, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_USE_VENDOR_ID_EN, ISCSI_NET_PARAM, iface->dhcp_vendor_id_state, &net_config->count, &count); IFACE_SET_NET_PARAM_STRVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_VENDOR_ID, strlen(iface->dhcp_vendor_id), iface->dhcp_vendor_id, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_DHCP_LEARN_IQN_EN, ISCSI_NET_PARAM, iface->dhcp_learn_iqn, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_FRAGMENT_DISABLE, ISCSI_NET_PARAM, iface->fragmentation, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_IN_FORWARD_EN, ISCSI_NET_PARAM, iface->incoming_forwarding, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV4, ISCSI_NET_PARAM_IPV4_TTL, ISCSI_NET_PARAM, 1, iface->ttl, &net_config->count, &count); } break; case ISCSI_IFACE_TYPE_IPV6: if (!strcmp(iface->state, "disable")) { IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IFACE_ENABLE, ISCSI_NET_PARAM, iface->state, &net_config->count, &count); return 0; } /* For IPv6 Address */ if (strstr(iface->ipv6_autocfg, "nd") || strstr(iface->ipv6_autocfg, "dhcpv6")) { if (!iface_fill_net_autocfg(&iov[net_config->count], iface)) { net_config->count++; count++; } } else if (strstr(iface->ipaddress, ":")) { if (!iface_fill_net_autocfg(&iov[net_config->count], iface)) { net_config->count++; count++; } /* User provided IPv6 Address */ IFACE_SET_NET_PARAM_IPV6_ADDR(&iov[net_config->count], iface->iface_num, ISCSI_NET_PARAM_IPV6_ADDR, iface->ipaddress, &net_config->count, &count); } /* For LinkLocal Address */ if (strstr(iface->linklocal_autocfg, "auto")) { if (!iface_fill_linklocal_autocfg( &iov[net_config->count], iface)) { net_config->count++; count++; } } else if (strstr(iface->ipv6_linklocal, ":")) { if (!iface_fill_linklocal_autocfg( &iov[net_config->count], iface)) { net_config->count++; count++; } /* User provided Link Local Address */ IFACE_SET_NET_PARAM_IPV6_ADDR(&iov[net_config->count], iface->iface_num, ISCSI_NET_PARAM_IPV6_LINKLOCAL, iface->ipv6_linklocal, &net_config->count, &count); } /* For Router Address */ if (strstr(iface->router_autocfg, "auto")) { if (!iface_fill_router_autocfg(&iov[net_config->count], iface)) { net_config->count++; count++; } } else if (strstr(iface->ipv6_router, ":")) { if (!iface_fill_router_autocfg(&iov[net_config->count], iface)) { net_config->count++; count++; } /* User provided Router Address */ IFACE_SET_NET_PARAM_IPV6_ADDR(&iov[net_config->count], iface->iface_num, ISCSI_NET_PARAM_IPV6_ROUTER, iface->ipv6_router, &net_config->count, &count); } /* * If IPv6 configuration in iface file is valid, * fill state and other parameters */ if (count) { IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_GRAT_NEIGHBOR_ADV_EN, ISCSI_NET_PARAM, iface->gratuitous_neighbor_adv, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_MLD_EN, ISCSI_NET_PARAM, iface->mld, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_FLOW_LABEL, ISCSI_NET_PARAM, 4, iface->flow_label, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_TRAFFIC_CLASS, ISCSI_NET_PARAM, 1, iface->traffic_class, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_HOP_LIMIT, ISCSI_NET_PARAM, 1, iface->hop_limit, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_ND_REACHABLE_TMO, ISCSI_NET_PARAM, 4, iface->nd_reachable_tmo, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_ND_REXMIT_TIME, ISCSI_NET_PARAM, 4, iface->nd_rexmit_time, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_ND_STALE_TMO, ISCSI_NET_PARAM, 4, iface->nd_stale_tmo, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_DUP_ADDR_DETECT_CNT, ISCSI_NET_PARAM, 1, iface->dup_addr_detect_cnt, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, ISCSI_IFACE_TYPE_IPV6, ISCSI_NET_PARAM_IPV6_RTR_ADV_LINK_MTU, ISCSI_NET_PARAM, 4, iface->router_adv_link_mtu, &net_config->count, &count); } break; } /* Fill parameters common to IPv4 and IPv6 ifaces */ if (count) { IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_IFACE_ENABLE, ISCSI_NET_PARAM, iface->state, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_VLAN_ENABLED, ISCSI_NET_PARAM, iface->vlan_state, &net_config->count, &count); if (strcmp(iface->vlan_state, "disable") && iface->vlan_id) { if (!iface_fill_vlan_id(&iov[net_config->count], iface, iptype)) { net_config->count++; count++; } } IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_MTU, ISCSI_NET_PARAM, 2, iface->mtu, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_PORT, ISCSI_NET_PARAM, 2, iface->port, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_DELAYED_ACK_EN, ISCSI_NET_PARAM, iface->delayed_ack, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_TCP_NAGLE_DISABLE, ISCSI_NET_PARAM, iface->nagle, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_TCP_WSF_DISABLE, ISCSI_NET_PARAM, iface->tcp_wsf_state, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_TCP_WSF, ISCSI_NET_PARAM, 1, iface->tcp_wsf, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_TCP_TIMER_SCALE, ISCSI_NET_PARAM, 1, iface->tcp_timer_scale, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_TCP_TIMESTAMP_EN, ISCSI_NET_PARAM, iface->tcp_timestamp, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_NET_PARAM_REDIRECT_EN, ISCSI_NET_PARAM, iface->redirect, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_DEF_TASKMGMT_TMO, ISCSI_IFACE_PARAM, 2, iface->def_task_mgmt_tmo, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_HDRDGST_EN, ISCSI_IFACE_PARAM, iface->header_digest, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_DATADGST_EN, ISCSI_IFACE_PARAM, iface->data_digest, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_IMM_DATA_EN, ISCSI_IFACE_PARAM, iface->immediate_data, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_INITIAL_R2T_EN, ISCSI_IFACE_PARAM, iface->initial_r2t, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_DATASEQ_INORDER_EN, ISCSI_IFACE_PARAM, iface->data_seq_inorder, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_PDU_INORDER_EN, ISCSI_IFACE_PARAM, iface->data_pdu_inorder, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_ERL, ISCSI_IFACE_PARAM, 1, iface->erl, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_MAX_RECV_DLENGTH, ISCSI_IFACE_PARAM, 4, iface->max_recv_dlength, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_FIRST_BURST, ISCSI_IFACE_PARAM, 4, iface->first_burst_len, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_MAX_R2T, ISCSI_IFACE_PARAM, 2, iface->max_out_r2t, &net_config->count, &count); IFACE_SET_PARAM_INTVAL(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_MAX_BURST, ISCSI_IFACE_PARAM, 4, iface->max_burst_len, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_CHAP_AUTH_EN, ISCSI_IFACE_PARAM, iface->chap_auth, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_BIDI_CHAP_EN, ISCSI_IFACE_PARAM, iface->bidi_chap, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_STRICT_LOGIN_COMP_EN, ISCSI_IFACE_PARAM, iface->strict_login_comp, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_DISCOVERY_AUTH_OPTIONAL, ISCSI_IFACE_PARAM, iface->discovery_auth, &net_config->count, &count); IFACE_SET_PARAM_STATE(&iov[net_config->count], iface->iface_num, iptype, ISCSI_IFACE_PARAM_DISCOVERY_LOGOUT_EN, ISCSI_IFACE_PARAM, iface->discovery_logout, &net_config->count, &count); } return 0; } /** * iface_build_net_config - Setup neconfig parameter buffers * @iface: iface to setup * @iface_all: Flag for number of ifaces to traverse (1 for all) * @iovs: iovec buffer for netconfig parameters * * Returns total number of netconfig parameter buffers used. */ int iface_build_net_config(struct iface_rec *iface, int iface_all, struct iovec *iovs) { int num_found = 0, rc; struct iface_net_config net_config; log_debug(8, "In iface_build_net_config"); net_config.primary = iface; net_config.iovs = iovs; net_config.count = 0; if (iface_all) rc = iface_for_each_iface(&net_config, 0, &num_found, __iface_build_net_config); else rc = __iface_build_net_config(&net_config, iface); log_debug(8, "iface_build_net_config: rc = %d, count = %d", rc, net_config.count); return net_config.count; } open-iscsi-2.0.874/usr/iface.h000066400000000000000000000055061277325716400160220ustar00rootroot00000000000000/* * iSCSI iface helpers * * Copyright (C) 2008 Mike Christie * Copyright (C) 2008 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSI_IFACE_H #define ISCSI_IFACE_H #define IFACE_CONFIG_DIR ISCSI_CONFIG_ROOT"ifaces" struct iface_rec; struct list_head; struct boot_context; extern void iface_copy(struct iface_rec *dst, struct iface_rec *src); extern int iface_match(struct iface_rec *pattern, struct iface_rec *iface); extern struct iface_rec *iface_alloc(char *ifname, int *err); extern int iface_conf_read(struct iface_rec *iface); extern void iface_setup_defaults(struct iface_rec *iface); extern int iface_is_bound_by_hwaddr(struct iface_rec *iface); extern int iface_is_bound_by_netdev(struct iface_rec *iface); extern int iface_is_bound_by_ipaddr(struct iface_rec *iface); typedef int (iface_op_fn)(void *data, struct iface_rec *iface); extern int iface_for_each_iface(void *data, int skip_def, int *nr_found, iface_op_fn *fn); extern void iface_print(struct iface_rec *iface, char *prefix); extern int iface_print_flat(void *data, struct iface_rec *iface); extern int iface_print_tree(void *data, struct iface_rec *iface); extern void iface_setup_host_bindings(void); extern int iface_get_by_net_binding(struct iface_rec *pattern, struct iface_rec *out_rec); extern int iface_conf_update(struct list_head *params, struct iface_rec *iface); extern int iface_conf_write(struct iface_rec *iface); extern int iface_conf_delete(struct iface_rec *iface); extern int iface_is_valid(struct iface_rec *iface); extern void iface_link_ifaces(struct list_head *ifaces); extern int iface_setup_from_boot_context(struct iface_rec *iface, struct boot_context *context); extern int iface_create_ifaces_from_boot_contexts(struct list_head *ifaces, struct list_head *targets); extern int iface_get_param_count(struct iface_rec *iface_primary, int iface_all); extern int iface_build_net_config(struct iface_rec *iface_primary, int iface_all, struct iovec *iovs); extern int iface_get_iptype(struct iface_rec *iface); #define iface_fmt "[hw=%s,ip=%s,net_if=%s,iscsi_if=%s]" #define iface_str(_iface) \ (_iface)->hwaddress, (_iface)->ipaddress, (_iface)->netdev, \ (_iface)->name #endif open-iscsi-2.0.874/usr/initiator.c000066400000000000000000001621111277325716400167440ustar00rootroot00000000000000/* * iSCSI Session Management and Slow-path Control * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include "initiator.h" #include "transport.h" #include "iscsid.h" #include "iscsi_if.h" #include "mgmt_ipc.h" #include "event_poll.h" #include "iscsi_ipc.h" #include "idbm.h" #include "log.h" #include "iscsi_util.h" #include "scsi.h" #include "iscsi_sysfs.h" #include "iscsi_settings.h" #include "iface.h" #include "host.h" #include "sysdeps.h" #include "iscsi_err.h" #include "kern_err_table.h" #define ISCSI_CONN_ERR_REOPEN_DELAY 3 #define ISCSI_INTERNAL_ERR_REOPEN_DELAY 5 #define PROC_DIR "/proc" struct login_task_retry_info { actor_t retry_actor; queue_task_t *qtask; node_rec_t *rec; int retry_count; }; static void iscsi_login_timedout(void *data); static int iscsi_sched_ev_context(struct iscsi_ev_context *ev_context, struct iscsi_conn *conn, unsigned long tmo, int event); static int queue_session_login_task_retry(struct login_task_retry_info *info, node_rec_t *rec, queue_task_t *qtask); static int iscsi_ev_context_alloc(iscsi_conn_t *conn) { int i; for (i = 0; i < CONTEXT_POOL_MAX; i++) { conn->context_pool[i] = calloc(1, sizeof(struct iscsi_ev_context) + ipc->ctldev_bufmax); if (!conn->context_pool[i]) { int j; for (j = 0; j < i; j++) free(conn->context_pool[j]); return ENOMEM; } conn->context_pool[i]->conn = conn; } return 0; } static void iscsi_ev_context_free(iscsi_conn_t *conn) { int i; for (i = 0; i < CONTEXT_POOL_MAX; i++) { if (!conn->context_pool[i]) continue; if (conn->context_pool[i]->allocated) /* missing flush on shutdown */ log_error("BUG: context_pool leak %p", conn->context_pool[i]); free(conn->context_pool[i]); } } static struct iscsi_ev_context * iscsi_ev_context_get(iscsi_conn_t *conn, int ev_size) { struct iscsi_ev_context *ev_context; int i; if (ev_size > ipc->ctldev_bufmax) return NULL; for (i = 0; i < CONTEXT_POOL_MAX; i++) { if (!conn->context_pool[i]) continue; if (!conn->context_pool[i]->allocated) { ev_context = conn->context_pool[i]; memset(&ev_context->actor, 0, sizeof(struct actor)); ev_context->allocated = 1; /* some callers abuse this pointer */ ev_context->data = (void *)ev_context + sizeof(struct iscsi_ev_context); log_debug(7, "get ev context %p", &ev_context->actor); return ev_context; } } return NULL; } static void iscsi_ev_context_put(struct iscsi_ev_context *ev_context) { log_debug(7, "put ev context %p", &ev_context->actor); ev_context->allocated = 0; } static void session_online_devs(int host_no, int sid) { iscsi_sysfs_for_each_device(NULL, host_no, sid, iscsi_sysfs_set_device_online); } static conn_login_status_e __login_response_status(iscsi_conn_t *conn, enum iscsi_login_status login_status) { switch (login_status) { case LOGIN_OK: /* check the status class and detail */ return CONN_LOGIN_SUCCESS; case LOGIN_REDIRECT: return CONN_LOGIN_IMM_REDIRECT_RETRY; case LOGIN_IO_ERROR: case LOGIN_REDIRECTION_FAILED: return CONN_LOGIN_RETRY; default: log_error("Login error (Login status %d) on conn %d", conn->id, login_status); break; } return CONN_LOGIN_FAILED; } static conn_login_status_e __check_iscsi_status_class(iscsi_session_t *session, int cid, uint8_t status_class, uint8_t status_detail) { iscsi_conn_t *conn = &session->conn[cid]; switch (status_class) { case ISCSI_STATUS_CLS_SUCCESS: return CONN_LOGIN_SUCCESS; case ISCSI_STATUS_CLS_REDIRECT: switch (status_detail) { case ISCSI_LOGIN_STATUS_TGT_MOVED_TEMP: return CONN_LOGIN_IMM_RETRY; case ISCSI_LOGIN_STATUS_TGT_MOVED_PERM: /* * for a permanent redirect, we need to update the * failback address */ memset(&conn->failback_saddr, 0, sizeof(struct sockaddr_storage)); conn->failback_saddr = conn->saddr; return CONN_LOGIN_IMM_REDIRECT_RETRY; default: log_error("conn %d login rejected: redirection " "type 0x%x not supported", conn->id, status_detail); return CONN_LOGIN_RETRY; } case ISCSI_STATUS_CLS_INITIATOR_ERR: switch (status_detail) { case ISCSI_LOGIN_STATUS_AUTH_FAILED: log_error("session %d login rejected: Initiator " "failed authentication with target", session->id); return CONN_LOGIN_AUTH_FAILED; case ISCSI_LOGIN_STATUS_TGT_FORBIDDEN: log_error("conn %d login rejected: initiator " "failed authorization with target", conn->id); return CONN_LOGIN_AUTH_FAILED; case ISCSI_LOGIN_STATUS_TGT_NOT_FOUND: log_error("conn %d login rejected: initiator " "error - target not found (%02x/%02x)", conn->id, status_class, status_detail); return CONN_LOGIN_FAILED; case ISCSI_LOGIN_STATUS_NO_VERSION: /* * FIXME: if we handle multiple protocol versions, * before we log an error, try the other supported * versions. */ log_error("conn %d login rejected: incompatible " "version (%02x/%02x), non-retryable, " "giving up", conn->id, status_class, status_detail); return CONN_LOGIN_FAILED; default: log_error("conn %d login rejected: initiator " "error (%02x/%02x)", conn->id, status_class, status_detail); return CONN_LOGIN_FAILED; } case ISCSI_STATUS_CLS_TARGET_ERR: log_error("conn %d login rejected: target error " "(%02x/%02x)", conn->id, status_class, status_detail); /* * We have no idea what the problem is. But spec says initiator * may retry later. */ return CONN_LOGIN_RETRY; default: log_error("conn %d login response with unknown status " "class 0x%x, detail 0x%x", conn->id, status_class, status_detail); break; } return CONN_LOGIN_FAILED; } static int __session_conn_create(iscsi_session_t *session, int cid) { iscsi_conn_t *conn = &session->conn[cid]; conn_rec_t *conn_rec = &session->nrec.conn[cid]; int err; if (iscsi_ev_context_alloc(conn)) { log_error("cannot allocate context_pool for conn cid %d", cid); return ISCSI_ERR_NOMEM; } conn->state = ISCSI_CONN_STATE_FREE; conn->session = session; actor_init(&conn->login_timer, iscsi_login_timedout, NULL); /* * TODO: we must export the socket_fd/transport_eph from sysfs * so if iscsid is resyncing up we can pick that up and cleanup up * the old connection. Right now we leak a connection. * We can also probably merge these two fields. */ conn->socket_fd = -1; conn->transport_ep_handle = -1; /* connection's timeouts */ conn->id = cid; conn->logout_timeout = conn_rec->timeo.logout_timeout; if (!conn->logout_timeout) { log_error("Invalid timeo.logout_timeout. Must be greater " "than zero. Using default %d.", DEF_LOGOUT_TIMEO); conn->logout_timeout = DEF_LOGOUT_TIMEO; } conn->login_timeout = conn_rec->timeo.login_timeout; if (!conn->login_timeout) { log_error("Invalid timeo.login_timeout. Must be greater " "than zero. Using default %d.", DEF_LOGIN_TIMEO); conn->login_timeout = DEF_LOGIN_TIMEO; } conn->auth_timeout = conn_rec->timeo.auth_timeout; /* noop-out setting */ conn->noop_out_interval = conn_rec->timeo.noop_out_interval; conn->noop_out_timeout = conn_rec->timeo.noop_out_timeout; if (conn->noop_out_interval && !conn->noop_out_timeout) { log_error("Invalid timeo.noop_out_timeout. Must be greater " "than zero. Using default %d.", DEF_NOOP_OUT_TIMEO); conn->noop_out_timeout = DEF_NOOP_OUT_TIMEO; } if (conn->noop_out_timeout && !conn->noop_out_interval) { log_error("Invalid timeo.noop_out_interval. Must be greater " "than zero. Using default %d.", DEF_NOOP_OUT_INTERVAL); conn->noop_out_interval = DEF_NOOP_OUT_INTERVAL; } iscsi_copy_operational_params(conn, &session->nrec.session.iscsi, &conn_rec->iscsi); /* TCP options */ conn->tcp_window_size = conn_rec->tcp.window_size; /* FIXME: type_of_service */ /* resolve the string address to an IP address */ err = iscsi_setup_portal(conn, conn_rec->address, conn_rec->port); if (err) return err; return 0; } static void session_release(iscsi_session_t *session) { log_debug(2, "Releasing session %p", session); if (session->target_alias) free(session->target_alias); iscsi_ev_context_free(&session->conn[0]); free(session); } static iscsi_session_t* __session_create(node_rec_t *rec, struct iscsi_transport *t, int *rc) { iscsi_session_t *session; int hostno; *rc = 0; session = calloc(1, sizeof (*session)); if (session == NULL) { log_debug(1, "can not allocate memory for session"); *rc = ISCSI_ERR_NOMEM; return NULL; } log_debug(2, "Allocted session %p", session); INIT_LIST_HEAD(&session->list); session->t = t; session->reopen_qtask.mgmt_ipc_fd = -1; session->id = -1; session->use_ipc = 1; /* save node record. we might need it for redirection */ memcpy(&session->nrec, rec, sizeof(node_rec_t)); session->portal_group_tag = rec->tpgt; session->type = ISCSI_SESSION_TYPE_NORMAL; session->r_stage = R_STAGE_NO_CHANGE; strlcpy(session->target_name, rec->name, TARGET_NAME_MAXLEN); if (strlen(session->nrec.iface.iname)) session->initiator_name = session->nrec.iface.iname; else if (dconfig->initiator_name) session->initiator_name = dconfig->initiator_name; else { log_error("No initiator name set. Cannot create session."); *rc = ISCSI_ERR_INVAL; goto free_session; } if (strlen(session->nrec.iface.alias)) session->initiator_alias = session->nrec.iface.alias; else session->initiator_alias = dconfig->initiator_alias; /* session's eh parameters */ session->replacement_timeout = rec->session.timeo.replacement_timeout; session->fast_abort = rec->session.iscsi.FastAbort; session->abort_timeout = rec->session.err_timeo.abort_timeout; session->lu_reset_timeout = rec->session.err_timeo.lu_reset_timeout; session->tgt_reset_timeout = rec->session.err_timeo.tgt_reset_timeout; session->host_reset_timeout = rec->session.err_timeo.host_reset_timeout; /* OUI and uniqifying number */ session->isid[0] = DRIVER_ISID_0; session->isid[1] = DRIVER_ISID_1; session->isid[2] = DRIVER_ISID_2; session->isid[3] = 0; session->isid[4] = 0; session->isid[5] = 0; /* setup authentication variables for the session*/ iscsi_setup_authentication(session, &rec->session.auth); iscsi_session_init_params(session); if (t->template->bind_ep_required) { hostno = iscsi_sysfs_get_host_no_from_hwinfo(&rec->iface, rc); if (!*rc) { /* * if the netdev or mac was set, then we are going to want * to want to bind the all the conns/eps to a specific host * if offload is used. */ session->conn[0].bind_ep = 1; session->hostno = hostno; } else if (*rc == ISCSI_ERR_HOST_NOT_FOUND) { goto free_session; } else { *rc = 0; } } list_add_tail(&session->list, &t->sessions); return session; free_session: free(session); return NULL; } static void iscsi_flush_context_pool(struct iscsi_session *session) { struct iscsi_ev_context *ev_context; struct iscsi_conn *conn = &session->conn[0]; int i; for (i = 0; i < CONTEXT_POOL_MAX; i++) { ev_context = conn->context_pool[i]; if (!ev_context) continue; if (ev_context->allocated) { actor_delete(&(conn->context_pool[i]->actor)); iscsi_ev_context_put(ev_context); } } } static void __session_destroy(iscsi_session_t *session) { log_debug(1, "destroying session"); list_del(&session->list); iscsi_flush_context_pool(session); session_release(session); } static void conn_delete_timers(iscsi_conn_t *conn) { actor_delete(&conn->login_timer); actor_delete(&conn->nop_out_timer); } static int session_conn_shutdown(iscsi_conn_t *conn, queue_task_t *qtask, int err) { iscsi_session_t *session = conn->session; log_debug(2, "disconnect conn"); /* this will check for a valid interconnect connection */ if (session->t->template->ep_disconnect) session->t->template->ep_disconnect(conn); if (session->id == -1) goto cleanup; if (!iscsi_sysfs_session_has_leadconn(session->id)) goto cleanup; if (conn->state == ISCSI_CONN_STATE_IN_LOGIN || conn->state == ISCSI_CONN_STATE_IN_LOGOUT || conn->state == ISCSI_CONN_STATE_LOGGED_IN) { log_debug(2, "stop conn (conn state %d)", conn->state); if (ipc->stop_conn(session->t->handle, session->id, conn->id, STOP_CONN_TERM)) { log_error("can't stop connection %d:%d (%d)", session->id, conn->id, errno); return ISCSI_ERR_INTERNAL; } } log_debug(2, "kdestroy conn"); if (ipc->destroy_conn(session->t->handle, session->id, conn->id)) { log_error("can not safely destroy connection %d", conn->id); return ISCSI_ERR_INTERNAL; } cleanup: if (session->id != -1) { log_debug(2, "kdestroy session %u", session->id); session->r_stage = R_STAGE_SESSION_DESTOYED; if (ipc->destroy_session(session->t->handle, session->id)) { log_error("can not safely destroy session %d", session->id); return ISCSI_ERR_INTERNAL; } } log_warning("Connection%d:%d to [target: %s, portal: %s,%d] " "through [iface: %s] is shutdown.", session->id, conn->id, session->nrec.name, session->nrec.conn[conn->id].address, session->nrec.conn[conn->id].port, session->nrec.iface.name); mgmt_ipc_write_rsp(qtask, err); conn_delete_timers(conn); __session_destroy(session); return ISCSI_SUCCESS; } static void queue_delayed_reopen(queue_task_t *qtask, int delay) { iscsi_conn_t *conn = qtask->conn; log_debug(4, "Requeue reopen attempt in %d secs", delay); /* * iscsi_login_eh can handle the login resched as * if it were login time out */ actor_timer_mod(&conn->login_timer, delay, qtask); } static int iscsi_conn_connect(struct iscsi_conn *conn, queue_task_t *qtask) { struct iscsi_ev_context *ev_context; int rc; ev_context = iscsi_ev_context_get(conn, 0); if (!ev_context) { /* while reopening the recv pool should be full */ log_error("BUG: __session_conn_reopen could not get conn " "context for recv."); return ENOMEM; } ev_context->data = qtask; rc = conn->session->t->template->ep_connect(conn, 1); if (rc < 0 && errno != EINPROGRESS) { char serv[NI_MAXSERV]; getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), conn->host, sizeof(conn->host), serv, sizeof(serv), NI_NUMERICHOST|NI_NUMERICSERV); log_error("cannot make a connection to %s:%s (%d,%d)", conn->host, serv, rc, errno); iscsi_ev_context_put(ev_context); return ENOTCONN; } iscsi_sched_ev_context(ev_context, conn, 0, EV_CONN_POLL); log_debug(3, "Setting login timer %p timeout %d", &conn->login_timer, conn->login_timeout); actor_timer_mod(&conn->login_timer, conn->login_timeout, qtask); return 0; } static void __session_conn_reopen(iscsi_conn_t *conn, queue_task_t *qtask, int do_stop, int redirected) { iscsi_session_t *session = conn->session; uint32_t delay; log_debug(1, "re-opening session %d (reopen_cnt %d)", session->id, session->reopen_cnt); qtask->conn = conn; /* flush stale polls or errors queued */ iscsi_flush_context_pool(session); conn_delete_timers(conn); conn->state = ISCSI_CONN_STATE_XPT_WAIT; conn->session->t->template->ep_disconnect(conn); if (do_stop) { /* state: ISCSI_CONN_STATE_CLEANUP_WAIT */ if (ipc->stop_conn(session->t->handle, session->id, conn->id, do_stop)) { log_error("can't stop connection %d:%d (%d)", session->id, conn->id, errno); delay = ISCSI_INTERNAL_ERR_REOPEN_DELAY; goto queue_reopen; } log_debug(3, "connection %d:%d is stopped for recovery", session->id, conn->id); } if (!redirected) { delay = session->def_time2wait; session->def_time2wait = 0; if (delay) goto queue_reopen; } if (!redirected) session->reopen_cnt++; /* uIP will needs to be re-triggered on the connection re-open */ if (iscsi_set_net_config(conn->session->t, conn->session, &conn->session->nrec.iface) != 0) goto queue_reopen; if (iscsi_conn_connect(conn, qtask)) { delay = ISCSI_CONN_ERR_REOPEN_DELAY; goto queue_reopen; } return; queue_reopen: log_debug(4, "Waiting %u seconds before trying to reconnect.", delay); queue_delayed_reopen(qtask, delay); } static void session_conn_reopen(iscsi_conn_t *conn, queue_task_t *qtask, int do_stop) { /* * If we were temporarily redirected, we need to fall back to * the original address to see where the target will send us * for the retry */ memset(&conn->saddr, 0, sizeof(struct sockaddr_storage)); conn->saddr = conn->failback_saddr; __session_conn_reopen(conn, qtask, do_stop, 0); } static int iscsi_retry_initial_login(struct iscsi_conn *conn) { int initial_login_retry_max; struct timeval now, timeout, fail_time; initial_login_retry_max = conn->session->nrec.session.initial_login_retry_max; memset(&now, 0, sizeof(now)); memset(&timeout, 0, sizeof(timeout)); memset(&fail_time, 0, sizeof(fail_time)); timeout.tv_sec = initial_login_retry_max * conn->login_timeout; if (gettimeofday(&now, NULL)) { log_error("Could not get time of day. Dropping down to " "max retry check."); return initial_login_retry_max > conn->session->reopen_cnt; } timeradd(&conn->initial_connect_time, &timeout, &fail_time); /* * if we have been trying for login_retry_max * login_timeout * then it is time to give up */ if (timercmp(&now, &fail_time, >)) { log_debug(1, "Giving up on initial login attempt after " "%u seconds.", initial_login_retry_max * conn->login_timeout); return 0; } return 1; } static int iscsi_login_is_fatal_err(int err) { if (err == ISCSI_ERR_LOGIN_AUTH_FAILED || err == ISCSI_ERR_FATAL_LOGIN) return 1; return 0; } static void iscsi_login_eh(struct iscsi_conn *conn, struct queue_task *qtask, int err) { struct iscsi_session *session = conn->session; log_debug(3, "iscsi_login_eh"); /* * Flush polls and other events */ iscsi_flush_context_pool(conn->session); switch (conn->state) { case ISCSI_CONN_STATE_XPT_WAIT: switch (session->r_stage) { case R_STAGE_NO_CHANGE: log_debug(6, "login failed ISCSI_CONN_STATE_XPT_WAIT/" "R_STAGE_NO_CHANGE"); /* timeout during initial connect. * clean connection. write ipc rsp or retry */ if (iscsi_login_is_fatal_err(err) || !iscsi_retry_initial_login(conn)) session_conn_shutdown(conn, qtask, err); else { session->reopen_cnt++; session->t->template->ep_disconnect(conn); if (iscsi_conn_connect(conn, qtask)) queue_delayed_reopen(qtask, ISCSI_CONN_ERR_REOPEN_DELAY); } break; case R_STAGE_SESSION_REDIRECT: log_debug(6, "login failed ISCSI_CONN_STATE_XPT_WAIT/" "R_STAGE_SESSION_REDIRECT"); /* timeout during initial redirect connect * clean connection. write ipc rsp or retry */ if (iscsi_login_is_fatal_err(err) || !iscsi_retry_initial_login(conn)) session_conn_shutdown(conn, qtask, err); else session_conn_reopen(conn, qtask, 0); break; case R_STAGE_SESSION_REOPEN: log_debug(6, "login failed ISCSI_CONN_STATE_XPT_WAIT/" "R_STAGE_SESSION_REOPEN %d", session->reopen_cnt); /* timeout during reopen connect. try again */ session_conn_reopen(conn, qtask, 0); break; case R_STAGE_SESSION_CLEANUP: session_conn_shutdown(conn, qtask, err); break; default: break; } break; case ISCSI_CONN_STATE_IN_LOGIN: switch (session->r_stage) { case R_STAGE_NO_CHANGE: case R_STAGE_SESSION_REDIRECT: log_debug(6, "login failed ISCSI_CONN_STATE_IN_LOGIN/" "R_STAGE_NO_CHANGE %d", session->reopen_cnt); /* * send pdu timeout during initial connect or * initial redirected connect. Clean connection * and write rsp or retry. */ if (iscsi_login_is_fatal_err(err) || !iscsi_retry_initial_login(conn)) session_conn_shutdown(conn, qtask, err); else session_conn_reopen(conn, qtask, STOP_CONN_RECOVER); break; case R_STAGE_SESSION_REOPEN: log_debug(6, "login failed ISCSI_CONN_STATE_IN_LOGIN/" "R_STAGE_SESSION_REOPEN %d", session->reopen_cnt); session_conn_reopen(conn, qtask, STOP_CONN_RECOVER); break; case R_STAGE_SESSION_CLEANUP: session_conn_shutdown(conn, qtask, ISCSI_ERR_PDU_TIMEOUT); break; default: break; } break; default: log_error("Ignoring login error %d in conn state %d.", err, conn->state); break; } } static void __conn_error_handle(iscsi_session_t *session, iscsi_conn_t *conn) { int i; /* * if we got an error while trying to logout for the user then * just cleanup and return to the user. */ if (conn->logout_qtask) { session_conn_shutdown(conn, conn->logout_qtask, ISCSI_SUCCESS); return; } switch (conn->state) { case ISCSI_CONN_STATE_IN_LOGOUT: /* logout was from eh - fall down to cleanup */ case ISCSI_CONN_STATE_LOGGED_IN: /* mark failed connection */ conn->state = ISCSI_CONN_STATE_CLEANUP_WAIT; if (session->erl > 0) { /* check if we still have some logged in connections */ for (i=0; iconn[i].state == ISCSI_CONN_STATE_LOGGED_IN) break; } if (i != ISCSI_CONN_MAX) { /* FIXME: re-assign leading connection * for ERL>0 */ } break; } /* mark all connections as failed */ for (i=0; iconn[i].state == ISCSI_CONN_STATE_LOGGED_IN) session->conn[i].state = ISCSI_CONN_STATE_CLEANUP_WAIT; } session->r_stage = R_STAGE_SESSION_REOPEN; break; case ISCSI_CONN_STATE_IN_LOGIN: if (session->r_stage == R_STAGE_SESSION_REOPEN) { queue_task_t *qtask; if (session->notify_qtask) qtask = session->notify_qtask; else qtask = &session->reopen_qtask; iscsi_login_eh(conn, qtask, ISCSI_ERR_TRANS); return; } log_debug(1, "ignoring conn error in login. " "let it timeout"); return; case ISCSI_CONN_STATE_XPT_WAIT: log_debug(1, "ignoring conn error in XPT_WAIT. " "let connection fail on its own"); return; case ISCSI_CONN_STATE_CLEANUP_WAIT: log_debug(1, "ignoring conn error in CLEANUP_WAIT. " "let connection stop"); return; default: log_debug(8, "invalid state %d", conn->state); return; } if (session->r_stage == R_STAGE_SESSION_REOPEN) { session_conn_reopen(conn, &session->reopen_qtask, STOP_CONN_RECOVER); return; } } static void session_conn_error(void *data) { struct iscsi_ev_context *ev_context = data; enum iscsi_err error = *(enum iscsi_err *)ev_context->data; iscsi_conn_t *conn = ev_context->conn; iscsi_session_t *session = conn->session; log_warning("Kernel reported iSCSI connection %d:%d error (%d - %s) " "state (%d)", session->id, conn->id, error, kern_err_code_to_string(error), conn->state); iscsi_ev_context_put(ev_context); switch (error) { case ISCSI_ERR_INVALID_HOST: if (session_conn_shutdown(conn, NULL, ISCSI_SUCCESS)) log_error("BUG: Could not shutdown session."); break; default: __conn_error_handle(session, conn); } } static void iscsi_login_timedout(void *data) { struct queue_task *qtask = data; struct iscsi_conn *conn = qtask->conn; switch (conn->state) { case ISCSI_CONN_STATE_XPT_WAIT: iscsi_login_eh(conn, qtask, ISCSI_ERR_TRANS_TIMEOUT); break; case ISCSI_CONN_STATE_IN_LOGIN: iscsi_login_eh(conn, qtask, ISCSI_ERR_PDU_TIMEOUT); break; default: iscsi_login_eh(conn, qtask, ISCSI_ERR_INTERNAL); break; } } static void iscsi_login_redirect(iscsi_conn_t *conn) { iscsi_session_t *session = conn->session; iscsi_login_context_t *c = &conn->login_context; log_debug(3, "login redirect ..."); if (session->r_stage == R_STAGE_NO_CHANGE) session->r_stage = R_STAGE_SESSION_REDIRECT; __session_conn_reopen(conn, c->qtask, STOP_CONN_RECOVER, 1); } static int __send_nopin_rsp(iscsi_conn_t *conn, struct iscsi_nopin *rhdr, char *data) { struct iscsi_nopout hdr; memset(&hdr, 0, sizeof(struct iscsi_nopout)); hdr.opcode = ISCSI_OP_NOOP_OUT | ISCSI_OP_IMMEDIATE; hdr.flags = ISCSI_FLAG_CMD_FINAL; hdr.dlength[0] = rhdr->dlength[0]; hdr.dlength[1] = rhdr->dlength[1]; hdr.dlength[2] = rhdr->dlength[2]; memcpy(hdr.lun, rhdr->lun, 8); hdr.ttt = rhdr->ttt; hdr.itt = ISCSI_RESERVED_TAG; return iscsi_io_send_pdu(conn, (struct iscsi_hdr*)&hdr, ISCSI_DIGEST_NONE, data, ISCSI_DIGEST_NONE, 0); } static int __send_nopout(iscsi_conn_t *conn) { struct iscsi_nopout hdr; memset(&hdr, 0, sizeof(struct iscsi_nopout)); hdr.opcode = ISCSI_OP_NOOP_OUT | ISCSI_OP_IMMEDIATE; hdr.flags = ISCSI_FLAG_CMD_FINAL; hdr.itt = 0; /* XXX: let kernel send_pdu set for us*/ hdr.ttt = ISCSI_RESERVED_TAG; /* we have hdr.lun reserved, and no data */ return iscsi_io_send_pdu(conn, (struct iscsi_hdr*)&hdr, ISCSI_DIGEST_NONE, NULL, ISCSI_DIGEST_NONE, 0); } static void conn_nop_out_timeout(void *data) { iscsi_conn_t *conn = (iscsi_conn_t*)data; iscsi_session_t *session = conn->session; log_warning("Nop-out timedout after %d seconds on connection %d:%d " "state (%d). Dropping session.", conn->noop_out_timeout, session->id, conn->id, conn->state); /* XXX: error handle */ __conn_error_handle(session, conn); } static void conn_send_nop_out(void *data) { iscsi_conn_t *conn = data; /* * we cannot start new request during logout and the logout timer * will figure things out. */ if (conn->state == ISCSI_CONN_STATE_IN_LOGOUT) return; __send_nopout(conn); actor_timer(&conn->nop_out_timer, conn->noop_out_timeout, conn_nop_out_timeout, conn); log_debug(3, "noop out timeout timer %p start, timeout %d", &conn->nop_out_timer, conn->noop_out_timeout); } void free_initiator(void) { struct iscsi_transport *t; iscsi_session_t *session, *tmp; list_for_each_entry(t, &transports, list) { list_for_each_entry_safe(session, tmp, &t->sessions, list) { list_del(&session->list); iscsi_flush_context_pool(session); session_release(session); } } free_transports(); } static void session_scan_host(struct iscsi_session *session, int hostno, queue_task_t *qtask) { pid_t pid; pid = iscsi_sysfs_scan_host(hostno, 1); if (pid == 0) { mgmt_ipc_write_rsp(qtask, ISCSI_SUCCESS); if (session) iscsi_sysfs_for_each_device( &session->nrec.session.queue_depth, hostno, session->id, iscsi_sysfs_set_queue_depth); exit(0); } else if (pid > 0) { reap_inc(); if (qtask && qtask->mgmt_ipc_fd >= 0) { close(qtask->mgmt_ipc_fd); free(qtask); } } else mgmt_ipc_write_rsp(qtask, ISCSI_ERR_INTERNAL); } static void setup_full_feature_phase(iscsi_conn_t *conn) { iscsi_session_t *session = conn->session; iscsi_login_context_t *c = &conn->login_context; int rc; actor_delete(&conn->login_timer); if (iscsi_session_set_neg_params(conn)) { iscsi_login_eh(conn, c->qtask, ISCSI_ERR_LOGIN); return; } if (ipc->start_conn(session->t->handle, session->id, conn->id, &rc) || rc) { log_error("can't start connection %d:%d retcode %d (%d)", session->id, conn->id, rc, errno); iscsi_login_eh(conn, c->qtask, ISCSI_ERR_INTERNAL); return; } conn->state = ISCSI_CONN_STATE_LOGGED_IN; if (session->r_stage == R_STAGE_NO_CHANGE || session->r_stage == R_STAGE_SESSION_REDIRECT) { /* * scan host is one-time deal. We * don't want to re-scan it on recovery. */ if (conn->id == 0) session_scan_host(session, session->hostno, c->qtask); log_warning("Connection%d:%d to [target: %s, portal: %s,%d] " "through [iface: %s] is operational now", session->id, conn->id, session->nrec.name, session->nrec.conn[conn->id].address, session->nrec.conn[conn->id].port, session->nrec.iface.name); } else { session->notify_qtask = NULL; session_online_devs(session->hostno, session->id); mgmt_ipc_write_rsp(c->qtask, ISCSI_SUCCESS); log_warning("connection%d:%d is operational after recovery " "(%d attempts)", session->id, conn->id, session->reopen_cnt); } /* * reset ERL=0 reopen counter */ session->reopen_cnt = 0; session->r_stage = R_STAGE_NO_CHANGE; /* noop_out */ if (conn->userspace_nop && conn->noop_out_interval) { actor_timer(&conn->nop_out_timer, conn->noop_out_interval, conn_send_nop_out, conn); log_debug(3, "noop out timer %p start", &conn->nop_out_timer); } } static void iscsi_logout_timedout(void *data) { struct iscsi_ev_context *ev_context = data; struct iscsi_conn *conn = ev_context->conn; iscsi_ev_context_put(ev_context); /* * assume we were in ISCSI_CONN_STATE_IN_LOGOUT or there * was some nasty error */ log_debug(3, "logout timeout, dropping conn..."); __conn_error_handle(conn->session, conn); } static int iscsi_send_logout(iscsi_conn_t *conn) { struct iscsi_logout hdr; struct iscsi_ev_context *ev_context; if (conn->state != ISCSI_CONN_STATE_LOGGED_IN) return EINVAL; memset(&hdr, 0, sizeof(struct iscsi_logout)); hdr.opcode = ISCSI_OP_LOGOUT | ISCSI_OP_IMMEDIATE; hdr.flags = ISCSI_FLAG_CMD_FINAL | (ISCSI_LOGOUT_REASON_CLOSE_SESSION & ISCSI_FLAG_LOGOUT_REASON_MASK); /* kernel will set the rest */ if (!iscsi_io_send_pdu(conn, (struct iscsi_hdr*)&hdr, ISCSI_DIGEST_NONE, NULL, ISCSI_DIGEST_NONE, 0)) return EIO; conn->state = ISCSI_CONN_STATE_IN_LOGOUT; ev_context = iscsi_ev_context_get(conn, 0); if (!ev_context) /* unbounded logout */ log_warning("Could not allocate conn context for logout."); else { iscsi_sched_ev_context(ev_context, conn, conn->logout_timeout, EV_CONN_LOGOUT_TIMER); log_debug(3, "logout timeout timer %u", conn->logout_timeout * 1000); } return 0; } static void iscsi_stop(void *data) { struct iscsi_ev_context *ev_context = data; struct iscsi_conn *conn = ev_context->conn; int rc = 0; iscsi_ev_context_put(ev_context); if (!(conn->session->t->caps & CAP_LOGIN_OFFLOAD)) { if (!iscsi_send_logout(conn)) return; } rc = session_conn_shutdown(conn, conn->logout_qtask, ISCSI_SUCCESS); if (rc) log_error("BUG: Could not shutdown session."); } static void iscsi_recv_nop_in(iscsi_conn_t *conn, struct iscsi_hdr *hdr) { if (!conn->userspace_nop) { log_error("Got nop in, but kernel supports nop handling."); return; } if (hdr->ttt == ISCSI_RESERVED_TAG) { /* noop out rsp */ actor_delete(&conn->nop_out_timer); /* schedule a new ping */ actor_timer(&conn->nop_out_timer, conn->noop_out_interval, conn_send_nop_out, conn); } else /* noop in req */ if (!__send_nopin_rsp(conn, (struct iscsi_nopin*)hdr, conn->data)) { log_error("can not send nopin response"); } } static void iscsi_recv_logout_rsp(iscsi_conn_t *conn, struct iscsi_hdr *hdr) { struct iscsi_logout_rsp *logout_rsp = (struct iscsi_logout_rsp *)hdr; log_debug(3, "Recv: logout response %d", logout_rsp->response); if (logout_rsp->response == 2 || logout_rsp->response == 3) { conn->session->def_time2wait = ntohs(logout_rsp->t2wait); log_debug(4, "logout rsp returned time2wait %u", conn->session->def_time2wait); } /* TODO process the hdr */ __conn_error_handle(conn->session, conn); } static void iscsi_recv_async_msg(iscsi_conn_t *conn, struct iscsi_hdr *hdr) { iscsi_session_t *session = conn->session; struct iscsi_async *async_hdr = (struct iscsi_async *)hdr; char *buf = conn->data; unsigned int senselen; struct scsi_sense_hdr sshdr; log_debug(3, "Read AEN %d", async_hdr->async_event); switch (async_hdr->async_event) { case ISCSI_ASYNC_MSG_SCSI_EVENT: senselen = (buf[0] << 8) | buf[1]; buf += 2; if (!scsi_normalize_sense((uint8_t *)buf, senselen, &sshdr)) { log_error("Could not handle AEN %d. Invalid sense.", async_hdr->async_event); break; } if (sshdr.asc == 0x3f && sshdr.ascq == 0x0e) session_scan_host(session, session->hostno, NULL); break; case ISCSI_ASYNC_MSG_REQUEST_LOGOUT: log_warning("Target requests logout within %u seconds for " "connection", ntohs(async_hdr->param3)); if (iscsi_send_logout(conn)) log_error("Could not send logout in response to" "logout request aen"); break; case ISCSI_ASYNC_MSG_DROPPING_CONNECTION: log_warning("Target dropping connection %u, reconnect min %u " "max %u", ntohs(async_hdr->param1), ntohs(async_hdr->param2), ntohs(async_hdr->param3)); session->def_time2wait = (uint32_t)ntohs(async_hdr->param2) & 0x0000FFFFFL; break; case ISCSI_ASYNC_MSG_DROPPING_ALL_CONNECTIONS: log_warning("Target dropping all connections, reconnect min %u " "max %u", ntohs(async_hdr->param2), ntohs(async_hdr->param3)); session->def_time2wait = (uint32_t)ntohs(async_hdr->param2) & 0x0000FFFFFL; break; case ISCSI_ASYNC_MSG_PARAM_NEGOTIATION: log_warning("Received async event param negotiation, " "dropping session"); __conn_error_handle(session, conn); break; case ISCSI_ASYNC_MSG_VENDOR_SPECIFIC: default: log_warning("AEN not supported"); } } static void iscsi_recv_login_rsp(struct iscsi_conn *conn) { struct iscsi_session *session = conn->session; iscsi_login_context_t *c = &conn->login_context; int err = ISCSI_ERR_FATAL_LOGIN; if (iscsi_login_rsp(session, c)) { log_debug(1, "login_rsp ret (%d)", c->ret); switch (__login_response_status(conn, c->ret)) { case CONN_LOGIN_FAILED: goto failed; case CONN_LOGIN_RETRY: goto retry; case CONN_LOGIN_IMM_REDIRECT_RETRY: iscsi_login_redirect(conn); return; default: ; /* success - fall through */ } /* check the login status */ switch (__check_iscsi_status_class(session, conn->id, c->status_class, c->status_detail)) { case CONN_LOGIN_AUTH_FAILED: err = ISCSI_ERR_LOGIN_AUTH_FAILED; goto failed; case CONN_LOGIN_FAILED: goto failed; case CONN_LOGIN_IMM_REDIRECT_RETRY: iscsi_login_redirect(conn); return; case CONN_LOGIN_IMM_RETRY: case CONN_LOGIN_RETRY: goto retry; default: ; /* success - fall through */ } } if (conn->current_stage != ISCSI_FULL_FEATURE_PHASE) { /* more nego. needed! */ conn->state = ISCSI_CONN_STATE_IN_LOGIN; if (iscsi_login_req(session, c)) { iscsi_login_eh(conn, c->qtask, ISCSI_ERR_LOGIN); return; } } else setup_full_feature_phase(conn); return; retry: /* retry if not initial login or initial login has not timed out */ iscsi_login_eh(conn, c->qtask, ISCSI_ERR_LOGIN); return; failed: /* force failure if initial login */ session->reopen_cnt = session->nrec.session.initial_login_retry_max; iscsi_login_eh(conn, c->qtask, err); return; } static void session_conn_recv_pdu(void *data) { struct iscsi_ev_context *ev_context = data; iscsi_conn_t *conn = ev_context->conn; struct iscsi_hdr hdr; conn->recv_context = ev_context; switch (conn->state) { case ISCSI_CONN_STATE_IN_LOGIN: iscsi_recv_login_rsp(conn); break; case ISCSI_CONN_STATE_LOGGED_IN: case ISCSI_CONN_STATE_IN_LOGOUT: case ISCSI_CONN_STATE_LOGOUT_REQUESTED: /* read incoming PDU */ if (iscsi_io_recv_pdu(conn, &hdr, ISCSI_DIGEST_NONE, conn->data, ISCSI_DEF_MAX_RECV_SEG_LEN, ISCSI_DIGEST_NONE, 0) < 0) return; switch (hdr.opcode & ISCSI_OPCODE_MASK) { case ISCSI_OP_NOOP_IN: iscsi_recv_nop_in(conn, &hdr); break; case ISCSI_OP_LOGOUT_RSP: iscsi_recv_logout_rsp(conn, &hdr); break; case ISCSI_OP_ASYNC_EVENT: iscsi_recv_async_msg(conn, &hdr); break; default: log_error("unsupported opcode 0x%x", hdr.opcode); break; } break; case ISCSI_CONN_STATE_XPT_WAIT: iscsi_ev_context_put(ev_context); log_debug(1, "ignoring incoming PDU in XPT_WAIT. " "let connection re-establish or fail"); break; case ISCSI_CONN_STATE_CLEANUP_WAIT: iscsi_ev_context_put(ev_context); log_debug(1, "ignoring incoming PDU in XPT_WAIT. " "let connection cleanup"); break; default: iscsi_ev_context_put(ev_context); log_error("Invalid state. Dropping PDU."); } } static void session_increase_wq_priority(struct iscsi_session *session) { DIR *proc_dir; struct dirent *proc_dent; struct stat statb; char stat_file[PATH_SIZE]; char sbuf[1024]; /* got this from ps */ int pid, stat_fd, num_read; char *proc_name, *proc_name_end; uint32_t host_no; /* drivers like bnx2i and qla4xxx do not have a write wq */ if (session->t->caps & CAP_DATA_PATH_OFFLOAD) return; proc_dir = opendir(PROC_DIR); if (!proc_dir) goto fail; while ((proc_dent = readdir(proc_dir))) { if (!strcmp(proc_dent->d_name, ".") || !strcmp(proc_dent->d_name, "..")) continue; if (sscanf(proc_dent->d_name, "%d", &pid) != 1) continue; memset(stat_file, 0, sizeof(stat_file)); sprintf(stat_file, PROC_DIR"/%d/stat", pid); if (stat(stat_file, &statb)) continue; if (!S_ISREG( statb.st_mode)) continue; stat_fd = open(stat_file, O_RDONLY); if (stat_fd == -1) continue; memset(sbuf, 0, sizeof(sbuf)); num_read = read(stat_fd, sbuf, sizeof(sbuf)); close(stat_fd); if (num_read == -1) continue; if (num_read == sizeof(sbuf)) sbuf[num_read - 1] = '\0'; else sbuf[num_read] = '\0'; /* * Finally match proc name to iscsi thread name. * In newer kernels the name is iscsi_wq_%HOST_NO. * In older kernels before 2.6.30, it was scsi_wq_%HOST_NO. * * We only support newer kernels. */ proc_name = strchr(sbuf, '(') + 1; if (!proc_name) continue; proc_name_end = strchr(proc_name, ')'); if (!proc_name_end) continue; *proc_name_end = '\0'; if (sscanf(proc_name, "iscsi_q_%u\n", &host_no) == 1) { if (host_no == session->hostno) { if (!setpriority(PRIO_PROCESS, pid, session->nrec.session.xmit_thread_priority)) { closedir(proc_dir); return; } else break; } } } closedir(proc_dir); fail: log_error("Could not set session%d priority. " "READ/WRITE throughout and latency could be " "affected.", session->id); } static int session_ipc_create(struct iscsi_session *session) { struct iscsi_conn *conn = &session->conn[0]; int err = 0, pass_ep = 1; uint32_t host_no = -1; if (session->t->template->ep_connect != ktransport_ep_connect) pass_ep = 0; retry_create: err = ipc->create_session(session->t->handle, pass_ep ? conn->transport_ep_handle : 0, session->nrec.session.initial_cmdsn, session->nrec.session.cmds_max, session->nrec.session.queue_depth, &session->id, &host_no); /* * Older kernels were not passed the sessions's leading conn ep, * so we will get -EINVAL || -ENOSYS for iser. * * 2.6.22 and earlier would send -EINVAL instead of -ENOSYS. */ if (pass_ep && (err == -ENOSYS || err == -EINVAL)) { pass_ep = 0; goto retry_create; } if (!err) { session->hostno = host_no; session_increase_wq_priority(session); } return err; } static void setup_offload_login_phase(iscsi_conn_t *conn) { iscsi_session_t *session = conn->session; iscsi_login_context_t *c = &conn->login_context; int rc; actor_delete(&conn->login_timer); if (iscsi_session_set_params(conn)) { iscsi_login_eh(conn, c->qtask, ISCSI_ERR_LOGIN); return; } if (iscsi_session_set_neg_params(conn)) { iscsi_login_eh(conn, c->qtask, ISCSI_ERR_LOGIN); return; } if (iscsi_host_set_params(session)) { iscsi_login_eh(conn, c->qtask, ISCSI_ERR_LOGIN); return; } conn->state = ISCSI_CONN_STATE_IN_LOGIN; if (ipc->start_conn(session->t->handle, session->id, conn->id, &rc) || rc) { if (rc == -EEXIST) { log_error("Session already exists."); session_conn_shutdown(conn, c->qtask, ISCSI_ERR_SESS_EXISTS); } else { log_error("can't start connection %d:%d retcode (%d)", session->id, conn->id, rc); iscsi_login_eh(conn, c->qtask, ISCSI_ERR_INTERNAL); } return; } session->notify_qtask = c->qtask; } static void session_conn_poll(void *data) { struct iscsi_ev_context *ev_context = data; iscsi_conn_t *conn = ev_context->conn; struct iscsi_session *session = conn->session; int err = ISCSI_SUCCESS; queue_task_t *qtask = ev_context->data; iscsi_login_context_t *c = &conn->login_context; int rc; iscsi_ev_context_put(ev_context); if (conn->state != ISCSI_CONN_STATE_XPT_WAIT) return; rc = session->t->template->ep_poll(conn, 1); if (rc == 0) { log_debug(4, "poll not connected %d", rc); ev_context = iscsi_ev_context_get(conn, 0); if (!ev_context) { /* while polling the recv pool should be full */ log_error("BUG: session_conn_poll could not get conn " "context."); iscsi_login_eh(conn, qtask, ISCSI_ERR_INTERNAL); return; } ev_context->data = qtask; /* not connected yet, check later */ iscsi_sched_ev_context(ev_context, conn, 1, EV_CONN_POLL); } else if (rc > 0) { /* connected! */ memset(c, 0, sizeof(iscsi_login_context_t)); /* do not allocate new connection in case of reopen */ if (session->id == -1) { if (conn->id == 0 && session_ipc_create(session)) { log_error("Can't create session."); err = ISCSI_ERR_INTERNAL; goto cleanup; } log_debug(3, "created new iSCSI session sid %d host " "no %u", session->id, session->hostno); err = ipc->create_conn(session->t->handle, session->id, conn->id, &conn->id); if (err) { log_error("Can't create connection."); err = ISCSI_ERR_INTERNAL; goto cleanup; } log_debug(3, "created new iSCSI connection " "%d:%d", session->id, conn->id); } iscsi_copy_operational_params(conn, &session->nrec.session.iscsi, &session->nrec.conn[conn->id].iscsi); /* * TODO: use the iface number or some other value * so this will be persistent */ session->isid[3] = (session->id >> 16) & 0xff; session->isid[4] = (session->id >> 8) & 0xff; session->isid[5] = session->id & 0xff; if (ipc->bind_conn(session->t->handle, session->id, conn->id, conn->transport_ep_handle, (conn->id == 0), &rc) || rc) { log_error("can't bind conn %d:%d to session %d, " "retcode %d (%d)", session->id, conn->id, session->id, rc, errno); iscsi_login_eh(conn, qtask, ISCSI_ERR_LOGIN); return; } log_debug(3, "bound iSCSI connection %d:%d to session %d", session->id, conn->id, session->id); c->qtask = qtask; c->cid = conn->id; c->buffer = conn->data; c->bufsize = sizeof(conn->data); conn->exp_statsn = iscsi_sysfs_get_exp_statsn(session->id); if (session->t->caps & CAP_LOGIN_OFFLOAD) { setup_offload_login_phase(conn); return; } if (iscsi_session_set_params(conn)) { iscsi_login_eh(conn, qtask, ISCSI_ERR_LOGIN); return; } if (iscsi_host_set_params(session)) { iscsi_login_eh(conn, qtask, ISCSI_ERR_LOGIN); return; } if (iscsi_login_begin(session, c)) { iscsi_login_eh(conn, qtask, ISCSI_ERR_LOGIN); return; } conn->state = ISCSI_CONN_STATE_IN_LOGIN; if (iscsi_login_req(session, c)) { iscsi_login_eh(conn, qtask, ISCSI_ERR_LOGIN); return; } } else { log_debug(4, "poll error %d", rc); queue_delayed_reopen(qtask, ISCSI_CONN_ERR_REOPEN_DELAY); } return; cleanup: session_conn_shutdown(conn, qtask, err); } static void session_conn_process_login(void *data) { struct iscsi_ev_context *ev_context = data; enum iscsi_conn_state state = *(enum iscsi_conn_state *) ev_context->data; struct iscsi_conn *conn = ev_context->conn; struct iscsi_session *session = conn->session; iscsi_login_context_t *c = &conn->login_context; queue_task_t *qtask; iscsi_ev_context_put(ev_context); if (!(session->t->caps & CAP_LOGIN_OFFLOAD)) return; if (state == ISCSI_CONN_STATE_FREE) goto failed_login; if (conn->state == ISCSI_CONN_STATE_LOGGED_IN) return; conn->state = ISCSI_CONN_STATE_LOGGED_IN; /* * ok we were in_login and now we got the notification that we are * logged in */ log_debug(3, "session created sid %u host no %d", session->id, session->hostno); if (session->r_stage == R_STAGE_NO_CHANGE || session->r_stage == R_STAGE_SESSION_REDIRECT) { /* * scan host is one-time deal. We * don't want to re-scan it on recovery. */ session_scan_host(session, session->hostno, c->qtask); session->notify_qtask = NULL; log_warning("Connection%d:%d to [target: %s, portal: %s,%d] " "through [iface: %s] is operational now", session->id, conn->id, session->nrec.name, session->nrec.conn[conn->id].address, session->nrec.conn[conn->id].port, session->nrec.iface.name); } else { session->notify_qtask = NULL; mgmt_ipc_write_rsp(c->qtask, ISCSI_SUCCESS); } /* * reset ERL=0 reopen counter */ session->reopen_cnt = 0; session->r_stage = R_STAGE_NO_CHANGE; return; failed_login: qtask = session->notify_qtask; session->notify_qtask = NULL; mgmt_ipc_write_rsp(qtask, ISCSI_ERR_LOGIN); if (ipc->destroy_conn(session->t->handle, session->id, conn->id)) log_error("can not safely destroy connection %d", conn->id); if (ipc->destroy_session(session->t->handle, session->id)) log_error("can not safely destroy session %d", session->id); __session_destroy(session); } static int iscsi_sched_ev_context(struct iscsi_ev_context *ev_context, struct iscsi_conn *conn, unsigned long tmo, int event) { enum iscsi_err error; log_debug(7, "sched conn context %p event %d, tmo %lu", &ev_context->actor, event, tmo); ev_context->conn = conn; switch (event) { case EV_CONN_RECV_PDU: actor_init(&ev_context->actor, session_conn_recv_pdu, ev_context); actor_schedule(&ev_context->actor); break; case EV_CONN_ERROR: error = *(enum iscsi_err *)ev_context->data; actor_init(&ev_context->actor, session_conn_error, ev_context); /* * We handle invalid host, by killing the session. * It must go at the head of the queue, so we do not * initiate error handling or logout or some other op. */ if (error == ISCSI_ERR_INVALID_HOST) actor_schedule_head(&ev_context->actor); else actor_schedule(&ev_context->actor); break; case EV_CONN_LOGIN: actor_init(&ev_context->actor, session_conn_process_login, ev_context); actor_schedule(&ev_context->actor); break; case EV_CONN_POLL: actor_timer(&ev_context->actor, tmo, session_conn_poll, ev_context); break; case EV_CONN_LOGOUT_TIMER: actor_timer(&ev_context->actor, tmo, iscsi_logout_timedout, ev_context); break; case EV_CONN_STOP: actor_init(&ev_context->actor, iscsi_stop, ev_context); actor_schedule(&ev_context->actor); break; default: log_error("Invalid event type %d.", event); } return 0; } static iscsi_session_t* session_find_by_rec(node_rec_t *rec) { struct iscsi_transport *t; iscsi_session_t *session; list_for_each_entry(t, &transports, list) { list_for_each_entry(session, &t->sessions, list) { if (__iscsi_match_session(rec, session->nrec.name, session->nrec.conn[0].address, session->nrec.conn[0].port, &session->nrec.iface, MATCH_ANY_SID)) return session; } } return NULL; } /* * a session could be running in the kernel but not in iscsid * due to a resync or because some other app started the session */ static int session_is_running(node_rec_t *rec) { int nr_found = 0; if (session_find_by_rec(rec)) return 1; if (iscsi_sysfs_for_each_session(rec, &nr_found, iscsi_match_session, 0)) return 1; return 0; } static int __session_login_task(node_rec_t *rec, queue_task_t *qtask) { iscsi_session_t *session; iscsi_conn_t *conn; struct iscsi_transport *t; int rc; if (session_is_running(rec)) { if (rec->session.multiple) log_debug(2, "Adding a copy of an existing session"); else return ISCSI_ERR_SESS_EXISTS; } t = iscsi_sysfs_get_transport_by_name(rec->iface.transport_name); if (!t) return ISCSI_ERR_TRANS_NOT_FOUND; if ((!(t->caps & CAP_RECOVERY_L0) && rec->session.iscsi.ERL != 0) || (!(t->caps & CAP_RECOVERY_L1) && rec->session.iscsi.ERL > 1)) { log_error("Transport '%s' does not support ERL %d." "Setting ERL to ERL0.", t->name, rec->session.iscsi.ERL); rec->session.iscsi.ERL = 0; } if (!(t->caps & CAP_MULTI_R2T) && rec->session.iscsi.MaxOutstandingR2T) { log_error("Transport '%s' does not support " "MaxOutstandingR2T %d. Setting " "MaxOutstandingR2T to 1.", t->name, rec->session.iscsi.MaxOutstandingR2T); rec->session.iscsi.MaxOutstandingR2T = 1; } if (!(t->caps & CAP_HDRDGST) && rec->conn[0].iscsi.HeaderDigest) { log_error("Transport '%s' does not support " "HeaderDigest != None. Setting HeaderDigest " "to None.", t->name); rec->conn[0].iscsi.HeaderDigest = CONFIG_DIGEST_NEVER; } if (!(t->caps & CAP_DATADGST) && rec->conn[0].iscsi.DataDigest) { log_error("Transport '%s' does not support " "DataDigest != None. Setting DataDigest " "to None", t->name); rec->conn[0].iscsi.DataDigest = CONFIG_DIGEST_NEVER; } if (!(t->caps & CAP_MARKERS) && rec->conn[0].iscsi.IFMarker) { log_error("Transport '%s' does not support IFMarker. " "Disabling IFMarkers.", t->name); rec->conn[0].iscsi.IFMarker = 0; } if (!(t->caps & CAP_MARKERS) && rec->conn[0].iscsi.OFMarker) { log_error("Transport '%s' does not support OFMarker." "Disabling OFMarkers.", t->name); rec->conn[0].iscsi.OFMarker = 0; } session = __session_create(rec, t, &rc); if (rc == ISCSI_ERR_HOST_NOT_FOUND) return rc; else if (!session) return ISCSI_ERR_LOGIN; /* FIXME: login all connections! marked as "automatic" */ /* create leading connection */ rc = __session_conn_create(session, 0); if (rc) { __session_destroy(session); return rc; } conn = &session->conn[0]; qtask->conn = conn; rc = iscsi_host_set_net_params(&rec->iface, session); if (rc == ISCSI_ERR_AGAIN) { /* * host/iscsiuio not ready. Cannot block iscsid, so caller is * going to internally retry the operation. */ __session_destroy(session); return ISCSI_ERR_HOST_NOT_FOUND; } else if (rc) { __session_destroy(session); return ISCSI_ERR_LOGIN; } if (gettimeofday(&conn->initial_connect_time, NULL)) log_error("Could not get initial connect time. If " "login errors iscsid may give up the initial " "login early. You should manually login."); conn->state = ISCSI_CONN_STATE_XPT_WAIT; qtask->rsp.command = MGMT_IPC_SESSION_LOGIN; qtask->rsp.err = ISCSI_SUCCESS; if (iscsi_conn_connect(conn, qtask)) { log_debug(4, "Initial connect failed. Waiting %u seconds " "before trying to reconnect.", ISCSI_CONN_ERR_REOPEN_DELAY); queue_delayed_reopen(qtask, ISCSI_CONN_ERR_REOPEN_DELAY); } return ISCSI_SUCCESS; } int session_login_task(node_rec_t *rec, queue_task_t *qtask) { int rc; rc = __session_login_task(rec, qtask); if (rc == ISCSI_ERR_HOST_NOT_FOUND) { rc = queue_session_login_task_retry(NULL, rec, qtask); if (rc) return rc; /* * we are going to internally retry. Will return final rc * when completed */ return ISCSI_SUCCESS; } return rc; } static void session_login_task_retry(void *data) { struct login_task_retry_info *info = data; struct node_rec *rec = info->rec; int rc; rc = __session_login_task(rec, info->qtask); if (rc == ISCSI_ERR_HOST_NOT_FOUND) { if (info->retry_count == rec->conn[0].timeo.login_timeout) { /* give up */ goto write_rsp; } rc = queue_session_login_task_retry(info, rec, info->qtask); if (rc) goto write_rsp; /* we are going to internally retry */ return; } else if (rc) { /* hard error - no retry */ goto write_rsp; } else /* successfully started login operation */ goto free; write_rsp: mgmt_ipc_write_rsp(info->qtask, rc); free: free(info); } static int queue_session_login_task_retry(struct login_task_retry_info *info, node_rec_t *rec, queue_task_t *qtask) { if (!info) { info = malloc(sizeof(*info)); if (!info) return ISCSI_ERR_NOMEM; memset(info, 0, sizeof(*info)); info->qtask = qtask; info->rec = rec; } info->retry_count++; log_debug(4, "queue session setup attempt in %d secs, retries %d", 1, info->retry_count); actor_timer(&info->retry_actor, 1, session_login_task_retry, info); return 0; } static int sync_conn(iscsi_session_t *session, uint32_t cid) { iscsi_conn_t *conn; int rc; rc = __session_conn_create(session, cid); if (rc) return rc; conn = &session->conn[cid]; /* TODO: must export via sysfs so we can pick this up */ conn->state = ISCSI_CONN_STATE_CLEANUP_WAIT; return 0; } int iscsi_sync_session(node_rec_t *rec, queue_task_t *qtask, uint32_t sid) { iscsi_session_t *session; struct iscsi_transport *t; int err; t = iscsi_sysfs_get_transport_by_name(rec->iface.transport_name); if (!t) return ISCSI_ERR_TRANS_NOT_FOUND; session = __session_create(rec, t, &err); if (!session) return ISCSI_ERR_LOGIN; session->id = sid; session->hostno = iscsi_sysfs_get_host_no_from_sid(sid, &err); if (err) { log_error("Could not get hostno for session %d", sid); goto destroy_session; } session->r_stage = R_STAGE_SESSION_REOPEN; err = sync_conn(session, 0); if (err) goto destroy_session; qtask->rsp.command = MGMT_IPC_SESSION_SYNC; log_debug(3, "Started sync iSCSI session %d", session->id); session->notify_qtask = qtask; session_conn_reopen(&session->conn[0], qtask, STOP_CONN_RECOVER); return 0; destroy_session: __session_destroy(session); log_error("Could not sync session%d err %d", sid, err); return err; } static int session_unbind(struct iscsi_session *session) { int err; err = ipc->unbind_session(session->t->handle, session->id); if (err) /* older kernels did not support unbind */ log_debug(2, "Could not unbind session %d.", err); return err; } int session_logout_task(int sid, queue_task_t *qtask) { iscsi_session_t *session; iscsi_conn_t *conn; int rc = ISCSI_SUCCESS; session = session_find_by_sid(sid); if (!session) { log_debug(1, "session sid %d not found.", sid); return ISCSI_ERR_SESS_NOT_FOUND; } conn = &session->conn[0]; /* * If syncing up or if this is the initial login and mgmt_ipc * has not been notified of that result fail the logout request */ if (session->notify_qtask || ((conn->state == ISCSI_CONN_STATE_XPT_WAIT || conn->state == ISCSI_CONN_STATE_IN_LOGIN) && (session->r_stage == R_STAGE_NO_CHANGE || session->r_stage == R_STAGE_SESSION_REDIRECT))) { invalid_state: log_error("session in invalid state for logout. " "Try again later"); return ISCSI_ERR_INTERNAL; } if (dconfig->safe_logout && session_in_use(sid)) { log_error("Session is actively in use for mounted storage, " "and iscsid.safe_logout is configured."); return ISCSI_ERR_BUSY; } /* FIXME: logout all active connections */ conn = &session->conn[0]; if (conn->logout_qtask) goto invalid_state; qtask->conn = conn; qtask->rsp.command = MGMT_IPC_SESSION_LOGOUT; conn->logout_qtask = qtask; switch (conn->state) { case ISCSI_CONN_STATE_LOGGED_IN: if (!session_unbind(session)) return ISCSI_SUCCESS; /* LLDs that offload login also offload logout */ if (!(session->t->caps & CAP_LOGIN_OFFLOAD)) { /* unbind is not supported so just do old logout */ if (!iscsi_send_logout(conn)) return ISCSI_SUCCESS; } log_error("Could not send logout pdu. Dropping session"); /* fallthrough */ default: rc = session_conn_shutdown(conn, qtask, ISCSI_SUCCESS); break; } return rc; } int iscsi_host_send_targets(queue_task_t *qtask, int host_no, int do_login, struct sockaddr_storage *ss) { struct iscsi_transport *t; t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) { log_error("Invalid host no %d for sendtargets", host_no); return ISCSI_ERR_TRANS_NOT_FOUND; } if (!(t->caps & CAP_SENDTARGETS_OFFLOAD)) return ISCSI_ERR_TRANS_CAPS; if (ipc->sendtargets(t->handle, host_no, (struct sockaddr *)ss)) return ISCSI_ERR; return ISCSI_SUCCESS; } /* * HW drivers like qla4xxx present an interface that hides most of the iscsi * details. Userspace sends down a discovery event then it gets notified * if the sessions that were logged in as a result asynchronously, or * the card will have sessions preset in the FLASH and will log into them * automaotically then send us notification that a session is setup. */ static void iscsi_async_session_creation(uint32_t host_no, uint32_t sid) { struct iscsi_transport *transport; transport = iscsi_sysfs_get_transport_by_hba(host_no); if (!transport) return; if (!(transport->caps & CAP_FW_DB)) return; log_debug(3, "session created sid %u host no %d", sid, host_no); session_online_devs(host_no, sid); session_scan_host(NULL, host_no, NULL); } static void iscsi_async_session_destruction(uint32_t host_no, uint32_t sid) { log_debug(3, "session destroyed sid %u host no %d", sid, host_no); } static struct iscsi_ipc_ev_clbk ipc_clbk = { .create_session = iscsi_async_session_creation, .destroy_session = iscsi_async_session_destruction, .get_ev_context = iscsi_ev_context_get, .put_ev_context = iscsi_ev_context_put, .sched_ev_context = iscsi_sched_ev_context, }; void iscsi_initiator_init(void) { ipc_register_ev_callback(&ipc_clbk); } open-iscsi-2.0.874/usr/initiator.h000066400000000000000000000250121277325716400167470ustar00rootroot00000000000000/* * iSCSI Initiator * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef INITIATOR_H #define INITIATOR_H #include #include #include #include "types.h" #include "iscsi_proto.h" #include "iscsi_if.h" #include "auth.h" #include "mgmt_ipc.h" #include "config.h" #include "actor.h" #include "list.h" #define ISCSI_CONFIG_ROOT "/etc/iscsi/" #define CONFIG_FILE ISCSI_CONFIG_ROOT"iscsid.conf" #define INITIATOR_NAME_FILE ISCSI_CONFIG_ROOT"initiatorname.iscsi" #define PID_FILE "/var/run/iscsid.pid" #ifndef LOCK_DIR #define LOCK_DIR "/var/lock/iscsi" #endif #define LOCK_FILE LOCK_DIR"/lock" #define LOCK_WRITE_FILE LOCK_DIR"/lock.write" typedef enum iscsi_session_r_stage_e { R_STAGE_NO_CHANGE, R_STAGE_SESSION_CLEANUP, R_STAGE_SESSION_REOPEN, R_STAGE_SESSION_REDIRECT, R_STAGE_SESSION_DESTOYED, } iscsi_session_r_stage_e; typedef enum conn_login_status_e { CONN_LOGIN_SUCCESS = 0, CONN_LOGIN_FAILED = 1, CONN_LOGIN_IO_ERR = 2, CONN_LOGIN_RETRY = 3, CONN_LOGIN_IMM_RETRY = 4, CONN_LOGIN_IMM_REDIRECT_RETRY = 5, CONN_LOGIN_AUTH_FAILED = 6, } conn_login_status_e; enum iscsi_login_status { LOGIN_OK = 0, LOGIN_IO_ERROR = 1, LOGIN_FAILED = 2, LOGIN_VERSION_MISMATCH = 3, LOGIN_NEGOTIATION_FAILED = 4, LOGIN_AUTHENTICATION_FAILED = 5, LOGIN_REDIRECTION_FAILED = 6, LOGIN_INVALID_PDU = 7, LOGIN_REDIRECT = 8, }; typedef enum iscsi_event_e { EV_UNKNOWN, EV_CONN_RECV_PDU, EV_CONN_POLL, EV_CONN_ERROR, EV_CONN_LOGOUT_TIMER, EV_CONN_STOP, EV_CONN_LOGIN, } iscsi_event_e; struct queue_task; typedef struct iscsi_login_context { int cid; char *buffer; size_t bufsize; uint8_t status_class; uint8_t status_detail; struct iscsi_acl *auth_client; struct iscsi_hdr pdu; struct iscsi_login_rsp *login_rsp; char *data; int received_pdu; int max_data_length; int timeout; int final; enum iscsi_login_status ret; struct queue_task *qtask; } iscsi_login_context_t; struct iscsi_session; struct iscsi_conn; struct iscsi_ev_context; /* daemon's connection structure */ typedef struct iscsi_conn { uint32_t id; struct iscsi_session *session; iscsi_login_context_t login_context; struct iscsi_ev_context *recv_context; struct queue_task *logout_qtask; char data[ISCSI_DEF_MAX_RECV_SEG_LEN]; char host[NI_MAXHOST]; /* scratch */ enum iscsi_conn_state state; int userspace_nop; struct timeval initial_connect_time; actor_t login_timer; actor_t nop_out_timer; #define CONTEXT_POOL_MAX 32 struct iscsi_ev_context *context_pool[CONTEXT_POOL_MAX]; /* login state machine */ int current_stage; int next_stage; int partial_response; conn_login_status_e status; /* tcp/socket settings */ /* * Either a tcp/ip or a netlink socket to do * IO through. */ int socket_fd; /* address being used for normal session connection */ struct sockaddr_storage saddr; /* address received during login */ struct sockaddr_storage failback_saddr; int tcp_window_size; int type_of_service; /* used for the IPC of bind and for connect/poll/disconnect by * transports (eg iser) which does these ops from the kernel. * In the case of TCP, it is just the transport_fd casted to u64. */ uint64_t transport_ep_handle; int bind_ep; /* timeouts */ int login_timeout; int logout_timeout; int auth_timeout; int active_timeout; int noop_out_interval; int noop_out_timeout; /* sequencing */ uint32_t exp_statsn; /* negotiated parameters */ uint32_t hdrdgst_en; uint32_t datadgst_en; uint32_t max_recv_dlength; /* the value we declare */ uint32_t max_xmit_dlength; /* the value declared by the target */ } iscsi_conn_t; struct iscsi_ev_context { struct actor actor; struct iscsi_conn *conn; int allocated; void *data; }; typedef struct queue_task { iscsi_conn_t *conn; iscsiadm_req_t req; iscsiadm_rsp_t rsp; int mgmt_ipc_fd; int allocated : 1; /* Newer request types include a * variable-length payload */ void *payload; } queue_task_t; struct iscsi_transport_template; struct iscsi_transport; /* daemon's session structure */ typedef struct iscsi_session { struct list_head list; uint32_t id; uint32_t hostno; char netdev[IFNAMSIZ]; struct iscsi_transport *t; uint8_t use_ipc; node_rec_t nrec; /* copy of original Node record in database */ unsigned int irrelevant_keys_bitmap; int send_async_text; uint32_t itt; uint32_t cmdsn; uint32_t exp_cmdsn; uint32_t max_cmdsn; int erl; uint32_t imm_data_en; uint32_t initial_r2t_en; uint32_t fast_abort; uint32_t first_burst; uint32_t max_burst; uint32_t pdu_inorder_en; uint32_t dataseq_inorder_en; uint32_t def_time2wait; uint32_t def_time2retain; int type; int portal_group_tag; uint8_t isid[6]; uint16_t tsih; char target_name[TARGET_NAME_MAXLEN + 1]; char *target_alias; char *initiator_name; char *initiator_alias; struct auth_str_block auth_recv_string_block; struct auth_str_block auth_send_string_block; struct auth_large_binary auth_recv_binary_block; struct auth_large_binary auth_send_binary_block; struct iscsi_acl auth_client_block; struct iscsi_acl *auth_client; int num_auth_buffers; struct auth_buffer_desc auth_buffers[5]; int bidirectional_auth; char username[AUTH_STR_MAX_LEN]; uint8_t password[AUTH_STR_MAX_LEN]; int password_length; char username_in[AUTH_STR_MAX_LEN]; uint8_t password_in[AUTH_STR_MAX_LEN]; int password_in_length; iscsi_conn_t conn[ISCSI_CONN_MAX]; uint64_t param_mask; /* connection reopens during recovery */ int reopen_cnt; queue_task_t reopen_qtask; iscsi_session_r_stage_e r_stage; uint32_t replacement_timeout; int host_reset_timeout; int tgt_reset_timeout; int lu_reset_timeout; int abort_timeout; /* * used for hw and sync up to notify caller that the operation * is complete */ queue_task_t *notify_qtask; } iscsi_session_t; /* login.c */ #define ISCSI_SESSION_TYPE_NORMAL 0 #define ISCSI_SESSION_TYPE_DISCOVERY 1 /* not defined by iSCSI, but used in the login code to determine * when to send the initial Login PDU */ #define ISCSI_INITIAL_LOGIN_STAGE -1 #define ISCSI_TEXT_SEPARATOR '=' /* implemented in iscsi-login.c for use on all platforms */ extern int iscsi_add_text(struct iscsi_hdr *hdr, char *data, int max_data_length, char *param, char *value); extern enum iscsi_login_status iscsi_login(iscsi_session_t *session, int cid, char *buffer, size_t bufsize, uint8_t * status_class, uint8_t * status_detail); extern int iscsi_update_address(iscsi_conn_t *conn, char *address); extern int iscsi_login_begin(iscsi_session_t *session, iscsi_login_context_t *c); extern int iscsi_login_req(iscsi_session_t *session, iscsi_login_context_t *c); extern int iscsi_login_rsp(iscsi_session_t *session, iscsi_login_context_t *c); extern int resolve_address(char *host, char *port, struct sockaddr_storage *ss); /* Digest types */ #define ISCSI_DIGEST_NONE 0 #define ISCSI_DIGEST_CRC32C 1 #define ISCSI_DIGEST_CRC32C_NONE 2 /* offer both, prefer CRC32C */ #define ISCSI_DIGEST_NONE_CRC32C 3 /* offer both, prefer None */ #define IRRELEVANT_MAXCONNECTIONS 0x01 #define IRRELEVANT_INITIALR2T 0x02 #define IRRELEVANT_IMMEDIATEDATA 0x04 #define IRRELEVANT_MAXBURSTLENGTH 0x08 #define IRRELEVANT_FIRSTBURSTLENGTH 0x10 #define IRRELEVANT_MAXOUTSTANDINGR2T 0x20 #define IRRELEVANT_DATAPDUINORDER 0x40 #define IRRELEVANT_DATASEQUENCEINORDER 0x80 /* * These user/kernel IPC calls are used by transports (eg iSER) that have their * native connection managed from the kernel. The IPC for having the user space * code being able to do it, is implemented as an enhancement of the open iscsi * netlink IPC scheme, currently with the ability to connect/poll-for-establish * ment/disconnect an opaque transport dependent 64 bit ep (endpoint) handle. * The exact IPC ABI for that matter is defined in iscsi_if.h */ /* netlink.c */ extern int ktransport_ep_connect(iscsi_conn_t *conn, int non_blocking); extern int ktransport_ep_poll(iscsi_conn_t *conn, int timeout_ms); extern void ktransport_ep_disconnect(iscsi_conn_t *conn); /* io.c */ extern int iscsi_io_tcp_poll(iscsi_conn_t *conn, int timeout_ms); extern int iscsi_io_tcp_connect(iscsi_conn_t *conn, int non_blocking); extern void iscsi_io_tcp_disconnect(iscsi_conn_t *conn); extern int iscsi_io_connect(iscsi_conn_t *conn); extern void iscsi_io_disconnect(iscsi_conn_t *conn); extern int iscsi_io_send_pdu(iscsi_conn_t *conn, struct iscsi_hdr *hdr, int hdr_digest, char *data, int data_digest, int timeout); extern int iscsi_io_recv_pdu(iscsi_conn_t *conn, struct iscsi_hdr *hdr, int hdr_digest, char *data, int max_data_length, int data_digest, int timeout); /* initiator.c */ extern int session_login_task(node_rec_t *rec, queue_task_t *qtask); extern int session_logout_task(int sid, queue_task_t *qtask); extern iscsi_session_t *session_find_by_sid(uint32_t sid); extern int iscsi_sync_session(node_rec_t *rec, queue_task_t *tsk, uint32_t sid); extern int iscsi_host_send_targets(queue_task_t *qtask, int host_no, int do_login, struct sockaddr_storage *ss); extern void free_initiator(void); extern void iscsi_initiator_init(void); /* initiator code common to discovery and normal sessions */ extern int iscsi_session_set_neg_params(struct iscsi_conn *conn); extern int iscsi_session_set_params(struct iscsi_conn *conn); extern int iscsi_host_set_params(struct iscsi_session *session); extern int iscsi_host_set_net_params(struct iface_rec *iface, struct iscsi_session *session); extern void iscsi_copy_operational_params(struct iscsi_conn *conn, struct iscsi_session_operational_config *session_conf, struct iscsi_conn_operational_config *conn_conf); extern int iscsi_setup_authentication(struct iscsi_session *session, struct iscsi_auth_config *auth_cfg); extern int iscsi_setup_portal(struct iscsi_conn *conn, char *address, int port); extern int iscsi_set_net_config(struct iscsi_transport *t, iscsi_session_t *session, struct iface_rec *iface); extern void iscsi_session_init_params(struct iscsi_session *session); extern int session_in_use(int sid); #endif /* INITIATOR_H */ open-iscsi-2.0.874/usr/initiator_common.c000066400000000000000000000476161277325716400203300ustar00rootroot00000000000000/* * Common code for setting up discovery and normal sessions. * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 - 2009 Mike Christie * Copyright (C) 2006 - 2009 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include "initiator.h" #include "transport.h" #include "iscsid.h" #include "iscsi_ipc.h" #include "log.h" #include "iscsi_sysfs.h" #include "iscsi_settings.h" #include "iface.h" #include "host.h" #include "sysdeps.h" #include "iscsi_err.h" #include "iscsi_net_util.h" struct iscsi_session *session_find_by_sid(uint32_t sid) { struct iscsi_transport *t; struct iscsi_session *session; list_for_each_entry(t, &transports, list) { list_for_each_entry(session, &t->sessions, list) { if (session->id == sid) return session; } } return NULL; } const static unsigned int align_32_down(unsigned int param) { return param & ~0x3; } int iscsi_setup_authentication(struct iscsi_session *session, struct iscsi_auth_config *auth_cfg) { /* if we have any incoming credentials, we insist on authenticating * the target or not logging in at all */ if (auth_cfg->username_in[0] || auth_cfg->password_in_length) { /* sanity check the config */ if (auth_cfg->password_length == 0) { log_warning("CHAP configuration has incoming " "authentication credentials but has no " "outgoing credentials configured."); return EINVAL; } session->bidirectional_auth = 1; } else { /* no or 1-way authentication */ session->bidirectional_auth = 0; } /* copy in whatever credentials we have */ strlcpy(session->username, auth_cfg->username, sizeof (session->username)); session->username[sizeof (session->username) - 1] = '\0'; if ((session->password_length = auth_cfg->password_length)) memcpy(session->password, auth_cfg->password, session->password_length); strlcpy(session->username_in, auth_cfg->username_in, sizeof (session->username_in)); session->username_in[sizeof (session->username_in) - 1] = '\0'; if ((session->password_in_length = auth_cfg->password_in_length)) memcpy(session->password_in, auth_cfg->password_in, session->password_in_length); if (session->password_length || session->password_in_length) { /* setup the auth buffers */ session->auth_buffers[0].address = &session->auth_client_block; session->auth_buffers[0].length = sizeof (session->auth_client_block); session->auth_buffers[1].address = &session->auth_recv_string_block; session->auth_buffers[1].length = sizeof (session->auth_recv_string_block); session->auth_buffers[2].address = &session->auth_send_string_block; session->auth_buffers[2].length = sizeof (session->auth_send_string_block); session->auth_buffers[3].address = &session->auth_recv_binary_block; session->auth_buffers[3].length = sizeof (session->auth_recv_binary_block); session->auth_buffers[4].address = &session->auth_send_binary_block; session->auth_buffers[4].length = sizeof (session->auth_send_binary_block); session->num_auth_buffers = 5; log_debug(6, "authentication setup complete..."); } else { session->num_auth_buffers = 0; log_debug(6, "no authentication configured..."); } return 0; } void iscsi_copy_operational_params(struct iscsi_conn *conn, struct iscsi_session_operational_config *session_conf, struct iscsi_conn_operational_config *conn_conf) { struct iscsi_session *session = conn->session; struct iscsi_transport *t = session->t; conn->hdrdgst_en = conn_conf->HeaderDigest; conn->datadgst_en = conn_conf->DataDigest; conn->max_recv_dlength = align_32_down(conn_conf->MaxRecvDataSegmentLength); if (conn->max_recv_dlength < ISCSI_MIN_MAX_RECV_SEG_LEN || conn->max_recv_dlength > ISCSI_MAX_MAX_RECV_SEG_LEN) { log_error("Invalid iscsi.MaxRecvDataSegmentLength. Must be " "within %u and %u. Setting to %u", ISCSI_MIN_MAX_RECV_SEG_LEN, ISCSI_MAX_MAX_RECV_SEG_LEN, DEF_INI_MAX_RECV_SEG_LEN); conn_conf->MaxRecvDataSegmentLength = DEF_INI_MAX_RECV_SEG_LEN; conn->max_recv_dlength = DEF_INI_MAX_RECV_SEG_LEN; } /* zero indicates to use the target's value */ conn->max_xmit_dlength = align_32_down(conn_conf->MaxXmitDataSegmentLength); if (conn->max_xmit_dlength == 0) conn->max_xmit_dlength = ISCSI_DEF_MAX_RECV_SEG_LEN; if (conn->max_xmit_dlength < ISCSI_MIN_MAX_RECV_SEG_LEN || conn->max_xmit_dlength > ISCSI_MAX_MAX_RECV_SEG_LEN) { log_error("Invalid iscsi.MaxXmitDataSegmentLength. Must be " "within %u and %u. Setting to %u", ISCSI_MIN_MAX_RECV_SEG_LEN, ISCSI_MAX_MAX_RECV_SEG_LEN, DEF_INI_MAX_RECV_SEG_LEN); conn_conf->MaxXmitDataSegmentLength = DEF_INI_MAX_RECV_SEG_LEN; conn->max_xmit_dlength = DEF_INI_MAX_RECV_SEG_LEN; } /* session's operational parameters */ session->initial_r2t_en = session_conf->InitialR2T; session->imm_data_en = session_conf->ImmediateData; session->first_burst = align_32_down(session_conf->FirstBurstLength); /* * some targets like netapp fail the login if sent bad first_burst * and max_burst lens, even when immediate data=no and * initial r2t = Yes, so we always check the user values. */ if (session->first_burst < ISCSI_MIN_FIRST_BURST_LEN || session->first_burst > ISCSI_MAX_FIRST_BURST_LEN) { log_error("Invalid iscsi.FirstBurstLength of %u. Must be " "within %u and %u. Setting to %u", session->first_burst, ISCSI_MIN_FIRST_BURST_LEN, ISCSI_MAX_FIRST_BURST_LEN, DEF_INI_FIRST_BURST_LEN); session_conf->FirstBurstLength = DEF_INI_FIRST_BURST_LEN; session->first_burst = DEF_INI_FIRST_BURST_LEN; } session->max_burst = align_32_down(session_conf->MaxBurstLength); if (session->max_burst < ISCSI_MIN_MAX_BURST_LEN || session->max_burst > ISCSI_MAX_MAX_BURST_LEN) { log_error("Invalid iscsi.MaxBurstLength of %u. Must be " "within %u and %u. Setting to %u", session->max_burst, ISCSI_MIN_MAX_BURST_LEN, ISCSI_MAX_MAX_BURST_LEN, DEF_INI_MAX_BURST_LEN); session_conf->MaxBurstLength = DEF_INI_MAX_BURST_LEN; session->max_burst = DEF_INI_MAX_BURST_LEN; } if (session->first_burst > session->max_burst) { log_error("Invalid iscsi.FirstBurstLength of %u. Must be " "less than iscsi.MaxBurstLength. Setting to %u", session->first_burst, session->max_burst); session_conf->FirstBurstLength = session->max_burst; session->first_burst = session->max_burst; } session->def_time2wait = session_conf->DefaultTime2Wait; session->def_time2retain = session_conf->DefaultTime2Retain; session->erl = session_conf->ERL; if (session->type == ISCSI_SESSION_TYPE_DISCOVERY) { /* * Right now, we only support 8K max for kernel based * sendtargets discovery, because the recv pdu buffers are * limited to this size. */ if ((t->caps & CAP_TEXT_NEGO) && conn->max_recv_dlength > ISCSI_DEF_MAX_RECV_SEG_LEN) conn->max_recv_dlength = ISCSI_DEF_MAX_RECV_SEG_LEN; /* We do not support discovery sessions with digests */ conn->hdrdgst_en = ISCSI_DIGEST_NONE; conn->datadgst_en = ISCSI_DIGEST_NONE; } if (t->template->create_conn) t->template->create_conn(conn); } int iscsi_setup_portal(struct iscsi_conn *conn, char *address, int port) { char serv[NI_MAXSERV]; sprintf(serv, "%d", port); if (resolve_address(address, serv, &conn->saddr)) { log_error("cannot resolve host name %s", address); return ISCSI_ERR_TRANS; } conn->failback_saddr = conn->saddr; getnameinfo((struct sockaddr *)&conn->saddr, sizeof(conn->saddr), conn->host, sizeof(conn->host), NULL, 0, NI_NUMERICHOST); log_debug(4, "resolved %s to %s", address, conn->host); return 0; } static int host_set_param(struct iscsi_transport *t, uint32_t host_no, int param, char *value, int type) { int rc; rc = ipc->set_host_param(t->handle, host_no, param, value, type); /* 2.6.20 and below returns EINVAL */ if (rc && rc != -ENOSYS && rc != -EINVAL) { log_error("can't set operational parameter %d for " "host %d, retcode %d (%d)", param, host_no, rc, errno); return ISCSI_ERR_INVAL; } return 0; } static void print_param_value(enum iscsi_param param, void *value, int type) { log_debug(3, "set operational parameter %d to:", param); if (type == ISCSI_STRING) log_debug(3, "%s", value ? (char *)value : "NULL"); else log_debug(3, "%u", *(uint32_t *)value); } #define MAX_HOST_PARAMS 2 int iscsi_host_set_params(struct iscsi_session *session) { struct iscsi_transport *t = session->t; int i; struct hostparam { int param; int type; void *value; } hosttbl[MAX_HOST_PARAMS] = { { .param = ISCSI_HOST_PARAM_NETDEV_NAME, .value = session->nrec.iface.netdev, .type = ISCSI_STRING, }, { .param = ISCSI_HOST_PARAM_HWADDRESS, .value = session->nrec.iface.hwaddress, .type = ISCSI_STRING, }, }; for (i = 0; i < MAX_HOST_PARAMS; i++) { if (host_set_param(t, session->hostno, hosttbl[i].param, hosttbl[i].value, hosttbl[i].type)) { return EPERM; } print_param_value(hosttbl[i].param, hosttbl[i].value, hosttbl[i].type); } return 0; } static inline void iscsi_session_clear_param(struct iscsi_session *session, int param) { session->param_mask &= ~(1ULL << param); } void iscsi_session_init_params(struct iscsi_session *session) { session->param_mask = ~0ULL; if (!(session->t->caps & CAP_MULTI_R2T)) iscsi_session_clear_param(session, ISCSI_PARAM_MAX_R2T); if (!(session->t->caps & CAP_HDRDGST)) iscsi_session_clear_param(session, ISCSI_PARAM_HDRDGST_EN); if (!(session->t->caps & CAP_DATADGST)) iscsi_session_clear_param(session, ISCSI_PARAM_DATADGST_EN); if (!(session->t->caps & CAP_MARKERS)) { iscsi_session_clear_param(session, ISCSI_PARAM_IFMARKER_EN); iscsi_session_clear_param(session, ISCSI_PARAM_OFMARKER_EN); } } #define MAX_SESSION_NEG_PARAMS 16 int iscsi_session_set_neg_params(struct iscsi_conn *conn) { struct iscsi_session *session = conn->session; int i, rc; uint32_t one = 1, zero = 0; struct connparam { int param; int type; void *value; int conn_only; } conntbl[MAX_SESSION_NEG_PARAMS] = { { .param = ISCSI_PARAM_MAX_RECV_DLENGTH, .value = &conn->max_recv_dlength, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_MAX_XMIT_DLENGTH, .value = &conn->max_xmit_dlength, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_HDRDGST_EN, .value = &conn->hdrdgst_en, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_DATADGST_EN, .value = &conn->datadgst_en, .type = ISCSI_INT, .conn_only = 1, }, { .param = ISCSI_PARAM_INITIAL_R2T_EN, .value = &session->initial_r2t_en, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_MAX_R2T, .value = &one, /* FIXME: session->max_r2t */ .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_IMM_DATA_EN, .value = &session->imm_data_en, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_FIRST_BURST, .value = &session->first_burst, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_MAX_BURST, .value = &session->max_burst, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_PDU_INORDER_EN, .value = &session->pdu_inorder_en, .type = ISCSI_INT, .conn_only = 0, }, { .param =ISCSI_PARAM_DATASEQ_INORDER_EN, .value = &session->dataseq_inorder_en, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_ERL, .value = &zero, /* FIXME: session->erl */ .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_IFMARKER_EN, .value = &zero,/* FIXME: session->ifmarker_en */ .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_OFMARKER_EN, .value = &zero,/* FIXME: session->ofmarker_en */ .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_EXP_STATSN, .value = &conn->exp_statsn, .type = ISCSI_UINT, .conn_only = 1, }, { .param = ISCSI_PARAM_TPGT, .value = &session->portal_group_tag, .type = ISCSI_INT, .conn_only = 0, }, }; iscsi_session_init_params(session); /* Entered full-feature phase! */ for (i = 0; i < MAX_SESSION_NEG_PARAMS; i++) { if (conn->id != 0 && !conntbl[i].conn_only) continue; if (!(session->param_mask & (1ULL << conntbl[i].param))) continue; rc = ipc->set_param(session->t->handle, session->id, conn->id, conntbl[i].param, conntbl[i].value, conntbl[i].type); if (rc && rc != -ENOSYS) { log_error("can't set operational parameter %d for " "connection %d:%d, retcode %d (%d)", conntbl[i].param, session->id, conn->id, rc, errno); return EPERM; } print_param_value(conntbl[i].param, conntbl[i].value, conntbl[i].type); } return 0; } #define MAX_SESSION_PARAMS 20 int iscsi_session_set_params(struct iscsi_conn *conn) { struct iscsi_session *session = conn->session; int i, rc; struct connparam { int param; int type; void *value; int conn_only; } conntbl[MAX_SESSION_PARAMS] = { { .param = ISCSI_PARAM_TARGET_NAME, .conn_only = 0, .type = ISCSI_STRING, .value = session->target_name, }, { .param = ISCSI_PARAM_PERSISTENT_ADDRESS, .value = session->nrec.conn[conn->id].address, .type = ISCSI_STRING, .conn_only = 1, }, { .param = ISCSI_PARAM_PERSISTENT_PORT, .value = &session->nrec.conn[conn->id].port, .type = ISCSI_INT, .conn_only = 1, }, { .param = ISCSI_PARAM_SESS_RECOVERY_TMO, .value = &session->replacement_timeout, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_USERNAME, .value = session->username, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_USERNAME_IN, .value = session->username_in, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_PASSWORD, .value = session->password, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_PASSWORD_IN, .value = session->password_in, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_FAST_ABORT, .value = &session->fast_abort, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_ABORT_TMO, .value = &session->abort_timeout, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_LU_RESET_TMO, .value = &session->lu_reset_timeout, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_TGT_RESET_TMO, .value = &session->tgt_reset_timeout, .type = ISCSI_INT, .conn_only = 0, }, { .param = ISCSI_PARAM_PING_TMO, .value = &conn->noop_out_timeout, .type = ISCSI_INT, .conn_only = 1, }, { .param = ISCSI_PARAM_RECV_TMO, .value = &conn->noop_out_interval, .type = ISCSI_INT, .conn_only = 1, }, { .param = ISCSI_PARAM_IFACE_NAME, .value = session->nrec.iface.name, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_INITIATOR_NAME, .value = session->initiator_name, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_BOOT_ROOT, .value = session->nrec.session.boot_root, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_BOOT_NIC, .value = session->nrec.session.boot_nic, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_BOOT_TARGET, .value = session->nrec.session.boot_target, .type = ISCSI_STRING, .conn_only = 0, }, { .param = ISCSI_PARAM_DISCOVERY_SESS, .value = &session->type, .type = ISCSI_INT, .conn_only = 0, }, }; iscsi_session_init_params(session); /* some llds will send nops internally */ if (!iscsi_sysfs_session_supports_nop(session->id)) { iscsi_session_clear_param(session, ISCSI_PARAM_PING_TMO); iscsi_session_clear_param(session, ISCSI_PARAM_RECV_TMO); } /* Entered full-feature phase! */ for (i = 0; i < MAX_SESSION_PARAMS; i++) { if (conn->id != 0 && !conntbl[i].conn_only) continue; if (!(session->param_mask & (1ULL << conntbl[i].param))) continue; rc = ipc->set_param(session->t->handle, session->id, conn->id, conntbl[i].param, conntbl[i].value, conntbl[i].type); if (rc && rc != -ENOSYS) { log_error("can't set operational parameter %d for " "connection %d:%d, retcode %d (%d)", conntbl[i].param, session->id, conn->id, rc, errno); return EPERM; } if (rc == -ENOSYS) { switch (conntbl[i].param) { case ISCSI_PARAM_PING_TMO: /* * older kernels may not support nops * in kernel */ conn->userspace_nop = 1; break; #if 0 TODO handle this case ISCSI_PARAM_INITIATOR_NAME: /* use host level one instead */ hosttbl[ISCSI_HOST_PARAM_INITIATOR_NAME].set = 1; break; #endif } } print_param_value(conntbl[i].param, conntbl[i].value, conntbl[i].type); } return 0; } int iscsi_set_net_config(struct iscsi_transport *t, iscsi_session_t *session, struct iface_rec *iface) { if (t->template->set_net_config) { /* uip needs the netdev name */ struct host_info hinfo; int hostno, rc; /* this assumes that the netdev or hw address is going to be set */ hostno = iscsi_sysfs_get_host_no_from_hwinfo(iface, &rc); if (rc) { log_debug(4, "Couldn't get host no."); return rc; } /* uip needs the netdev name */ if (!strlen(iface->netdev)) { memset(&hinfo, 0, sizeof(hinfo)); hinfo.host_no = hostno; iscsi_sysfs_get_hostinfo_by_host_no(&hinfo); strcpy(iface->netdev, hinfo.iface.netdev); } return t->template->set_net_config(t, iface, session); } return 0; } int iscsi_host_set_net_params(struct iface_rec *iface, struct iscsi_session *session) { struct iscsi_transport *t = session->t; int rc = 0; char *netdev; struct host_info hinfo; log_debug(3, "setting iface %s, dev %s, set ip %s, hw %s, " "transport %s.", iface->name, iface->netdev, iface->ipaddress, iface->hwaddress, iface->transport_name); if (!t->template->set_host_ip) return 0; /* if we need to set the ip addr then set all the iface net settings */ if (!iface_is_bound_by_ipaddr(iface)) { if (t->template->set_host_ip == SET_HOST_IP_REQ) { log_warning("Please set the iface.ipaddress for iface " "%s, then retry the login command.", iface->name); return ISCSI_ERR_INVAL; } else if (t->template->set_host_ip == SET_HOST_IP_OPT) { log_info("Optional iface.ipaddress for iface %s " "not set.", iface->name); return 0; } else { return ISCSI_ERR_INVAL; } } /* these type of drivers need the netdev upd */ if (strlen(iface->netdev)) netdev = iface->netdev; else { memset(&hinfo, 0, sizeof(hinfo)); hinfo.host_no = session->hostno; iscsi_sysfs_get_hostinfo_by_host_no(&hinfo); netdev = hinfo.iface.netdev; } if (net_ifup_netdev(netdev)) log_warning("Could not brining up netdev %s. Try running " "'ifup %s' first if login fails.", netdev, netdev); rc = iscsi_set_net_config(t, session, iface); if (rc != 0) return rc; rc = host_set_param(t, session->hostno, ISCSI_HOST_PARAM_IPADDRESS, iface->ipaddress, ISCSI_STRING); if (rc) return rc; if (iface_is_bound_by_netdev(iface)) { rc = host_set_param(t, session->hostno, ISCSI_HOST_PARAM_NETDEV_NAME, iface->netdev, ISCSI_STRING); if (rc) return rc; } if (iface_is_bound_by_hwaddr(iface)) { rc = host_set_param(t, session->hostno, ISCSI_HOST_PARAM_HWADDRESS, iface->hwaddress, ISCSI_STRING); if (rc) return rc; } return 0; } open-iscsi-2.0.874/usr/io.c000066400000000000000000000530401277325716400153510ustar00rootroot00000000000000/* * iSCSI I/O Library * * Copyright (C) 2002 Cisco Systems, Inc. * maintained by linux-iscsi-devel@lists.sourceforge.net * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "types.h" #include "iscsi_proto.h" #include "iscsi_settings.h" #include "initiator.h" #include "iscsi_ipc.h" #include "log.h" #include "transport.h" #include "idbm.h" #include "iface.h" #include "sysdeps.h" #define LOG_CONN_CLOSED(conn) \ do { \ getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), \ conn->host, sizeof(conn->host), NULL, 0, NI_NUMERICHOST); \ log_error("Connection to Discovery Address %s closed", conn->host); \ } while (0) #define LOG_CONN_FAIL(conn) \ do { \ getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), \ conn->host, sizeof(conn->host), NULL, 0, NI_NUMERICHOST); \ log_error("Connection to Discovery Address %s failed", conn->host); \ } while (0) static int timedout; static void sigalarm_handler(int unused) { timedout = 1; } static void set_non_blocking(int fd) { int res = fcntl(fd, F_GETFL); if (res != -1) { res = fcntl(fd, F_SETFL, res | O_NONBLOCK); if (res) log_warning("unable to set fd flags (%s)!", strerror(errno)); } else log_warning("unable to get fd flags (%s)!", strerror(errno)); } #if 0 /* not used by anyone */ static int get_hwaddress_from_netdev(char *netdev, char *hwaddress) { struct ifaddrs *ifap, *ifa; struct sockaddr_in *s4; struct sockaddr_in6 *s6; struct ifreq if_hwaddr; int found = 0, sockfd; unsigned char *hwaddr; char buf[INET6_ADDRSTRLEN]; if (getifaddrs(&ifap)) { log_error("Could not match hwaddress %s to netdev. " "getifaddrs failed %d", hwaddress, errno); return 0; } /* Open a basic socket. */ sockfd = socket(AF_INET, SOCK_DGRAM, 0); if (sockfd < 0) { log_error("Could not open socket for ioctl."); goto free_ifap; } for (ifa = ifap; ifa; ifa = ifa->ifa_next) { if (!ifa->ifa_addr) continue; switch (ifa->ifa_addr->sa_family) { case AF_INET: s4 = (struct sockaddr_in *)(ifa->ifa_addr); if (!inet_ntop(ifa->ifa_addr->sa_family, (void *)&(s4->sin_addr), buf, INET_ADDRSTRLEN)) continue; log_debug(4, "name %s addr %s", ifa->ifa_name, buf); break; case AF_INET6: s6 = (struct sockaddr_in6 *)(ifa->ifa_addr); if (!inet_ntop(ifa->ifa_addr->sa_family, (void *)&(s6->sin6_addr), buf, INET6_ADDRSTRLEN)) continue; log_debug(4, "name %s addr %s", ifa->ifa_name, buf); break; default: continue; } if (strcmp(ifa->ifa_name, netdev)) continue; strncpy(if_hwaddr.ifr_name, ifa->ifa_name, IFNAMSIZ); if (ioctl(sockfd, SIOCGIFHWADDR, &if_hwaddr) < 0) { log_error("Could not match %s to netdevice.", hwaddress); continue; } /* check for ARPHRD_ETHER (ethernet) */ if (if_hwaddr.ifr_hwaddr.sa_family != 1) continue; hwaddr = (unsigned char *)if_hwaddr.ifr_hwaddr.sa_data; memset(hwaddress, 0, ISCSI_MAX_IFACE_LEN); /* TODO should look and covert so we do not need tmp buf */ sprintf(hwaddress, "%2.2x:%2.2x:%2.2x:%2.2x:%2.2x:%2.2x", hwaddr[0], hwaddr[1], hwaddr[2], hwaddr[3], hwaddr[4], hwaddr[5]); log_debug(4, "Found hardware address %s", hwaddress); found = 1; break; } close(sockfd); free_ifap: freeifaddrs(ifap); return found; } #endif #if 0 This is not supported for now, because it is not exactly what we want. It also turns out that targets will send packets to other interfaces causing all types of weird things to happen. static int bind_src_by_address(int sockfd, char *address) { int rc = 0; char port[NI_MAXSERV]; struct sockaddr_storage saddr; memset(&saddr, 0, sizeof(struct sockaddr_storage)); if (resolve_address(address, port, &saddr)) { log_error("Could not bind %s to conn.", address); return -1; } switch (saddr.ss_family) { case AF_INET: rc = bind(sockfd, (struct sockaddr *)&saddr, sizeof(struct sockaddr_in)); break; case AF_INET6: rc = bind(sockfd, (struct sockaddr *)&saddr, sizeof(struct sockaddr_in6)); break; default: rc = -1; } if (rc) log_error("Could not bind %s to %d.", address, sockfd); else log_debug(4, "Bound %s to socket fd %d", address, sockfd); return rc; } #endif static int bind_conn_to_iface(iscsi_conn_t *conn, struct iface_rec *iface) { struct iscsi_session *session = conn->session; if (strcmp(iface->transport_name, DEFAULT_TRANSPORT)) return 0; memset(session->netdev, 0, IFNAMSIZ); if (iface_is_bound_by_hwaddr(iface)) { if (net_get_netdev_from_hwaddress(iface->hwaddress, session->netdev)) { log_error("Cannot match %s to net/scsi interface.", iface->hwaddress); return -1; } } else if (iface_is_bound_by_netdev(iface)) { strcpy(session->netdev, iface->netdev); } else if (iface_is_bound_by_ipaddr(iface)) { /* * we never supported this but now with offload having to * set the ip address in the iface, useris may forget to * set the offload's transport type and we end up here by * accident. */ log_error("Cannot bind %s to net/scsi interface. This is not " "supported with software iSCSI (iscsi_tcp).", iface->ipaddress); return -1; } if (strlen(session->netdev)) { struct ifreq ifr; log_debug(4, "Binding session %d to %s", session->id, session->netdev); memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, session->netdev, IFNAMSIZ); if (setsockopt(conn->socket_fd, SOL_SOCKET, SO_BINDTODEVICE, session->netdev, strlen(session->netdev) + 1) < 0) { log_error("Could not bind connection %d to %s", conn->id, session->netdev); return -1; } } return 0; } int iscsi_io_tcp_connect(iscsi_conn_t *conn, int non_blocking) { int rc, onearg; struct sockaddr_storage *ss = &conn->saddr; char serv[NI_MAXSERV]; /* create a socket */ conn->socket_fd = socket(ss->ss_family, SOCK_STREAM, IPPROTO_TCP); /* the trasport ep handle is used to bind with */ conn->transport_ep_handle = conn->socket_fd; if (conn->socket_fd < 0) { log_error("cannot create TCP socket"); return -1; } if (bind_conn_to_iface(conn, &conn->session->nrec.iface)) return -1; onearg = 1; rc = setsockopt(conn->socket_fd, IPPROTO_TCP, TCP_NODELAY, &onearg, sizeof (onearg)); if (rc < 0) { log_error("cannot set TCP_NODELAY option on socket"); close(conn->socket_fd); conn->socket_fd = -1; return rc; } /* optionally set the window sizes */ if (conn->tcp_window_size) { int window_size = conn->tcp_window_size; socklen_t arglen = sizeof (window_size); if (setsockopt(conn->socket_fd, SOL_SOCKET, SO_RCVBUF, (char *) &window_size, sizeof (window_size)) < 0) { log_warning("failed to set TCP recv window size " "to %u", window_size); } else { if (getsockopt(conn->socket_fd, SOL_SOCKET, SO_RCVBUF, (char *) &window_size, &arglen) >= 0) { log_debug(4, "set TCP recv window size to %u, " "actually got %u", conn->tcp_window_size, window_size); } } window_size = conn->tcp_window_size; arglen = sizeof (window_size); if (setsockopt(conn->socket_fd, SOL_SOCKET, SO_SNDBUF, (char *) &window_size, sizeof (window_size)) < 0) { log_warning("failed to set TCP send window size " "to %u", window_size); } else { if (getsockopt(conn->socket_fd, SOL_SOCKET, SO_SNDBUF, (char *) &window_size, &arglen) >= 0) { log_debug(4, "set TCP send window size to %u, " "actually got %u", conn->tcp_window_size, window_size); } } } /* * Build a TCP connection to the target */ getnameinfo((struct sockaddr *) ss, sizeof(*ss), conn->host, sizeof(conn->host), serv, sizeof(serv), NI_NUMERICHOST|NI_NUMERICSERV); log_debug(1, "connecting to %s:%s", conn->host, serv); if (non_blocking) set_non_blocking(conn->socket_fd); rc = connect(conn->socket_fd, (struct sockaddr *) ss, sizeof (*ss)); return rc; } int iscsi_io_tcp_poll(iscsi_conn_t *conn, int timeout_ms) { int rc; struct pollfd pdesc; char serv[NI_MAXSERV], lserv[NI_MAXSERV]; struct sockaddr_storage ss; socklen_t len; pdesc.fd = conn->socket_fd; pdesc.events = POLLOUT; rc = poll(&pdesc, 1, timeout_ms); if (rc == 0) return 0; if (rc < 0) { getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), conn->host, sizeof(conn->host), serv, sizeof(serv), NI_NUMERICHOST|NI_NUMERICSERV); log_error("cannot make connection to %s:%s (%s)", conn->host, serv, strerror(errno)); return rc; } len = sizeof(int); if (getsockopt(conn->socket_fd, SOL_SOCKET, SO_ERROR, (char *) &rc, &len) < 0) { log_error("getsockopt for connect poll failed"); return -1; } if (rc) { getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), conn->host, sizeof(conn->host), serv, sizeof(serv), NI_NUMERICHOST|NI_NUMERICSERV); log_error("connect to %s:%s failed (%s)", conn->host, serv, strerror(rc)); return -rc; } len = sizeof(ss); if (log_level > 0 && getsockname(conn->socket_fd, (struct sockaddr *) &ss, &len) >= 0) { getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), conn->host, sizeof(conn->host), serv, sizeof(serv), NI_NUMERICHOST|NI_NUMERICSERV); getnameinfo((struct sockaddr *) &ss, sizeof(ss), NULL, 0, lserv, sizeof(lserv), NI_NUMERICSERV); log_debug(1, "connected local port %s to %s:%s", lserv, conn->host, serv); } return 1; } void iscsi_io_tcp_disconnect(iscsi_conn_t *conn) { struct linger so_linger = { .l_onoff = 1, .l_linger = 0 }; if (conn->socket_fd >= 0) { log_debug(1, "disconnecting conn %p, fd %d", conn, conn->socket_fd); /* If the state is not IN_LOGOUT, this isn't a clean shutdown * and there's some sort of error handling going on. In that * case, set a 0 SO_LINGER to force an abortive close (RST) and * free whatever is sitting in the TCP transmit queue. This is * done to prevent stale data from being sent should the * network connection be restored before TCP times out. */ if (conn->state != ISCSI_CONN_STATE_IN_LOGOUT) { setsockopt(conn->socket_fd, SOL_SOCKET, SO_LINGER, &so_linger, sizeof(so_linger)); } close(conn->socket_fd); conn->socket_fd = -1; } } int iscsi_io_connect(iscsi_conn_t *conn) { int rc, ret; struct sigaction action; struct sigaction old; /* set a timeout, since the socket calls may take a long time to * timeout on their own */ memset(&action, 0, sizeof (struct sigaction)); memset(&old, 0, sizeof (struct sigaction)); action.sa_sigaction = NULL; action.sa_flags = 0; action.sa_handler = sigalarm_handler; sigaction(SIGALRM, &action, &old); timedout = 0; alarm(conn->login_timeout); /* perform blocking TCP connect operation when no async request * associated. SendTargets Discovery know to work in such a mode. */ rc = iscsi_io_tcp_connect(conn, 0); if (timedout) { log_error("connect to %s timed out", conn->host); log_debug(1, "socket %d connect timed out", conn->socket_fd); ret = 0; goto done; } else if (rc < 0) { log_error("cannot make connection to %s: %s", conn->host, strerror(errno)); close(conn->socket_fd); ret = 0; goto done; } else if (log_level > 0) { struct sockaddr_storage ss; char lserv[NI_MAXSERV]; char serv[NI_MAXSERV]; socklen_t salen = sizeof(ss); if (getsockname(conn->socket_fd, (struct sockaddr *) &ss, &salen) >= 0) { getnameinfo((struct sockaddr *) &conn->saddr, sizeof(conn->saddr), conn->host, sizeof(conn->host), serv, sizeof(serv), NI_NUMERICHOST|NI_NUMERICSERV); getnameinfo((struct sockaddr *) &ss, sizeof(ss), NULL, 0, lserv, sizeof(lserv), NI_NUMERICSERV); log_debug(1, "connected local port %s to %s:%s", lserv, conn->host, serv); } } ret = 1; done: alarm(0); sigaction(SIGALRM, &old, NULL); return ret; } void iscsi_io_disconnect(iscsi_conn_t *conn) { iscsi_io_tcp_disconnect(conn); } static void iscsi_log_text(struct iscsi_hdr *pdu, char *data) { int dlength = ntoh24(pdu->dlength); char *text = data; char *end = text + dlength; while (text && (text < end)) { log_debug(4, "> %s", text); text += strlen(text); while ((text < end) && (*text == '\0')) text++; } } int iscsi_io_send_pdu(iscsi_conn_t *conn, struct iscsi_hdr *hdr, int hdr_digest, char *data, int data_digest, int timeout) { int rc, ret = 0; char *header = (char *) hdr; char *end; char pad[4]; struct iovec vec[3]; int pad_bytes; int pdu_length = sizeof (*hdr) + hdr->hlength + ntoh24(hdr->dlength); int remaining; struct sigaction action; struct sigaction old; iscsi_session_t *session = conn->session; /* set a timeout, since the socket calls may take a long time * to timeout on their own */ if (!session->use_ipc) { memset(&action, 0, sizeof (struct sigaction)); memset(&old, 0, sizeof (struct sigaction)); action.sa_sigaction = NULL; action.sa_flags = 0; action.sa_handler = sigalarm_handler; sigaction(SIGALRM, &action, &old); timedout = 0; alarm(timeout); } memset(&pad, 0, sizeof (pad)); memset(&vec, 0, sizeof (vec)); switch (hdr->opcode & ISCSI_OPCODE_MASK) { case ISCSI_OP_LOGIN:{ struct iscsi_login *login_hdr = (struct iscsi_login *) hdr; log_debug(4, "sending login PDU with current stage " "%d, next stage %d, transit 0x%x, isid" " 0x%02x%02x%02x%02x%02x%02x exp_statsn %u", ISCSI_LOGIN_CURRENT_STAGE(login_hdr->flags), ISCSI_LOGIN_NEXT_STAGE(login_hdr->flags), login_hdr->flags & ISCSI_FLAG_LOGIN_TRANSIT, login_hdr->isid[0], login_hdr->isid[1], login_hdr->isid[2], login_hdr->isid[3], login_hdr->isid[4], login_hdr->isid[5], ntohl(login_hdr->exp_statsn)); iscsi_log_text(hdr, data); break; } case ISCSI_OP_TEXT:{ struct iscsi_text *text_hdr = (struct iscsi_text *) hdr; log_debug(4, "sending text pdu with CmdSN %x, exp_statsn %u", ntohl(text_hdr->cmdsn), ntohl(text_hdr->cmdsn)); iscsi_log_text(hdr, data); break; } case ISCSI_OP_NOOP_OUT:{ struct iscsi_nopout *nopout_hdr = (struct iscsi_nopout *) hdr; log_debug(4, "sending Nop-out pdu with ttt %x, CmdSN %x:", ntohl(nopout_hdr->ttt), ntohl(nopout_hdr->cmdsn)); iscsi_log_text(hdr, data); break; } default: log_debug(4, "sending pdu opcode 0x%x:", hdr->opcode); break; } /* send the PDU header */ header = (char *) hdr; end = header + sizeof (*hdr) + hdr->hlength; /* send all the data and any padding */ if (pdu_length % ISCSI_PAD_LEN) pad_bytes = ISCSI_PAD_LEN - (pdu_length % ISCSI_PAD_LEN); else pad_bytes = 0; if (session->use_ipc) ipc->send_pdu_begin(session->t->handle, session->id, conn->id, end - header, ntoh24(hdr->dlength) + pad_bytes); while (header < end) { vec[0].iov_base = header; vec[0].iov_len = end - header; if (!session->use_ipc) rc = writev(conn->socket_fd, vec, 1); else rc = ipc->writev(0, vec, 1); if (timedout) { log_error("socket %d write timed out", conn->socket_fd); ret = 0; goto done; } else if ((rc <= 0) && (errno != EAGAIN)) { LOG_CONN_FAIL(conn); ret = 0; goto done; } else if (rc > 0) { log_debug(4, "wrote %d bytes of PDU header", rc); header += rc; } } end = data + ntoh24(hdr->dlength); remaining = ntoh24(hdr->dlength) + pad_bytes; while (remaining > 0) { vec[0].iov_base = data; vec[0].iov_len = end - data; vec[1].iov_base = (void *) &pad; vec[1].iov_len = pad_bytes; if (!session->use_ipc) rc = writev(conn->socket_fd, vec, 2); else rc = ipc->writev(0, vec, 2); if (timedout) { log_error("socket %d write timed out", conn->socket_fd); ret = 0; goto done; } else if ((rc <= 0) && (errno != EAGAIN)) { LOG_CONN_FAIL(conn); ret = 0; goto done; } else if (rc > 0) { log_debug(4, "wrote %d bytes of PDU data", rc); remaining -= rc; if (data < end) { data += rc; if (data > end) data = end; } } } if (session->use_ipc) { if (ipc->send_pdu_end(session->t->handle, session->id, conn->id, &rc)) { ret = 0; goto done; } } ret = 1; done: if (!session->use_ipc) { alarm(0); sigaction(SIGALRM, &old, NULL); timedout = 0; } return ret; } int iscsi_io_recv_pdu(iscsi_conn_t *conn, struct iscsi_hdr *hdr, int hdr_digest, char *data, int max_data_length, int data_digest, int timeout) { uint32_t h_bytes = 0; uint32_t ahs_bytes = 0; uint32_t d_bytes = 0; uint32_t ahslength = 0; uint32_t dlength = 0; uint32_t pad = 0; int rlen = 0; int failed = 0; char *header = (char *) hdr; char *end = data + max_data_length; struct sigaction action; struct sigaction old; iscsi_session_t *session = conn->session; memset(data, 0, max_data_length); /* set a timeout, since the socket calls may take a long * time to timeout on their own */ if (!session->use_ipc) { memset(&action, 0, sizeof (struct sigaction)); memset(&old, 0, sizeof (struct sigaction)); action.sa_sigaction = NULL; action.sa_flags = 0; action.sa_handler = sigalarm_handler; sigaction(SIGALRM, &action, &old); timedout = 0; alarm(timeout); } else { failed = ipc->recv_pdu_begin(conn); if (failed == -EAGAIN) return -EAGAIN; else if (failed < 0) { failed = 1; goto done; } } /* read a response header */ do { if (!session->use_ipc) rlen = read(conn->socket_fd, header, sizeof (*hdr) - h_bytes); else rlen = ipc->read(header, sizeof (*hdr) - h_bytes); if (timedout) { log_error("socket %d header read timed out", conn->socket_fd); failed = 1; goto done; } else if (rlen == 0) { LOG_CONN_CLOSED(conn); failed = 1; goto done; } else if ((rlen < 0) && (errno != EAGAIN)) { LOG_CONN_FAIL(conn); failed = 1; goto done; } else if (rlen > 0) { log_debug(4, "read %d bytes of PDU header", rlen); header += rlen; h_bytes += rlen; } } while (h_bytes < sizeof (*hdr)); log_debug(4, "read %d PDU header bytes, opcode 0x%x, dlength %u, " "data %p, max %u", h_bytes, hdr->opcode & ISCSI_OPCODE_MASK, ntoh24(hdr->dlength), data, max_data_length); /* check for additional headers */ ahslength = hdr->hlength; /* already includes padding */ if (ahslength) { log_warning("additional header segment length %u not supported", ahslength); failed = 1; goto done; } /* read exactly what we expect, plus padding */ dlength = hdr->dlength[0] << 16; dlength |= hdr->dlength[1] << 8; dlength |= hdr->dlength[2]; /* if we only expected to receive a header, exit */ if (dlength == 0) goto done; if (data + dlength > end) { log_warning("buffer size %u too small for data length %u", max_data_length, dlength); failed = 1; goto done; } /* read the rest into our buffer */ d_bytes = 0; while (d_bytes < dlength) { if (!session->use_ipc) rlen = read(conn->socket_fd, data + d_bytes, dlength - d_bytes); else rlen = ipc->read(data + d_bytes, dlength - d_bytes); if (timedout) { log_error("socket %d data read timed out", conn->socket_fd); failed = 1; goto done; } else if (rlen == 0) { LOG_CONN_CLOSED(conn); failed = 1; goto done; } else if ((rlen < 0 && errno != EAGAIN)) { LOG_CONN_FAIL(conn); failed = 1; goto done; } else if (rlen > 0) { log_debug(4, "read %d bytes of PDU data", rlen); d_bytes += rlen; } } /* handle PDU data padding. * data is padded in case of kernel_io */ pad = dlength % ISCSI_PAD_LEN; if (pad && !session->use_ipc) { int pad_bytes = pad = ISCSI_PAD_LEN - pad; char bytes[ISCSI_PAD_LEN]; while (pad_bytes > 0) { rlen = read(conn->socket_fd, &bytes, pad_bytes); if (timedout) { log_error("socket %d pad read timed out", conn->socket_fd); failed = 1; goto done; } else if (rlen == 0) { LOG_CONN_CLOSED(conn); failed = 1; goto done; } else if ((rlen < 0 && errno != EAGAIN)) { LOG_CONN_FAIL(conn); failed = 1; goto done; } else if (rlen > 0) { log_debug(4, "read %d pad bytes", rlen); pad_bytes -= rlen; } } } switch (hdr->opcode) { case ISCSI_OP_TEXT_RSP: log_debug(4, "finished reading text PDU, %u hdr, %u " "ah, %u data, %u pad", h_bytes, ahs_bytes, d_bytes, pad); iscsi_log_text(hdr, data); break; case ISCSI_OP_LOGIN_RSP:{ struct iscsi_login_rsp *login_rsp = (struct iscsi_login_rsp *) hdr; log_debug(4, "finished reading login PDU, %u hdr, " "%u ah, %u data, %u pad", h_bytes, ahs_bytes, d_bytes, pad); log_debug(4, "login current stage %d, next stage " "%d, transit 0x%x", ISCSI_LOGIN_CURRENT_STAGE(login_rsp->flags), ISCSI_LOGIN_NEXT_STAGE(login_rsp->flags), login_rsp->flags & ISCSI_FLAG_LOGIN_TRANSIT); iscsi_log_text(hdr, data); break; } case ISCSI_OP_ASYNC_EVENT: /* FIXME: log the event info */ break; default: break; } done: if (!session->use_ipc) { alarm(0); sigaction(SIGALRM, &old, NULL); } else { /* finalyze receive transaction */ if (ipc->recv_pdu_end(conn)) { failed = 1; } } if (timedout || failed) { timedout = 0; return -EIO; } return h_bytes + ahs_bytes + d_bytes; } open-iscsi-2.0.874/usr/ioctl.c000066400000000000000000000242661277325716400160640ustar00rootroot00000000000000/* * iSCSI Ioctl/Unix Interface * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include "iscsi_if.h" #include "iscsid.h" #include "log.h" #include "iscsi_ipc.h" #define CTL_DEVICE "/dev/iscsictl" static int ctrl_fd; static void *xmitbuf = NULL; static int xmitlen = 0; static void *recvbuf = NULL; static int recvlen = 0; static void *ioctl_sendbuf; static void *ioctl_recvbuf; static void *pdu_sendbuf; #define IOCTL_BUF_DEFAULT_MAX \ (ISCSI_DEF_MAX_RECV_SEG_LEN + sizeof(struct iscsi_hdr)) #define PDU_SENDBUF_DEFAULT_MAX \ (ISCSI_DEF_MAX_RECV_SEG_LEN + sizeof(struct iscsi_hdr)) static int kread(char *data, int count) { log_debug(7, "in %s", __FUNCTION__); return count; } static int kwritev(enum iscsi_uevent_e type, struct iovec *iovp, int count) { log_debug(7, "in %s", __FUNCTION__); return 0; } /* * __kipc_call() should never block */ static int __kipc_call(void *iov_base, int iov_len) { log_debug(7, "in %s", __FUNCTION__); return 0; } static int kcreate_session(uint64_t transport_handle, uint32_t initial_cmdsn, uint32_t *out_sid, uint32_t *out_hostno) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_CREATE_SESSION; ev.transport_handle = transport_handle; ev.u.c_session.initial_cmdsn = initial_cmdsn; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } if (!ev.r.c_session_ret.session_handle || ev.r.c_session_ret.sid < 0) return -EIO; *out_handle = ev.r.c_session_ret.session_handle; *out_sid = ev.r.c_session_ret.sid; return 0; } static int kdestroy_session(uint64_t transport_handle, uint64_t sessionh, uint32_t sid) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_DESTROY_SESSION; ev.transport_handle = transport_handle; ev.u.d_session.session_handle = sessionh; ev.u.d_session.sid = sid; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } return 0; } static int kcreate_conn(uint64_t transport_handle, uint64_t sessionh, uint32_t sid, uint32_t cid, uint64_t *out_handle) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_CREATE_CONN; ev.transport_handle = transport_handle; ev.u.c_conn.session_handle = sessionh; ev.u.c_conn.cid = cid; ev.u.c_conn.sid = sid; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } if (!ev.r.handle) return -EIO; *out_handle = ev.r.handle; return 0; } static int kdestroy_conn(uint64_t transport_handle, uint64_t connh, int cid) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_DESTROY_CONN; ev.transport_handle = transport_handle; ev.u.d_conn.conn_handle = connh; ev.u.d_conn.cid = cid; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } return 0; } static int kbind_conn(uint64_t transport_handle, uint64_t sessionh, uint64_t connh, uint32_t transport_fd, int is_leading, int *retcode) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_BIND_CONN; ev.transport_handle = transport_handle; ev.u.b_conn.session_handle = sessionh; ev.u.b_conn.conn_handle = connh; ev.u.b_conn.transport_fd = transport_fd; ev.u.b_conn.is_leading = is_leading; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } *retcode = ev.r.retcode; return 0; } static void ksend_pdu_begin(uint64_t transport_handle, uint64_t connh, int hdr_size, int data_size) { struct iscsi_uevent *ev; log_debug(7, "in %s", __FUNCTION__); if (xmitbuf) { log_error("send's begin state machine bug?"); exit(-EIO); } xmitbuf = pdu_sendbuf; memset(xmitbuf, 0, sizeof(*ev) + hdr_size + data_size); xmitlen = sizeof(*ev); ev = xmitbuf; memset(ev, 0, sizeof(*ev)); ev->type = ISCSI_UEVENT_SEND_PDU; ev->transport_handle = transport_handle; ev->u.send_pdu.conn_handle = connh; ev->u.send_pdu.hdr_size = hdr_size; ev->u.send_pdu.data_size = data_size; log_debug(3, "send PDU began for hdr %d bytes and data %d bytes", hdr_size, data_size); } static int ksend_pdu_end(uint64_t transport_handle, uint64_t connh, int *retcode) { int rc; struct iscsi_uevent *ev; struct iovec iov; log_debug(7, "in %s", __FUNCTION__); if (!xmitbuf) { log_error("send's end state machine bug?"); exit(-EIO); } ev = xmitbuf; if (ev->u.send_pdu.conn_handle != connh) { log_error("send's end state machine corruption?"); exit(-EIO); } iov.iov_base = xmitbuf; iov.iov_len = xmitlen; if ((rc = __kipc_call(xmitbuf, xmitlen)) < 0) goto err; if (ev->r.retcode) { *retcode = ev->r.retcode; goto err; } if (ev->type != ISCSI_UEVENT_SEND_PDU) { log_error("bad event: bug on send_pdu_end?"); exit(-EIO); } log_debug(3, "send PDU finished for conn (handle %p)", iscsi_ptr(connh)); xmitbuf = NULL; return 0; err: xmitbuf = NULL; xmitlen = 0; return rc; } static int kset_param(uint64_t transport_handle, uint64_t connh, enum iscsi_param param, uint32_t value, int *retcode) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_SET_PARAM; ev.transport_handle = transport_handle; ev.u.set_param.conn_handle = connh; ev.u.set_param.param = param; ev.u.set_param.value = value; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } *retcode = ev.r.retcode; return 0; } static int kstop_conn(uint64_t transport_handle, uint64_t connh, int flag) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_STOP_CONN; ev.transport_handle = transport_handle; ev.u.stop_conn.conn_handle = connh; ev.u.stop_conn.flag = flag; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } return 0; } static int kstart_conn(uint64_t transport_handle, uint64_t connh, int *retcode) { int rc; struct iscsi_uevent ev; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_START_CONN; ev.transport_handle = transport_handle; ev.u.start_conn.conn_handle = connh; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } *retcode = ev.r.retcode; return 0; } static int krecv_pdu_begin(uint64_t transport_handle, uint64_t connh, uintptr_t recv_handle, uintptr_t *pdu_handle, int *pdu_size) { log_debug(7, "in %s", __FUNCTION__); if (recvbuf) { log_error("recv's begin state machine bug?"); return -EIO; } recvbuf = (void*)recv_handle + sizeof(struct iscsi_uevent); recvlen = 0; *pdu_handle = recv_handle; log_debug(3, "recv PDU began, pdu handle 0x%p", (void*)*pdu_handle); return 0; } static int krecv_pdu_end(uint64_t transport_handle, uintptr_t conn_handle, uintptr_t pdu_handle) { log_debug(7, "in %s", __FUNCTION__); if (!recvbuf) { log_error("recv's end state machine bug?"); return -EIO; } log_debug(3, "recv PDU finished for pdu handle 0x%p", (void*)pdu_handle); recvpool_put((void*)conn_handle, (void*)pdu_handle); recvbuf = NULL; return 0; } static int ktrans_list(void) { struct iscsi_uevent ev; int rc; log_debug(7, "in %s", __FUNCTION__); memset(ev, 0, sizeof(struct iscsi_uevent)); /* * need to define this for bsd */ ev->type = ISCSI_UEVENT_TRANS_LIST; if ((rc = __kipc_call(&ev, sizeof(ev))) < 0) { return rc; } for (i = 0; i < ISCSI_TRANSPORT_MAX; i++) { if (ev.r.t_list.elements[i].trans_handle) { provider[i].handle = ev.r.t_list.elements[i].trans_handle; strncpy(provider[i].name, ev.r.t_list.elements[i].name, ISCSI_TRANSPORT_NAME_MAXLEN); provider[i].caps = ev.r.t_list.elements[i].caps; } } return 0; } static int ctldev_handle(void) { log_debug(7, "in %s", __FUNCTION__); return 0; } static int ctldev_open(void) { log_debug(7, "in %s", __FUNCTION__); ioctl_sendbuf = calloc(1, IOCTL_BUF_DEFAULT_MAX); if (!ioctl_sendbuf) { log_error("can not allocate ioctl_sendbuf"); return -1; } ioctl_recvbuf = calloc(1, IOCTL_BUF_DEFAULT_MAX); if (!ioctl_recvbuf) { free(ioctl_sendbuf); log_error("can not allocate ioctl_recvbuf"); return -1; } pdu_sendbuf = calloc(1, PDU_SENDBUF_DEFAULT_MAX); if (!pdu_sendbuf) { free(ioctl_recvbuf); free(ioctl_sendbuf); log_error("can not allocate ioctl_sendbuf"); return -1; } return ctrl_fd; } static void ctldev_close(void) { free(pdu_sendbuf); free(ioctl_recvbuf); free(ioctl_sendbuf); //close(ctrl_fd); } struct iscsi_ipc ioctl_ipc = { .name = "Open-iSCSI Kernel IPC/IOCTL v.1", .ctldev_bufmax = IOCTL_BUF_DEFAULT_MAX, .ctldev_open = ctldev_open, .ctldev_close = ctldev_close, .ctldev_handle = ctldev_handle, .trans_list = ktrans_list, .create_session = kcreate_session, .destroy_session = kdestroy_session, .create_conn = kcreate_conn, .destroy_conn = kdestroy_conn, .bind_conn = kbind_conn, .set_param = kset_param, .get_param = NULL, .start_conn = kstart_conn, .stop_conn = kstop_conn, .writev = kwritev, .send_pdu_begin = ksend_pdu_begin, .send_pdu_end = ksend_pdu_end, .read = kread, .recv_pdu_begin = krecv_pdu_begin, .recv_pdu_end = krecv_pdu_end, }; struct iscsi_ipc *ipc = &ioctl_ipc; open-iscsi-2.0.874/usr/iscsi_err.c000066400000000000000000000047051277325716400167300ustar00rootroot00000000000000/* * iSCSI error helpers * * Copyright (C) 2011 Mike Christie * Copyright (C) 2011 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include "stdlib.h" #include "iscsi_err.h" #include "log.h" static char *iscsi_err_msgs[] = { /* 0 */ "", /* 1 */ "unknown error", /* 2 */ "session not found", /* 3 */ "no available memory", /* 4 */ "encountered connection failure", /* 5 */ "encountered iSCSI login failure", /* 6 */ "encountered iSCSI database failure", /* 7 */ "invalid parameter", /* 8 */ "connection timed out", /* 9 */ "internal error", /* 10 */ "encountered iSCSI logout failure", /* 11 */ "iSCSI PDU timed out", /* 12 */ "iSCSI driver not found. Please make sure it is loaded, and retry the operation", /* 13 */ "daemon access denied", /* 14 */ "iSCSI driver does not support requested capability.", /* 15 */ "session exists", /* 16 */ "Unknown request", /* 17 */ "iSNS service not supported", /* 18 */ "could not communicate to iscsid", /* 19 */ "encountered non-retryable iSCSI login failure", /* 20 */ "could not connect to iscsid", /* 21 */ "no objects found", /* 22 */ "sysfs lookup failure", /* 23 */ "host not found", /* 24 */ "iSCSI login failed due to authorization failure", /* 25 */ "iSNS query failed", /* 26 */ "iSNS registration failed", /* 27 */ "operation not supported", /* 28 */ "device or resource in use", /* 29 */ "operation failed but retry may succeed", /* 30 */ "unknown discovery type", /* 31 */ "child process terminated", }; char *iscsi_err_to_str(int err) { if (err >= ISCSI_MAX_ERR_VAL || err < 0) { log_error("invalid error code %d", err); return NULL; } return iscsi_err_msgs[err]; } void iscsi_err_print_msg(int err) { if (err >= ISCSI_MAX_ERR_VAL || err < 0) { log_error("invalid error code %d", err); return; } log_error("initiator reported error (%d - %s)", err, iscsi_err_msgs[err]); } open-iscsi-2.0.874/usr/iscsi_ipc.h000066400000000000000000000126641277325716400167230ustar00rootroot00000000000000/* * User/Kernel Transport IPC API Ioctl/NETLINK/etc * * Copyright (C) 2005 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. * * NOTE: OSes must implement this API in terms of user's control-plane re-use. */ #ifndef ISCSI_IPC_H #define ISCSI_IPC_H #if defined(FreeBSD) #include #endif #include "iscsi_if.h" enum { ISCSI_INT, ISCSI_UINT, ISCSI_STRING, }; struct iscsi_conn; struct iscsi_ev_context; /* * When handling async events, the initiator may not be able to * handle the event in the same context, so this allows the interface * code to call into the initiator to shedule handling. */ struct iscsi_ipc_ev_clbk { void (*create_session) (uint32_t host_no, uint32_t sid); void (*destroy_session) (uint32_t host_no, uint32_t sid); struct iscsi_ev_context *(*get_ev_context) (struct iscsi_conn *conn, int ev_size); void (*put_ev_context) (struct iscsi_ev_context *ev_context); int (*sched_ev_context) (struct iscsi_ev_context *ev_context, struct iscsi_conn *conn, unsigned long tmo, int event); }; extern void ipc_register_ev_callback(struct iscsi_ipc_ev_clbk *ipc_ev_clbk); /** * struct iscsi_ipc - Open-iSCSI Interface for Kernel IPC * * All functions allowed to return POSIX kind of error. i.e. 0 - OK, non-zero * means IPC error and errno set. */ struct iscsi_ipc { char *name; int ctldev_bufmax; int (*ctldev_open) (void); void (*ctldev_close) (void); int (*ctldev_handle) (void); int (*sendtargets) (uint64_t transport_handle, uint32_t host_no, struct sockaddr *addr); int (*create_session) (uint64_t transport_handle, uint64_t ep_handle, uint32_t initial_cmdsn, uint16_t cmds_max, uint16_t qdepth, uint32_t *out_sid, uint32_t *hostno); int (*destroy_session) (uint64_t transport_handle, uint32_t sid); int (*unbind_session) (uint64_t transport_handle, uint32_t sid); int (*create_conn) (uint64_t transport_handle, uint32_t sid, uint32_t cid, uint32_t *out_cid); int (*destroy_conn) (uint64_t transport_handle, uint32_t sid, uint32_t cid); int (*bind_conn) (uint64_t transport_handle, uint32_t sid, uint32_t cid, uint64_t transport_eph, int is_leading, int *retcode); int (*set_param) (uint64_t transport_handle, uint32_t sid, uint32_t cid, enum iscsi_param param, void *value, int type); int (*set_host_param) (uint64_t transport_handle, uint32_t host_no, enum iscsi_host_param param, void *value, int type); /* not implemented yet */ int (*get_param) (uint64_t transport_handle, uint32_t sid, uint32_t cid, enum iscsi_param param, uint32_t *value, int *retcode); int (*get_stats) (uint64_t transport_handle, uint32_t sid, uint32_t cid, char *statsbuf, int statsbuf_max); int (*start_conn) (uint64_t transport_handle, uint32_t sid, uint32_t cid, int *retcode); int (*stop_conn) (uint64_t transport_handle, uint32_t sid, uint32_t cid, int flag); int (*read) (char *data, int count); void (*send_pdu_begin) (uint64_t transport_handle, uint32_t sid, uint32_t cid, int hdr_size, int data_size); int (*send_pdu_end) (uint64_t transport_handle, uint32_t sid, uint32_t cid, int *retcode); int (*writev) (enum iscsi_uevent_e type, struct iovec *iovp, int count); int (*recv_pdu_begin) (struct iscsi_conn *conn); int (*recv_pdu_end) (struct iscsi_conn *conn); int (*set_net_config) (uint64_t transport_handle, uint32_t host_no, struct iovec *iovs, uint32_t param_count); int (*recv_conn_state) (struct iscsi_conn *conn, uint32_t *state); int (*exec_ping) (uint64_t transport_handle, uint32_t host_no, struct sockaddr *addr, uint32_t iface_num, uint32_t iface_type, uint32_t size, uint32_t *status); int (*get_chap) (uint64_t transport_handle, uint32_t host_no, uint16_t chap_tbl_idx, uint32_t num_entries, char *chap_buf, uint32_t *valid_chap_entries); int (*set_chap) (uint64_t transport_handle, uint32_t host_no, struct iovec *iovs, uint32_t param_count); int (*delete_chap) (uint64_t transport_handle, uint32_t host_no, uint16_t chap_tbl_idx); int (*set_flash_node_params) (uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx, struct iovec *iovs, uint32_t param_count); int (*new_flash_node) (uint64_t transport_handle, uint32_t host_no, void *value, uint32_t *flashnode_idx); int (*del_flash_node) (uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx); int (*login_flash_node) (uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx); int (*logout_flash_node) (uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx); int (*logout_flash_node_sid) (uint64_t transport_handle, uint32_t host_no, uint32_t sid); int (*get_host_stats) (uint64_t transport_handle, uint32_t host_no, char *host_stats); }; #endif /* ISCSI_IPC_H */ open-iscsi-2.0.874/usr/iscsi_net_util.c000066400000000000000000000261171277325716400177640ustar00rootroot00000000000000/* * net helpers * * Copyright (C) 2010 Mike Christie * Copyright (C) 2010 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sysdeps.h" #include "ethtool-copy.h" #include "iscsi_net_util.h" #include "log.h" struct iscsi_net_driver { const char *net_drv_name; const char *iscsi_transport; }; static struct iscsi_net_driver net_drivers[] = { {"cxgb3", "cxgb3i" }, {"cxgb4", "cxgb4i" }, {"bnx2", "bnx2i" }, {"bnx2x", "bnx2i"}, {NULL, NULL} }; /** * net_get_transport_name_from_netdev - get name of transport to use for iface * @netdev: netdev iface name * @transport: buffer to hold transport name * * transport buffer should be ISCSI_TRANSPORT_NAME_MAXLEN bytes */ int net_get_transport_name_from_netdev(char *netdev, char *transport) { struct ethtool_drvinfo drvinfo; struct ifreq ifr; int err, fd, i; memset(&ifr, 0, sizeof(ifr)); strcpy(ifr.ifr_name, netdev); fd = socket(AF_INET, SOCK_DGRAM, 0); if (fd < 0) { log_error("Could not open socket for ioctl."); return errno; } drvinfo.cmd = ETHTOOL_GDRVINFO; ifr.ifr_data = (caddr_t)&drvinfo; err = ioctl(fd, SIOCETHTOOL, &ifr); if (err < 0) { log_error("Could not get driver %s.", netdev); err = errno; goto close_sock; } for (i = 0; net_drivers[i].net_drv_name != NULL; i++) { struct iscsi_net_driver *net_driver = &net_drivers[i]; if (!strcmp(net_driver->net_drv_name, drvinfo.driver)) { strcpy(transport, net_driver->iscsi_transport); err = 0; goto close_sock; } } err = ENODEV; close_sock: close(fd); return err; } /** * net_get_netdev_from_hwaddress - given a hwaddress return the ethX * @hwaddress: hw address no larger than ISCSI_HWADDRESS_BUF_SIZE * @netdev: buffer of IFNAMSIZ size that will hold the ethX * * Does not support interfaces like a bond or alias because * multiple interfaces will have the same hwaddress. */ int net_get_netdev_from_hwaddress(char *hwaddress, char *netdev) { struct if_nameindex *ifni; struct ifreq if_hwaddr; int found = 0, sockfd, i = 0; unsigned char *hwaddr; char tmp_hwaddress[ISCSI_HWADDRESS_BUF_SIZE]; ifni = if_nameindex(); if (ifni == NULL) { log_error("Could not match hwaddress %s to netdev. " "getifaddrs failed %d", hwaddress, errno); return errno; } /* Open a basic socket. */ sockfd = socket(AF_INET, SOCK_DGRAM, 0); if (sockfd < 0) { log_error("Could not open socket for ioctl."); goto free_ifni; } for (i = 0; ifni[i].if_index && ifni[i].if_name; i++) { struct if_nameindex *n = &ifni[i]; strlcpy(if_hwaddr.ifr_name, n->if_name, IFNAMSIZ); if (ioctl(sockfd, SIOCGIFHWADDR, &if_hwaddr) < 0) { log_error("Could not match %s to netdevice.", hwaddress); continue; } /* check for ARPHRD_ETHER (ethernet) */ if (if_hwaddr.ifr_hwaddr.sa_family != 1) continue; hwaddr = (unsigned char *)if_hwaddr.ifr_hwaddr.sa_data; memset(tmp_hwaddress, 0, ISCSI_HWADDRESS_BUF_SIZE); /* TODO should look and covert so we do not need tmp buf */ sprintf(tmp_hwaddress, "%2.2x:%2.2x:%2.2x:%2.2x:%2.2x:%2.2x", hwaddr[0], hwaddr[1], hwaddr[2], hwaddr[3], hwaddr[4], hwaddr[5]); log_debug(4, "Found hardware address %s", tmp_hwaddress); if (!strcasecmp(tmp_hwaddress, hwaddress)) { log_debug(4, "Matches %s to %s", hwaddress, n->if_name); memset(netdev, 0, IFNAMSIZ); strlcpy(netdev, n->if_name, IFNAMSIZ); found = 1; break; } } close(sockfd); free_ifni: if_freenameindex(ifni); if (!found) return ENODEV; return 0; } static char *find_vlan_dev(char *netdev, int vlan_id) { struct ifreq if_hwaddr; struct ifreq vlan_hwaddr; struct vlan_ioctl_args vlanrq = { .cmd = GET_VLAN_VID_CMD, }; struct if_nameindex *ifni; char *vlan = NULL; int sockfd, i, rc; sockfd = socket(AF_INET, SOCK_DGRAM, 0); strncpy(if_hwaddr.ifr_name, netdev, IFNAMSIZ); ioctl(sockfd, SIOCGIFHWADDR, &if_hwaddr); if (if_hwaddr.ifr_hwaddr.sa_family != ARPHRD_ETHER) return NULL; ifni = if_nameindex(); for (i = 0; ifni[i].if_index && ifni[i].if_name; i++) { strncpy(vlan_hwaddr.ifr_name, ifni[i].if_name, IFNAMSIZ); ioctl(sockfd, SIOCGIFHWADDR, &vlan_hwaddr); if (vlan_hwaddr.ifr_hwaddr.sa_family != ARPHRD_ETHER) continue; if (!memcmp(if_hwaddr.ifr_hwaddr.sa_data, vlan_hwaddr.ifr_hwaddr.sa_data, ETH_ALEN)) { strncpy(vlanrq.device1, ifni[i].if_name, IFNAMSIZ); rc = ioctl(sockfd, SIOCGIFVLAN, &vlanrq); if ((rc == 0) && (vlanrq.u.VID == vlan_id)) { vlan = strdup(vlanrq.device1); break; } } } if_freenameindex(ifni); close(sockfd); return vlan; } /** * net_setup_netdev - bring up NIC * @netdev: network device name * @local: ip address for netdev * @mask: net mask * @gateway: gateway * @remote_ip: target portal ip * @needs_bringup: bool indicating if the netdev needs to be started * * Bring up required NIC and use routing * to force iSCSI traffic through correct NIC. */ int net_setup_netdev(char *netdev, char *local_ip, char *mask, char *gateway, char *vlan, char *remote_ip, int needs_bringup) { struct sockaddr_in sk_ipaddr = { .sin_family = AF_INET }; struct sockaddr_in sk_netmask = { .sin_family = AF_INET }; struct sockaddr_in sk_hostmask = { .sin_family = AF_INET }; struct sockaddr_in sk_gateway = { .sin_family = AF_INET }; struct sockaddr_in sk_tgt_ipaddr = { .sin_family = AF_INET }; struct rtentry rt; struct ifreq ifr; char *physdev = NULL; int sock; int ret; int vlan_id; if (!strlen(netdev)) { log_error("No netdev name in fw entry."); return EINVAL; } vlan_id = atoi(vlan); if (vlan_id != 0) { physdev = netdev; netdev = find_vlan_dev(physdev, vlan_id); } if (vlan_id && !netdev) { /* TODO: create vlan if not found */ log_error("No matching vlan found for fw entry."); return EINVAL; } /* Create socket for making networking changes */ if ((sock = socket(AF_INET, SOCK_DGRAM, 0)) == -1) { log_error("Could not open socket to manage network " "(err %d - %s)", errno, strerror(errno)); return errno; } /* Bring up NIC with correct address - unless it * has already been handled (2 targets in IBFT may share one NIC) */ if (!inet_aton(local_ip, &sk_ipaddr.sin_addr)) { log_error("Invalid or missing ipaddr in fw entry"); ret = EINVAL; goto done; } if (!inet_aton(mask, &sk_netmask.sin_addr)) { log_error("Invalid or missing netmask in fw entry"); ret = EINVAL; goto done; } inet_aton("255.255.255.255", &sk_hostmask.sin_addr); if (!inet_aton(remote_ip, &sk_tgt_ipaddr.sin_addr)) { log_error("Invalid or missing target ipaddr in fw entry"); ret = EINVAL; goto done; } /* Only set IP/NM if this is a new interface */ if (needs_bringup) { if (physdev) { /* Bring up interface */ memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, physdev, IFNAMSIZ); ifr.ifr_flags = IFF_UP | IFF_RUNNING; if (ioctl(sock, SIOCSIFFLAGS, &ifr) < 0) { log_error("Could not bring up netdev %s (err %d - %s)", physdev, errno, strerror(errno)); ret = errno; goto done; } } /* Bring up interface */ memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, netdev, IFNAMSIZ); ifr.ifr_flags = IFF_UP | IFF_RUNNING; if (ioctl(sock, SIOCSIFFLAGS, &ifr) < 0) { log_error("Could not bring up netdev %s (err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } /* Set IP address */ memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, netdev, IFNAMSIZ); memcpy(&ifr.ifr_addr, &sk_ipaddr, sizeof(struct sockaddr)); if (ioctl(sock, SIOCSIFADDR, &ifr) < 0) { log_error("Could not set ip for %s (err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } /* Set netmask */ memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, netdev, IFNAMSIZ); memcpy(&ifr.ifr_addr, &sk_netmask, sizeof(struct sockaddr)); if (ioctl(sock, SIOCSIFNETMASK, &ifr) < 0) { log_error("Could not set ip for %s (err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } } /* Set static route to target via this interface */ memset((char *) &rt, 0, sizeof(rt)); memcpy(&rt.rt_dst, &sk_tgt_ipaddr, sizeof(sk_tgt_ipaddr)); memcpy(&rt.rt_genmask, &sk_hostmask, sizeof(sk_hostmask)); rt.rt_flags = RTF_UP | RTF_HOST; rt.rt_dev = netdev; if ((sk_tgt_ipaddr.sin_addr.s_addr & sk_netmask.sin_addr.s_addr) == (sk_ipaddr.sin_addr.s_addr & sk_netmask.sin_addr.s_addr)) { /* Same subnet */ if (ioctl(sock, SIOCADDRT, &rt) < 0) { if (errno != EEXIST) { log_error("Could not set ip for %s " "(err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } } } else { /* Different subnet. Use gateway */ rt.rt_flags |= RTF_GATEWAY; if (!inet_aton(gateway, &sk_gateway.sin_addr)) { log_error("Invalid or missing gateway for %s " "(err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } memcpy(&rt.rt_gateway, &sk_gateway, sizeof(sk_gateway)); if (ioctl(sock, SIOCADDRT, &rt) < 0) { if (errno != EEXIST) { log_error("Could not set gateway for %s " "(err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } } } ret = 0; done: close(sock); if (vlan_id) free(netdev); return ret; } /** * net_ifup_netdev - bring up network interface * @netdev: netdevice to bring up. */ int net_ifup_netdev(char *netdev) { struct ifreq ifr; int sock; int ret = 0; if (!strlen(netdev)) { log_error("No netdev name in fw entry."); return EINVAL; } /* Create socket for making networking changes */ if ((sock = socket(AF_INET, SOCK_DGRAM, 0)) == -1) { log_error("Could not open socket to manage network " "(err %d - %s)", errno, strerror(errno)); return errno; } memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, netdev, IFNAMSIZ); if (ioctl(sock, SIOCGIFFLAGS, &ifr) < 0) { log_error("Could not bring up netdev %s (err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } if (ifr.ifr_flags & IFF_UP) { log_debug(3, "%s up", netdev); goto done; } log_debug(3, "bringing %s up", netdev); /* Bring up interface */ memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, netdev, IFNAMSIZ); ifr.ifr_flags = IFF_UP; if (ioctl(sock, SIOCSIFFLAGS, &ifr) < 0) { log_error("Could not bring up netdev %s (err %d - %s)", netdev, errno, strerror(errno)); ret = errno; goto done; } done: close(sock); return ret; } open-iscsi-2.0.874/usr/iscsi_netlink.h000066400000000000000000000021241277325716400176020ustar00rootroot00000000000000/* * iSCSI Netlink attr helpers * * Copyright (C) 2011 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSI_NLA_H #define ISCSI_NLA_H #include struct iovec; #define ISCSI_NLA_HDRLEN ((int) NLA_ALIGN(sizeof(struct nlattr))) #define ISCSI_NLA_DATA(nla) ((void *)((char*)(nla) + ISCSI_NLA_HDRLEN)) #define ISCSI_NLA_LEN(len) ((len) + NLA_ALIGN(ISCSI_NLA_HDRLEN)) #define ISCSI_NLA_TOTAL_LEN(len) (NLA_ALIGN(ISCSI_NLA_LEN(len))) extern struct nlattr *iscsi_nla_alloc(uint16_t type, uint16_t len); #endif open-iscsi-2.0.874/usr/iscsi_settings.h000066400000000000000000000022251277325716400200000ustar00rootroot00000000000000/* * Default initiator settings. These may not be the same as * in the RFC. See iscsi_proto.h for those. */ /* timeouts in seconds */ #define DEF_LOGIN_TIMEO 30 #define DEF_LOGOUT_TIMEO 15 #define DEF_NOOP_OUT_INTERVAL 5 #define DEF_NOOP_OUT_TIMEO 5 #define DEF_REPLACEMENT_TIMEO 120 #define DEF_ABORT_TIMEO 15 #define DEF_LU_RESET_TIMEO 30 #define DEF_TGT_RESET_TIMEO 30 #define DEF_HOST_RESET_TIMEO 60 /* q depths */ #define CMDS_MAX 128 #define QUEUE_DEPTH 32 /* system */ #define XMIT_THREAD_PRIORITY -20 /* interface */ #define UNKNOWN_VALUE "" #define DEFAULT_IFACENAME "default" #define DEFAULT_NETDEV "default" #define DEFAULT_IPADDRESS "default" #define DEFAULT_HWADDRESS "default" #define DEFAULT_TRANSPORT "tcp" #define PORTAL_GROUP_TAG_UNKNOWN -1 /* default window size */ #define TCP_WINDOW_SIZE (512 * 1024) /* default iSCSI port number */ #define ISCSI_DEFAULT_PORT 3260 /* data and segment lengths in bytes */ #define DEF_INI_FIRST_BURST_LEN 262144 #define DEF_INI_MAX_BURST_LEN 16776192 #define DEF_INI_MAX_RECV_SEG_LEN 262144 #define DEF_INI_DISC_MAX_RECV_SEG_LEN 32768 /* login retries */ #define DEF_INITIAL_LOGIN_RETRIES_MAX 4 open-iscsi-2.0.874/usr/iscsi_sysfs.c000066400000000000000000001543741277325716400173170ustar00rootroot00000000000000/* * iSCSI sysfs * * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include "log.h" #include "initiator.h" #include "transport.h" #include "idbm.h" #include "idbm_fields.h" #include "version.h" #include "iscsi_sysfs.h" #include "sysdeps.h" #include "iscsi_settings.h" #include "iface.h" #include "session_info.h" #include "host.h" #include "iscsi_err.h" #include "flashnode.h" /* * TODO: remove the _DIR defines and search for subsys dirs like * is done in sysfs.c. */ #define ISCSI_TRANSPORT_DIR "/sys/class/iscsi_transport" #define ISCSI_SESSION_DIR "/sys/class/iscsi_session" #define ISCSI_HOST_DIR "/sys/class/iscsi_host" #define ISCSI_FLASHNODE_DIR "/sys/bus/iscsi_flashnode/devices" #define ISCSI_SESSION_SUBSYS "iscsi_session" #define ISCSI_CONN_SUBSYS "iscsi_connection" #define ISCSI_HOST_SUBSYS "iscsi_host" #define ISCSI_TRANSPORT_SUBSYS "iscsi_transport" #define ISCSI_IFACE_SUBSYS "iscsi_iface" #define ISCSI_FLASHNODE_SUBSYS "iscsi_flashnode" #define SCSI_HOST_SUBSYS "scsi_host" #define SCSI_SUBSYS "scsi" #define ISCSI_SESSION_ID "session%d" #define ISCSI_CONN_ID "connection%d:0" #define ISCSI_HOST_ID "host%d" #define ISCSI_FLASHNODE_SESS "flashnode_sess-%d:%d" #define ISCSI_FLASHNODE_CONN "flashnode_conn-%d:%d:0" /* * TODO: make this into a real API and check inputs better and add doc. */ static int num_transports; LIST_HEAD(transports); void free_transports(void) { struct iscsi_transport *t, *tmp; list_for_each_entry_safe(t, tmp, &transports, list) { list_del(&t->list); free(t); } } static int trans_filter(const struct dirent *dir) { return strcmp(dir->d_name, ".") && strcmp(dir->d_name, ".."); } static int read_transports(void) { struct dirent **namelist; int i, n, found; struct iscsi_transport *t; log_debug(7, "in %s", __FUNCTION__); n = scandir(ISCSI_TRANSPORT_DIR, &namelist, trans_filter, alphasort); if (n < 0) { log_error("Could not scan %s.", ISCSI_TRANSPORT_DIR); return n; } for (i = 0; i < n; i++) { found = 0; list_for_each_entry(t, &transports, list) { if (!strcmp(t->name, namelist[i]->d_name)) { found = 1; break; } } if (!found) { /* copy new transport */ t = malloc(sizeof(*t)); if (!t) continue; log_debug(7, "Adding new transport %s", namelist[i]->d_name); INIT_LIST_HEAD(&t->sessions); INIT_LIST_HEAD(&t->list); strlcpy(t->name, namelist[i]->d_name, ISCSI_TRANSPORT_NAME_MAXLEN); if (set_transport_template(t)) { free(t); return -1; } } else log_debug(7, "Updating transport %s", namelist[i]->d_name); if (sysfs_get_uint64(t->name, ISCSI_TRANSPORT_SUBSYS, "handle", &t->handle)) { if (list_empty(&t->list)) free(t); else log_error("Could not update %s.", t->name); continue; } if (sysfs_get_uint(t->name, ISCSI_TRANSPORT_SUBSYS, "caps", &t->caps)) { if (list_empty(&t->list)) free(t); else log_error("Could not update %s.", t->name); continue; } /* * tmp hack for qla4xx compat */ if (!strcmp(t->name, "qla4xxx")) { t->caps |= CAP_DATA_PATH_OFFLOAD; } if (list_empty(&t->list)) list_add_tail(&t->list, &transports); } for (i = 0; i < n; i++) free(namelist[i]); free(namelist); num_transports = n; return 0; } /* caller must check lengths */ void iscsi_sysfs_get_auth_conf(int sid, struct iscsi_auth_config *conf) { char id[NAME_SIZE]; memset(conf, 0, sizeof(*conf)); snprintf(id, sizeof(id), ISCSI_SESSION_ID, sid); sysfs_get_str(id, ISCSI_SESSION_SUBSYS, "username", conf->username, sizeof(conf->username)); sysfs_get_str(id, ISCSI_SESSION_SUBSYS, "username_in", conf->username_in, sizeof(conf->username_in)); sysfs_get_str(id, ISCSI_SESSION_SUBSYS, "password", (char *)conf->password, sizeof(conf->password)); if (strlen((char *)conf->password)) conf->password_length = strlen((char *)conf->password); sysfs_get_str(id, ISCSI_SESSION_SUBSYS, "password_in", (char *)conf->password_in, sizeof(conf->password_in)); if (strlen((char *)conf->password_in)) conf->password_in_length = strlen((char *)conf->password_in); } /* called must check for -1=invalid value */ void iscsi_sysfs_get_negotiated_conn_conf(int sid, struct iscsi_conn_operational_config *conf) { char id[NAME_SIZE]; memset(conf, 0, sizeof(*conf)); snprintf(id, sizeof(id), ISCSI_CONN_ID, sid); sysfs_get_int(id, ISCSI_CONN_SUBSYS, "data_digest", &conf->DataDigest); sysfs_get_int(id, ISCSI_CONN_SUBSYS, "header_digest", &conf->HeaderDigest); sysfs_get_int(id, ISCSI_CONN_SUBSYS, "max_xmit_dlength", &conf->MaxXmitDataSegmentLength); sysfs_get_int(id, ISCSI_CONN_SUBSYS, "max_recv_dlength", &conf->MaxRecvDataSegmentLength); } /* called must check for -1=invalid value */ void iscsi_sysfs_get_negotiated_session_conf(int sid, struct iscsi_session_operational_config *conf) { char id[NAME_SIZE]; memset(conf, 0, sizeof(*conf)); snprintf(id, sizeof(id), ISCSI_SESSION_ID, sid); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "data_pdu_in_order", &conf->DataPDUInOrder); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "data_seq_in_order", &conf->DataSequenceInOrder); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "erl", &conf->ERL); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "first_burst_len", &conf->FirstBurstLength); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "max_burst_len", &conf->MaxBurstLength); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "immediate_data", &conf->ImmediateData); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "initial_r2t", &conf->InitialR2T); sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "max_outstanding_r2t", &conf->MaxOutstandingR2T); } /* * iscsi_sysfs_session_user_created - return if session was setup by userspace * @sid: id of session to test * * Returns -1 if we could not tell due to kernel not supporting the * feature. 0 is returned if kernel created it. And 1 is returned * if userspace created it. */ int iscsi_sysfs_session_user_created(int sid) { char id[NAME_SIZE]; pid_t pid; snprintf(id, sizeof(id), ISCSI_SESSION_ID, sid); if (sysfs_get_int(id, ISCSI_SESSION_SUBSYS, "creator", &pid)) return -1; if (pid == -1) return 0; else return 1; } uint32_t iscsi_sysfs_get_host_no_from_sid(uint32_t sid, int *err) { struct sysfs_device *session_dev, *host_dev; char devpath[PATH_SIZE]; char id[NAME_SIZE]; *err = 0; snprintf(id, sizeof(id), "session%u", sid); if (!sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), ISCSI_SESSION_SUBSYS, id)) { log_error("Could not lookup devpath for %s. Possible sysfs " "incompatibility.", id); *err = ISCSI_ERR_SYSFS_LOOKUP; return 0; } session_dev = sysfs_device_get(devpath); if (!session_dev) { log_error("Could not get dev for %s. Possible sysfs " "incompatibility.", id); *err = ISCSI_ERR_SYSFS_LOOKUP; return 0; } /* * 2.6.27 moved from scsi_host to scsi for the subsys when * sysfs compat is not on. */ host_dev = sysfs_device_get_parent_with_subsystem(session_dev, SCSI_SUBSYS); if (!host_dev) { struct sysfs_device *dev_parent; dev_parent = sysfs_device_get_parent(session_dev); while (dev_parent != NULL) { if (strncmp(dev_parent->kernel, "host", 4) == 0) { host_dev = dev_parent; break; } dev_parent = sysfs_device_get_parent(dev_parent); } if (!host_dev) { log_error("Could not get host dev for %s. Possible " "sysfs incompatibility.", id); *err = ISCSI_ERR_SYSFS_LOOKUP; return 0; } } return atol(host_dev->kernel_number); } /* TODO: merge and make macro */ static int __get_host_no_from_netdev(void *data, struct host_info *info) { struct host_info *ret_info = data; if (!strcmp(ret_info->iface.netdev, info->iface.netdev)) { ret_info->host_no = info->host_no; return 1; } return 0; } static uint32_t get_host_no_from_netdev(char *netdev, int *rc) { uint32_t host_no = -1; struct host_info *info; int nr_found, local_rc; *rc = 0; info = calloc(1, sizeof(*info)); if (!info) { *rc = ISCSI_ERR_NOMEM; return -1; } strcpy(info->iface.netdev, netdev); local_rc = iscsi_sysfs_for_each_host(info, &nr_found, __get_host_no_from_netdev); if (local_rc == 1) host_no = info->host_no; else *rc = ISCSI_ERR_HOST_NOT_FOUND; free(info); return host_no; } static int __get_host_no_from_hwaddress(void *data, struct host_info *info) { struct host_info *ret_info = data; if (!strcasecmp(ret_info->iface.hwaddress, info->iface.hwaddress)) { ret_info->host_no = info->host_no; return 1; } return 0; } uint32_t iscsi_sysfs_get_host_no_from_hwaddress(char *hwaddress, int *rc) { uint32_t host_no = -1; struct host_info *info; int nr_found, local_rc; *rc = 0; info = calloc(1, sizeof(*info)); if (!info) { *rc = ISCSI_ERR_NOMEM; return -1; } strcpy(info->iface.hwaddress, hwaddress); local_rc = iscsi_sysfs_for_each_host(info, &nr_found, __get_host_no_from_hwaddress); if (local_rc == 1) host_no = info->host_no; else *rc = ISCSI_ERR_HOST_NOT_FOUND; free(info); return host_no; } static int __get_host_no_from_ipaddress(void *data, struct host_info *info) { struct host_info *ret_info = data; if (!strcmp(ret_info->iface.ipaddress, info->iface.ipaddress)) { ret_info->host_no = info->host_no; return 1; } return 0; } static uint32_t get_host_no_from_ipaddress(char *address, int *rc) { uint32_t host_no = -1; struct host_info *info; int nr_found; int local_rc; *rc = 0; info = calloc(1, sizeof(*info)); if (!info) { *rc = ISCSI_ERR_NOMEM; return -1; } strcpy(info->iface.ipaddress, address); local_rc = iscsi_sysfs_for_each_host(info, &nr_found, __get_host_no_from_ipaddress); if (local_rc == 1) host_no = info->host_no; else *rc = ISCSI_ERR_HOST_NOT_FOUND; free(info); return host_no; } uint32_t iscsi_sysfs_get_host_no_from_hwinfo(struct iface_rec *iface, int *rc) { int tmp_rc; uint32_t host_no = -1; if (strlen(iface->hwaddress) && strcasecmp(iface->hwaddress, DEFAULT_HWADDRESS)) host_no = iscsi_sysfs_get_host_no_from_hwaddress( iface->hwaddress, &tmp_rc); else if (strlen(iface->netdev) && strcasecmp(iface->netdev, DEFAULT_NETDEV)) host_no = get_host_no_from_netdev(iface->netdev, &tmp_rc); else if (strlen(iface->ipaddress) && strcasecmp(iface->ipaddress, DEFAULT_IPADDRESS)) host_no = get_host_no_from_ipaddress(iface->ipaddress, &tmp_rc); else tmp_rc = ISCSI_ERR_INVAL; *rc = tmp_rc; return host_no; } /* * Read the flash node attributes based on host and flash node index. */ int iscsi_sysfs_get_flashnode_info(struct flashnode_rec *fnode, uint32_t host_no, uint32_t flashnode_idx) { char sess_id[NAME_SIZE] = {'\0'}; char conn_id[NAME_SIZE] = {'\0'}; char fnode_path[PATH_SIZE] = {'\0'}; struct iscsi_transport *t; int ret = 0; t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) log_debug(7, "could not get transport name for host%d", host_no); else strncpy(fnode->transport_name, t->name, ISCSI_TRANSPORT_NAME_MAXLEN); snprintf(sess_id, sizeof(sess_id), ISCSI_FLASHNODE_SESS, host_no, flashnode_idx); snprintf(fnode_path, sizeof(fnode_path), ISCSI_FLASHNODE_DIR"/%s", sess_id); if (access(fnode_path, F_OK) != 0) return errno; snprintf(conn_id, sizeof(conn_id), ISCSI_FLASHNODE_CONN, host_no, flashnode_idx); snprintf(fnode_path, sizeof(fnode_path), ISCSI_FLASHNODE_DIR"/%s", conn_id); if (access(fnode_path, F_OK) != 0) return errno; sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "is_fw_assigned_ipv6", &((fnode->conn[0]).is_fw_assigned_ipv6)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "portal_type", (fnode->sess).portal_type, sizeof((fnode->sess).portal_type)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "auto_snd_tgt_disable", &((fnode->sess).auto_snd_tgt_disable)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "discovery_session", &((fnode->sess).discovery_session)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "entry_enable", &((fnode->sess).entry_enable)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "header_digest", &((fnode->conn[0]).header_digest_en)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "data_digest", &((fnode->conn[0]).data_digest_en)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "immediate_data", &((fnode->sess).immediate_data)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "initial_r2t", &((fnode->sess).initial_r2t)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "data_seq_in_order", &((fnode->sess).data_seq_in_order)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "data_pdu_in_order", &((fnode->sess).data_pdu_in_order)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "chap_auth", &((fnode->sess).chap_auth_en)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "snack_req", &((fnode->conn[0]).snack_req_en)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "discovery_logout", &((fnode->sess).discovery_logout_en)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "bidi_chap", &((fnode->sess).bidi_chap_en)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "discovery_auth_optional", &((fnode->sess).discovery_auth_optional)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "erl", &((fnode->sess).erl)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "tcp_timestamp_stat", &((fnode->conn[0]).tcp_timestamp_stat)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "tcp_nagle_disable", &((fnode->conn[0]).tcp_nagle_disable)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "tcp_wsf_disable", &((fnode->conn[0]).tcp_wsf_disable)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "tcp_timer_scale", &((fnode->conn[0]).tcp_timer_scale)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "tcp_timestamp_enable", &((fnode->conn[0]).tcp_timestamp_en)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "fragment_disable", &((fnode->conn[0]).fragment_disable)); sysfs_get_uint(conn_id, ISCSI_FLASHNODE_SUBSYS, "max_recv_dlength", &((fnode->conn[0]).max_recv_dlength)); sysfs_get_uint(conn_id, ISCSI_FLASHNODE_SUBSYS, "max_xmit_dlength", &((fnode->conn[0]).max_xmit_dlength)); sysfs_get_uint(sess_id, ISCSI_FLASHNODE_SUBSYS, "first_burst_len", &((fnode->sess).first_burst_len)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "def_time2wait", &((fnode->sess).def_time2wait)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "def_time2retain", &((fnode->sess).def_time2retain)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "max_outstanding_r2t", &((fnode->sess).max_outstanding_r2t)); sysfs_get_uint16(conn_id, ISCSI_FLASHNODE_SUBSYS, "keepalive_tmo", &((fnode->conn[0]).keepalive_tmo)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "isid", (fnode->sess).isid, sizeof((fnode->sess).isid)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "tsid", &((fnode->sess).tsid)); sysfs_get_uint16(conn_id, ISCSI_FLASHNODE_SUBSYS, "port", &((fnode->conn[0]).port)); sysfs_get_uint(sess_id, ISCSI_FLASHNODE_SUBSYS, "max_burst_len", &((fnode->sess).max_burst_len)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "def_taskmgmt_tmo", &((fnode->sess).def_taskmgmt_tmo)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "targetalias", (fnode->sess).targetalias, sizeof((fnode->sess).targetalias)); sysfs_get_str(conn_id, ISCSI_FLASHNODE_SUBSYS, "ipaddress", (fnode->conn[0]).ipaddress, sizeof((fnode->conn[0]).ipaddress)); sysfs_get_str(conn_id, ISCSI_FLASHNODE_SUBSYS, "redirect_ipaddr", (fnode->conn[0]).redirect_ipaddr, sizeof((fnode->conn[0]).redirect_ipaddr)); sysfs_get_uint(conn_id, ISCSI_FLASHNODE_SUBSYS, "max_segment_size", &((fnode->conn[0]).max_segment_size)); sysfs_get_uint16(conn_id, ISCSI_FLASHNODE_SUBSYS, "local_port", &((fnode->conn[0]).local_port)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "ipv4_tos", &((fnode->conn[0]).ipv4_tos)); sysfs_get_uint8(conn_id, ISCSI_FLASHNODE_SUBSYS, "ipv6_traffic_class", &((fnode->conn[0]).ipv6_traffic_class)); sysfs_get_uint16(conn_id, ISCSI_FLASHNODE_SUBSYS, "ipv6_flow_label", &((fnode->conn[0]).ipv6_flow_lbl)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "targetname", (fnode->sess).targetname, sizeof((fnode->sess).targetname)); sysfs_get_str(conn_id, ISCSI_FLASHNODE_SUBSYS, "link_local_ipv6", (fnode->conn[0]).link_local_ipv6, sizeof((fnode->conn[0]).link_local_ipv6)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "discovery_parent_idx", &((fnode->sess).discovery_parent_idx)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "discovery_parent_type", (fnode->sess).discovery_parent_type, sizeof((fnode->sess).discovery_parent_type)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "tpgt", &((fnode->sess).tpgt)); sysfs_get_uint(conn_id, ISCSI_FLASHNODE_SUBSYS, "tcp_xmit_wsf", &((fnode->conn[0]).tcp_xmit_wsf)); sysfs_get_uint(conn_id, ISCSI_FLASHNODE_SUBSYS, "tcp_recv_wsf", &((fnode->conn[0]).tcp_recv_wsf)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "chap_out_idx", &((fnode->sess).chap_out_idx)); sysfs_get_uint16(sess_id, ISCSI_FLASHNODE_SUBSYS, "chap_in_idx", &((fnode->sess).chap_in_idx)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "username", (fnode->sess).username, sizeof((fnode->sess).username)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "username_in", (fnode->sess).username_in, sizeof((fnode->sess).username_in)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "password", (fnode->sess).password, sizeof((fnode->sess).password)); sysfs_get_str(sess_id, ISCSI_FLASHNODE_SUBSYS, "password_in", (fnode->sess).password_in, sizeof((fnode->sess).password_in)); sysfs_get_uint(conn_id, ISCSI_FLASHNODE_SUBSYS, "statsn", &((fnode->conn[0]).stat_sn)); sysfs_get_uint(conn_id, ISCSI_FLASHNODE_SUBSYS, "exp_statsn", &((fnode->conn[0]).exp_stat_sn)); sysfs_get_uint8(sess_id, ISCSI_FLASHNODE_SUBSYS, "is_boot_target", &((fnode->sess).is_boot_target)); return ret; } /* * For each flash node of the given host, perform operation specified in fn. */ int iscsi_sysfs_for_each_flashnode(void *data, uint32_t host_no, int *nr_found, iscsi_sysfs_flashnode_op_fn *fn) { struct dirent **namelist; int rc = 0, i, n; struct flashnode_rec *fnode; uint32_t flashnode_idx; uint32_t hostno; fnode = malloc(sizeof(*fnode)); if (!fnode) return ISCSI_ERR_NOMEM; n = scandir(ISCSI_FLASHNODE_DIR, &namelist, trans_filter, alphasort); if (n <= 0) goto free_fnode; for (i = 0; i < n; i++) { memset(fnode, 0, sizeof(*fnode)); if (!strncmp(namelist[i]->d_name, "flashnode_conn", strlen("flashnode_conn"))) continue; if (sscanf(namelist[i]->d_name, ISCSI_FLASHNODE_SESS, &hostno, &flashnode_idx) != 2) { log_error("Invalid iscsi target dir: %s", namelist[i]->d_name); break; } if (host_no != hostno) continue; rc = iscsi_sysfs_get_flashnode_info(fnode, host_no, flashnode_idx); if (rc) break; rc = fn(data, fnode, host_no, flashnode_idx); if (rc != 0) break; (*nr_found)++; } for (i = 0; i < n; i++) free(namelist[i]); free(namelist); free_fnode: free(fnode); return rc; } static int iscsi_sysfs_read_boot(struct iface_rec *iface, char *session) { char boot_root[BOOT_NAME_MAXLEN], boot_nic[BOOT_NAME_MAXLEN]; char boot_name[BOOT_NAME_MAXLEN], boot_content[BOOT_NAME_MAXLEN]; /* Extract boot info */ strlcpy(boot_name, "boot_target", sizeof(boot_name)); if (sysfs_get_str(session, ISCSI_SESSION_SUBSYS, boot_name, boot_content, BOOT_NAME_MAXLEN)) return -1; strlcpy(boot_name, "boot_nic", sizeof(boot_name)); if (sysfs_get_str(session, ISCSI_SESSION_SUBSYS, boot_name, boot_nic, BOOT_NAME_MAXLEN)) return -1; strlcpy(boot_name, "boot_root", sizeof(boot_name)); if (sysfs_get_str(session, ISCSI_SESSION_SUBSYS, boot_name, boot_root, BOOT_NAME_MAXLEN)) return -1; /* If all boot_root/boot_target/boot_nic exist, then extract the info from the boot nic */ if (sysfs_get_str(boot_nic, boot_root, "vlan", boot_content, BOOT_NAME_MAXLEN)) log_debug(5, "could not read %s/%s/vlan", boot_root, boot_nic); else iface->vlan_id = atoi(boot_content); if (sysfs_get_str(boot_nic, boot_root, "subnet-mask", iface->subnet_mask, NI_MAXHOST)) log_debug(5, "could not read %s/%s/subnet", boot_root, boot_nic); log_debug(5, "sysfs read boot returns %s/%s/ vlan = %d subnet = %s", boot_root, boot_nic, iface->vlan_id, iface->subnet_mask); return 0; } /* * Read in iface settings based on host and session values. If * session is not passed in, then the ifacename will not be set. And * if the session is not passed in then iname will only be set for * qla4xxx. */ static int iscsi_sysfs_read_iface(struct iface_rec *iface, int host_no, char *session, char *iface_kern_id) { uint32_t tmp_host_no, iface_num; char host_id[NAME_SIZE]; struct iscsi_transport *t; int ret, iface_type; t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) log_debug(7, "could not get transport name for host%d", host_no); else strcpy(iface->transport_name, t->name); snprintf(host_id, sizeof(host_id), ISCSI_HOST_ID, host_no); /* * backward compat * If we cannot get the address we assume we are doing the old * style and use default. */ ret = sysfs_get_str(host_id, ISCSI_HOST_SUBSYS, "hwaddress", iface->hwaddress, sizeof(iface->hwaddress)); if (ret) log_debug(7, "could not read hwaddress for host%d", host_no); if (iface_kern_id) ret = sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "ipaddress", iface->ipaddress, sizeof(iface->ipaddress)); else /* if not found just print out default */ ret = sysfs_get_str(host_id, ISCSI_HOST_SUBSYS, "ipaddress", iface->ipaddress, sizeof(iface->ipaddress)); if (ret) log_debug(7, "could not read local address for host%d", host_no); /* if not found just print out default */ ret = sysfs_get_str(host_id, ISCSI_HOST_SUBSYS, "netdev", iface->netdev, sizeof(iface->netdev)); if (ret) log_debug(7, "could not read netdev for host%d", host_no); /* * For drivers like qla4xxx we can only set the iname at the * host level because we cannot create different initiator ports * (cannot set isid either). The LLD also exports the iname at the * hba level so apps can see it, but we no longer set the iname for * each iscsid controlled host since bnx2i cxgbi can support multiple * initiator names and of course software iscsi can support anything. */ ret = 1; memset(iface->iname, 0, sizeof(iface->iname)); if (session) { ret = sysfs_get_str(session, ISCSI_SESSION_SUBSYS, "initiatorname", iface->iname, sizeof(iface->iname)); /* * qlaxxx will not set this at the session level so we * always drop down for it. * * And. * * For older kernels/tools (2.6.26 and below and 2.0.870) * we will not have a session level initiator name, so * we will drop down. */ } if (ret) { ret = sysfs_get_str(host_id, ISCSI_HOST_SUBSYS, "initiatorname", iface->iname, sizeof(iface->iname)); if (ret) /* * default iname is picked up later from * initiatorname.iscsi if software/partial-offload. * * TODO: we should make it easier to get the * global iname so we can just fill it in here. */ log_debug(7, "Could not read initiatorname for " "host%d", host_no); /* optional so do not return error */ ret = 0; } sysfs_get_str(host_id, ISCSI_HOST_SUBSYS, "port_state", iface->port_state, sizeof(iface->port_state)); sysfs_get_str(host_id, ISCSI_HOST_SUBSYS, "port_speed", iface->port_speed, sizeof(iface->port_speed)); /* * this is on the session, because we support multiple bindings * per device. */ memset(iface->name, 0, sizeof(iface->name)); if (session) { /* * this was added after 2.0.869 so we could be doing iscsi_tcp * session binding, but there may not be an ifacename set * if binding is not used. */ ret = sysfs_get_str(session, ISCSI_SESSION_SUBSYS, "ifacename", iface->name, sizeof(iface->name)); if (ret) { log_debug(7, "could not read iface name for " "session %s", session); /* * if the ifacename file is not there then we are * using a older kernel and can try to find the * binding by the net info which was used on these * older kernels. */ if (iface_get_by_net_binding(iface, iface)) log_debug(7, "Could not find iface for session " "bound to:" iface_fmt "", iface_str(iface)); } } if (session && t->template->use_boot_info) iscsi_sysfs_read_boot(iface, session); if (!iface_kern_id) goto done; strlcpy(iface->name, iface_kern_id, sizeof(iface->name)); if (!strncmp(iface_kern_id, "ipv4", 4)) { sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "bootproto", iface->bootproto, sizeof(iface->bootproto)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "gateway", iface->gateway, sizeof(iface->gateway)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "subnet", iface->subnet_mask, sizeof(iface->subnet_mask)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_alt_client_id_en", iface->dhcp_alt_client_id_state, sizeof(iface->dhcp_alt_client_id_state)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_alt_client_id", iface->dhcp_alt_client_id, sizeof(iface->dhcp_alt_client_id)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_dns_address_en", iface->dhcp_dns, sizeof(iface->dhcp_dns)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_learn_iqn_en", iface->dhcp_learn_iqn, sizeof(iface->dhcp_learn_iqn)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_req_vendor_id_en", iface->dhcp_req_vendor_id_state, sizeof(iface->dhcp_req_vendor_id_state)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_use_vendor_id_en", iface->dhcp_vendor_id_state, sizeof(iface->dhcp_vendor_id_state)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_vendor_id", iface->dhcp_vendor_id, sizeof(iface->dhcp_vendor_id)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "dhcp_slp_da_info_en", iface->dhcp_slp_da, sizeof(iface->dhcp_slp_da)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "fragment_disable", iface->fragmentation, sizeof(iface->fragmentation)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "grat_arp_en", iface->gratuitous_arp, sizeof(iface->gratuitous_arp)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "incoming_forwarding_en", iface->incoming_forwarding, sizeof(iface->incoming_forwarding)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "tos_en", iface->tos_state, sizeof(iface->tos_state)); if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "tos", &iface->tos)) iface->tos = 0; if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "ttl", &iface->ttl)) iface->ttl = 0; } else { sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "ipaddr_autocfg", iface->ipv6_autocfg, sizeof(iface->ipv6_autocfg)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "link_local_addr", iface->ipv6_linklocal, sizeof(iface->ipv6_linklocal)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "link_local_autocfg", iface->linklocal_autocfg, sizeof(iface->linklocal_autocfg)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "router_addr", iface->ipv6_router, sizeof(iface->ipv6_router)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "router_state", iface->router_autocfg, sizeof(iface->router_autocfg)); if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "dup_addr_detect_cnt", &iface->dup_addr_detect_cnt)) iface->dup_addr_detect_cnt = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "flow_label", &iface->flow_label)) iface->flow_label = 0; sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "grat_neighbor_adv_en", iface->gratuitous_neighbor_adv, sizeof(iface->gratuitous_neighbor_adv)); if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "hop_limit", &iface->hop_limit)) iface->hop_limit = 0; sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "mld_en", iface->mld, sizeof(iface->mld)); if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "nd_reachable_tmo", &iface->nd_reachable_tmo)) iface->nd_reachable_tmo = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "nd_rexmit_time", &iface->nd_rexmit_time)) iface->nd_rexmit_time = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "nd_stale_tmo", &iface->nd_stale_tmo)) iface->nd_stale_tmo = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "router_adv_link_mtu", &iface->router_adv_link_mtu)) iface->router_adv_link_mtu = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "traffic_class", &iface->traffic_class)) iface->traffic_class = 0; } if (sysfs_get_uint16(iface_kern_id, ISCSI_IFACE_SUBSYS, "port", &iface->port)) iface->port = 0; if (sysfs_get_uint16(iface_kern_id, ISCSI_IFACE_SUBSYS, "mtu", &iface->mtu)) iface->mtu = 0; if (sysfs_get_uint16(iface_kern_id, ISCSI_IFACE_SUBSYS, "vlan_id", &iface->vlan_id)) iface->vlan_id = UINT16_MAX; if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "vlan_priority", &iface->vlan_priority)) iface->vlan_priority = UINT8_MAX; sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "vlan_enabled", iface->vlan_state, sizeof(iface->vlan_state)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "enabled", iface->state, sizeof(iface->state)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "delayed_ack_en", iface->delayed_ack, sizeof(iface->delayed_ack)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "tcp_nagle_disable", iface->nagle, sizeof(iface->nagle)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "tcp_wsf_disable", iface->tcp_wsf_state, sizeof(iface->tcp_wsf_state)); if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "tcp_wsf", &iface->tcp_wsf)) iface->tcp_wsf = 0; if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "tcp_timer_scale", &iface->tcp_timer_scale)) iface->tcp_timer_scale = 0; sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "tcp_timestamp_en", iface->tcp_timestamp, sizeof(iface->tcp_timestamp)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "redirect_en", iface->redirect, sizeof(iface->redirect)); if (sysfs_get_uint16(iface_kern_id, ISCSI_IFACE_SUBSYS, "def_taskmgmt_tmo", &iface->def_task_mgmt_tmo)) iface->def_task_mgmt_tmo = 0; sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "header_digest", iface->header_digest, sizeof(iface->header_digest)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "data_digest", iface->data_digest, sizeof(iface->data_digest)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "immediate_data", iface->immediate_data, sizeof(iface->immediate_data)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "initial_r2t", iface->initial_r2t, sizeof(iface->initial_r2t)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "data_seq_in_order", iface->data_seq_inorder, sizeof(iface->data_seq_inorder)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "data_pdu_in_order", iface->data_pdu_inorder, sizeof(iface->data_pdu_inorder)); if (sysfs_get_uint8(iface_kern_id, ISCSI_IFACE_SUBSYS, "erl", &iface->erl)) iface->erl = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "max_recv_dlength", &iface->max_recv_dlength)) iface->max_recv_dlength = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "first_burst_len", &iface->first_burst_len)) iface->first_burst_len = 0; if (sysfs_get_uint16(iface_kern_id, ISCSI_IFACE_SUBSYS, "max_outstanding_r2t", &iface->max_out_r2t)) iface->max_out_r2t = 0; if (sysfs_get_uint(iface_kern_id, ISCSI_IFACE_SUBSYS, "max_burst_len", &iface->max_burst_len)) iface->max_burst_len = 0; sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "chap_auth", iface->chap_auth, sizeof(iface->chap_auth)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "bidi_chap", iface->bidi_chap, sizeof(iface->bidi_chap)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "strict_login_comp_en", iface->strict_login_comp, sizeof(iface->strict_login_comp)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "discovery_auth_optional", iface->discovery_auth, sizeof(iface->discovery_auth)); sysfs_get_str(iface_kern_id, ISCSI_IFACE_SUBSYS, "discovery_logout", iface->discovery_logout, sizeof(iface->discovery_logout)); if (sscanf(iface_kern_id, "ipv%d-iface-%u-%u", &iface_type, &tmp_host_no, &iface_num) == 3) iface->iface_num = iface_num; done: if (ret) return ISCSI_ERR_SYSFS_LOOKUP; else return 0; } int iscsi_sysfs_get_hostinfo_by_host_no(struct host_info *hinfo) { return iscsi_sysfs_read_iface(&hinfo->iface, hinfo->host_no, NULL, NULL); } int iscsi_sysfs_for_each_host(void *data, int *nr_found, iscsi_sysfs_host_op_fn *fn) { struct dirent **namelist; int rc = 0, i, n; struct host_info *info; info = malloc(sizeof(*info)); if (!info) return ISCSI_ERR_NOMEM; n = scandir(ISCSI_HOST_DIR, &namelist, trans_filter, alphasort); if (n <= 0) goto free_info; for (i = 0; i < n; i++) { memset(info, 0, sizeof(*info)); if (sscanf(namelist[i]->d_name, "host%u", &info->host_no) != 1) { log_error("Invalid iscsi host dir: %s", namelist[i]->d_name); break; } iscsi_sysfs_get_hostinfo_by_host_no(info); rc = fn(data, info); if (rc != 0) break; (*nr_found)++; } for (i = 0; i < n; i++) free(namelist[i]); free(namelist); free_info: free(info); return rc; } int iscsi_sysfs_for_each_iface_on_host(void *data, uint32_t host_no, int *nr_found, iscsi_sysfs_iface_op_fn *fn) { struct dirent **namelist; int rc = 0, i, n; struct iface_rec iface; char devpath[PATH_SIZE]; char sysfs_path[PATH_SIZE]; char id[NAME_SIZE]; snprintf(id, sizeof(id), "host%u", host_no); if (!sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), SCSI_SUBSYS, id)) { log_error("Could not look up host's ifaces via scsi bus."); return ISCSI_ERR_SYSFS_LOOKUP; } sprintf(sysfs_path, "/sys"); strlcat(sysfs_path, devpath, sizeof(sysfs_path)); strlcat(sysfs_path, "/iscsi_iface", sizeof(sysfs_path)); n = scandir(sysfs_path, &namelist, trans_filter, alphasort); if (n <= 0) /* older kernels or some drivers will not have ifaces */ return 0; for (i = 0; i < n; i++) { memset(&iface, 0, sizeof(iface)); iscsi_sysfs_read_iface(&iface, host_no, NULL, namelist[i]->d_name); rc = fn(data, &iface); if (rc != 0) break; (*nr_found)++; } for (i = 0; i < n; i++) free(namelist[i]); free(namelist); return rc; } /** * sysfs_session_has_leadconn - checks if session has lead conn in kernel * @sid: session id * * return 1 if session has lead conn and 0 if not. */ int iscsi_sysfs_session_has_leadconn(uint32_t sid) { char devpath[PATH_SIZE]; char id[NAME_SIZE]; snprintf(id, sizeof(id), "connection%u:0", sid); return sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), ISCSI_CONN_SUBSYS, id); } /* * iscsi_sysfs_get_sid_from_path - parse a string for the sid * @session: session path * * Given sysfs_device is a directory name of the form: * * /sys/devices/platform/hostH/sessionS/targetH:B:I/H:B:I:L * /sys/devices/platform/hostH/sessionS/targetH:B:I * /sys/devices/platform/hostH/sessionS * * return the sid S. If just the sid is passed in it will be converted * to an int. */ int iscsi_sysfs_get_sid_from_path(char *session) { struct sysfs_device *dev_parent, *dev; struct stat statb; char devpath[PATH_SIZE]; char *end; int sid; sid = strtol(session, &end, 10); if (sid > 0 && *session != '\0' && *end == '\0') return sid; if (lstat(session, &statb)) { log_error("%s is an invalid session ID or path", session); exit(1); } if (!S_ISDIR(statb.st_mode) && !S_ISLNK(statb.st_mode)) { log_error("%s is not a directory", session); exit(1); } if (!strncmp(session, "/sys", 4)) strlcpy(devpath, session + 4, sizeof(devpath)); else strlcpy(devpath, session, sizeof(devpath)); dev = sysfs_device_get(devpath); if (!dev) { log_error("Could not get dev for %s. Possible sysfs " "incompatibility.", devpath); return -1; } if (!strncmp(dev->kernel, "session", 7)) return atoi(dev->kernel_number); dev_parent = sysfs_device_get_parent(dev); while (dev_parent != NULL) { if (strncmp(dev_parent->kernel, "session", 7) == 0) return atoi(dev_parent->kernel_number); dev_parent = sysfs_device_get_parent(dev_parent); } log_error("Unable to find sid in path %s", session); return -1; } int iscsi_sysfs_get_sessioninfo_by_id(struct session_info *info, char *session) { char id[NAME_SIZE]; int ret, pers_failed = 0; uint32_t host_no; if (sscanf(session, "session%d", &info->sid) != 1) { log_error("invalid session '%s'", session); return ISCSI_ERR_INVAL; } ret = sysfs_get_str(session, ISCSI_SESSION_SUBSYS, "targetname", info->targetname, sizeof(info->targetname)); if (ret) { log_error("could not read session targetname: %d", ret); return ISCSI_ERR_SYSFS_LOOKUP; } ret = sysfs_get_str(session, ISCSI_SESSION_SUBSYS, "username", (info->chap).username, sizeof((info->chap).username)); if (ret) log_debug(5, "could not read username: %d", ret); ret = sysfs_get_str(session, ISCSI_SESSION_SUBSYS, "password", (info->chap).password, sizeof((info->chap).password)); if (ret) log_debug(5, "could not read password: %d", ret); ret = sysfs_get_str(session, ISCSI_SESSION_SUBSYS, "username_in", (info->chap).username_in, sizeof((info->chap).username_in)); if (ret) log_debug(5, "could not read username in: %d", ret); ret = sysfs_get_str(session, ISCSI_SESSION_SUBSYS, "password_in", (info->chap).password_in, sizeof((info->chap).password_in)); if (ret) log_debug(5, "could not read password in: %d", ret); ret = sysfs_get_int(session, ISCSI_SESSION_SUBSYS, "recovery_tmo", &((info->tmo).recovery_tmo)); if (ret) (info->tmo).recovery_tmo = -1; ret = sysfs_get_int(session, ISCSI_SESSION_SUBSYS, "lu_reset_tmo", &((info->tmo).lu_reset_tmo)); if (ret) (info->tmo).lu_reset_tmo = -1; ret = sysfs_get_int(session, ISCSI_SESSION_SUBSYS, "tgt_reset_tmo", &((info->tmo).tgt_reset_tmo)); if (ret) (info->tmo).lu_reset_tmo = -1; sysfs_get_int(session, ISCSI_SESSION_SUBSYS, "abort_tmo", &((info->tmo).abort_tmo)); if (ret) (info->tmo).abort_tmo = -1; ret = sysfs_get_int(session, ISCSI_SESSION_SUBSYS, "tpgt", &info->tpgt); if (ret) { log_error("could not read session tpgt: %d", ret); return ISCSI_ERR_SYSFS_LOOKUP; } snprintf(id, sizeof(id), ISCSI_CONN_ID, info->sid); /* some HW drivers do not export addr and port */ memset(info->persistent_address, 0, NI_MAXHOST); ret = sysfs_get_str(id, ISCSI_CONN_SUBSYS, "persistent_address", info->persistent_address, sizeof(info->persistent_address)); if (ret) { pers_failed = 1; /* older qlogic does not support this */ log_debug(5, "could not read pers conn addr: %d", ret); } memset(info->address, 0, NI_MAXHOST); ret = sysfs_get_str(id, ISCSI_CONN_SUBSYS, "address", info->address, sizeof(info->address)); if (ret) { log_debug(5, "could not read curr addr: %d", ret); /* iser did not export this */ if (!pers_failed) strcpy(info->address, info->persistent_address); } else if (pers_failed) /* * for qla if we could not get the persistent addr * we will use the current for both addrs */ strcpy(info->persistent_address, info->address); pers_failed = 0; info->persistent_port = -1; ret = sysfs_get_int(id, ISCSI_CONN_SUBSYS, "persistent_port", &info->persistent_port); if (ret) { pers_failed = 1; log_debug(5, "Could not read pers conn port %d", ret); } info->port = -1; ret = sysfs_get_int(id, ISCSI_CONN_SUBSYS, "port", &info->port); if (ret) { /* iser did not export this */ if (!pers_failed) info->port = info->persistent_port; log_debug(5, "Could not read curr conn port %d", ret); } else if (pers_failed) /* * for qla if we could not get the persistent addr * we will use the current for both addrs */ info->persistent_port = info->port; ret = 0; host_no = iscsi_sysfs_get_host_no_from_sid(info->sid, &ret); if (ret) { log_error("could not get host_no for session%d: %s.", info->sid, iscsi_err_to_str(ret)); return ret; } iscsi_sysfs_read_iface(&info->iface, host_no, session, NULL); log_debug(7, "found targetname %s address %s pers address %s port %d " "pers port %d driver %s iface name %s ipaddress %s " "netdev %s hwaddress %s iname %s", info->targetname, info->address ? info->address : "NA", info->persistent_address ? info->persistent_address : "NA", info->port, info->persistent_port, info->iface.transport_name, info->iface.name, info->iface.ipaddress, info->iface.netdev, info->iface.hwaddress, info->iface.iname); return 0; } int iscsi_sysfs_for_each_session(void *data, int *nr_found, iscsi_sysfs_session_op_fn *fn, int in_parallel) { struct dirent **namelist; int rc = 0, n, i, chldrc = 0; struct session_info *info; pid_t pid = 0; info = calloc(1, sizeof(*info)); if (!info) return ISCSI_ERR_NOMEM; n = scandir(ISCSI_SESSION_DIR, &namelist, trans_filter, alphasort); if (n <= 0) goto free_info; for (i = 0; i < n; i++) { rc = iscsi_sysfs_get_sessioninfo_by_id(info, namelist[i]->d_name); if (rc) { log_error("could not find session info for %s", namelist[i]->d_name); /* raced. session was shutdown while looping */ rc = 0; continue; } if (in_parallel) { pid = fork(); } if (pid == 0) { rc = fn(data, info); if (in_parallel) { exit(rc); } else { if (rc > 0) { break; } else if (rc == 0) { (*nr_found)++; } else { /* if less than zero it means it was not a match */ rc = 0; } } } else if (pid < 0) { log_error("could not fork() for session %s, err %d", namelist[i]->d_name, errno); } } if (in_parallel) { while (1) { if (wait(&chldrc) < 0) { /* * ECHILD means no more children which is * expected to happen sooner or later. */ if (errno != ECHILD) { rc = errno; } break; } if (!WIFEXITED(chldrc)) { /* * abnormal termination (signal, exception, etc.) * * The non-parallel code path returns the first * error so this keeps the same semantics. */ if (rc == 0) rc = ISCSI_ERR_CHILD_TERMINATED; } else if ((WEXITSTATUS(chldrc) != 0) && (WEXITSTATUS(chldrc) != 255)) { /* * 0 is success * 255 is a truncated return code from exit(-1) * and means no match * anything else (this case) is an error */ if (rc == 0) rc = WEXITSTATUS(chldrc); } else if (WEXITSTATUS(chldrc) == 0) { /* success */ (*nr_found)++; } } } for (i = 0; i < n; i++) free(namelist[i]); free(namelist); free_info: free(info); return rc; } int iscsi_sysfs_get_session_state(char *state, int sid) { char id[NAME_SIZE]; snprintf(id, sizeof(id), ISCSI_SESSION_ID, sid); if (sysfs_get_str(id, ISCSI_SESSION_SUBSYS, "state", state, SCSI_MAX_STATE_VALUE)) return ISCSI_ERR_SYSFS_LOOKUP; return 0; } int iscsi_sysfs_get_host_state(char *state, int host_no) { char id[NAME_SIZE]; snprintf(id, sizeof(id), ISCSI_HOST_ID, host_no); if (sysfs_get_str(id, SCSI_HOST_SUBSYS, "state", state, SCSI_MAX_STATE_VALUE)) return ISCSI_ERR_SYSFS_LOOKUP; return 0; } int iscsi_sysfs_get_device_state(char *state, int host_no, int target, int lun) { char id[NAME_SIZE]; snprintf(id, sizeof(id), "%d:0:%d:%d", host_no, target, lun); if (sysfs_get_str(id, SCSI_SUBSYS, "state", state, SCSI_MAX_STATE_VALUE)) { log_debug(3, "Could not read attr state for %s", id); return ISCSI_ERR_SYSFS_LOOKUP; } return 0; } char *iscsi_sysfs_get_blockdev_from_lun(int host_no, int target, int lun) { char devpath[PATH_SIZE]; char path_full[PATH_SIZE]; char id[NAME_SIZE]; DIR *dirfd; struct dirent *dent; size_t sysfs_len; struct stat statbuf; char *blockdev, *blockdup = NULL; snprintf(id, sizeof(id), "%d:0:%d:%d", host_no, target, lun); if (!sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), SCSI_SUBSYS, id)) { log_debug(3, "Could not lookup devpath for %s %s", SCSI_SUBSYS, id); return NULL; } sysfs_len = strlcpy(path_full, sysfs_path, sizeof(path_full)); if (sysfs_len >= sizeof(path_full)) sysfs_len = sizeof(path_full) - 1; strlcat(path_full, devpath, sizeof(path_full)); dirfd = opendir(path_full); if (!dirfd) return NULL; while ((dent = readdir(dirfd))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; /* not sure what tape looks like */ if (strncmp(dent->d_name, "block:", 5)) continue; strlcat(path_full, "/", sizeof(path_full)); strlcat(path_full, dent->d_name, sizeof(path_full)); /* * 2.6.25 dropped the symlink and now block is a dir. */ if (lstat(path_full, &statbuf)) { log_error("Could not stat block path %s err %d", path_full, errno); break; } if (S_ISLNK(statbuf.st_mode)) { blockdev = strchr(dent->d_name, ':'); if (!blockdev) break; /* increment past colon */ blockdev++; blockdup = strdup(blockdev); } else if (S_ISDIR(statbuf.st_mode)) { DIR *blk_dirfd; struct dirent *blk_dent; /* it should not be this hard should it? :) */ blk_dirfd = opendir(path_full); if (!blk_dirfd) { log_debug(3, "Could not open blk path %s", path_full); break; } while ((blk_dent = readdir(blk_dirfd))) { if (!strcmp(blk_dent->d_name, ".") || !strcmp(blk_dent->d_name, "..")) continue; blockdup = strdup(blk_dent->d_name); break; } closedir(blk_dirfd); } break; } closedir(dirfd); return blockdup; } static uint32_t get_target_no_from_sid(uint32_t sid, int *err) { char devpath[PATH_SIZE]; char path_full[PATH_SIZE]; char id[NAME_SIZE]; DIR *dirfd; struct dirent *dent; uint32_t host, bus, target = 0; size_t sysfs_len; *err = ISCSI_ERR_SESS_NOT_FOUND; snprintf(id, sizeof(id), "session%u", sid); if (!sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), ISCSI_SESSION_SUBSYS, id)) { log_debug(3, "Could not lookup devpath for %s %s", ISCSI_SESSION_SUBSYS, id); return 0; } /* * This does not seem safe from future changes, but we currently * want /devices/platform/hostY/sessionX, but we come from the * /class/iscsi_session/sessionX/device. */ sysfs_len = strlcpy(path_full, sysfs_path, sizeof(path_full)); if (sysfs_len >= sizeof(path_full)) sysfs_len = sizeof(path_full) - 1; strlcat(path_full, devpath, sizeof(path_full)); strlcat(path_full, "/device", sizeof(devpath)); dirfd = opendir(path_full); if (!dirfd) return 0; while ((dent = readdir(dirfd))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; if (strncmp(dent->d_name, "target", 6)) continue; if (sscanf(dent->d_name, "target%u:%u:%u", &host, &bus, &target) != 3) break; *err = 0; break; } closedir(dirfd); return target; } int iscsi_sysfs_is_transport_loaded(char *transport_name) { struct iscsi_transport *t; /* sync up kernel and userspace */ read_transports(); /* check if the transport is loaded and matches */ list_for_each_entry(t, &transports, list) { if (t->handle && !strncmp(t->name, transport_name, ISCSI_TRANSPORT_NAME_MAXLEN)) return 1; } return 0; } struct iscsi_transport *iscsi_sysfs_get_transport_by_name(char *transport_name) { struct iscsi_transport *t; int retry = 0; retry: /* sync up kernel and userspace */ read_transports(); /* check if the transport is loaded and matches */ list_for_each_entry(t, &transports, list) { if (t->handle && !strncmp(t->name, transport_name, ISCSI_TRANSPORT_NAME_MAXLEN)) return t; } if (retry < 1) { retry++; if (!transport_load_kmod(transport_name)) goto retry; } return NULL; } /* TODO: replace the following functions with some decent sysfs links */ struct iscsi_transport *iscsi_sysfs_get_transport_by_hba(uint32_t host_no) { char name[ISCSI_TRANSPORT_NAME_MAXLEN]; char id[NAME_SIZE]; int rc; if (host_no == -1) return NULL; snprintf(id, sizeof(id), ISCSI_HOST_ID, host_no); rc = sysfs_get_str(id, SCSI_HOST_SUBSYS, "proc_name", name, ISCSI_TRANSPORT_NAME_MAXLEN); if (rc) { log_error("Could not read proc_name for host%u rc %d.", host_no, rc); return NULL; } /* * stupid, stupid. We named the transports tcp or iser, but the * the modules are named iscsi_tcp and iscsi_iser */ if (strstr(name, "iscsi_")) return iscsi_sysfs_get_transport_by_name(name + 6); else return iscsi_sysfs_get_transport_by_name(name); } struct iscsi_transport *iscsi_sysfs_get_transport_by_sid(uint32_t sid) { uint32_t host_no; int err; host_no = iscsi_sysfs_get_host_no_from_sid(sid, &err); if (err) return NULL; return iscsi_sysfs_get_transport_by_hba(host_no); } /* * For connection reinstatement we need to send the exp_statsn from * the previous connection * * This is only called when the connection is halted so exp_statsn is safe * to read without racing. */ int iscsi_sysfs_get_exp_statsn(int sid) { char id[NAME_SIZE]; uint32_t exp_statsn = 0; snprintf(id, sizeof(id), ISCSI_CONN_ID, sid); if (sysfs_get_uint(id, ISCSI_CONN_SUBSYS, "exp_statsn", &exp_statsn)) { log_error("Could not read expstatsn for sid %d. " "Using zero for exp_statsn.", sid); exp_statsn = 0; } return exp_statsn; } int iscsi_sysfs_session_supports_nop(int sid) { char id[NAME_SIZE]; uint32_t ping_tmo = 0; snprintf(id, sizeof(id), ISCSI_CONN_ID, sid); if (sysfs_get_uint(id, ISCSI_CONN_SUBSYS, "ping_tmo", &ping_tmo)) { return 0; } return 1; } int iscsi_sysfs_for_each_device(void *data, int host_no, uint32_t sid, void (* fn)(void *data, int host_no, int target, int lun)) { struct dirent **namelist; int h, b, t, l, i, n, err = 0, target; char devpath[PATH_SIZE]; char id[NAME_SIZE]; char path_full[PATH_SIZE]; target = get_target_no_from_sid(sid, &err); if (err) return err; snprintf(id, sizeof(id), "session%u", sid); if (!sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), ISCSI_SESSION_SUBSYS, id)) { log_debug(3, "Could not lookup devpath for %s %s", ISCSI_SESSION_SUBSYS, id); return ISCSI_ERR_SYSFS_LOOKUP; } snprintf(path_full, sizeof(path_full), "%s%s/device/target%d:0:%d", sysfs_path, devpath, host_no, target); n = scandir(path_full, &namelist, trans_filter, alphasort); if (n <= 0) return 0; for (i = 0; i < n; i++) { if (sscanf(namelist[i]->d_name, "%d:%d:%d:%d\n", &h, &b, &t, &l) != 4) continue; fn(data, h, t, l); } for (i = 0; i < n; i++) free(namelist[i]); free(namelist); return 0; } void iscsi_sysfs_set_queue_depth(void *data, int hostno, int target, int lun) { char id[NAME_SIZE]; char write_buf[20]; int err, qdepth = *((int *)data); snprintf(id, sizeof(id), "%d:0:%d:%d", hostno, target, lun); snprintf(write_buf, sizeof(write_buf), "%d", qdepth); log_debug(4, "set queue depth for %s to %s", id, write_buf); err = sysfs_set_param(id, SCSI_SUBSYS, "queue_depth", write_buf, strlen(write_buf)); if (err && err != EINVAL) log_error("Could not queue depth for LUN %d err %d.", lun, err); } void iscsi_sysfs_set_device_online(void *data, int hostno, int target, int lun) { char *write_buf = "running\n"; char id[NAME_SIZE]; int err; snprintf(id, sizeof(id), "%d:0:%d:%d", hostno, target, lun); log_debug(4, "online device %s", id); err = sysfs_set_param(id, SCSI_SUBSYS, "state", write_buf, strlen(write_buf)); if (err && err != EINVAL) /* we should read the state */ log_error("Could not online LUN %d err %d.", lun, err); } void iscsi_sysfs_rescan_device(void *data, int hostno, int target, int lun) { char *write_buf = "1"; char id[NAME_SIZE]; snprintf(id, sizeof(id), "%d:0:%d:%d", hostno, target, lun); log_debug(4, "rescanning device %s", id); sysfs_set_param(id, SCSI_SUBSYS, "rescan", write_buf, strlen(write_buf)); } pid_t iscsi_sysfs_scan_host(int hostno, int async) { char id[NAME_SIZE]; char *write_buf = "- - -"; pid_t pid = 0; if (async) pid = fork(); if (pid == 0) { /* child */ log_debug(4, "scanning host%d", hostno); snprintf(id, sizeof(id), ISCSI_HOST_ID, hostno); sysfs_set_param(id, SCSI_HOST_SUBSYS, "scan", write_buf, strlen(write_buf)); log_debug(4, "scanning host%d completed", hostno); } else if (pid > 0) { log_debug(4, "scanning host%d from pid %d", hostno, pid); } else /* * Session is fine, so log the error and let the user * scan by hand */ log_error("Could not start scanning process for host %d " "err %d. Try scanning through sysfs.", hostno, errno); return pid; } struct iscsi_transport *iscsi_sysfs_get_transport_by_session(char *sys_session) { uint32_t sid; if (sscanf(sys_session, "session%u", &sid) != 1) { log_error("invalid session '%s'.", sys_session); return NULL; } return iscsi_sysfs_get_transport_by_sid(sid); } char *iscsi_sysfs_get_iscsi_kernel_version(void) { return sysfs_attr_get_value("/module/scsi_transport_iscsi", "version"); } open-iscsi-2.0.874/usr/iscsi_sysfs.h000066400000000000000000000113261277325716400173110ustar00rootroot00000000000000/* * iSCSI sysfs * * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #ifndef ISCSI_SYSFS_H #define ISCSI_SYSFS_H #include #include "sysfs.h" #include "types.h" #include "iscsi_proto.h" #include "config.h" struct session_info; struct host_info; struct iscsi_session; struct iscsi_conn; struct iscsi_session_operational_config; struct iscsi_conn_operational_config; struct iscsi_auth_config; struct flashnode_rec; #define SCSI_MAX_STATE_VALUE 32 extern void free_transports(void); extern char *iscsi_sysfs_get_iscsi_kernel_version(void); extern int iscsi_sysfs_get_sessioninfo_by_id(struct session_info *info, char *sys_session); extern int iscsi_sysfs_session_has_leadconn(uint32_t sid); typedef int (iscsi_sysfs_session_op_fn)(void *, struct session_info *); typedef int (iscsi_sysfs_host_op_fn)(void *, struct host_info *); typedef int (iscsi_sysfs_flashnode_op_fn)(void *, struct flashnode_rec *, uint32_t, uint32_t); typedef int (iscsi_sysfs_iface_op_fn)(void *, struct iface_rec *); extern int iscsi_sysfs_for_each_iface_on_host(void *data, uint32_t host_no, int *nr_found, iscsi_sysfs_iface_op_fn *fn); extern int iscsi_sysfs_for_each_session(void *data, int *nr_found, iscsi_sysfs_session_op_fn *fn, int in_parallel); extern int iscsi_sysfs_for_each_host(void *data, int *nr_found, iscsi_sysfs_host_op_fn *fn); extern uint32_t iscsi_sysfs_get_host_no_from_sid(uint32_t sid, int *err); extern uint32_t iscsi_sysfs_get_host_no_from_hwinfo(struct iface_rec *iface, int *rc); extern uint32_t iscsi_sysfs_get_host_no_from_hwaddress(char *hwaddress, int *rc); extern int iscsi_sysfs_get_hostinfo_by_host_no(struct host_info *hinfo); extern int iscsi_sysfs_for_each_flashnode(void *data, uint32_t host_no, int *nr_found, iscsi_sysfs_flashnode_op_fn *fn); extern int iscsi_sysfs_get_flashnode_info(struct flashnode_rec *fnode, uint32_t host_no, uint32_t flashnode_id); extern int iscsi_sysfs_update_flashnode_param(uint32_t host_no, uint32_t flashnode_id, char *name, char *val); extern int iscsi_sysfs_create_flashnode(uint32_t host_no, char *ipver); extern int iscsi_sysfs_del_flashnode(uint32_t host_no, uint32_t flashnode_id); extern int iscsi_sysfs_login_flashnode(uint32_t host_no, uint32_t flashnode_id); extern int iscsi_sysfs_logout_flashnode(uint32_t host_no, uint32_t flashnode_id); extern int iscsi_sysfs_get_sid_from_path(char *session); extern char *iscsi_sysfs_get_blockdev_from_lun(int hostno, int target, int sid); static inline int is_valid_operational_value(int value) { return value != -1; } extern void iscsi_sysfs_get_auth_conf(int sid, struct iscsi_auth_config *conf); extern void iscsi_sysfs_get_negotiated_session_conf(int sid, struct iscsi_session_operational_config *conf); extern void iscsi_sysfs_get_negotiated_conn_conf(int sid, struct iscsi_conn_operational_config *conf); extern pid_t iscsi_sysfs_scan_host(int hostno, int async); extern int iscsi_sysfs_get_session_state(char *state, int sid); extern int iscsi_sysfs_get_host_state(char *state, int host_no); extern int iscsi_sysfs_get_device_state(char *state, int host_no, int target, int lun); extern int iscsi_sysfs_get_exp_statsn(int sid); extern void iscsi_sysfs_set_queue_depth(void *data, int hostno, int target, int lun); extern void iscsi_sysfs_set_device_online(void *data, int hostno, int target, int lun); extern void iscsi_sysfs_rescan_device(void *data, int hostno, int target, int lun); extern int iscsi_sysfs_for_each_device(void *data, int host_no, uint32_t sid, void (* fn)(void *, int host_no, int target, int lun)); extern struct iscsi_transport *iscsi_sysfs_get_transport_by_hba(uint32_t host_no); extern struct iscsi_transport *iscsi_sysfs_get_transport_by_session(char *sys_session); extern struct iscsi_transport *iscsi_sysfs_get_transport_by_sid(uint32_t sid); extern struct iscsi_transport *iscsi_sysfs_get_transport_by_name(char *transport_name); extern int iscsi_sysfs_is_transport_loaded(char *transport_name); extern int iscsi_sysfs_session_supports_nop(int sid); extern int iscsi_sysfs_session_user_created(int sid); extern struct list_head transports; #endif open-iscsi-2.0.874/usr/iscsi_timer.c000066400000000000000000000041711277325716400172550ustar00rootroot00000000000000/* * iSCSI timer * * Copyright (C) 2002 Cisco Systems, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include void iscsi_timer_clear(struct timeval *timer) { memset(timer, 0, sizeof (*timer)); } /* set timer to now + seconds */ void iscsi_timer_set(struct timeval *timer, int seconds) { if (timer) { memset(timer, 0, sizeof (*timer)); gettimeofday(timer, NULL); timer->tv_sec += seconds; } } int iscsi_timer_expired(struct timeval *timer) { struct timeval now; /* no timer, can't have expired */ if ((timer == NULL) || ((timer->tv_sec == 0) && (timer->tv_usec == 0))) return 0; memset(&now, 0, sizeof (now)); gettimeofday(&now, NULL); if (now.tv_sec > timer->tv_sec) return 1; if ((now.tv_sec == timer->tv_sec) && (now.tv_usec >= timer->tv_usec)) return 1; return 0; } int iscsi_timer_msecs_until(struct timeval *timer) { struct timeval now; int msecs; long partial; /* no timer, can't have expired, infinite time til it expires */ if ((timer == NULL) || ((timer->tv_sec == 0) && (timer->tv_usec == 0))) return -1; memset(&now, 0, sizeof (now)); gettimeofday(&now, NULL); /* already expired? */ if (now.tv_sec > timer->tv_sec) return 0; if ((now.tv_sec == timer->tv_sec) && (now.tv_usec >= timer->tv_usec)) return 0; /* not expired yet, do the math */ partial = timer->tv_usec - now.tv_usec; if (partial < 0) { partial += 1000 * 1000; msecs = (partial + 500) / 1000; msecs += (timer->tv_sec - now.tv_sec - 1) * 1000; } else { msecs = (partial + 500) / 1000; msecs += (timer->tv_sec - now.tv_sec) * 1000; } return msecs; } open-iscsi-2.0.874/usr/iscsi_timer.h000066400000000000000000000016661277325716400172700ustar00rootroot00000000000000/* * iSCSI timer * * Copyright (C) 2002 Cisco Systems, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSI_TIMER_H #define ISCSI_TIMER_H struct timeval; extern void iscsi_timer_clear(struct timeval *timer); extern void iscsi_timer_set(struct timeval *timer, int seconds); extern int iscsi_timer_expired(struct timeval *timer); extern int iscsi_timer_msecs_until(struct timeval *timer); #endif open-iscsi-2.0.874/usr/iscsi_util.c000066400000000000000000000205621277325716400171140ustar00rootroot00000000000000/* * Misc helpers * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 - 2010 Mike Christie * Copyright (C) 2006 - 2010 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "sysdeps.h" #include "log.h" #include "iscsi_settings.h" #include "iface.h" #include "session_info.h" #include "iscsi_util.h" int setup_abstract_addr(struct sockaddr_un *addr, char *unix_sock_name) { memset(addr, 0, sizeof(*addr)); addr->sun_family = AF_LOCAL; strlcpy(addr->sun_path + 1, unix_sock_name, sizeof(addr->sun_path) - 1); return offsetof(struct sockaddr_un, sun_path) + strlen(addr->sun_path + 1) + 1; } void daemon_init(void) { int fd; fd = open("/dev/null", O_RDWR); if (fd == -1) { exit(-1); } dup2(fd, 0); dup2(fd, 1); dup2(fd, 2); setsid(); if (chdir("/") < 0) log_debug(1, "Could not chdir to /: %s", strerror(errno)); } #define ISCSI_OOM_PATH_LEN 48 int oom_adjust(void) { int fd; char path[ISCSI_OOM_PATH_LEN]; struct stat statb; errno = 0; if (nice(-10) == -1 && errno != 0) log_debug(1, "Could not increase process priority: %s", strerror(errno)); snprintf(path, ISCSI_OOM_PATH_LEN, "/proc/%d/oom_score_adj", getpid()); if (stat(path, &statb)) { /* older kernel so use old oom_adj file */ snprintf(path, ISCSI_OOM_PATH_LEN, "/proc/%d/oom_adj", getpid()); } fd = open(path, O_WRONLY); if (fd < 0) return -1; if (write(fd, "-16", 3) < 0) /* for 2.6.11 */ log_debug(1, "Could not set oom score to -16: %s", strerror(errno)); if (write(fd, "-17", 3) < 0) /* for Andrea's patch */ log_debug(1, "Could not set oom score to -17: %s", strerror(errno)); close(fd); return 0; } char* str_to_ipport(char *str, int *port, int *tpgt) { char *stpgt, *sport = str, *ip = str; if (!strchr(ip, '.')) { if (*ip == '[') { /* IPv6 with [] */ if (!(sport = strchr(ip, ']'))) return NULL; *sport++ = '\0'; ip++; str = sport; } else { /* hostname or ipv6 */ sport = strchr(ip, ':'); if (sport) { if (strchr(sport + 1, ':')) /* ipv6 */ sport = NULL; else /* hostname:port */ str = sport; } } } if (sport && (sport = strchr(str, ':'))) { *sport++ = '\0'; *port = strtoul(sport, NULL, 10); str = sport; } if ((stpgt = strchr(str, ','))) { *stpgt++ = '\0'; *tpgt = strtoul(stpgt, NULL, 10); } else *tpgt = PORTAL_GROUP_TAG_UNKNOWN; log_debug(2, "ip %s, port %d, tgpt %d", ip, *port, *tpgt); return ip; } #define ISCSI_MAX_FILES 16384 int increase_max_files(void) { struct rlimit rl; int err; err = getrlimit(RLIMIT_NOFILE, &rl); if (err) { log_debug(1, "Could not get file limit (err %d)", errno); return errno; } log_debug(1, "Max file limits %lu %lu", rl.rlim_cur, rl.rlim_max); if (rl.rlim_cur < ISCSI_MAX_FILES) rl.rlim_cur = ISCSI_MAX_FILES; if (rl.rlim_max < ISCSI_MAX_FILES) rl.rlim_max = ISCSI_MAX_FILES; err = setrlimit(RLIMIT_NOFILE, &rl); if (err) { log_debug(1, "Could not set file limit to %lu/%lu (err %d)", rl.rlim_cur, rl.rlim_max, errno); return errno; } return 0; } /* * from linux kernel */ char *strstrip(char *s) { size_t size; char *end; size = strlen(s); if (!size) return s; end = s + size - 1; while (end >= s && isspace(*end)) end--; *(end + 1) = '\0'; while (*s && isspace(*s)) s++; return s; } /** * cfg_get_string_param - return param value * @pathname: pathname and filename of config file * @key: param name * * Assumes the delim is a "=". "#" comments a line, but if * the "#" is after the key= then it is a valid value. */ char *cfg_get_string_param(char *pathname, const char *key) { FILE *f = NULL; char *line, buffer[1024]; char *value = NULL, *param, *comment; if (!pathname) { log_error("No pathname to load %s from", key); return NULL; } if ((f = fopen(pathname, "r"))) { while ((line = fgets(buffer, sizeof (buffer), f))) { param = strstr(line, key); if (!param) continue; /* make sure it is not commented out */ comment = strchr(line, '#'); if (comment) { if (comment < param) continue; } param = strchr(param, '='); if (!param) { log_error("Invalid config line for %s. " "Missing '='.", key); continue; } param++; if (!strlen(param)) { log_error("Invalid config line for %s. " "Missing value", key); continue; } param = strstrip(param); if (!strlen(param)) { log_error("Invalid config line for %s. " "Missing value", key); continue; } value = strdup(param); break; } fclose(f); if (value) log_debug(5, "%s=%s", key, value); } else log_error("can't open %s configuration file %s", key, pathname); return value; } /** * iscsi_addr_match - check if the addrs are to the same ip * @address1: pattern * @address2: address to check * * If address1 is blank then it matches any string passed in. */ static int iscsi_addr_match(char *address1, char *address2) { struct addrinfo hints1, hints2, *res1, *res2; int rc; if (!strlen(address1)) return 1; if (!strcmp(address1, address2)) return 1; memset(&hints1, 0, sizeof(struct addrinfo)); hints1.ai_family = AF_UNSPEC; hints1.ai_socktype = SOCK_STREAM; memset(&hints2, 0, sizeof(struct addrinfo)); hints2.ai_family = AF_UNSPEC; hints2.ai_socktype = SOCK_STREAM; /* * didn't match so we have to resolve to see if one is a dnsname * that matches an ip address. */ rc = getaddrinfo(address1, NULL, &hints1, &res1); if (rc) { log_debug(1, "Match error. Could not resolve %s: %s", address1, gai_strerror(rc)); return 0; } rc = getaddrinfo(address2, NULL, &hints2, &res2); if (rc) { log_debug(1, "Match error. Could not resolve %s: %s", address2, gai_strerror(rc)); rc = 0; goto free_res1; } if ((res1->ai_addrlen != res2->ai_addrlen) || memcmp(res1->ai_addr, res2->ai_addr, res2->ai_addrlen)) rc = 0; else rc = 1; freeaddrinfo(res2); free_res1: freeaddrinfo(res1); return rc; } int __iscsi_match_session(node_rec_t *rec, char *targetname, char *address, int port, struct iface_rec *iface, unsigned sid) { if (!rec) { log_debug(6, "no rec info to match"); return 1; } log_debug(6, "match session [%s,%s,%d][%s %s,%s,%s]:%u", rec->name, rec->conn[0].address, rec->conn[0].port, rec->iface.name, rec->iface.transport_name, rec->iface.hwaddress, rec->iface.ipaddress, rec->session.sid); if (iface) log_debug(6, "to [%s,%s,%d][%s %s,%s,%s]:%u", targetname, address, port, iface->name, iface->transport_name, iface->hwaddress, iface->ipaddress, sid); if (rec->session.sid && sid && rec->session.sid != sid) return 0; if (strlen(rec->name) && strcmp(rec->name, targetname)) return 0; if (!iscsi_addr_match(rec->conn[0].address, address)) return 0; if (rec->conn[0].port != -1 && port != rec->conn[0].port) return 0; if (!iface_match(&rec->iface, iface)) return 0; return 1; } int iscsi_match_session(void *data, struct session_info *info) { return __iscsi_match_session(data, info->targetname, info->persistent_address, info->persistent_port, &info->iface, info->sid); } int iscsi_match_session_count(void *data, struct session_info *info) { /* * iscsi_sysfs_for_each_session expects: * 0==match -1==nomatch >0==error * but iscsi_match_session returns: * 1==match 0==nomatch */ if (iscsi_match_session(data, info)) return 0; return -1; } int iscsi_match_target(void *data, struct session_info *info) { return __iscsi_match_session(data, info->targetname, info->persistent_address, info->persistent_port, NULL, MATCH_ANY_SID); } open-iscsi-2.0.874/usr/iscsi_util.h000066400000000000000000000015671277325716400171250ustar00rootroot00000000000000#ifndef ISCSI_UTIL_H #define ISCSI_UTIL_H #include struct node_rec; struct iface_rec; struct session_info; extern int oom_adjust(void); extern void daemon_init(void); extern int increase_max_files(void); extern char *str_to_ipport(char *str, int *port, int *tgpt); extern int iscsi_match_session(void *data, struct session_info *info); extern int iscsi_match_target(void *data, struct session_info *info); extern int iscsi_match_session_count(void *data, struct session_info *info); extern int __iscsi_match_session(struct node_rec *rec, char *targetname, char *address, int port, struct iface_rec *iface, unsigned sid); #define MATCH_ANY_SID 0 extern char *strstrip(char *s); extern char *cfg_get_string_param(char *pathname, const char *key); struct sockaddr_un; extern int setup_abstract_addr(struct sockaddr_un *addr, char *unix_sock_name); #endif open-iscsi-2.0.874/usr/iscsiadm.c000066400000000000000000002670451277325716400165520ustar00rootroot00000000000000/* * iSCSI Administration Utility * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * Copyright (C) 2011 Dell Inc. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include "initiator.h" #include "discovery.h" #include "log.h" #include "mgmt_ipc.h" #include "idbm.h" #include "iscsi_util.h" #include "transport.h" #include "version.h" #include "iscsi_sysfs.h" #include "list.h" #include "iscsi_settings.h" #include "fw_context.h" #include "iface.h" #include "session_info.h" #include "host.h" #include "sysdeps.h" #include "idbm_fields.h" #include "session_mgmt.h" #include "iscsid_req.h" #include #include "iscsi_err.h" #include "iscsi_ipc.h" #include "iscsi_timer.h" #include "flashnode.h" static char program_name[] = "iscsiadm"; static char config_file[TARGET_NAME_MAXLEN]; extern struct iscsi_ipc *ipc; enum iscsiadm_mode { MODE_DISCOVERY, MODE_DISCOVERYDB, MODE_NODE, MODE_SESSION, MODE_HOST, MODE_IFACE, MODE_FW, MODE_PING, MODE_CHAP, MODE_FLASHNODE, MODE_HOST_STATS }; enum iscsiadm_op { OP_NOOP = 0x0, OP_NEW = 0x1, OP_DELETE = 0x2, OP_UPDATE = 0x4, OP_SHOW = 0x8, OP_NONPERSISTENT = 0x10, OP_APPLY = 0x20, OP_APPLY_ALL = 0x40, OP_LOGIN = 0x80, OP_LOGOUT = 0x100 }; static struct option const long_options[] = { {"mode", required_argument, NULL, 'm'}, {"portal", required_argument, NULL, 'p'}, {"targetname", required_argument, NULL, 'T'}, {"interface", required_argument, NULL, 'I'}, {"op", required_argument, NULL, 'o'}, {"type", required_argument, NULL, 't'}, {"name", required_argument, NULL, 'n'}, {"value", required_argument, NULL, 'v'}, {"host", required_argument, NULL, 'H'}, {"sid", required_argument, NULL, 'r'}, {"rescan", no_argument, NULL, 'R'}, {"print", required_argument, NULL, 'P'}, {"discover", no_argument, NULL, 'D'}, {"login", no_argument, NULL, 'l'}, {"loginall", required_argument, NULL, 'L'}, {"logout", no_argument, NULL, 'u'}, {"logoutall", required_argument, NULL, 'U'}, {"stats", no_argument, NULL, 's'}, {"killiscsid", required_argument, NULL, 'k'}, {"debug", required_argument, NULL, 'd'}, {"show", no_argument, NULL, 'S'}, {"version", no_argument, NULL, 'V'}, {"help", no_argument, NULL, 'h'}, {"submode", required_argument, NULL, 'C'}, {"ip", required_argument, NULL, 'a'}, {"packetsize", required_argument, NULL, 'b'}, {"count", required_argument, NULL, 'c'}, {"interval", required_argument, NULL, 'i'}, {"index", required_argument, NULL, 'x'}, {"portal_type", optional_argument, NULL, 'A'}, {NULL, 0, NULL, 0}, }; static char *short_options = "RlDVhm:a:b:c:C:p:P:T:H:i:I:U:k:L:d:r:n:v:o:sSt:ux:A:"; static void usage(int status) { if (status != 0) fprintf(stderr, "Try `%s --help' for more information.\n", program_name); else { printf("\ iscsiadm -m discoverydb [ -hV ] [ -d debug_level ] [-P printlevel] [ -t type -p ip:port -I ifaceN ... [ -Dl ] ] | [ [ -p ip:port -t type] \ [ -o operation ] [ -n name ] [ -v value ] [ -lD ] ] \n\ iscsiadm -m discovery [ -hV ] [ -d debug_level ] [-P printlevel] [ -t type -p ip:port -I ifaceN ... [ -l ] ] | [ [ -p ip:port ] [ -l | -D ] ] \n\ iscsiadm -m node [ -hV ] [ -d debug_level ] [ -P printlevel ] [ -L all,manual,automatic ] [ -U all,manual,automatic ] [ -S ] [ [ -T targetname -p ip:port -I ifaceN ] [ -l | -u | -R | -s] ] \ [ [ -o operation ] [ -n name ] [ -v value ] ]\n\ iscsiadm -m session [ -hV ] [ -d debug_level ] [ -P printlevel] [ -r sessionid | sysfsdir [ -R | -u | -s ] [ -o operation ] [ -n name ] [ -v value ] ]\n\ iscsiadm -m iface [ -hV ] [ -d debug_level ] [ -P printlevel ] [ -I ifacename | -H hostno|MAC ] [ [ -o operation ] [ -n name ] [ -v value ] ] [ -C ping [ -a ip ] [ -b packetsize ] [ -c count ] [ -i interval ] ]\n\ iscsiadm -m fw [ -d debug_level ] [ -l ]\n\ iscsiadm -m host [ -P printlevel ] [ -H hostno|MAC ] [ [ -C chap [ -x chap_tbl_idx ] ] | [ -C flashnode [ -A portal_type ] [ -x flashnode_idx ] ] | [ -C stats ] ] [ [ -o operation ] [ -n name ] [ -v value ] ] \n\ iscsiadm -k priority\n"); } exit(status); } static int str_to_op(char *str) { int op; if (!strcmp("new", str)) op = OP_NEW; else if (!strcmp("delete", str)) op = OP_DELETE; else if (!strcmp("update", str)) op = OP_UPDATE; else if (!strcmp("show", str)) op = OP_SHOW; else if (!strcmp("nonpersistent", str)) op = OP_NONPERSISTENT; else if (!strcmp("apply", str)) op = OP_APPLY; else if (!strcmp("applyall", str)) op = OP_APPLY_ALL; else if (!strcmp("login", str)) op = OP_LOGIN; else if (!strcmp("logout", str)) op = OP_LOGOUT; else op = OP_NOOP; return op; } static int str_to_mode(char *str) { int mode; if (!strcmp("discovery", str)) mode = MODE_DISCOVERY; else if (!strcmp("discoverydb", str)) mode = MODE_DISCOVERYDB; else if (!strcmp("node", str)) mode = MODE_NODE; else if (!strcmp("session", str)) mode = MODE_SESSION; else if (!strcmp("iface", str)) mode = MODE_IFACE; else if (!strcmp("fw", str)) mode = MODE_FW; else if (!strcmp("host", str)) mode = MODE_HOST; else mode = -1; return mode; } static int str_to_submode(char *str) { int sub_mode; if (!strcmp("ping", str)) sub_mode = MODE_PING; else if (!strcmp("chap", str)) sub_mode = MODE_CHAP; else if (!strcmp("flashnode", str)) sub_mode = MODE_FLASHNODE; else if (!strcmp("stats", str)) sub_mode = MODE_HOST_STATS; else sub_mode = -1; return sub_mode; } static int str_to_type(char *str) { int type; if (!strcmp("sendtargets", str) || !strcmp("st", str)) type = DISCOVERY_TYPE_SENDTARGETS; else if (!strcmp("slp", str)) type = DISCOVERY_TYPE_SLP; else if (!strcmp("isns", str)) type = DISCOVERY_TYPE_ISNS; else if (!strcmp("fw", str)) type = DISCOVERY_TYPE_FW; else type = -1; return type; } static int str_to_portal_type(char *str) { int ptype; if (!strcmp("ipv4", str)) ptype = IPV4; else if (!strcmp("ipv6", str)) ptype = IPV6; else ptype = -1; return ptype; } static void kill_iscsid(int priority) { iscsiadm_req_t req; iscsiadm_rsp_t rsp; int rc; /* * We only support SIGTERM like stoppage of iscsid for now. * In the future we can do something where we try go finish * up operations like login, error handling, etc, before * iscsid is stopped, and we can add different values to indicate * that the user wants iscsid to log out existing sessions before * exiting. */ if (priority != 0) { log_error("Invalid iscsid priority %d. Priority must be 0.", priority); return; } memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_IMMEDIATE_STOP; rc = iscsid_exec_req(&req, &rsp, 0); if (rc) { iscsi_err_print_msg(rc); log_error("Could not stop iscsid. Trying sending iscsid " "SIGTERM or SIGKILL signals manually"); } } /* * TODO: we can display how the ifaces are related to node records. * And we can add a scsi_host mode which would display how * sessions are related to hosts * (scsi_host and iscsi_sessions are the currently running instance of * an iface or node record). */ static int print_ifaces(struct iface_rec *iface, int info_level) { int err, num_found = 0; switch (info_level) { case 0: case -1: err = iface_for_each_iface(NULL, 0, &num_found, iface_print_flat); break; case 1: if (iface) { err = iface_conf_read(iface); if (err) { log_error("Could not read iface %s.", iface->name); return err; } iface_print_tree(NULL, iface); num_found = 1; } else err = iface_for_each_iface(NULL, 0, &num_found, iface_print_tree); break; default: log_error("Invalid info level %d. Try 0 - 1.", info_level); return ISCSI_ERR_INVAL; } if (!num_found) { log_error("No interfaces found."); err = ISCSI_ERR_NO_OBJS_FOUND; } return err; } static int match_startup_mode(node_rec_t *rec, char *mode) { if ((!strcmp(mode, "automatic") && rec->startup == ISCSI_STARTUP_AUTOMATIC) || (!strcmp(mode, "onboot") && rec->startup == ISCSI_STARTUP_ONBOOT) || (!strcmp(mode, "manual") && rec->startup == ISCSI_STARTUP_MANUAL) || !strcmp(mode, "all")) return 0; /* support conn or session startup params */ if ((!strcmp(mode, "automatic") && rec->conn[0].startup == ISCSI_STARTUP_AUTOMATIC) || (!strcmp(mode, "onboot") && rec->conn[0].startup == ISCSI_STARTUP_ONBOOT) || (!strcmp(mode, "manual") && rec->conn[0].startup == ISCSI_STARTUP_MANUAL) || !strcmp(mode, "all")) return 0; return -1; } static int for_each_session(struct node_rec *rec, iscsi_sysfs_session_op_fn *fn, int in_parallel) { int err, num_found = 0; if (rec && rec->session.info) { num_found = 1; err = fn(rec, rec->session.info); } else { err = iscsi_sysfs_for_each_session(rec, &num_found, fn, in_parallel); } if (err) log_error("Could not execute operation on all sessions: %s", iscsi_err_to_str(err)); else if (!num_found) { log_error("No session found."); err = ISCSI_ERR_NO_OBJS_FOUND; } return err; } static int link_recs(void *data, struct node_rec *rec) { struct list_head *list = data; struct node_rec *rec_copy; rec_copy = calloc(1, sizeof(*rec_copy)); if (!rec_copy) return ISCSI_ERR_NOMEM; memcpy(rec_copy, rec, sizeof(*rec_copy)); INIT_LIST_HEAD(&rec_copy->list); list_add_tail(&rec_copy->list, list); return 0; } static int __logout_by_startup(void *data, struct list_head *list, struct session_info *info) { char *mode = data; node_rec_t rec; memset(&rec, 0, sizeof(node_rec_t)); if (idbm_rec_read(&rec, info->targetname, info->tpgt, info->persistent_address, info->persistent_port, &info->iface)) { /* * this is due to a HW driver or some other driver * not hooked in */ log_debug(7, "could not read data for [%s,%s.%d]", info->targetname, info->persistent_address, info->persistent_port); return -1; } /* multiple drivers could be connected to the same portal */ if (strcmp(rec.iface.transport_name, info->iface.transport_name)) return -1; /* * we always skip on boot because if the user killed this on * they would not be able to do anything */ if (rec.startup == ISCSI_STARTUP_ONBOOT) return -1; if (match_startup_mode(&rec, mode)) return -1; return iscsi_logout_portal(info, list); } static int logout_by_startup(char *mode) { int nr_found; int rc; if (!mode || !(!strcmp(mode, "automatic") || !strcmp(mode, "all") || !strcmp(mode,"manual"))) { log_error("Invalid logoutall option %s.", mode); usage(ISCSI_ERR_INVAL); return ISCSI_ERR_INVAL; } rc = iscsi_logout_portals(mode, &nr_found, 1, __logout_by_startup); if (rc == ISCSI_ERR_NO_OBJS_FOUND) log_error("No matching sessions found"); return rc; } struct startup_data { char *mode; struct list_head all_logins; struct list_head leading_logins; }; static int link_startup_recs(void *data, struct node_rec *rec) { struct startup_data *startup = data; struct node_rec *rec_copy; if (match_startup_mode(rec, startup->mode)) return -1; rec_copy = calloc(1, sizeof(*rec_copy)); if (!rec_copy) return ISCSI_ERR_NOMEM; memcpy(rec_copy, rec, sizeof(*rec_copy)); INIT_LIST_HEAD(&rec_copy->list); if (rec_copy->leading_login) list_add_tail(&rec_copy->list, &startup->leading_logins); else list_add_tail(&rec_copy->list, &startup->all_logins); return 0; } static int __do_leading_login(void *data, struct list_head *list, struct node_rec *rec) { struct iface_rec *pattern_iface = data; int nr_found; /* Skip any records that do not match the pattern iface */ if (!iface_match(pattern_iface, &rec->iface)) return -1; /* * If there is an existing session that matcthes the target, * the leading login is complete. */ if (iscsi_sysfs_for_each_session(rec, &nr_found, iscsi_match_target, 0)) { log_debug(1, "Skipping %s: Already a session for that target", rec->name); return -1; } /* No existing session: Attempt a login. */ return iscsi_login_portal(NULL, list, rec); } static int login_by_startup(char *mode) { int nr_found = 0, err, rc; struct startup_data startup; if (!mode || !(!strcmp(mode, "automatic") || !strcmp(mode, "all") || !strcmp(mode,"manual") || !strcmp(mode, "onboot"))) { log_error("Invalid loginall option %s.", mode); usage(ISCSI_ERR_INVAL); return ISCSI_ERR_INVAL; } /* * Filter all node records that match the given 'mode' into 2 lists: * Those with leading_login enabled, and those without. */ startup.mode = mode; INIT_LIST_HEAD(&startup.all_logins); INIT_LIST_HEAD(&startup.leading_logins); err = idbm_for_each_rec(&nr_found, &startup, link_startup_recs); if (err && (!list_empty(&startup.all_logins) || !list_empty(&startup.leading_logins))) /* log msg and try to log into what we found */ log_error("Could not read all records: %s", iscsi_err_to_str(err)); else if (list_empty(&startup.all_logins) && list_empty(&startup.leading_logins)) { if (err) { log_error("Could not read node DB: %s.", iscsi_err_to_str(err)); } else { log_error("No records found"); err = ISCSI_ERR_NO_OBJS_FOUND; } return err; } rc = err; if (!list_empty(&startup.all_logins)) { log_debug(1, "Logging into normal (non-leading-login) portals"); /* Login all regular (non-leading-login) portals first */ err = iscsi_login_portals(NULL, &nr_found, 1, &startup.all_logins, iscsi_login_portal); if (err) log_error("Could not log into all portals"); if (err && !rc) rc = err; } if (!list_empty(&startup.leading_logins)) { /* * For each iface in turn, try to login all portals on that * iface that do not already have a session present. */ struct iface_rec *pattern_iface, *tmp_iface; struct node_rec *rec, *tmp_rec; struct list_head iface_list; int missed_leading_login = 0; log_debug(1, "Logging into leading-login portals"); INIT_LIST_HEAD(&iface_list); iface_link_ifaces(&iface_list); list_for_each_entry_safe(pattern_iface, tmp_iface, &iface_list, list) { log_debug(1, "Establishing leading-logins via iface %s", pattern_iface->name); err = iscsi_login_portals_safe(pattern_iface, &nr_found, 1, &startup.leading_logins, __do_leading_login); if (err) log_error("Could not log into all portals on " "%s, trying next interface", pattern_iface->name); /* * Note: We always try all iface records in case there * are targets that are associated with only a subset * of iface records. __do_leading_login already * prevents duplicate sessions if an iface has succeeded * for a particular target. */ } /* * Double-check that all leading-login portals have at least * one session */ list_for_each_entry_safe(rec, tmp_rec, &startup.leading_logins, list) { if (!iscsi_sysfs_for_each_session(rec, &nr_found, iscsi_match_target, 0)) missed_leading_login++; /* * Cleanup the list, since 'iscsi_login_portals_safe' * does not */ list_del(&rec->list); free(rec); } if (missed_leading_login) { log_error("Could not login all leading-login portals"); if (!rc) rc = ISCSI_ERR_FATAL_LOGIN; } } return rc; } /** * iscsi_logout_matched_portal - logout of targets matching the rec info * @data: record to session with * @list: list to add logout rec to * @info: session to match with rec */ static int iscsi_logout_matched_portal(void *data, struct list_head *list, struct session_info *info) { struct node_rec *pattern_rec = data; struct iscsi_transport *t; uint32_t host_no; int rc = 0; t = iscsi_sysfs_get_transport_by_sid(info->sid); if (!t) return -1; if (!iscsi_match_session(pattern_rec, info)) return -1; host_no = iscsi_sysfs_get_host_no_from_sid(info->sid, &rc); if (rc) { log_error("could not get host_no for session%d: %s.", info->sid, iscsi_err_to_str(rc)); return -1; } if (!iscsi_sysfs_session_user_created(info->sid)) rc = iscsi_logout_flashnode_sid(t, host_no, info->sid); else rc = iscsi_logout_portal(info, list); return rc; } static int rec_match_fn(void *data, node_rec_t *rec) { struct rec_op_data *op_data = data; if (!__iscsi_match_session(op_data->match_rec, rec->name, rec->conn[0].address, rec->conn[0].port, &rec->iface, rec->session.sid)) return -1; return op_data->fn(op_data->data, rec); } static int __for_each_matched_rec(int verbose, struct node_rec *rec, void *data, idbm_iface_op_fn *fn) { struct rec_op_data op_data; int nr_found = 0, rc; memset(&op_data, 0, sizeof(struct rec_op_data)); op_data.data = data; op_data.match_rec = rec; op_data.fn = fn; rc = idbm_for_each_rec(&nr_found, &op_data, rec_match_fn); if (rc) { if (verbose) log_error("Could not execute operation on all " "records: %s", iscsi_err_to_str(rc)); } else if (!nr_found) { if (verbose) log_error("No records found"); rc = ISCSI_ERR_NO_OBJS_FOUND; } return rc; } static int for_each_matched_rec(struct node_rec *rec, void *data, idbm_iface_op_fn *fn) { return __for_each_matched_rec(1, rec, data, fn); } static int login_portals(struct node_rec *pattern_rec) { struct list_head rec_list; int nr_found, rc, err; INIT_LIST_HEAD(&rec_list); err = for_each_matched_rec(pattern_rec, &rec_list, link_recs); if (err == ISCSI_ERR_NO_OBJS_FOUND) return err; else if (err && list_empty(&rec_list)) return err; rc = err; /* if there is an err but some recs then try to login to what we have */ err = iscsi_login_portals(pattern_rec, &nr_found, 1, &rec_list, iscsi_login_portal); if (err) log_error("Could not log into all portals"); if (err && !rc) rc = err; return rc; } static int print_nodes(int info_level, struct node_rec *rec) { struct node_rec tmp_rec; int rc = 0; switch (info_level) { case 0: case -1: rc = for_each_matched_rec(rec, NULL, idbm_print_node_flat); break; case 1: memset(&tmp_rec, 0, sizeof(node_rec_t)); rc = for_each_matched_rec(rec, &tmp_rec, idbm_print_node_and_iface_tree); break; default: log_error("Invalid info level %d. Try 0 or 1.", info_level); rc = ISCSI_ERR_INVAL; } return rc; } static char *get_config_file(void) { int rc; iscsiadm_req_t req; iscsiadm_rsp_t rsp; memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_CONFIG_FILE; rc = iscsid_exec_req(&req, &rsp, 1); if (rc) return NULL; if (rsp.u.config.var[0] != '\0') { strcpy(config_file, rsp.u.config.var); return config_file; } return NULL; } static int rescan_portal(void *data, struct session_info *info) { int host_no, err; if (!iscsi_match_session(data, info)) return -1; printf("Rescanning session [sid: %d, target: %s, portal: " "%s,%d]\n", info->sid, info->targetname, info->persistent_address, info->port); host_no = iscsi_sysfs_get_host_no_from_sid(info->sid, &err); if (err) { log_error("Could not rescan session sid %d.", info->sid); return err; } /* rescan each device to pick up size changes */ iscsi_sysfs_for_each_device(NULL, host_no, info->sid, iscsi_sysfs_rescan_device); /* now scan for new devices */ iscsi_sysfs_scan_host(host_no, 0); return 0; } static int session_stats(void *data, struct session_info *info) { int rc, i; iscsiadm_req_t req; iscsiadm_rsp_t rsp; if (!iscsi_match_session(data, info)) return -1; memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_SESSION_STATS; req.u.session.sid = info->sid; rc = iscsid_exec_req(&req, &rsp, 1); if (rc) return rc; printf("Stats for session [sid: %d, target: %s, portal: " "%s,%d]\n", info->sid, info->targetname, info->persistent_address, info->port); printf( "iSCSI SNMP:\n" "\ttxdata_octets: %lld\n" "\trxdata_octets: %lld\n" "\tnoptx_pdus: %u\n" "\tscsicmd_pdus: %u\n" "\ttmfcmd_pdus: %u\n" "\tlogin_pdus: %u\n" "\ttext_pdus: %u\n" "\tdataout_pdus: %u\n" "\tlogout_pdus: %u\n" "\tsnack_pdus: %u\n" "\tnoprx_pdus: %u\n" "\tscsirsp_pdus: %u\n" "\ttmfrsp_pdus: %u\n" "\ttextrsp_pdus: %u\n" "\tdatain_pdus: %u\n" "\tlogoutrsp_pdus: %u\n" "\tr2t_pdus: %u\n" "\tasync_pdus: %u\n" "\trjt_pdus: %u\n" "\tdigest_err: %u\n" "\ttimeout_err: %u\n", (unsigned long long)rsp.u.getstats.stats.txdata_octets, (unsigned long long)rsp.u.getstats.stats.rxdata_octets, rsp.u.getstats.stats.noptx_pdus, rsp.u.getstats.stats.scsicmd_pdus, rsp.u.getstats.stats.tmfcmd_pdus, rsp.u.getstats.stats.login_pdus, rsp.u.getstats.stats.text_pdus, rsp.u.getstats.stats.dataout_pdus, rsp.u.getstats.stats.logout_pdus, rsp.u.getstats.stats.snack_pdus, rsp.u.getstats.stats.noprx_pdus, rsp.u.getstats.stats.scsirsp_pdus, rsp.u.getstats.stats.tmfrsp_pdus, rsp.u.getstats.stats.textrsp_pdus, rsp.u.getstats.stats.datain_pdus, rsp.u.getstats.stats.logoutrsp_pdus, rsp.u.getstats.stats.r2t_pdus, rsp.u.getstats.stats.async_pdus, rsp.u.getstats.stats.rjt_pdus, rsp.u.getstats.stats.digest_err, rsp.u.getstats.stats.timeout_err); if (rsp.u.getstats.stats.custom_length) printf( "iSCSI Extended:\n"); for (i = 0; i < rsp.u.getstats.stats.custom_length; i++) { printf("\t%s: %llu\n", rsp.u.getstats.stats.custom[i].desc, (unsigned long long)rsp.u.getstats.stats.custom[i].value); } return 0; } static int add_static_rec(int *found, char *targetname, int tpgt, char *ip, int port, struct iface_rec *iface) { node_rec_t *rec; discovery_rec_t *drec; int rc; rec = calloc(1, sizeof(*rec)); if (!rec) { log_error("Could not allocate memory for node addition"); rc = ISCSI_ERR_NOMEM; goto done; } drec = calloc(1, sizeof(*drec)); if (!drec) { log_error("Could not allocate memory for node addition"); rc = ISCSI_ERR_NOMEM; goto free_rec; } drec->type = DISCOVERY_TYPE_STATIC; idbm_node_setup_from_conf(rec); strlcpy(rec->name, targetname, TARGET_NAME_MAXLEN); rec->tpgt = tpgt; rec->conn[0].port = port; strlcpy(rec->conn[0].address, ip, NI_MAXHOST); if (iface) { rc = iface_conf_read(iface); if (rc) { log_error("Could not read iface %s. Error %d", iface->name, rc); return rc; } iface_copy(&rec->iface, iface); } rc = idbm_add_node(rec, drec, 1); if (!rc) { (*found)++; printf("New iSCSI node [%s:" iface_fmt " %s,%d,%d %s] added\n", rec->iface.transport_name, iface_str(&rec->iface), ip, port, tpgt, targetname); } free(drec); free_rec: free(rec); done: return rc; } static int add_static_portal(int *found, void *data, char *targetname, int tpgt, char *ip, int port) { node_rec_t *rec = data; if (strlen(rec->conn[0].address) && strcmp(rec->conn[0].address, ip)) return -1; if (rec->conn[0].port != -1 && rec->conn[0].port != port) return -1; return add_static_rec(found, targetname, tpgt, ip, port, &rec->iface); } static int add_static_node(int *found, void *data, char *targetname) { node_rec_t *rec = data; if (!strlen(rec->name)) goto search; if (strcmp(rec->name, targetname)) return -1; if (!strlen(rec->conn[0].address)) goto search; return add_static_rec(found, targetname, rec->tpgt, rec->conn[0].address, rec->conn[0].port, &rec->iface); search: return idbm_for_each_portal(found, data, add_static_portal, targetname); } static int add_static_recs(struct node_rec *rec) { int rc, nr_found = 0; rc = idbm_for_each_node(&nr_found, rec, add_static_node); if (rc) goto done; /* success */ if (nr_found > 0) return 0; /* brand new target */ if (strlen(rec->name) && strlen(rec->conn[0].address)) { rc = add_static_rec(&nr_found, rec->name, rec->tpgt, rec->conn[0].address, rec->conn[0].port, &rec->iface); if (!rc) return 0; } done: log_error("Error while adding record: %s", iscsi_err_to_str(rc)); return rc; } /* * start sendtargets discovery process based on the * particular config */ static int do_offload_sendtargets(discovery_rec_t *drec, int host_no, int do_login) { drec->type = DISCOVERY_TYPE_OFFLOAD_SENDTARGETS; return discovery_offload_sendtargets(host_no, do_login, drec); } static int delete_node(void *data, struct node_rec *rec) { if (iscsi_check_for_running_session(rec)) { /* * We could log out the session for the user, but if * the session is being used the user may get something * they were not expecting (FS errors and a read only * remount). */ log_error("This command will remove the record [iface: %s, " "target: %s, portal: %s,%d], but a session is " "using it. Logout session then rerun command to " "remove record.", rec->iface.name, rec->name, rec->conn[0].address, rec->conn[0].port); return ISCSI_ERR_SESS_EXISTS; } return idbm_delete_node(rec); } static int delete_stale_rec(void *data, struct node_rec *rec) { struct list_head *new_rec_list = data; struct node_rec *new_rec; list_for_each_entry(new_rec, new_rec_list, list) { /* * We could also move this to idbm.c and instead of looping * over every node just loop over disc to node links. */ if (rec->disc_type != new_rec->disc_type || rec->disc_port != new_rec->disc_port || strcmp(rec->disc_address, new_rec->disc_address)) /* * if we are not from the same discovery source * ignore it */ return -1; if (__iscsi_match_session(rec, new_rec->name, new_rec->conn[0].address, new_rec->conn[0].port, &new_rec->iface, new_rec->session.sid)) return -1; } /* if there is a error we can continue on */ return delete_node(NULL, rec); } static int exec_disc_op_on_recs(discovery_rec_t *drec, struct list_head *rec_list, int info_level, int do_login, int op) { int rc = 0, err, found = 0; struct node_rec *new_rec, tmp_rec; /* clean up node db */ if (op & OP_DELETE) idbm_for_each_rec(&found, rec_list, delete_stale_rec); if (op & OP_NEW || op & OP_UPDATE) { /* now add/update records */ list_for_each_entry(new_rec, rec_list, list) { rc = idbm_add_node(new_rec, drec, op & OP_UPDATE); if (rc) log_error("Could not add/update " "[%s:" iface_fmt " %s,%d,%d %s]", new_rec->iface.transport_name, iface_str(&new_rec->iface), new_rec->conn[0].address, new_rec->conn[0].port, new_rec->tpgt, new_rec->name); } } memset(&tmp_rec, 0, sizeof(node_rec_t)); list_for_each_entry(new_rec, rec_list, list) { switch (info_level) { case 0: case -1: idbm_print_node_flat(NULL, new_rec); break; case 1: idbm_print_node_and_iface_tree(&tmp_rec, new_rec); } } if (!do_login) return 0; err = iscsi_login_portals(NULL, &found, 1, rec_list, iscsi_login_portal); if (err && !rc) rc = err; return rc; } static int do_software_sendtargets(discovery_rec_t *drec, struct list_head *ifaces, int info_level, int do_login, int op, int sync_drec) { struct list_head rec_list; struct node_rec *rec, *tmp; int rc; INIT_LIST_HEAD(&rec_list); /* * compat: if the user did not pass any op then we do all * ops for them */ if (!op) op = OP_NEW | OP_DELETE | OP_UPDATE; drec->type = DISCOVERY_TYPE_SENDTARGETS; /* * we will probably want to know how a specific iface and discovery * DB lined up, but for now just put all the targets found from * a discovery portal in one place */ if ((!(op & OP_NONPERSISTENT)) && sync_drec) { rc = idbm_add_discovery(drec); if (rc) { log_error("Could not add new discovery record."); return rc; } } rc = idbm_bind_ifaces_to_nodes(discovery_sendtargets, drec, ifaces, &rec_list); if (rc) { log_error("Could not perform SendTargets discovery: %s", iscsi_err_to_str(rc)); return rc; } else if (list_empty(&rec_list)) { log_error("No portals found"); return ISCSI_ERR_NO_OBJS_FOUND; } rc = exec_disc_op_on_recs(drec, &rec_list, info_level, do_login, op); list_for_each_entry_safe(rec, tmp, &rec_list, list) { list_del(&rec->list); free(rec); } return rc; } static int do_isns(discovery_rec_t *drec, struct list_head *ifaces, int info_level, int do_login, int op) { struct list_head rec_list; struct node_rec *rec, *tmp; int rc; INIT_LIST_HEAD(&rec_list); /* * compat: if the user did not pass any op then we do all * ops for them */ if (!op) op = OP_NEW | OP_DELETE | OP_UPDATE; rc = idbm_bind_ifaces_to_nodes(discovery_isns, drec, ifaces, &rec_list); if (rc) { log_error("Could not perform iSNS discovery: %s", iscsi_err_to_str(rc)); return rc; } else if (list_empty(&rec_list)) { log_error("No portals found"); return ISCSI_ERR_NO_OBJS_FOUND; } rc = exec_disc_op_on_recs(drec, &rec_list, info_level, do_login, op); list_for_each_entry_safe(rec, tmp, &rec_list, list) { list_del(&rec->list); free(rec); } return rc; } static int do_target_discovery(discovery_rec_t *drec, struct list_head *ifaces, int info_level, int do_login, int op, int sync_drec) { struct iface_rec *tmp, *iface; int rc, host_no; struct iscsi_transport *t; if (list_empty(ifaces)) { ifaces = NULL; goto sw_discovery; } /* we allow users to mix hw and sw iscsi so we have to sort it out */ list_for_each_entry_safe(iface, tmp, ifaces, list) { rc = iface_conf_read(iface); if (rc) { log_error("Could not read iface info for %s. " "Make sure an iface config with the file " "name and iface.iscsi_ifacename %s is in %s.", iface->name, iface->name, IFACE_CONFIG_DIR); list_del(&iface->list); free(iface); continue; } /* check for transport name first to make sure it is loaded */ t = iscsi_sysfs_get_transport_by_name(iface->transport_name); if (!t) { log_error("Could not load transport %s." "Dropping interface %s.", iface->transport_name, iface->name); list_del(&iface->list); free(iface); continue; } host_no = iscsi_sysfs_get_host_no_from_hwinfo(iface, &rc); if (rc || host_no == -1) { log_debug(1, "Could not match iface" iface_fmt " to " "host.", iface_str(iface)); /* try software iscsi */ continue; } if (drec->type == DISCOVERY_TYPE_SENDTARGETS) if (t->caps & CAP_SENDTARGETS_OFFLOAD) { do_offload_sendtargets(drec, host_no, do_login); list_del(&iface->list); free(iface); } } if (list_empty(ifaces)) return ISCSI_ERR_NO_OBJS_FOUND; sw_discovery: switch (drec->type) { case DISCOVERY_TYPE_SENDTARGETS: return do_software_sendtargets(drec, ifaces, info_level, do_login, op, sync_drec); case DISCOVERY_TYPE_ISNS: return do_isns(drec, ifaces, info_level, do_login, op); default: log_debug(1, "Unknown Discovery Type : %d", drec->type); return ISCSI_ERR_UNKNOWN_DISCOVERY_TYPE; } } static int verify_mode_params(int argc, char **argv, char *allowed, int skip_m) { int ch, longindex; int ret = 0; optind = 0; while ((ch = getopt_long(argc, argv, short_options, long_options, &longindex)) >= 0) { if (!strchr(allowed, ch)) { if (ch == 'm' && skip_m) continue; ret = ch; break; } } return ret; } static void catch_sigint( int signo ) { log_warning("caught SIGINT, exiting..."); exit(1); } static int iface_apply_net_config(struct iface_rec *iface, int op) { int rc = ISCSI_ERR; uint32_t host_no; int param_count; int param_used; int iface_all = 0; int i; struct iovec *iovs = NULL; struct iovec *iov = NULL; struct iscsi_transport *t = NULL; int fd; log_debug(8, "Calling iscsid, to apply net config for" "iface.name = %s", iface->name); if (op == OP_APPLY_ALL) iface_all = 1; param_count = iface_get_param_count(iface, iface_all); if (!param_count) { log_error("Nothing to configure."); return ISCSI_SUCCESS; } /* * TODO: create a nicer interface where the caller does not have * know the packet/hdr details */ /* +2 for event and nlmsghdr */ param_count += 2; iovs = calloc((param_count * sizeof(struct iovec)), sizeof(char)); if (!iovs) { log_error("Out of Memory."); return ISCSI_ERR_NOMEM; } /* param_used gives actual number of iovecs used for netconfig */ param_used = iface_build_net_config(iface, iface_all, iovs); if (!param_used) { log_error("Build netconfig failed."); goto free_buf; } t = iscsi_sysfs_get_transport_by_name(iface->transport_name); if (!t) { log_error("Can't find transport."); goto free_buf; } host_no = iscsi_sysfs_get_host_no_from_hwinfo(iface, &rc); if (host_no == -1) { log_error("Can't find host_no."); goto free_buf; } rc = ISCSI_ERR; fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); goto free_buf; } rc = ipc->set_net_config(t->handle, host_no, iovs, param_count); if (rc < 0) log_error("Set net_config failed. errno=%d", errno); ipc->ctldev_close(); free_buf: /* start at 2, because 0 is for nlmsghdr and 1 for event */ iov = iovs + 2; for (i = 0; i < param_used; i++, iov++) { if (iov->iov_base) free(iov->iov_base); } free(iovs); if (rc) return ISCSI_ERR; return ISCSI_SUCCESS; } static int get_host_chap_info(uint32_t host_no) { struct iscsi_transport *t = NULL; struct iscsi_chap_rec *crec = NULL; char *req_buf = NULL; uint32_t valid_chap_entries; uint32_t num_entries; uint16_t chap_tbl_idx = 0; int rc = 0; int fd, i = 0; t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) { log_error("Could not match hostno %d to " "transport.", host_no); rc = ISCSI_ERR_TRANS_NOT_FOUND; goto exit_chap_info; } num_entries = MAX_CHAP_BUF_SZ / sizeof(*crec); req_buf = calloc(1, REQ_CHAP_BUF_SZ); if (!req_buf) { log_error("Could not allocate memory for CHAP request."); rc = ISCSI_ERR_NOMEM; goto exit_chap_info; } fd = ipc->ctldev_open(); if (fd < 0) { rc = ISCSI_ERR_INTERNAL; log_error("Netlink open failed."); goto exit_chap_info; } get_chap: memset(req_buf, 0, REQ_CHAP_BUF_SZ); rc = ipc->get_chap(t->handle, host_no, chap_tbl_idx, num_entries, req_buf, &valid_chap_entries); if (rc < 0) { log_error("get_chap_info failed. errno=%d", errno); rc = ISCSI_ERR; goto exit_chap_info; } crec = (struct iscsi_chap_rec *) (req_buf + sizeof(struct iscsi_uevent)); if (valid_chap_entries) chap_tbl_idx = (crec + (valid_chap_entries - 1))->chap_tbl_idx + 1; /* print chap info */ for (i = 0; i < valid_chap_entries; i++) { idbm_print_host_chap_info(crec); crec++; } if (valid_chap_entries != num_entries) goto exit_chap_info; else goto get_chap; ipc->ctldev_close(); exit_chap_info: if (req_buf) free(req_buf); return rc; } static int fill_host_chap_rec(struct list_head *params, struct iscsi_chap_rec *crec, recinfo_t *cinfo, uint16_t chap_tbl_idx, int type, int *param_count) { struct user_param *param; int rc = 0; crec->chap_tbl_idx = chap_tbl_idx; crec->chap_type = type; idbm_recinfo_host_chap(crec, cinfo); list_for_each_entry(param, params, list) { rc = idbm_rec_update_param(cinfo, param->name, param->value, 0); if (rc) break; } if (!rc) *param_count += 3; /* index, type and password_length */ return rc; } static int verify_host_chap_params(struct list_head *params, int *type, int *param_count) { struct user_param *param; int username = -1; int password = -1; int rc = 0; list_for_each_entry(param, params, list) { *param_count += 1; if (!strcmp(param->name, HOST_AUTH_USERNAME)) username = CHAP_TYPE_OUT; else if (!strcmp(param->name, HOST_AUTH_PASSWORD)) password = CHAP_TYPE_OUT; else if (!strcmp(param->name, HOST_AUTH_USERNAME_IN)) username = CHAP_TYPE_IN; else if (!strcmp(param->name, HOST_AUTH_PASSWORD_IN)) password = CHAP_TYPE_IN; else continue; } if ((username == CHAP_TYPE_OUT) && (password == CHAP_TYPE_OUT)) { if (type) *type = CHAP_TYPE_OUT; rc = ISCSI_SUCCESS; } else if ((username == CHAP_TYPE_IN) && (password == CHAP_TYPE_IN)) { if (type) *type = CHAP_TYPE_IN; rc = ISCSI_SUCCESS; } else { rc = ISCSI_ERR; } return rc; } static int set_host_chap_info(uint32_t host_no, uint64_t chap_index, struct list_head *params) { struct iscsi_transport *t = NULL; struct iscsi_chap_rec crec; recinfo_t *chap_info = NULL; struct iovec *iovs = NULL; struct iovec *iov = NULL; int type; int param_count = 0; int param_used; int rc = 0; int fd, i = 0; if (list_empty(params)) { log_error("Chap username/password not provided."); goto exit_set_chap; } chap_info = idbm_recinfo_alloc(MAX_KEYS); if (!chap_info) { log_error("Out of Memory."); rc = ISCSI_ERR_NOMEM; goto exit_set_chap; } t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) { log_error("Could not match hostno %d to transport.", host_no); rc = ISCSI_ERR_TRANS_NOT_FOUND; goto free_info_rec; } rc = verify_host_chap_params(params, &type, ¶m_count); if (rc) { log_error("Invalid username/password pair passed. Unable to determine the type of chap entry"); rc = ISCSI_ERR_INVAL; goto free_info_rec; } if (param_count > 2) { log_error("Only one pair of username/password can be passed."); rc = ISCSI_ERR; goto free_info_rec; } memset(&crec, 0, sizeof(crec)); rc = fill_host_chap_rec(params, &crec, chap_info, chap_index, type, ¶m_count); if (rc) { log_error("Unable to fill CHAP record"); goto free_info_rec; } /* +2 for event and nlmsghdr */ param_count += 2; iovs = calloc((param_count * sizeof(struct iovec)), sizeof(char)); if (!iovs) { log_error("Out of Memory."); rc = ISCSI_ERR_NOMEM; goto free_info_rec; } /* param_used gives actual number of iovecs used for chap */ param_used = chap_build_config(&crec, iovs); if (!param_used) { log_error("Build chap config failed."); rc = ISCSI_ERR; goto free_iovec; } fd = ipc->ctldev_open(); if (fd < 0) { rc = ISCSI_ERR_INTERNAL; log_error("Netlink open failed."); goto free_iovec; } rc = ipc->set_chap(t->handle, host_no, iovs, param_count); if (rc < 0) { log_error("CHAP setting failed"); if (rc == -EBUSY) { rc = ISCSI_ERR_BUSY; log_error("CHAP index %d is in use.", crec.chap_tbl_idx); } else { rc = ISCSI_ERR; } goto exit_set_chap; } ipc->ctldev_close(); free_iovec: /* start at 2, because 0 is for nlmsghdr and 1 for event */ iov = iovs + 2; for (i = 0; i < param_used; i++, iov++) { if (iov->iov_base) free(iov->iov_base); } free(iovs); free_info_rec: if (chap_info) free(chap_info); exit_set_chap: return rc; } static int delete_host_chap_info(uint32_t host_no, uint16_t chap_tbl_idx) { struct iscsi_transport *t = NULL; int fd, rc = 0; if (chap_tbl_idx > MAX_CHAP_ENTRIES) { log_error("Invalid chap table index."); goto exit_delete_chap; } t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) { log_error("Could not match hostno %d to " "transport.", host_no); rc = ISCSI_ERR_TRANS_NOT_FOUND; goto exit_delete_chap; } fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); rc = ISCSI_ERR_INTERNAL; goto exit_delete_chap; } log_info("Deleting CHAP index: %d", chap_tbl_idx); rc = ipc->delete_chap(t->handle, host_no, chap_tbl_idx); if (rc < 0) { log_error("CHAP Delete failed."); if (rc == -EBUSY) { rc = ISCSI_ERR_BUSY; log_error("CHAP index %d is in use.", chap_tbl_idx); } else rc = ISCSI_ERR; } ipc->ctldev_close(); exit_delete_chap: return rc; } static int exec_host_chap_op(int op, int info_level, uint32_t host_no, uint64_t chap_index, struct list_head *params) { int rc = ISCSI_ERR_INVAL; switch (op) { case OP_SHOW: rc = get_host_chap_info(host_no); break; case OP_NEW: case OP_UPDATE: rc = set_host_chap_info(host_no, chap_index, params); break; case OP_DELETE: rc = delete_host_chap_info(host_no, chap_index); break; default: log_error("Invalid operation."); break; } return rc; } static int get_flashnode_info(uint32_t host_no, uint32_t flashnode_idx) { struct flashnode_rec fnode; int rc = 0; memset(&fnode, 0, sizeof(fnode)); rc = iscsi_sysfs_get_flashnode_info(&fnode, host_no, flashnode_idx); if (rc) { log_error("Could not read info for flashnode %u of host %u, %s", flashnode_idx, host_no, strerror(rc)); return rc; } idbm_print_flashnode_info(&fnode); return rc; } static int list_flashnodes(int info_level, uint32_t host_no) { int rc = 0; int num_found = 0; rc = iscsi_sysfs_for_each_flashnode(NULL, host_no, &num_found, flashnode_info_print_flat); if (!num_found) { log_error("No flashnodes attached to host %u.", host_no); rc = ISCSI_ERR_NO_OBJS_FOUND; } return rc; } int iscsi_set_flashnode_params(struct iscsi_transport *t, uint32_t host_no, uint32_t flashnode_idx, struct list_head *params) { struct flashnode_rec fnode; recinfo_t *flashnode_info; struct user_param *param; struct iovec *iovs = NULL; struct iovec *iov = NULL; int fd, rc = 0; int param_count = 0; int param_used = 0; int i; flashnode_info = idbm_recinfo_alloc(MAX_KEYS); if (!flashnode_info) { log_error("Out of Memory."); rc = ISCSI_ERR_NOMEM; goto free_info_rec; } memset(&fnode, 0, sizeof(fnode)); rc = iscsi_sysfs_get_flashnode_info(&fnode, host_no, flashnode_idx); if (rc) { log_error("Could not read info for flashnode %u, %s", flashnode_idx, strerror(rc)); goto free_info_rec; } idbm_recinfo_flashnode(&fnode, flashnode_info); i = 0; list_for_each_entry(param, params, list) { param_count++; rc = idbm_verify_param(flashnode_info, param->name); if (rc) goto free_info_rec; } list_for_each_entry(param, params, list) { rc = idbm_rec_update_param(flashnode_info, param->name, param->value, 0); if (rc) goto free_info_rec; } /* +2 for event and nlmsghdr */ param_count += 2; iovs = calloc((param_count * sizeof(struct iovec)), sizeof(char)); if (!iovs) { log_error("Out of Memory."); rc = ISCSI_ERR_NOMEM; goto free_info_rec; } /* param_used gives actual number of iovecs used for flashnode */ param_used = flashnode_build_config(params, &fnode, iovs); if (!param_used) { log_error("Build flashnode config failed."); rc = ISCSI_ERR; goto free_iovec; } fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); rc = ISCSI_ERR_INTERNAL; goto free_iovec; } log_info("Update flashnode %u.", flashnode_idx); rc = ipc->set_flash_node_params(t->handle, host_no, flashnode_idx, iovs, param_count); if (rc < 0) rc = ISCSI_ERR; ipc->ctldev_close(); free_iovec: /* start at 2, because 0 is for nlmsghdr and 1 for event */ iov = iovs + 2; for (i = 0; i < param_used; i++, iov++) { if (iov->iov_base) free(iov->iov_base); } free(iovs); free_info_rec: if (flashnode_info) free(flashnode_info); return rc; } int iscsi_new_flashnode(struct iscsi_transport *t, uint32_t host_no, char *val, uint32_t *flashnode_idx) { int fd, rc = 0; fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); rc = ISCSI_ERR_INTERNAL; goto exit_new_flashnode; } log_info("Create new flashnode for host %u.", host_no); rc = ipc->new_flash_node(t->handle, host_no, val, flashnode_idx); if (rc < 0) rc = ISCSI_ERR; ipc->ctldev_close(); exit_new_flashnode: return rc; } int iscsi_del_flashnode(struct iscsi_transport *t, uint32_t host_no, uint32_t flashnode_idx) { int fd, rc = 0; fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); rc = ISCSI_ERR_INTERNAL; goto exit_del_flashnode; } log_info("Delete flashnode %u.", flashnode_idx); rc = ipc->del_flash_node(t->handle, host_no, flashnode_idx); if (rc < 0) rc = ISCSI_ERR; ipc->ctldev_close(); exit_del_flashnode: return rc; } int iscsi_login_flashnode(struct iscsi_transport *t, uint32_t host_no, uint32_t flashnode_idx) { int fd, rc = 0; fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); rc = ISCSI_ERR_INTERNAL; goto exit_login_flashnode; } log_info("Login to flashnode %u.", flashnode_idx); rc = ipc->login_flash_node(t->handle, host_no, flashnode_idx); if (rc == -EPERM) rc = ISCSI_ERR_SESS_EXISTS; else if (rc < 0) rc = ISCSI_ERR_LOGIN; ipc->ctldev_close(); exit_login_flashnode: return rc; } int iscsi_logout_flashnode(struct iscsi_transport *t, uint32_t host_no, uint32_t flashnode_idx) { int fd, rc = 0; fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); rc = ISCSI_ERR_INTERNAL; goto exit_logout; } log_info("Logout flashnode %u.", flashnode_idx); rc = ipc->logout_flash_node(t->handle, host_no, flashnode_idx); if (rc == -ESRCH) rc = ISCSI_ERR_SESS_NOT_FOUND; else if (rc < 0) rc = ISCSI_ERR_LOGOUT; ipc->ctldev_close(); exit_logout: return rc; } static int iscsi_check_session_use_count(uint32_t sid) { char *config_file; char *safe_logout; config_file = get_config_file(); if (!config_file) { log_error("Could not get config file from iscsid"); return 0; } safe_logout = cfg_get_string_param(config_file, "iscsid.safe_logout"); if (!safe_logout || strcmp(safe_logout, "Yes")) return 0; return session_in_use(sid); } int iscsi_logout_flashnode_sid(struct iscsi_transport *t, uint32_t host_no, uint32_t sid) { int fd, rc = 0; if (iscsi_check_session_use_count(sid)) { log_error("Session is actively in use for mounted storage, " "and iscsid.safe_logout is configured."); return ISCSI_ERR_BUSY; } fd = ipc->ctldev_open(); if (fd < 0) { log_error("Netlink open failed."); rc = ISCSI_ERR_INTERNAL; goto exit_logout_sid; } log_info("Logout sid %u.", sid); rc = ipc->logout_flash_node_sid(t->handle, host_no, sid); if (rc < 0) { log_error("Logout of sid %u failed.", sid); rc = ISCSI_ERR_LOGOUT; } else { log_info("Logout of sid %u successful.", sid); } ipc->ctldev_close(); exit_logout_sid: return rc; } static int exec_flashnode_op(int op, int info_level, uint32_t host_no, uint64_t fnode_idx, int type, struct list_head *params) { struct iscsi_transport *t = NULL; int rc = ISCSI_SUCCESS; char *portal_type; uint32_t flashnode_idx; if (op != OP_SHOW && op != OP_NOOP && op != OP_NEW && fnode_idx > MAX_FLASHNODE_IDX) { log_error("Invalid flashnode index"); rc = ISCSI_ERR_INVAL; goto exit_flashnode_op; } flashnode_idx = (uint32_t)fnode_idx; t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) { log_error("Could not match hostno %u to transport.", host_no); rc = ISCSI_ERR_TRANS_NOT_FOUND; goto exit_flashnode_op; } switch (op) { case OP_NOOP: case OP_SHOW: if (fnode_idx > MAX_FLASHNODE_IDX) rc = list_flashnodes(info_level, host_no); else rc = get_flashnode_info(host_no, flashnode_idx); break; case OP_NEW: if (type == IPV4) { portal_type = "ipv4"; } else if (type == IPV6) { portal_type = "ipv6"; } else { log_error("Invalid type mentioned for flashnode"); rc = ISCSI_ERR_INVAL; goto exit_flashnode_op; } rc = iscsi_new_flashnode(t, host_no, portal_type, &flashnode_idx); if (!rc) log_info("New flashnode for host %u added at index %u.", host_no, flashnode_idx); else log_error("Creation of flashnode for host %u failed.", host_no); break; case OP_DELETE: rc = iscsi_del_flashnode(t, host_no, flashnode_idx); if (!rc) log_info("Flashnode %u of host %u deleted.", flashnode_idx, host_no); else log_error("Deletion of flashnode %u of host %u failed.", flashnode_idx, host_no); break; case OP_UPDATE: rc = iscsi_set_flashnode_params(t, host_no, flashnode_idx, params); if (!rc) log_info("Update for flashnode %u of host %u successful.", flashnode_idx, host_no); else log_error("Update for flashnode %u of host %u failed.", flashnode_idx, host_no); break; case OP_LOGIN: rc = iscsi_login_flashnode(t, host_no, flashnode_idx); if (!rc) log_info("Login to flashnode %u of host %u successful.", flashnode_idx, host_no); else if (rc == ISCSI_ERR_SESS_EXISTS) log_info("Flashnode %u of host %u already logged in.", flashnode_idx, host_no); else log_error("Login to flashnode %u of host %u failed.", flashnode_idx, host_no); break; case OP_LOGOUT: rc = iscsi_logout_flashnode(t, host_no, flashnode_idx); if (!rc) log_info("Logout of flashnode %u of host %u successful.", flashnode_idx, host_no); else if (rc == ISCSI_ERR_SESS_NOT_FOUND) log_info("Flashnode %u of host %u not logged in.", flashnode_idx, host_no); else log_error("Logout of flashnode %u of host %u failed.", flashnode_idx, host_no); break; default: log_error("Invalid operation"); rc = ISCSI_ERR_INVAL; break; } exit_flashnode_op: return rc; } static void print_host_stats(struct iscsi_offload_host_stats *host_stats) { /* MAC */ printf("Host Statistics:\n" "\tmactx_frames: %lld\n" "\tmactx_bytes: %lld\n" "\tmactx_multicast_frames: %lld\n" "\tmactx_broadcast_frames: %lld\n" "\tmactx_pause_frames: %lld\n" "\tmactx_control_frames: %lld\n" "\tmactx_deferral: %lld\n" "\tmactx_excess_deferral: %lld\n" "\tmactx_late_collision: %lld\n" "\tmactx_abort: %lld\n" "\tmactx_single_collision: %lld\n" "\tmactx_multiple_collision: %lld\n" "\tmactx_collision: %lld\n" "\tmactx_frames_dropped: %lld\n" "\tmactx_jumbo_frames: %lld\n" "\tmacrx_frames: %lld\n" "\tmacrx_bytes: %lld\n" "\tmacrx_unknown_control_frames: %lld\n" "\tmacrx_pause_frames: %lld\n" "\tmacrx_control_frames: %lld\n" "\tmacrx_dribble: %lld\n" "\tmacrx_frame_length_error: %lld\n" "\tmacrx_jabber: %lld\n" "\tmacrx_carrier_sense_error: %lld\n" "\tmacrx_frame_discarded: %lld\n" "\tmacrx_frames_dropped: %lld\n" "\tmac_crc_error: %lld\n" "\tmac_encoding_error: %lld\n" "\tmacrx_length_error_large: %lld\n" "\tmacrx_length_error_small: %lld\n" "\tmacrx_multicast_frames: %lld\n" "\tmacrx_broadcast_frames: %lld\n" /* IP */ "\tiptx_packets: %lld\n" "\tiptx_bytes: %lld\n" "\tiptx_fragments: %lld\n" "\tiprx_packets: %lld\n" "\tiprx_bytes: %lld\n" "\tiprx_fragments: %lld\n" "\tip_datagram_reassembly: %lld\n" "\tip_invalid_address_error: %lld\n" "\tip_error_packets: %lld\n" "\tip_fragrx_overlap: %lld\n" "\tip_fragrx_outoforder: %lld\n" "\tip_datagram_reassembly_timeout: %lld\n" "\tipv6tx_packets: %lld\n" "\tipv6tx_bytes: %lld\n" "\tipv6tx_fragments: %lld\n" "\tipv6rx_packets: %lld\n" "\tipv6rx_bytes: %lld\n" "\tipv6rx_fragments: %lld\n" "\tipv6_datagram_reassembly: %lld\n" "\tipv6_invalid_address_error: %lld\n" "\tipv6_error_packets: %lld\n" "\tipv6_fragrx_overlap: %lld\n" "\tipv6_fragrx_outoforder: %lld\n" "\tipv6_datagram_reassembly_timeout: %lld\n" /* TCP */ "\ttcptx_segments: %lld\n" "\ttcptx_bytes: %lld\n" "\ttcprx_segments: %lld\n" "\ttcprx_byte: %lld\n" "\ttcp_duplicate_ack_retx: %lld\n" "\ttcp_retx_timer_expired: %lld\n" "\ttcprx_duplicate_ack: %lld\n" "\ttcprx_pure_ackr: %lld\n" "\ttcptx_delayed_ack: %lld\n" "\ttcptx_pure_ack: %lld\n" "\ttcprx_segment_error: %lld\n" "\ttcprx_segment_outoforder: %lld\n" "\ttcprx_window_probe: %lld\n" "\ttcprx_window_update: %lld\n" "\ttcptx_window_probe_persist: %lld\n" /* ECC */ "\tecc_error_correction: %lld\n" /* iSCSI */ "\tiscsi_pdu_tx: %lld\n" "\tiscsi_data_bytes_tx: %lld\n" "\tiscsi_pdu_rx: %lld\n" "\tiscsi_data_bytes_rx: %lld\n" "\tiscsi_io_completed: %lld\n" "\tiscsi_unexpected_io_rx: %lld\n" "\tiscsi_format_error: %lld\n" "\tiscsi_hdr_digest_error: %lld\n" "\tiscsi_data_digest_error: %lld\n" "\tiscsi_sequence_error: %lld\n", /* MAC */ (unsigned long long)host_stats->mactx_frames, (unsigned long long)host_stats->mactx_bytes, (unsigned long long)host_stats->mactx_multicast_frames, (unsigned long long)host_stats->mactx_broadcast_frames, (unsigned long long)host_stats->mactx_pause_frames, (unsigned long long)host_stats->mactx_control_frames, (unsigned long long)host_stats->mactx_deferral, (unsigned long long)host_stats->mactx_excess_deferral, (unsigned long long)host_stats->mactx_late_collision, (unsigned long long)host_stats->mactx_abort, (unsigned long long)host_stats->mactx_single_collision, (unsigned long long)host_stats->mactx_multiple_collision, (unsigned long long)host_stats->mactx_collision, (unsigned long long)host_stats->mactx_frames_dropped, (unsigned long long)host_stats->mactx_jumbo_frames, (unsigned long long)host_stats->macrx_frames, (unsigned long long)host_stats->macrx_bytes, (unsigned long long)host_stats->macrx_unknown_control_frames, (unsigned long long)host_stats->macrx_pause_frames, (unsigned long long)host_stats->macrx_control_frames, (unsigned long long)host_stats->macrx_dribble, (unsigned long long)host_stats->macrx_frame_length_error, (unsigned long long)host_stats->macrx_jabber, (unsigned long long)host_stats->macrx_carrier_sense_error, (unsigned long long)host_stats->macrx_frame_discarded, (unsigned long long)host_stats->macrx_frames_dropped, (unsigned long long)host_stats->mac_crc_error, (unsigned long long)host_stats->mac_encoding_error, (unsigned long long)host_stats->macrx_length_error_large, (unsigned long long)host_stats->macrx_length_error_small, (unsigned long long)host_stats->macrx_multicast_frames, (unsigned long long)host_stats->macrx_broadcast_frames, /* IP */ (unsigned long long)host_stats->iptx_packets, (unsigned long long)host_stats->iptx_bytes, (unsigned long long)host_stats->iptx_fragments, (unsigned long long)host_stats->iprx_packets, (unsigned long long)host_stats->iprx_bytes, (unsigned long long)host_stats->iprx_fragments, (unsigned long long)host_stats->ip_datagram_reassembly, (unsigned long long)host_stats->ip_invalid_address_error, (unsigned long long)host_stats->ip_error_packets, (unsigned long long)host_stats->ip_fragrx_overlap, (unsigned long long)host_stats->ip_fragrx_outoforder, (unsigned long long)host_stats->ip_datagram_reassembly_timeout, (unsigned long long)host_stats->ipv6tx_packets, (unsigned long long)host_stats->ipv6tx_bytes, (unsigned long long)host_stats->ipv6tx_fragments, (unsigned long long)host_stats->ipv6rx_packets, (unsigned long long)host_stats->ipv6rx_bytes, (unsigned long long)host_stats->ipv6rx_fragments, (unsigned long long)host_stats->ipv6_datagram_reassembly, (unsigned long long)host_stats->ipv6_invalid_address_error, (unsigned long long)host_stats->ipv6_error_packets, (unsigned long long)host_stats->ipv6_fragrx_overlap, (unsigned long long)host_stats->ipv6_fragrx_outoforder, (unsigned long long)host_stats->ipv6_datagram_reassembly_timeout, /* TCP */ (unsigned long long)host_stats->tcptx_segments, (unsigned long long)host_stats->tcptx_bytes, (unsigned long long)host_stats->tcprx_segments, (unsigned long long)host_stats->tcprx_byte, (unsigned long long)host_stats->tcp_duplicate_ack_retx, (unsigned long long)host_stats->tcp_retx_timer_expired, (unsigned long long)host_stats->tcprx_duplicate_ack, (unsigned long long)host_stats->tcprx_pure_ackr, (unsigned long long)host_stats->tcptx_delayed_ack, (unsigned long long)host_stats->tcptx_pure_ack, (unsigned long long)host_stats->tcprx_segment_error, (unsigned long long)host_stats->tcprx_segment_outoforder, (unsigned long long)host_stats->tcprx_window_probe, (unsigned long long)host_stats->tcprx_window_update, (unsigned long long)host_stats->tcptx_window_probe_persist, /* ECC */ (unsigned long long)host_stats->ecc_error_correction, /* iSCSI */ (unsigned long long)host_stats->iscsi_pdu_tx, (unsigned long long)host_stats->iscsi_data_bytes_tx, (unsigned long long)host_stats->iscsi_pdu_rx, (unsigned long long)host_stats->iscsi_data_bytes_rx, (unsigned long long)host_stats->iscsi_io_completed, (unsigned long long)host_stats->iscsi_unexpected_io_rx, (unsigned long long)host_stats->iscsi_format_error, (unsigned long long)host_stats->iscsi_hdr_digest_error, (unsigned long long)host_stats->iscsi_data_digest_error, (unsigned long long)host_stats->iscsi_sequence_error); } static int exec_host_stats_op(int op, int info_level, uint32_t host_no) { struct iscsi_transport *t = NULL; char *req_buf = NULL; int rc = ISCSI_SUCCESS; int fd = 0, buf_size = 0; t = iscsi_sysfs_get_transport_by_hba(host_no); if (!t) { log_error("Could not match hostno %u to transport.", host_no); rc = ISCSI_ERR_TRANS_NOT_FOUND; goto exit_host_stats; } buf_size = sizeof(struct iscsi_offload_host_stats) + sizeof(struct iscsi_uevent); req_buf = calloc(1, buf_size); if (!req_buf) { log_error("Could not allocate memory for host stats request."); rc = ISCSI_ERR_NOMEM; goto exit_host_stats; } fd = ipc->ctldev_open(); if (fd < 0) { rc = ISCSI_ERR_INTERNAL; log_error("Netlink open failed."); goto exit_host_stats; } rc = ipc->get_host_stats(t->handle, host_no, req_buf); if (rc < 0) { log_error("get_host_stats failed. errno=%d", errno); rc = ISCSI_ERR; goto exit_host_stats; } print_host_stats((struct iscsi_offload_host_stats *)(req_buf + sizeof(struct iscsi_uevent))); ipc->ctldev_close(); exit_host_stats: free(req_buf); return rc; } static int verify_iface_params(struct list_head *params, struct node_rec *rec) { struct user_param *param; list_for_each_entry(param, params, list) { if (!strcmp(param->name, IFACE_ISCSINAME)) { log_error("Can not update " "iface.iscsi_ifacename. Delete it, " "and then create a new one."); return ISCSI_ERR_INVAL; } if (iface_is_bound_by_hwaddr(&rec->iface) && !strcmp(param->name, IFACE_NETNAME)) { log_error("Can not update interface binding " "from hwaddress to net_ifacename. " "You must delete the interface and " "create a new one"); return ISCSI_ERR_INVAL; } if (iface_is_bound_by_netdev(&rec->iface) && !strcmp(param->name, IFACE_HWADDR)) { log_error("Can not update interface binding " "from net_ifacename to hwaddress. " "You must delete the interface and " "create a new one"); return ISCSI_ERR_INVAL; } } return 0; } /* TODO: merge iter helpers and clean them up, so we can use them here */ static int exec_iface_op(int op, int do_show, int info_level, struct iface_rec *iface, uint64_t host_no, struct list_head *params) { struct host_info hinfo; struct node_rec *rec = NULL; int rc = 0; switch (op) { case OP_NEW: if (!iface) { log_error("Could not add interface. No interface " "passed in."); return EINVAL; } rec = idbm_create_rec(NULL, -1, NULL, -1, iface, 0); if (rec && iscsi_check_for_running_session(rec)) { rc = ISCSI_ERR_SESS_EXISTS; goto new_fail; } iface_setup_defaults(iface); rc = iface_conf_write(iface); if (rc) goto new_fail; printf("New interface %s added\n", iface->name); break; new_fail: log_error("Could not create new interface %s.", iface->name); break; case OP_DELETE: if (!iface) { log_error("Could not delete interface. No interface " "passed in."); return ISCSI_ERR_INVAL; } rec = idbm_create_rec(NULL, -1, NULL, -1, iface, 1); if (!rec) { rc = ISCSI_ERR_INVAL; goto delete_fail; } /* logout and delete records using it first */ rc = __for_each_matched_rec(0, rec, NULL, delete_node); if (rc && rc != ISCSI_ERR_NO_OBJS_FOUND) goto delete_fail; rc = iface_conf_delete(iface); if (rc) goto delete_fail; printf("%s unbound and deleted.\n", iface->name); break; delete_fail: log_error("Could not delete iface %s: %s", iface->name, iscsi_err_to_str(rc)); break; case OP_UPDATE: if (!iface || list_empty(params)) { log_error("Update requires name, value, and iface."); rc = ISCSI_ERR_INVAL; break; } rec = idbm_create_rec(NULL, -1, NULL, -1, iface, 1); if (!rec) { rc = ISCSI_ERR_INVAL; goto update_fail; } if (iscsi_check_for_running_session(rec)) log_warning("Updating iface while iscsi sessions " "are using it. You must logout the running " "sessions then log back in for the " "new settings to take affect."); rc = verify_iface_params(params, rec); if (rc) break; /* pass rec's iface because it has the db values */ rc = iface_conf_update(params, &rec->iface); if (rc) goto update_fail; rc = __for_each_matched_rec(0, rec, params, idbm_node_set_param); if (rc == ISCSI_ERR_NO_OBJS_FOUND) rc = 0; else if (rc) goto update_fail; printf("%s updated.\n", iface->name); break; update_fail: log_error("Could not update iface %s: %s", iface->name, iscsi_err_to_str(rc)); break; case OP_APPLY: if (!iface) { log_error("Apply requires iface."); rc = ISCSI_ERR_INVAL; break; } rc = iface_conf_read(iface); if (rc) { log_error("Could not read iface %s (%d).", iface->name, rc); break; } rc = iface_apply_net_config(iface, op); if (rc) { log_error("Could not apply net configuration: %s", iscsi_err_to_str(rc)); break; } printf("%s applied.\n", iface->name); break; case OP_APPLY_ALL: if (host_no > MAX_HOST_NO) { log_error("Applyall requires a valid host number or MAC" " passed in with the --host argument."); rc = ISCSI_ERR_INVAL; break; } /* * Need to get other iface info like transport. */ memset(&hinfo, 0, sizeof(struct host_info)); hinfo.host_no = host_no; if (iscsi_sysfs_get_hostinfo_by_host_no(&hinfo)) { log_error("Could not match host%lu to ifaces.", host_no); rc = ISCSI_ERR_INVAL; break; } rc = iface_apply_net_config(&hinfo.iface, op); if (rc) { log_error("Could not apply net configuration: %s", iscsi_err_to_str(rc)); break; } printf("Applied settings to ifaces attached to host%lu.\n", host_no); break; default: if (!iface || (iface && info_level > 0)) { if (op == OP_NOOP || op == OP_SHOW) rc = print_ifaces(iface, info_level); else rc = ISCSI_ERR_INVAL; } else { rc = iface_conf_read(iface); if (!rc) idbm_print_iface_info(&do_show, iface); else log_error("Could not read iface %s (%d).", iface->name, rc); } } if (rec) free(rec); return rc; } static int verify_node_params(struct list_head *params, struct node_rec *rec) { struct user_param *param; if (list_empty(params)) { log_error("update requires name and value"); return ISCSI_ERR_INVAL; } list_for_each_entry(param, params, list) { /* compat - old tools used node and iface transport name */ if (!strncmp(param->name, "iface.", 6) && strcmp(param->name, "iface.transport_name")) { log_error("Cannot modify %s. Use iface mode to update " "this value.", param->name); return ISCSI_ERR_INVAL; } if (!strcmp(param->name, "node.transport_name")) { free(param->name); param->name = strdup("iface.transport_name"); if (!param->name) { log_error("Could not allocate memory for " "param."); return ISCSI_ERR_NOMEM; } } /* * tmp hack - we added compat crap above for the transport, * but want to fix Doran's issue in this release too. However * his patch is too harsh on many settings and we do not have * time to update apps so we have this tmp hack until we * can settle on a good interface that distros can use * and we can mark stable. */ if (!strcmp(param->name, "iface.transport_name")) { if (iscsi_check_for_running_session(rec)) { log_warning("Cannot modify node/iface " "transport name while a session " "is using it. Log out the session " "then update record."); return ISCSI_ERR_SESS_EXISTS; } } } return 0; } /* TODO cleanup arguments */ static int exec_node_op(int op, int do_login, int do_logout, int do_show, int do_rescan, int do_stats, int info_level, struct node_rec *rec, struct list_head *params) { int rc = 0; if (rec) log_debug(2, "%s: %s:%s node [%s,%s,%d] sid %u", __FUNCTION__, rec->iface.transport_name, rec->iface.name, rec->name, rec->conn[0].address, rec->conn[0].port, rec->session.sid); if (op == OP_NEW) { rc = add_static_recs(rec); goto out; } if (do_rescan) { rc = for_each_session(rec, rescan_portal, 1); goto out; } if (do_stats) { rc = for_each_session(rec, session_stats, 0); goto out; } if (do_login && do_logout) { log_error("Invalid parameters. Both login and logout passed in"); rc = ISCSI_ERR_INVAL; goto out; } if ((do_login || do_logout) && op > OP_NOOP) { log_error("Invalid parameters. Login/logout and op passed in"); rc = ISCSI_ERR_INVAL; goto out; } if ((!do_login && !do_logout && op == OP_NOOP) && (!strlen(rec->name) && !strlen(rec->conn[0].address) && !strlen(rec->iface.name))) { rc = print_nodes(info_level, rec); goto out; } if (do_login) { rc = login_portals(rec); goto out; } if (do_logout) { int nr_found; rc = iscsi_logout_portals(rec, &nr_found, 1, iscsi_logout_matched_portal); if (rc == ISCSI_ERR_NO_OBJS_FOUND) log_error("No matching sessions found"); goto out; } if (op == OP_NOOP || (!do_login && !do_logout && op == OP_SHOW)) { rc = for_each_matched_rec(rec, &do_show, idbm_print_node_info); goto out; } if (op == OP_UPDATE) { rc = verify_node_params(params, rec); if (rc) goto out; rc = for_each_matched_rec(rec, params, idbm_node_set_param); goto out; } else if (op == OP_DELETE) { rc = for_each_matched_rec(rec, NULL, delete_node); goto out; } else { log_error("operation is not supported."); rc = ISCSI_ERR_INVAL; goto out; } out: return rc; } static int exec_fw_disc_op(discovery_rec_t *drec, struct list_head *ifaces, int info_level, int do_login, int op) { struct list_head targets, rec_list, new_ifaces; struct iface_rec *iface, *tmp_iface; struct node_rec *rec, *tmp_rec; int rc = 0; INIT_LIST_HEAD(&targets); INIT_LIST_HEAD(&rec_list); INIT_LIST_HEAD(&new_ifaces); /* * compat: if the user did not pass any op then we do all * ops for them */ if (!op) op = OP_NEW | OP_DELETE | OP_UPDATE; /* * if a user passed in ifaces then we use them and ignore the ibft * net info */ if (!list_empty(ifaces)) { list_for_each_entry_safe(iface, tmp_iface, ifaces, list) { rc = iface_conf_read(iface); if (rc) { log_error("Could not read iface info for %s. " "Make sure an iface config with the " "file name and iface.iscsi_ifacename " "%s is in %s.", iface->name, iface->name, IFACE_CONFIG_DIR); list_del_init(&iface->list); free(iface); continue; } } goto discover_fw_tgts; } /* * Next, check if we see any offload cards. If we do then * we make an iface if needed. * * Note1: if there is not a offload card we do not setup * software iscsi binding with the nic used for booting, * because we do not know if that was intended. * * Note2: we assume that the user probably wanted to access * all targets through all the ifaces instead of being limited * to what you can export in ibft. */ rc = fw_get_targets(&targets); if (rc) { log_error("Could not get list of targets from firmware. " "(err %d)", rc); return rc; } rc = iface_create_ifaces_from_boot_contexts(&new_ifaces, &targets); if (rc) goto done; if (!list_empty(&new_ifaces)) ifaces = &new_ifaces; discover_fw_tgts: rc = idbm_bind_ifaces_to_nodes(discovery_fw, drec, ifaces, &rec_list); if (rc) log_error("Could not perform fw discovery."); else rc = exec_disc_op_on_recs(drec, &rec_list, info_level, do_login, op); done: fw_free_targets(&targets); list_for_each_entry_safe(iface, tmp_iface, &new_ifaces, list) { list_del(&iface->list); free(iface); } list_for_each_entry_safe(rec, tmp_rec, &rec_list, list) { list_del(&rec->list); free(rec); } return rc; } static int exec_fw_op(discovery_rec_t *drec, struct list_head *ifaces, int info_level, int do_login, int op) { struct boot_context *context; struct list_head targets, rec_list; struct node_rec *rec; int rc = 0; INIT_LIST_HEAD(&targets); INIT_LIST_HEAD(&rec_list); if (drec) return exec_fw_disc_op(drec, ifaces, info_level, do_login, op); /* The following ops do not interact with the DB */ rc = fw_get_targets(&targets); if (rc) { log_error("Could not get list of targets from firmware. " "(err %d)", rc); return rc; } if (do_login) { list_for_each_entry(context, &targets, list) { rec = idbm_create_rec_from_boot_context(context); if (!rec) { log_error("Could not convert firmware info to " "node record."); rc = ISCSI_ERR_NOMEM; break; } iscsi_login_portal(NULL, NULL, rec); free(rec); } } else { list_for_each_entry(context, &targets, list) fw_print_entry(context); } fw_free_targets(&targets); return rc; } static void setup_drec_defaults(int type, char *ip, int port, struct discovery_rec *drec) { switch (type) { case DISCOVERY_TYPE_ISNS: idbm_isns_defaults(&drec->u.isns); break; case DISCOVERY_TYPE_SENDTARGETS: idbm_sendtargets_defaults(&drec->u.sendtargets); break; default: log_error("Invalid disc type."); } strlcpy(drec->address, ip, sizeof(drec->address)); drec->port = port; drec->type = type; } /** * exec_discover - prep, add, read and exec discovery on drec * @type: discovery type * @ip: IP address * @port: port * @ifaces: list of ifaces to bind to * @info_level: print level * @do_login: set to 1 if discovery function should also log into portals found * @do_discover: set to 1 if discovery was requested * @op: ops passed in by user * @drec: discovery rec struct * * This function determines what type of op needs to be executed * and will read and add a drec, and perform discovery if needed. * * returns: * Greater than 0 - error * 0 - op/discovery completed * -1 - exec db op */ static int exec_discover(int disc_type, char *ip, int port, struct list_head *ifaces, int info_level, int do_login, int do_discover, int op, struct discovery_rec *drec) { int rc; if (ip == NULL) { log_error("Please specify portal as [:]"); return ISCSI_ERR_INVAL; } if (op & OP_NEW && !do_discover) { setup_drec_defaults(disc_type, ip, port, drec); rc = idbm_add_discovery(drec); if (rc) { log_error("Could not add new discovery record."); return rc; } else { printf("New discovery record for [%s,%d] added.\n", ip, port); return 0; } } rc = idbm_discovery_read(drec, disc_type, ip, port); if (rc) { if (!do_discover) { log_error("Discovery record [%s,%d] not found.", ip, port); return rc; } /* Just add default rec for user */ log_debug(1, "Discovery record [%s,%d] not found!", ip, port); setup_drec_defaults(disc_type, ip, port, drec); if (!(op & OP_NONPERSISTENT)) { rc = idbm_add_discovery(drec); if (rc) { log_error("Could not add new discovery " "record."); return rc; } } } else if (!do_discover) return -1; rc = 0; switch (disc_type) { case DISCOVERY_TYPE_SENDTARGETS: case DISCOVERY_TYPE_ISNS: rc = do_target_discovery(drec, ifaces, info_level, do_login, op, 0); break; default: log_error("Unsupported discovery type."); break; } return rc; } static int exec_disc2_op(int disc_type, char *ip, int port, struct list_head *ifaces, int info_level, int do_login, int do_discover, int op, struct list_head *params, int do_show) { struct discovery_rec drec; int rc = 0; memset(&drec, 0, sizeof(struct discovery_rec)); if (disc_type != -1) drec.type = disc_type; switch (disc_type) { case DISCOVERY_TYPE_SENDTARGETS: if (port < 0) port = ISCSI_LISTEN_PORT; rc = exec_discover(disc_type, ip, port, ifaces, info_level, do_login, do_discover, op, &drec); if (rc < 0) goto do_db_op; goto done; case DISCOVERY_TYPE_SLP: log_error("SLP discovery is not fully implemented yet."); rc = ISCSI_ERR_INVAL; goto done; case DISCOVERY_TYPE_ISNS: if (port < 0) port = ISNS_DEFAULT_PORT; rc = exec_discover(disc_type, ip, port, ifaces, info_level, do_login, do_discover, op, &drec); if (rc < 0) goto do_db_op; goto done; case DISCOVERY_TYPE_FW: if (!do_discover) { log_error("Invalid command. Possibly missing " "--discover argument."); rc = ISCSI_ERR_INVAL; goto done; } drec.type = DISCOVERY_TYPE_FW; rc = exec_fw_op(&drec, ifaces, info_level, do_login, op); goto done; default: rc = ISCSI_ERR_INVAL; if (!ip) { if (op == OP_NOOP || op == OP_SHOW) { if (idbm_print_all_discovery(info_level)) /* successfully found some recs */ rc = 0; else rc = ISCSI_ERR_NO_OBJS_FOUND; } else log_error("Invalid operation. Operation not " "supported."); } else if (op) log_error("Invalid command. Possibly missing discovery " "--type."); else log_error("Invalid command. Portal not needed or " "Possibly missing discovery --type."); goto done; } do_db_op: rc = 0; if (op == OP_NOOP || op == OP_SHOW) { if (!idbm_print_discovery_info(&drec, do_show)) { log_error("No records found"); rc = ISCSI_ERR_NO_OBJS_FOUND; } } else if (op == OP_DELETE) { rc = idbm_delete_discovery(&drec); if (rc) log_error("Unable to delete record!"); } else if (op == OP_UPDATE) { if (list_empty(params)) { log_error("Update requires name and value."); rc = ISCSI_ERR_INVAL; goto done; } rc = idbm_discovery_set_param(params, &drec); } else { log_error("Operation is not supported."); rc = ISCSI_ERR_INVAL; goto done; } done: return rc; } static int exec_disc_op(int disc_type, char *ip, int port, struct list_head *ifaces, int info_level, int do_login, int do_discover, int op, struct list_head *params, int do_show) { struct discovery_rec drec; int rc = 0; memset(&drec, 0, sizeof(struct discovery_rec)); switch (disc_type) { case DISCOVERY_TYPE_SENDTARGETS: drec.type = DISCOVERY_TYPE_SENDTARGETS; if (port < 0) port = ISCSI_LISTEN_PORT; if (ip == NULL) { log_error("Please specify portal as " "[:]"); rc = ISCSI_ERR_INVAL; goto done; } idbm_sendtargets_defaults(&drec.u.sendtargets); strlcpy(drec.address, ip, sizeof(drec.address)); drec.port = port; rc = do_target_discovery(&drec, ifaces, info_level, do_login, op, 1); if (rc) goto done; break; case DISCOVERY_TYPE_SLP: log_error("SLP discovery is not fully implemented yet."); rc = ISCSI_ERR_INVAL; break; case DISCOVERY_TYPE_ISNS: if (!ip) { log_error("Please specify portal as " ":[]"); rc = ISCSI_ERR_INVAL; goto done; } strlcpy(drec.address, ip, sizeof(drec.address)); if (port < 0) drec.port = ISNS_DEFAULT_PORT; else drec.port = port; drec.type = DISCOVERY_TYPE_ISNS; rc = do_target_discovery(&drec, ifaces, info_level, do_login, op, 0); if (rc) goto done; break; case DISCOVERY_TYPE_FW: drec.type = DISCOVERY_TYPE_FW; rc = exec_fw_op(&drec, ifaces, info_level, do_login, op); break; default: if (ip) { /* * We only have sendtargets disc recs in discovery * mode, so we can hardcode the port check to the * iscsi default here. * * For isns or slp recs then discovery db mode * must be used. */ if (port < 0) port = ISCSI_LISTEN_PORT; if (idbm_discovery_read(&drec, DISCOVERY_TYPE_SENDTARGETS, ip, port)) { log_error("Discovery record [%s,%d] " "not found!", ip, port); rc = ISCSI_ERR_INVAL; goto done; } if ((do_discover || do_login) && drec.type == DISCOVERY_TYPE_SENDTARGETS) { rc = do_target_discovery(&drec, ifaces, info_level, do_login, op, 0); } else if (op == OP_NOOP || op == OP_SHOW) { if (!idbm_print_discovery_info(&drec, do_show)) { log_error("No records found"); rc = ISCSI_ERR_NO_OBJS_FOUND; } } else if (op == OP_DELETE) { rc = idbm_delete_discovery(&drec); if (rc) log_error("Unable to delete record!"); } else if (op == OP_UPDATE || op == OP_NEW) { log_error("Operations new and update for " "discovery mode is not supported. " "Use discoverydb mode."); rc = ISCSI_ERR_INVAL; goto done; } else { log_error("Invalid operation."); rc = ISCSI_ERR_INVAL; goto done; } } else if (op == OP_NOOP || op == OP_SHOW) { if (!idbm_print_all_discovery(info_level)) rc = ISCSI_ERR_NO_OBJS_FOUND; goto done; } else { log_error("Invalid operation."); rc = ISCSI_ERR_INVAL; goto done; } /* fall through */ } done: return rc; } static uint64_t parse_host_info(char *optarg, int *rc) { int err = 0; uint64_t host_no; *rc = 0; if (strstr(optarg, ":")) { transport_probe_for_offload(); host_no = iscsi_sysfs_get_host_no_from_hwaddress(optarg, &err); if (err) { log_error("Could not match MAC to host."); *rc = ISCSI_ERR_INVAL; } } else { host_no = strtoull(optarg, NULL, 10); if (errno || (host_no > MAX_HOST_NO)) { if (host_no > MAX_HOST_NO) errno = ERANGE; log_error("Invalid host no %s. %s.", optarg, strerror(errno)); *rc = ISCSI_ERR_INVAL; } } return host_no; } static char *iscsi_ping_stat_strs[] = { /* ISCSI_PING_SUCCESS */ "success", /* ISCSI_PING_FW_DISABLED */ "firmware disabled", /* ISCSI_PING_IPADDR_INVALID */ "invalid IP address", /* ISCSI_PING_LINKLOCAL_IPV6_ADDR_INVALID */ "invalid link local IPv6 address", /* ISCSI_PING_TIMEOUT */ "timed out", /* ISCSI_PING_INVALID_DEST_ADDR */ "invalid destination address", /* ISCSI_PING_OVERSIZE_PACKET */ "oversized packet", /* ISCSI_PING_ICMP_ERROR */ "ICMP error", /* ISCSI_PING_MAX_REQ_EXCEEDED */ "Max request exceeded", /* ISCSI_PING_NO_ARP_RECEIVED */ "No ARP response received", }; static char *iscsi_ping_stat_to_str(uint32_t status) { if (status < 0 || status > ISCSI_PING_NO_ARP_RECEIVED) { log_error("Invalid ping status %u", status); return NULL; } return iscsi_ping_stat_strs[status]; } static int exec_ping_op(struct iface_rec *iface, char *ip, int size, int count, int interval) { int rc = ISCSI_ERR; uint32_t iface_type = ISCSI_IFACE_TYPE_IPV4; struct iscsi_transport *t = NULL; uint32_t host_no, status = 0; struct sockaddr_storage addr; struct host_info hinfo; int i; if (!iface) { log_error("Ping requires iface."); rc = ISCSI_ERR_INVAL; goto ping_exit; } if (!ip) { log_error("Ping requires destination ipaddress."); rc = ISCSI_ERR_INVAL; goto ping_exit; } if (size <= 0) { log_error("Invalid packet size: %d.", size); rc = ISCSI_ERR_INVAL; goto ping_exit; } if (count <= 0) { log_error("Invalid number of packets to transmit: %d.", count); rc = ISCSI_ERR_INVAL; goto ping_exit; } if (interval < 0) { log_error("Invalid timing interval: %d.", interval); rc = ISCSI_ERR_INVAL; goto ping_exit; } rc = iface_conf_read(iface); if (rc) { log_error("Could not read iface %s (%d).", iface->name, rc); goto ping_exit; } iface_type = iface_get_iptype(iface); t = iscsi_sysfs_get_transport_by_name(iface->transport_name); if (!t) { log_error("Can't find transport."); rc = ISCSI_ERR_INVAL; goto ping_exit; } host_no = iscsi_sysfs_get_host_no_from_hwinfo(iface, &rc); if (host_no == -1) { log_error("Can't find host_no."); rc = ISCSI_ERR_INVAL; goto ping_exit; } rc = resolve_address(ip, NULL, &addr); if (rc) { log_error("Invalid IP address."); rc = ISCSI_ERR_INVAL; goto ping_exit; } /* TODO: move this. It is needed by interface for pid */ srand(time(NULL)); for (i = 1; i <= count; i++) { /* * To support drivers like bnx2i that do not use * the iscsi iface to send a ping, we invoke transport * callout here. */ status = 0; if (t->template->exec_ping) { if (!strlen(iface->netdev)) { memset(&hinfo, 0, sizeof(hinfo)); hinfo.host_no = host_no; iscsi_sysfs_get_hostinfo_by_host_no(&hinfo); strcpy(iface->netdev, hinfo.iface.netdev); } rc = iscsi_set_net_config(t, NULL, iface); if (rc && (rc != ISCSI_ERR_AGAIN)) goto ping_err; rc = t->template->exec_ping(t, iface, size, &addr, &status); } else { rc = ipc->exec_ping(t->handle, host_no, (struct sockaddr *)&addr, iface->iface_num, iface_type, (uint32_t)size, &status); } ping_err: if (!rc && !status) printf("Ping %d completed\n", i); else if (status) printf("Ping %d failed: %s\n", i, iscsi_ping_stat_to_str(status)); else printf("Ping %d failed: %s\n", i, iscsi_err_to_str(rc)); if (i < count) sleep(interval); } ping_exit: return rc; } int main(int argc, char **argv) { char *ip = NULL, *name = NULL, *value = NULL; char *targetname = NULL, *group_session_mgmt_mode = NULL; int ch, longindex, mode=-1, port=-1, do_login=0, do_rescan=0; int rc=0, sid=-1, op=OP_NOOP, type=-1, do_logout=0, do_stats=0; int do_login_all=0, do_logout_all=0, info_level=-1, num_ifaces = 0; int tpgt = PORTAL_GROUP_TAG_UNKNOWN, killiscsid=-1, do_show=0; int packet_size=32, ping_count=1, ping_interval=0; int do_discover = 0, sub_mode = -1; int portal_type = -1; struct sigaction sa_old; struct sigaction sa_new; struct list_head ifaces; struct iface_rec *iface = NULL, *tmp; struct node_rec *rec = NULL; uint64_t host_no = (uint64_t)MAX_HOST_NO + 1; uint64_t index = ULLONG_MAX; struct user_param *param; struct list_head params; INIT_LIST_HEAD(¶ms); INIT_LIST_HEAD(&ifaces); /* do not allow ctrl-c for now... */ memset(&sa_old, 0, sizeof(struct sigaction)); memset(&sa_new, 0, sizeof(struct sigaction)); sa_new.sa_handler = catch_sigint; sigemptyset(&sa_new.sa_mask); sa_new.sa_flags = 0; sigaction(SIGINT, &sa_new, &sa_old ); umask(0177); /* enable stdout logging */ log_init(program_name, 1024, log_do_log_std, NULL); sysfs_init(); optopt = 0; while ((ch = getopt_long(argc, argv, short_options, long_options, &longindex)) >= 0) { switch (ch) { case 'k': killiscsid = atoi(optarg); if (killiscsid < 0) { log_error("Invalid killiscsid priority %d " "Priority must be greater than or " "equal to zero.", killiscsid); rc = ISCSI_ERR_INVAL; goto free_ifaces; } break; case 't': type = str_to_type(optarg); break; case 'o': op |= str_to_op(optarg); if (op == OP_NOOP) { log_error("can not recognize operation: '%s'", optarg); rc = ISCSI_ERR_INVAL; goto free_ifaces; } break; case 'n': name = optarg; break; case 'v': value = optarg; break; case 'H': host_no = parse_host_info(optarg, &rc); if (rc) goto free_ifaces; break; case 'r': sid = iscsi_sysfs_get_sid_from_path(optarg); if (sid < 0) { log_error("invalid sid '%s'", optarg); rc = ISCSI_ERR_INVAL; goto free_ifaces; } break; case 'R': do_rescan = 1; break; case 'P': info_level = atoi(optarg); break; case 'D': do_discover = 1; break; case 'l': do_login = 1; break; case 'u': do_logout = 1; break; case 'U': do_logout_all = 1; group_session_mgmt_mode= optarg; break; case 'L': do_login_all= 1; group_session_mgmt_mode= optarg; break; case 's': do_stats = 1; break; case 'S': do_show = 1; break; case 'd': log_level = atoi(optarg); break; case 'm': mode = str_to_mode(optarg); break; case 'C': sub_mode = str_to_submode(optarg); break; case 'T': targetname = optarg; break; case 'p': ip = str_to_ipport(optarg, &port, &tpgt); break; case 'a': ip = optarg; break; case 'b': packet_size = atoi(optarg); break; case 'c': ping_count = atoi(optarg); break; case 'i': ping_interval = atoi(optarg); break; case 'I': iface = iface_alloc(optarg, &rc); if (rc == ISCSI_ERR_INVAL) { printf("Invalid iface name %s. Must be from " "1 to %d characters.\n", optarg, ISCSI_MAX_IFACE_LEN - 1); goto free_ifaces; } else if (!iface || rc) { printf("Could not add iface %s.", optarg); rc = ISCSI_ERR_INVAL; goto free_ifaces; } list_add_tail(&iface->list, &ifaces); num_ifaces++; break; case 'V': printf("%s version %s\n", program_name, ISCSI_VERSION_STR); return 0; case 'x': index = strtoull(optarg, NULL, 10); if (errno) { log_error("Invalid index %s. %s.", optarg, strerror(errno)); rc = ISCSI_ERR_INVAL; goto free_ifaces; } break; case 'A': portal_type = str_to_portal_type(optarg); break; case 'h': usage(0); } if (name && value) { param = idbm_alloc_user_param(name, value); if (!param) { log_error("Cannot allocate memory for params."); rc = ISCSI_ERR_NOMEM; goto free_ifaces; } list_add_tail(¶m->list, ¶ms); name = NULL; value = NULL; } } if (optopt) { log_error("unrecognized character '%c'", optopt); rc = ISCSI_ERR_INVAL; goto free_ifaces; } if (killiscsid >= 0) { kill_iscsid(killiscsid); goto free_ifaces; } if (mode < 0) usage(ISCSI_ERR_INVAL); if (mode == MODE_FW) { if ((rc = verify_mode_params(argc, argv, "dml", 0))) { log_error("fw mode: option '-%c' is not " "allowed/supported", rc); rc = ISCSI_ERR_INVAL; goto free_ifaces; } rc = exec_fw_op(NULL, NULL, info_level, do_login, op); goto free_ifaces; } increase_max_files(); if (idbm_init(get_config_file)) { log_warning("exiting due to idbm configuration error"); rc = ISCSI_ERR_IDBM; goto free_ifaces; } switch (mode) { case MODE_HOST: if ((rc = verify_mode_params(argc, argv, "CHdmPotnvxA", 0))) { log_error("host mode: option '-%c' is not " "allowed/supported", rc); rc = ISCSI_ERR_INVAL; goto out; } if (sub_mode != -1) { switch (sub_mode) { case MODE_CHAP: if (!op || (host_no > MAX_HOST_NO)) { log_error("CHAP mode requires host " "no and valid operation"); rc = ISCSI_ERR_INVAL; break; } if (index == ULLONG_MAX) index = (uint64_t)MAX_CHAP_ENTRIES + 1; rc = exec_host_chap_op(op, info_level, host_no, index, ¶ms); break; case MODE_FLASHNODE: if (host_no > MAX_HOST_NO) { log_error("FLASHNODE mode requires host no"); rc = ISCSI_ERR_INVAL; break; } if (index == ULLONG_MAX) index = (uint64_t)MAX_FLASHNODE_IDX + 1; rc = exec_flashnode_op(op, info_level, host_no, index, portal_type, ¶ms); break; case MODE_HOST_STATS: if (host_no > MAX_HOST_NO) { log_error("STATS mode requires host no"); rc = ISCSI_ERR_INVAL; break; } rc = exec_host_stats_op(op, info_level, host_no); break; default: log_error("Invalid Sub Mode"); break; } } else rc = host_info_print(info_level, host_no); break; case MODE_IFACE: iface_setup_host_bindings(); if ((rc = verify_mode_params(argc, argv, "HIdnvmPoCabci", 0))) { log_error("iface mode: option '-%c' is not " "allowed/supported", rc); rc = ISCSI_ERR_INVAL; goto out; } if (!list_empty(&ifaces)) { iface = list_entry(ifaces.next, struct iface_rec, list); if (num_ifaces > 1) log_error("iface mode only accepts one " "interface. Using the first one " "%s.", iface->name); } if (sub_mode == MODE_PING) rc = exec_ping_op(iface, ip, packet_size, ping_count, ping_interval); else rc = exec_iface_op(op, do_show, info_level, iface, host_no, ¶ms); break; case MODE_DISCOVERYDB: if ((rc = verify_mode_params(argc, argv, "DSIPdmntplov", 0))) { log_error("discovery mode: option '-%c' is not " "allowed/supported", rc); rc = ISCSI_ERR_INVAL; goto out; } rc = exec_disc2_op(type, ip, port, &ifaces, info_level, do_login, do_discover, op, ¶ms, do_show); break; case MODE_DISCOVERY: if ((rc = verify_mode_params(argc, argv, "DSIPdmntplov", 0))) { log_error("discovery mode: option '-%c' is not " "allowed/supported", rc); rc = ISCSI_ERR_INVAL; goto out; } rc = exec_disc_op(type, ip, port, &ifaces, info_level, do_login, do_discover, op, ¶ms, do_show); break; case MODE_NODE: if ((rc = verify_mode_params(argc, argv, "RsPIdmlSonvupTUL", 0))) { log_error("node mode: option '-%c' is not " "allowed/supported", rc); rc = ISCSI_ERR_INVAL; goto out; } if (do_login_all) { rc = login_by_startup(group_session_mgmt_mode); goto out; } if (do_logout_all) { rc = logout_by_startup(group_session_mgmt_mode); goto out; } if (!list_empty(&ifaces)) { iface = list_entry(ifaces.next, struct iface_rec, list); if (num_ifaces > 1) log_error("NODE mode only accepts one " "interface. Using the first one " "driver %s hwaddress %s ipaddress " "%s.", iface->transport_name, iface->hwaddress, iface->ipaddress); } if (ip && port == -1) port = ISCSI_LISTEN_PORT; rec = idbm_create_rec(targetname, tpgt, ip, port, iface, 1); if (!rec) { rc = ISCSI_ERR_NOMEM; goto out; } rc = exec_node_op(op, do_login, do_logout, do_show, do_rescan, do_stats, info_level, rec, ¶ms); break; case MODE_SESSION: if ((rc = verify_mode_params(argc, argv, "PiRdrmusonuSv", 1))) { log_error("session mode: option '-%c' is not " "allowed or supported", rc); rc = ISCSI_ERR_INVAL; goto out; } if (sid >= 0) { char session[64]; struct session_info *info; snprintf(session, 63, "session%d", sid); session[63] = '\0'; info = calloc(1, sizeof(*info)); if (!info) { rc = ISCSI_ERR_NOMEM; goto out; } rc = iscsi_sysfs_get_sessioninfo_by_id(info, session); if (rc) { log_error("Could not get session info for sid " "%d", sid); goto free_info; } /* * We should be able to go on, but for now * we only support session mode ops if the module * is loaded and we support that module. */ if (!iscsi_sysfs_get_transport_by_sid(sid)) goto free_info; if (!do_logout && !do_rescan && !do_stats && op == OP_NOOP && info_level > 0) { rc = session_info_print(info_level, info, do_show); goto free_info; } rec = idbm_create_rec(info->targetname, info->tpgt, info->persistent_address, info->persistent_port, &info->iface, 1); if (!rec) { rc = ISCSI_ERR_NOMEM; goto free_info; } rec->session.info = info; rec->session.sid = sid; /* * A "new" session means to login a multiple of the * currently-detected session. */ if (op == OP_NEW) { op = OP_NOOP; do_login = 1; rec->session.multiple = 1; } /* drop down to node ops */ rc = exec_node_op(op, do_login, do_logout, do_show, do_rescan, do_stats, info_level, rec, ¶ms); free_info: free(info); goto out; } else { if (op == OP_NEW) { log_error("session mode: Operation 'new' only " "allowed with specific session IDs"); rc = ISCSI_ERR_INVAL; goto out; } if (do_logout || do_rescan || do_stats) { rc = exec_node_op(op, do_login, do_logout, do_show, do_rescan, do_stats, info_level, NULL, ¶ms); goto out; } rc = session_info_print(info_level, NULL, do_show); } break; default: log_error("This mode is not yet supported"); /* fall through */ } out: if (rec) free(rec); idbm_terminate(); free_ifaces: list_for_each_entry_safe(iface, tmp, &ifaces, list) { list_del(&iface->list); free(iface); } free_transports(); sysfs_cleanup(); return rc; } open-iscsi-2.0.874/usr/iscsid.c000066400000000000000000000360321277325716400162220ustar00rootroot00000000000000/* * iSCSI Initiator Daemon * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "iscsid.h" #include "mgmt_ipc.h" #include "event_poll.h" #include "iscsi_ipc.h" #include "log.h" #include "iscsi_util.h" #include "initiator.h" #include "transport.h" #include "idbm.h" #include "version.h" #include "iscsi_sysfs.h" #include "iface.h" #include "session_info.h" #include "sysdeps.h" #include "discoveryd.h" #include "iscsid_req.h" #include "iscsi_err.h" /* global config info */ struct iscsi_daemon_config daemon_config; struct iscsi_daemon_config *dconfig = &daemon_config; static char program_name[] = "iscsid"; static pid_t log_pid; static gid_t gid; static int daemonize = 1; static int mgmt_ipc_fd; static struct option const long_options[] = { {"config", required_argument, NULL, 'c'}, {"initiatorname", required_argument, NULL, 'i'}, {"foreground", no_argument, NULL, 'f'}, {"debug", required_argument, NULL, 'd'}, {"uid", required_argument, NULL, 'u'}, {"gid", required_argument, NULL, 'g'}, {"no-pid-file", no_argument, NULL, 'n'}, {"pid", required_argument, NULL, 'p'}, {"help", no_argument, NULL, 'h'}, {"version", no_argument, NULL, 'v'}, {NULL, 0, NULL, 0}, }; static void usage(int status) { if (status != 0) fprintf(stderr, "Try `%s --help' for more information.\n", program_name); else { printf("Usage: %s [OPTION]\n", program_name); printf("\ Open-iSCSI initiator daemon.\n\ -c, --config=[path] Execute in the config file (" CONFIG_FILE ").\n\ -i, --initiatorname=[path] read initiatorname from file (" INITIATOR_NAME_FILE ").\n\ -f, --foreground make the program run in the foreground\n\ -d, --debug debuglevel print debugging information\n\ -u, --uid=uid run as uid, default is current user\n\ -g, --gid=gid run as gid, default is current user group\n\ -n, --no-pid-file do not use a pid file\n\ -p, --pid=pidfile use pid file (default " PID_FILE ").\n\ -h, --help display this help and exit\n\ -v, --version display version and exit\n\ "); } exit(status); } static void setup_rec_from_negotiated_values(node_rec_t *rec, struct session_info *info) { struct iscsi_session_operational_config session_conf; struct iscsi_conn_operational_config conn_conf; struct iscsi_auth_config auth_conf; idbm_node_setup_from_conf(rec); strlcpy(rec->name, info->targetname, TARGET_NAME_MAXLEN); rec->conn[0].port = info->persistent_port; strlcpy(rec->conn[0].address, info->persistent_address, NI_MAXHOST); rec->tpgt = info->tpgt; iscsi_sysfs_get_negotiated_session_conf(info->sid, &session_conf); iscsi_sysfs_get_negotiated_conn_conf(info->sid, &conn_conf); iscsi_sysfs_get_auth_conf(info->sid, &auth_conf); if (strlen(auth_conf.username)) strcpy(rec->session.auth.username, auth_conf.username); if (strlen(auth_conf.username_in)) strcpy(rec->session.auth.username_in, auth_conf.username_in); if (strlen((char *)auth_conf.password)) { strcpy((char *)rec->session.auth.password, (char *)auth_conf.password); rec->session.auth.password_length = auth_conf.password_length; } if (strlen((char *)auth_conf.password_in)) { strcpy((char *)rec->session.auth.password_in, (char *)auth_conf.password_in); rec->session.auth.password_in_length = auth_conf.password_in_length; } if (is_valid_operational_value(conn_conf.HeaderDigest)) { if (conn_conf.HeaderDigest) rec->conn[0].iscsi.HeaderDigest = CONFIG_DIGEST_PREFER_ON; else rec->conn[0].iscsi.HeaderDigest = CONFIG_DIGEST_PREFER_OFF; } if (is_valid_operational_value(conn_conf.DataDigest)) { if (conn_conf.DataDigest) rec->conn[0].iscsi.DataDigest = CONFIG_DIGEST_PREFER_ON; else rec->conn[0].iscsi.DataDigest = CONFIG_DIGEST_PREFER_OFF; } if (is_valid_operational_value(conn_conf.MaxRecvDataSegmentLength)) rec->conn[0].iscsi.MaxRecvDataSegmentLength = conn_conf.MaxRecvDataSegmentLength; if (is_valid_operational_value(conn_conf.MaxXmitDataSegmentLength)) rec->conn[0].iscsi.MaxXmitDataSegmentLength = conn_conf.MaxXmitDataSegmentLength; if (is_valid_operational_value(session_conf.FirstBurstLength)) rec->session.iscsi.FirstBurstLength = session_conf.FirstBurstLength; if (is_valid_operational_value(session_conf.MaxBurstLength)) rec->session.iscsi.MaxBurstLength = session_conf.MaxBurstLength; if (is_valid_operational_value(session_conf.ImmediateData)) { if (session_conf.ImmediateData) rec->session.iscsi.ImmediateData = 1; else rec->session.iscsi.ImmediateData = 0; } if (is_valid_operational_value(session_conf.InitialR2T)) { if (session_conf.InitialR2T) rec->session.iscsi.InitialR2T = 0; else rec->session.iscsi.InitialR2T = 1; } } static int sync_session(void *data, struct session_info *info) { node_rec_t rec, sysfsrec; iscsiadm_req_t req; iscsiadm_rsp_t rsp; struct iscsi_transport *t; int rc, retries = 0; log_debug(7, "sync session [%d][%s,%s.%d][%s]", info->sid, info->targetname, info->persistent_address, info->port, info->iface.hwaddress); t = iscsi_sysfs_get_transport_by_sid(info->sid); if (!t) return 0; /* * Just rescan the device in case this is the first startup. * (TODO: should do this async and check for state). */ if (t->caps & CAP_FW_DB) { uint32_t host_no; int err; host_no = iscsi_sysfs_get_host_no_from_sid(info->sid, &err); if (err) { log_error("Could not get host no from sid %u. Can not " "sync session: %s", info->sid, iscsi_err_to_str(err)); return 0; } iscsi_sysfs_scan_host(host_no, 0); return 0; } if (!iscsi_sysfs_session_user_created(info->sid)) return 0; memset(&rec, 0, sizeof(node_rec_t)); /* * We might get the local ip address for software. We do not * want to try and bind a session by ip though. */ if (!t->template->set_host_ip) memset(info->iface.ipaddress, 0, sizeof(info->iface.ipaddress)); if (idbm_rec_read(&rec, info->targetname, info->tpgt, info->persistent_address, info->persistent_port, &info->iface)) { log_warning("Could not read data from db. Using default and " "currently negotiated values"); setup_rec_from_negotiated_values(&rec, info); iface_copy(&rec.iface, &info->iface); } else { /* * we have a valid record and iface so lets merge * the values from them and sysfs to try and get * the most uptodate values. * * Currenlty that means we will use the CHAP, target, portal * and iface values from sysfs and use timer, queue depth, * and segment length values from the record. */ memset(&sysfsrec, 0, sizeof(node_rec_t)); setup_rec_from_negotiated_values(&sysfsrec, info); /* * target, portal and iface values have to be the same * or we would not have found the record, so just copy * CHAP settings. */ memcpy(&rec.session.auth, &sysfsrec.session.auth, sizeof(struct iscsi_auth_config)); } /* multiple drivers could be connected to the same portal */ if (!iscsi_match_session(&rec, info)) return -1; /* * We use the initiator name from sysfs because * the session could have come from our db or ibft or some other * app. */ strcpy(rec.iface.iname, info->iface.iname); memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_SESSION_SYNC; req.u.session.sid = info->sid; memcpy(&req.u.session.rec, &rec, sizeof(node_rec_t)); retry: rc = iscsid_exec_req(&req, &rsp, 0); if (rc == ISCSI_ERR_ISCSID_NOTCONN && retries < 30) { retries++; sleep(1); goto retry; } return 0; } static char *iscsid_get_config_file(void) { return daemon_config.config_file; } static void iscsid_shutdown(void) { pid_t pid; killpg(gid, SIGTERM); while ((pid = waitpid(0, NULL, 0) > 0)) log_debug(7, "cleaned up pid %d", pid); log_warning("iscsid shutting down."); if (daemonize && log_pid >= 0) { log_debug(1, "daemon stopping"); log_close(log_pid); } } static void catch_signal(int signo) { log_debug(1, "pid %d caught signal %d", getpid(), signo); /* In foreground mode, treat SIGINT like SIGTERM */ if (!daemonize && signo == SIGINT) signo = SIGTERM; switch (signo) { case SIGTERM: iscsid_shutdown(); exit(0); break; default: break; } } static void missing_iname_warn(char *initiatorname_file) { log_error("Warning: InitiatorName file %s does not exist or does not " "contain a properly formatted InitiatorName. If using " "software iscsi (iscsi_tcp or ib_iser) or partial offload " "(bnx2i or cxgbi iscsi), you may not be able to log " "into or discover targets. Please create a file %s that " "contains a sting with the format: InitiatorName=" "iqn.yyyy-mm.[:identifier].\n\n" "Example: InitiatorName=iqn.2001-04.com.redhat:fc6.\n" "If using hardware iscsi like qla4xxx this message can be " "ignored.", initiatorname_file, initiatorname_file); } int main(int argc, char *argv[]) { struct utsname host_info; /* will use to compound initiator alias */ char *config_file = CONFIG_FILE; char *initiatorname_file = INITIATOR_NAME_FILE; char *pid_file = PID_FILE; char *safe_logout; int ch, longindex; uid_t uid = 0; struct sigaction sa_old; struct sigaction sa_new; int control_fd; pid_t pid; while ((ch = getopt_long(argc, argv, "c:i:fd:nu:g:p:vh", long_options, &longindex)) >= 0) { switch (ch) { case 'c': config_file = optarg; break; case 'i': initiatorname_file = optarg; break; case 'f': daemonize = 0; break; case 'd': log_level = atoi(optarg); break; case 'u': uid = strtoul(optarg, NULL, 10); break; case 'g': gid = strtoul(optarg, NULL, 10); break; case 'n': pid_file = NULL; break; case 'p': pid_file = optarg; break; case 'v': printf("%s version %s\n", program_name, ISCSI_VERSION_STR); exit(0); case 'h': usage(0); break; default: usage(1); break; } } /* initialize logger */ log_pid = log_init(program_name, DEFAULT_AREA_SIZE, daemonize ? log_do_log_daemon : log_do_log_std, NULL); if (log_pid < 0) exit(ISCSI_ERR); /* do not allow ctrl-c for now... */ sa_new.sa_handler = catch_signal; sigemptyset(&sa_new.sa_mask); sa_new.sa_flags = 0; sigaction(SIGINT, &sa_new, &sa_old ); sigaction(SIGPIPE, &sa_new, &sa_old ); sigaction(SIGTERM, &sa_new, &sa_old ); sysfs_init(); if (idbm_init(iscsid_get_config_file)) { log_close(log_pid); exit(ISCSI_ERR); } umask(0177); mgmt_ipc_fd = -1; control_fd = -1; daemon_config.initiator_name = NULL; daemon_config.initiator_alias = NULL; if ((mgmt_ipc_fd = mgmt_ipc_listen()) < 0) { log_close(log_pid); exit(ISCSI_ERR); } if (daemonize) { char buf[64]; int fd = -1; if (pid_file) { fd = open(pid_file, O_WRONLY|O_CREAT, 0644); if (fd < 0) { log_error("Unable to create pid file"); log_close(log_pid); exit(ISCSI_ERR); } } pid = fork(); if (pid < 0) { log_error("Starting daemon failed"); log_close(log_pid); exit(ISCSI_ERR); } else if (pid) { log_error("iSCSI daemon with pid=%d started!", pid); exit(0); } if ((control_fd = ipc->ctldev_open()) < 0) { log_close(log_pid); exit(ISCSI_ERR); } if (chdir("/") < 0) log_debug(1, "Unable to chdir to /"); if (fd > 0) { if (lockf(fd, F_TLOCK, 0) < 0) { log_error("Unable to lock pid file"); log_close(log_pid); exit(ISCSI_ERR); } if (ftruncate(fd, 0) < 0) { log_error("Unable to truncate pid file"); log_close(log_pid); exit(ISCSI_ERR); } sprintf(buf, "%d\n", getpid()); if (write(fd, buf, strlen(buf)) < 0) { log_error("Unable to write pid file"); log_close(log_pid); exit(ISCSI_ERR); } } daemon_init(); } else { if ((control_fd = ipc->ctldev_open()) < 0) { log_close(log_pid); exit(1); } } if (gid && setgid(gid) < 0) { log_error("Unable to setgid to %d", gid); log_close(log_pid); exit(ISCSI_ERR); } if ((geteuid() == 0) && (getgroups(0, NULL))) { if (setgroups(0, NULL) != 0) { log_error("Unable to drop supplementary group ids"); log_close(log_pid); exit(ISCSI_ERR); } } if (uid && setuid(uid) < 0) { log_error("Unable to setuid to %d", uid); log_close(log_pid); exit(ISCSI_ERR); } memset(&daemon_config, 0, sizeof (daemon_config)); daemon_config.pid_file = pid_file; daemon_config.config_file = config_file; daemon_config.initiator_name = cfg_get_string_param(initiatorname_file, "InitiatorName"); if (daemon_config.initiator_name == NULL) missing_iname_warn(initiatorname_file); /* optional InitiatorAlias */ daemon_config.initiator_alias = cfg_get_string_param(initiatorname_file, "InitiatorAlias"); if (!daemon_config.initiator_alias) { memset(&host_info, 0, sizeof (host_info)); if (uname(&host_info) >= 0) { daemon_config.initiator_alias = strdup(host_info.nodename); } } log_debug(1, "InitiatorName=%s", daemon_config.initiator_name ? daemon_config.initiator_name : "NOT SET"); log_debug(1, "InitiatorAlias=%s", daemon_config.initiator_alias); safe_logout = cfg_get_string_param(config_file, "iscsid.safe_logout"); if (safe_logout && !strcmp(safe_logout, "Yes")) daemon_config.safe_logout = 1; free(safe_logout); pid = fork(); if (pid == 0) { int nr_found = 0; /* child */ /* TODO - test with async support enabled */ iscsi_sysfs_for_each_session(NULL, &nr_found, sync_session, 0); exit(0); } else if (pid < 0) { log_error("Fork failed error %d: existing sessions" " will not be synced", errno); } else reap_inc(); iscsi_initiator_init(); increase_max_files(); discoveryd_start(daemon_config.initiator_name); /* oom-killer will not kill us at the night... */ if (oom_adjust()) log_debug(1, "can not adjust oom-killer's pardon"); /* we don't want our active sessions to be paged out... */ if (mlockall(MCL_CURRENT | MCL_FUTURE)) { log_error("failed to mlockall, exiting..."); log_close(log_pid); exit(ISCSI_ERR); } event_loop(ipc, control_fd, mgmt_ipc_fd); idbm_terminate(); sysfs_cleanup(); ipc->ctldev_close(); mgmt_ipc_close(mgmt_ipc_fd); if (daemon_config.initiator_name) free(daemon_config.initiator_name); if (daemon_config.initiator_alias) free(daemon_config.initiator_alias); free_initiator(); iscsid_shutdown(); return 0; } open-iscsi-2.0.874/usr/iscsid.h000066400000000000000000000020001277325716400162130ustar00rootroot00000000000000/* * iSCSI Initiator Daemon * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSID_H #define ISCSID_H /* IPC API */ extern struct iscsi_ipc *ipc; /* iscsid.c: daemon config */ struct iscsi_daemon_config { char *config_file; char *pid_file; char *initiator_name; char *initiator_alias; int safe_logout; }; extern struct iscsi_daemon_config *dconfig; #endif /* ISCSID_H */ open-iscsi-2.0.874/usr/iscsid_req.c000066400000000000000000000155271277325716400170770ustar00rootroot00000000000000/* * iscsid communication helpers * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 - 2010 Mike Christie * Copyright (C) 2006 - 2010 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include "initiator.h" #include "log.h" #include "mgmt_ipc.h" #include "iscsi_util.h" #include "config.h" #include "iscsi_err.h" #include "uip_mgmt_ipc.h" static void iscsid_startup(void) { char *startup_cmd; startup_cmd = cfg_get_string_param(CONFIG_FILE, "iscsid.startup"); if (!startup_cmd) { log_error("iscsid is not running. Could not start it up " "automatically using the startup command in the " "/etc/iscsi/iscsid.conf iscsid.startup setting. " "Please check that the file exists or that your " "init scripts have started iscsid."); return; } if (system(startup_cmd) < 0) log_error("Could not execute '%s' (err %d)", startup_cmd, errno); } #define MAXSLEEP 128 static int ipc_connect(int *fd, char *unix_sock_name, int start_iscsid) { int nsec, addr_len; struct sockaddr_un addr; *fd = socket(AF_LOCAL, SOCK_STREAM, 0); if (*fd < 0) { log_error("can not create IPC socket (%d)!", errno); return ISCSI_ERR_ISCSID_NOTCONN; } addr_len = setup_abstract_addr(&addr, unix_sock_name); /* * Trying to connect with exponential backoff */ for (nsec = 1; nsec <= MAXSLEEP; nsec <<= 1) { if (connect(*fd, (struct sockaddr *) &addr, addr_len) == 0) /* Connection established */ return ISCSI_SUCCESS; /* If iscsid isn't there, there's no sense * in retrying. */ if (errno == ECONNREFUSED) { if (start_iscsid && nsec == 1) iscsid_startup(); else break; } /* * Delay before trying again */ if (nsec <= MAXSLEEP/2) sleep(nsec); } log_error("can not connect to iSCSI daemon (%d)!", errno); return ISCSI_ERR_ISCSID_NOTCONN; } static int iscsid_connect(int *fd, int start_iscsid) { return ipc_connect(fd, ISCSIADM_NAMESPACE, start_iscsid); } int iscsid_request(int *fd, iscsiadm_req_t *req, int start_iscsid) { int err; err = iscsid_connect(fd, start_iscsid); if (err) return err; if ((err = write(*fd, req, sizeof(*req))) != sizeof(*req)) { log_error("got write error (%d/%d) on cmd %d, daemon died?", err, errno, req->command); close(*fd); return ISCSI_ERR_ISCSID_COMM_ERR; } return ISCSI_SUCCESS; } int iscsid_response(int fd, iscsiadm_cmd_e cmd, iscsiadm_rsp_t *rsp) { int iscsi_err; int err; if ((err = recv(fd, rsp, sizeof(*rsp), MSG_WAITALL)) != sizeof(*rsp)) { log_error("got read error (%d/%d), daemon died?", err, errno); iscsi_err = ISCSI_ERR_ISCSID_COMM_ERR; } else iscsi_err = rsp->err; close(fd); if (!iscsi_err && cmd != rsp->command) iscsi_err = ISCSI_ERR_ISCSID_COMM_ERR; return iscsi_err; } int iscsid_exec_req(iscsiadm_req_t *req, iscsiadm_rsp_t *rsp, int start_iscsid) { int fd; int err; err = iscsid_request(&fd, req, start_iscsid); if (err) return err; return iscsid_response(fd, req->command, rsp); } int iscsid_req_wait(iscsiadm_cmd_e cmd, int fd) { iscsiadm_rsp_t rsp; memset(&rsp, 0, sizeof(iscsiadm_rsp_t)); return iscsid_response(fd, cmd, &rsp); } int iscsid_req_by_rec_async(iscsiadm_cmd_e cmd, node_rec_t *rec, int *fd) { iscsiadm_req_t req; memset(&req, 0, sizeof(iscsiadm_req_t)); req.command = cmd; memcpy(&req.u.session.rec, rec, sizeof(node_rec_t)); return iscsid_request(fd, &req, 1); } int iscsid_req_by_rec(iscsiadm_cmd_e cmd, node_rec_t *rec) { int err, fd; err = iscsid_req_by_rec_async(cmd, rec, &fd); if (err) return err; return iscsid_req_wait(cmd, fd); } int iscsid_req_by_sid_async(iscsiadm_cmd_e cmd, int sid, int *fd) { iscsiadm_req_t req; memset(&req, 0, sizeof(iscsiadm_req_t)); req.command = cmd; req.u.session.sid = sid; return iscsid_request(fd, &req, 1); } int iscsid_req_by_sid(iscsiadm_cmd_e cmd, int sid) { int err, fd; err = iscsid_req_by_sid_async(cmd, sid, &fd); if (err) return err; return iscsid_req_wait(cmd, fd); } static int uip_connect(int *fd) { return ipc_connect(fd, ISCSID_UIP_NAMESPACE, 0); } int uip_broadcast(void *buf, size_t buf_len, int fd_flags, uint32_t *status) { int err; int fd; iscsid_uip_rsp_t rsp; int flags; int count; err = uip_connect(&fd); if (err) { log_warning("uIP daemon is not up"); return err; } log_debug(3, "connected to uIP daemon"); /* Send the data to uIP */ err = write(fd, buf, buf_len); if (err != buf_len) { log_error("got write error (%d/%d), daemon died?", err, errno); close(fd); return ISCSI_ERR_ISCSID_COMM_ERR; } log_debug(3, "send iface config to uIP daemon"); /* Set the socket to a non-blocking read, this way if there are * problems waiting for uIP, iscsid can bailout early */ flags = fcntl(fd, F_GETFL, 0); if (flags == -1) flags = 0; if (fd_flags) flags |= fd_flags; err = fcntl(fd, F_SETFL, flags); if (err) { log_error("could not set uip broadcast to non-blocking: %d", errno); close(fd); return ISCSI_ERR; } #define MAX_UIP_BROADCAST_READ_TRIES 5 for (count = 0; count < MAX_UIP_BROADCAST_READ_TRIES; count++) { /* Wait for the response */ err = read(fd, &rsp, sizeof(rsp)); if (err == sizeof(rsp)) { log_debug(3, "Broadcasted to uIP with length: %ld " "cmd: 0x%x rsp: 0x%x", buf_len, rsp.command, rsp.err); err = 0; break; } else if ((err == -1) && (errno == EAGAIN)) { usleep(1000000); continue; } else { log_error("Could not read response (%d/%d), daemon " "died?", err, errno); err = ISCSI_ERR; break; } } if (count == MAX_UIP_BROADCAST_READ_TRIES) { log_error("Could not broadcast to uIP after %d tries", count); err = ISCSI_ERR_AGAIN; } if (err) goto done; switch (rsp.command) { case ISCSID_UIP_IPC_GET_IFACE: if (rsp.err != ISCSID_UIP_MGMT_IPC_DEVICE_UP) { log_debug(3, "Device is not ready\n"); err = ISCSI_ERR_AGAIN; } break; case ISCSID_UIP_IPC_PING: *status = rsp.ping_sc; if (rsp.err == ISCSID_UIP_MGMT_IPC_DEVICE_INITIALIZING) { log_debug(3, "Device is not ready\n"); err = ISCSI_ERR_AGAIN; } else if (*status) { err = ISCSI_ERR; } break; default: err = ISCSI_ERR; } done: close(fd); return err; } open-iscsi-2.0.874/usr/iscsid_req.h000066400000000000000000000025201277325716400170710ustar00rootroot00000000000000/* * iscsid communication helpers * * Copyright (C) 2010 Mike Christie * Copyright (C) 2010 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef ISCSID_REQ_H_ #define ISCSID_REQ_H struct iscsiadm_req; struct iscsiadm_rsp; struct node_rec; extern int iscsid_exec_req(struct iscsiadm_req *req, struct iscsiadm_rsp *rsp, int iscsid_start); extern int iscsid_req_wait(int cmd, int fd); extern int iscsid_req_by_rec_async(int cmd, struct node_rec *rec, int *fd); extern int iscsid_req_by_rec(int cmd, struct node_rec *rec); extern int iscsid_req_by_sid_async(int cmd, int sid, int *fd); extern int iscsid_req_by_sid(int cmd, int sid); extern int uip_broadcast(void *buf, size_t buf_len, int fd_flags, uint32_t *status); #endif open-iscsi-2.0.874/usr/iscsistart.c000066400000000000000000000332601277325716400171340ustar00rootroot00000000000000/* * iSCSI Root Boot Program based on daemon code * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "initiator.h" #include "iscsi_ipc.h" #include "event_poll.h" #include "transport.h" #include "log.h" #include "iscsi_util.h" #include "idbm.h" #include "idbm_fields.h" #include "version.h" #include "iscsi_sysfs.h" #include "iscsi_settings.h" #include "fw_context.h" #include "iface.h" #include "sysdeps.h" #include "iscsid_req.h" #include "iscsi_err.h" #include "iface.h" /* global config info */ /* initiator needs initiator name/alias */ struct iscsi_daemon_config daemon_config; struct iscsi_daemon_config *dconfig = &daemon_config; static node_rec_t config_rec; static LIST_HEAD(targets); static LIST_HEAD(user_params); static char program_name[] = "iscsistart"; /* used by initiator */ extern struct iscsi_ipc *ipc; static struct option const long_options[] = { {"initiatorname", required_argument, NULL, 'i'}, {"targetname", required_argument, NULL, 't'}, {"tgpt", required_argument, NULL, 'g'}, {"address", required_argument, NULL, 'a'}, {"port", required_argument, NULL, 'p'}, {"username", required_argument, NULL, 'u'}, {"password", required_argument, NULL, 'w'}, {"username_in", required_argument, NULL, 'U'}, {"password_in", required_argument, NULL, 'W'}, {"debug", required_argument, NULL, 'd'}, {"fwparam_connect", no_argument, NULL, 'b'}, {"fwparam_network", no_argument, NULL, 'N'}, {"fwparam_print", no_argument, NULL, 'f'}, {"param", required_argument, NULL, 'P'}, {"help", no_argument, NULL, 'h'}, {"version", no_argument, NULL, 'v'}, {NULL, 0, NULL, 0}, }; static void usage(int status) { if (status != 0) fprintf(stderr, "Try `%s --help' for more information.\n", program_name); else { printf("Usage: %s [OPTION]\n", program_name); printf("\ Open-iSCSI initiator.\n\ -i, --initiatorname=name set InitiatorName to name (Required)\n\ -t, --targetname=name set TargetName to name (Required)\n\ -g, --tgpt=N set target portal group tag to N (Required)\n\ -a, --address=A.B.C.D set IP address to A.B.C.D (Required)\n\ -p, --port=N set port to N (Default 3260)\n\ -u, --username=N set username to N (optional)\n\ -w, --password=N set password to N (optional\n\ -U, --username_in=N set incoming username to N (optional)\n\ -W, --password_in=N set incoming password to N (optional)\n\ -d, --debug=debuglevel print debugging information \n\ -b, --fwparam_connect create a session to the target using iBFT or OF\n\ -N, --fwparam_network bring up the network as specified by iBFT or OF\n\ -f, --fwparam_print print the iBFT or OF info to STDOUT \n\ -P, --param=NAME=VALUE set parameter with the name NAME to VALUE\n\ -h, --help display this help and exit\n\ -v, --version display version and exit\n\ "); } exit(status); } static int stop_event_loop(void) { iscsiadm_req_t req; iscsiadm_rsp_t rsp; int rc; memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_IMMEDIATE_STOP; rc = iscsid_exec_req(&req, &rsp, 0); if (rc) { iscsi_err_print_msg(rc); log_error("Could not stop event_loop"); } return rc; } static int apply_params(struct node_rec *rec) { struct user_param *param; int rc; /* Must init this so we can check if user overrode them */ rec->session.initial_login_retry_max = -1; rec->conn[0].timeo.noop_out_interval = -1; rec->conn[0].timeo.noop_out_timeout = -1; list_for_each_entry(param, &user_params, list) { /* * user may not have passed in all params that were set by * ibft/iscsi_boot, so clear out values that might conflict * with user overrides */ if (!strcmp(param->name, IFACE_NETNAME)) { /* overriding netname so MAC will be for old netdev */ memset(rec->iface.hwaddress, 0, sizeof(rec->iface.hwaddress)); } else if (!strcmp(param->name, IFACE_HWADDR)) { /* overriding MAC so netdev will be for old MAC */ memset(rec->iface.netdev, 0, sizeof(rec->iface.netdev)); } else if (!strcmp(param->name, IFACE_TRANSPORTNAME)) { /* * switching drivers so all old binding info is no * longer valid. Old values were either for offload * and we are switching to software or the reverse, * or switching types of cards (bnx2i to cxgb3i). */ memset(&rec->iface, 0, sizeof(rec->iface)); iface_setup_defaults(&rec->iface); } } rc = idbm_node_set_rec_from_param(&user_params, rec, 0); if (rc) return rc; /* * For root boot we could not change this in older versions so * if user did not override then use the defaults. * * Increase to account for boot using static setup. */ if (rec->session.initial_login_retry_max == -1) rec->session.initial_login_retry_max = 30; /* we used to not be able to answer so turn off */ if (rec->conn[0].timeo.noop_out_interval == -1) rec->conn[0].timeo.noop_out_interval = 0; if (rec->conn[0].timeo.noop_out_timeout == -1) rec->conn[0].timeo.noop_out_timeout = 0; return 0; } static int parse_param(char *param_str) { struct user_param *param; char *name, *value; name = param_str; value = strchr(param_str, '='); if (!value) { log_error("Invalid --param %s. Missing value.", param_str); return ISCSI_ERR_INVAL; } *value = '\0'; value++; if (!strlen(value)) { log_error("Invalid --param %s. Missing value.", param_str); return ISCSI_ERR_INVAL; } param = idbm_alloc_user_param(name, value); if (!param) { log_error("Could not allocate memory for param."); return ISCSI_ERR_NOMEM; } list_add(¶m->list, &user_params); return 0; } static int login_session(struct node_rec *rec) { iscsiadm_req_t req; iscsiadm_rsp_t rsp; int rc, retries = 0; rc = apply_params(rec); if (rc) return rc; printf("%s: Logging into %s %s:%d,%d\n", program_name, rec->name, rec->conn[0].address, rec->conn[0].port, rec->tpgt); memset(&req, 0, sizeof(req)); req.command = MGMT_IPC_SESSION_LOGIN; memcpy(&req.u.session.rec, rec, sizeof(*rec)); retry: rc = iscsid_exec_req(&req, &rsp, 0); /* * handle race where iscsid proc is starting up while we are * trying to connect. */ if (rc == ISCSI_ERR_ISCSID_NOTCONN && retries < 30) { retries++; sleep(1); goto retry; } else if (rc) iscsi_err_print_msg(rc); return rc; } static int setup_session(void) { struct boot_context *context; int rc = 0, rc2 = 0; if (list_empty(&targets)) return login_session(&config_rec); list_for_each_entry(context, &targets, list) { struct node_rec *rec; rec = idbm_create_rec_from_boot_context(context); if (!rec) { log_error("Could not allocate memory. Could " "not start boot session to " "%s,%s,%d", context->targetname, context->target_ipaddr, context->target_port); continue; } rc2 = login_session(rec); if (rc2) rc = rc2; free(rec); } fw_free_targets(&targets); return rc; } int session_in_use(int sid) { return 0; } static void catch_signal(int signo) { log_warning("pid %d caught signal -%d", getpid(), signo); } static int check_params(char *initiatorname) { if (!initiatorname) { log_error("InitiatorName not set. Exiting %s", program_name); return EINVAL; } if (config_rec.tpgt == PORTAL_GROUP_TAG_UNKNOWN) { log_error("Portal Group not set. Exiting %s", program_name); return EINVAL; } if (!strlen(config_rec.name)) { log_error("TargetName not set. Exiting %s", program_name); return EINVAL; } if (!strlen(config_rec.conn[0].address)) { log_error("IP Address not set. Exiting %s", program_name); return EINVAL; } return 0; } #define check_str_param_len(str, max_len, param) \ do { \ if (strlen(str) > max_len) { \ printf("%s: invalid %s %s. Max %s length is %d.\n", \ program_name, param, str, param, max_len); \ exit(ISCSI_ERR_INVAL); \ } \ } while (0); int main(int argc, char *argv[]) { struct utsname host_info; /* will use to compound initiator alias */ struct iscsi_auth_config *auth; char *initiatorname = NULL; int ch, longindex, ret; struct boot_context *context, boot_context; struct sigaction sa_old; struct sigaction sa_new; int control_fd, mgmt_ipc_fd, err; pid_t pid; idbm_node_setup_defaults(&config_rec); config_rec.name[0] = '\0'; config_rec.conn[0].address[0] = '\0'; auth = &config_rec.session.auth; /* do not allow ctrl-c for now... */ sa_new.sa_handler = catch_signal; sigemptyset(&sa_new.sa_mask); sa_new.sa_flags = 0; sigaction(SIGINT, &sa_new, &sa_old ); /* initialize logger */ log_init(program_name, DEFAULT_AREA_SIZE, log_do_log_std, NULL); sysfs_init(); while ((ch = getopt_long(argc, argv, "P:i:t:g:a:p:d:u:w:U:W:bNfvh", long_options, &longindex)) >= 0) { switch (ch) { case 'i': initiatorname = optarg; break; case 't': check_str_param_len(optarg, TARGET_NAME_MAXLEN, "targetname"); strlcpy(config_rec.name, optarg, TARGET_NAME_MAXLEN); break; case 'g': config_rec.tpgt = atoi(optarg); break; case 'a': check_str_param_len(optarg, NI_MAXHOST, "address"); strlcpy(config_rec.conn[0].address, optarg, NI_MAXHOST); break; case 'p': config_rec.conn[0].port = atoi(optarg); break; case 'w': check_str_param_len(optarg, AUTH_STR_MAX_LEN, "password"); strlcpy((char *)auth->password, optarg, AUTH_STR_MAX_LEN); auth->password_length = strlen((char *)auth->password); break; case 'W': check_str_param_len(optarg, AUTH_STR_MAX_LEN, "password_in"); strlcpy((char *)auth->password_in, optarg, AUTH_STR_MAX_LEN); auth->password_in_length = strlen((char *)auth->password_in); break; case 'u': check_str_param_len(optarg, AUTH_STR_MAX_LEN, "username"); strlcpy(auth->username, optarg, AUTH_STR_MAX_LEN); break; case 'U': check_str_param_len(optarg, AUTH_STR_MAX_LEN, "username_in"); strlcpy(auth->username_in, optarg, AUTH_STR_MAX_LEN); break; case 'd': log_level = atoi(optarg); break; case 'b': memset(&boot_context, 0, sizeof(boot_context)); ret = fw_get_entry(&boot_context); if (ret) { printf("Could not get boot entry.\n"); exit(ret); } initiatorname = boot_context.initiatorname; ret = fw_get_targets(&targets); if (ret || list_empty(&targets)) { printf("Could not setup fw entries.\n"); exit(ret); } break; case 'N': exit(fw_setup_nics()); case 'f': ret = fw_get_targets(&targets); if (ret || list_empty(&targets)) { printf("Could not get list of targets from " "firmware.\n"); exit(ret); } list_for_each_entry(context, &targets, list) fw_print_entry(context); fw_free_targets(&targets); exit(0); case 'P': err = parse_param(optarg); if (err) exit(err); break; case 'v': printf("%s version %s\n", program_name, ISCSI_VERSION_STR); exit(0); case 'h': usage(0); break; default: usage(ISCSI_ERR_INVAL); break; } } if (list_empty(&targets) && check_params(initiatorname)) exit(ISCSI_ERR_INVAL); pid = fork(); if (pid < 0) { log_error("iscsiboot fork failed"); exit(ISCSI_ERR_NOMEM); } else if (pid) { int status, rc, rc2; rc = setup_session(); rc2 = stop_event_loop(); /* * something horrible happened. kill child and get * out of here */ if (rc2) kill(pid, SIGTERM); waitpid(pid, &status, WUNTRACED); if (rc || rc2) exit(ISCSI_ERR); log_debug(1, "iscsi parent done"); exit(0); } mgmt_ipc_fd = mgmt_ipc_listen(); if (mgmt_ipc_fd < 0) { log_error("Could not setup mgmt ipc"); exit(ISCSI_ERR_NOMEM); } control_fd = ipc->ctldev_open(); if (control_fd < 0) exit(ISCSI_ERR_NOMEM); memset(&daemon_config, 0, sizeof (daemon_config)); daemon_config.initiator_name = initiatorname; /* optional InitiatorAlias */ memset(&host_info, 0, sizeof (host_info)); if (uname(&host_info) >= 0) daemon_config.initiator_alias = host_info.nodename; log_debug(1, "InitiatorName=%s", daemon_config.initiator_name); log_debug(1, "InitiatorAlias=%s", daemon_config.initiator_alias); log_debug(1, "TargetName=%s", config_rec.name); log_debug(1, "TPGT=%d", config_rec.tpgt); log_debug(1, "IP Address=%s", config_rec.conn[0].address); /* log the version, so that we can tell if the daemon and kernel module * match based on what shows up in the syslog. Tarballs releases * always install both, but Linux distributors may put the kernel module * in a different RPM from the daemon and utils, and users may try to * mix and match in ways that don't work. */ log_error("version %s", ISCSI_VERSION_STR); /* oom-killer will not kill us at the night... */ if (oom_adjust()) log_debug(1, "can not adjust oom-killer's pardon"); /* * Start Main Event Loop */ iscsi_initiator_init(); event_loop(ipc, control_fd, mgmt_ipc_fd); ipc->ctldev_close(); mgmt_ipc_close(mgmt_ipc_fd); free_initiator(); sysfs_cleanup(); log_debug(1, "iscsi child done"); return 0; } open-iscsi-2.0.874/usr/iser.c000066400000000000000000000013501277325716400157010ustar00rootroot00000000000000/* * iser helpers * * Copyright (C) 2012 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #include "initiator.h" void iser_create_conn(struct iscsi_conn *conn) { /* header digests not supported in iser */ conn->hdrdgst_en = ISCSI_DIGEST_NONE; } open-iscsi-2.0.874/usr/iser.h000066400000000000000000000002021277325716400157010ustar00rootroot00000000000000#ifndef ISER_TRANSPORT #define ISER_TRANSPORT struct iscsi_conn; extern void iser_create_conn(struct iscsi_conn *conn); #endif open-iscsi-2.0.874/usr/kern_err_table.c000066400000000000000000000060171277325716400177220ustar00rootroot00000000000000/* * Copyright (C) 2011 Aastha Mehta * Copyright (C) 2011 Mike Christie * * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include "iscsi_if.h" #include "kern_err_table.h" const char *kern_err_code_to_string(int err) { switch (err){ case ISCSI_OK: return "ISCSI_OK: operation successful"; case ISCSI_ERR_DATASN: return "ISCSI_ERR_DATASN: Received invalid data sequence " "number from target"; case ISCSI_ERR_DATA_OFFSET: return "ISCSI_ERR_DATA_OFFSET: Seeking offset beyond the size " "of the iSCSI segment"; case ISCSI_ERR_MAX_CMDSN: return "ISCSI_ERR_MAX_CMDSN: Received invalid command sequence " "number from target"; case ISCSI_ERR_EXP_CMDSN: return "ISCSI_ERR_EXP_CMDSN: Received invalid expected command " "sequence number from target"; case ISCSI_ERR_BAD_OPCODE: return "ISCSI_ERR_BAD_OPCODE: Received an invalid iSCSI opcode"; case ISCSI_ERR_DATALEN: return "ISCSI_ERR_DATALEN: Invalid data length value"; case ISCSI_ERR_AHSLEN: return "ISCSI_ERR_AHSLEN: Received an invalid AHS length"; case ISCSI_ERR_PROTO: return "ISCSI_ERR_PROTO: iSCSI protocol violation"; case ISCSI_ERR_LUN: return "ISCSI_ERR_LUN: LUN mismatch"; case ISCSI_ERR_BAD_ITT: return "ISCSI_ERR_BAD_ITT: Received invalid initiator task tag " "from target"; case ISCSI_ERR_CONN_FAILED: return "ISCSI_ERR_CONN_FAILED: iSCSI connection failed"; case ISCSI_ERR_R2TSN: return "ISCSI_ERR_R2TSN: Received invalid R2T (Ready to " "Transfer) data sequence number from target"; case ISCSI_ERR_SESSION_FAILED: return "ISCSI_ERR_SESSION_FAILED: iSCSI session failed"; case ISCSI_ERR_HDR_DGST: return "ISCSI_ERR_HDR_DGST: Header digest mismatch"; case ISCSI_ERR_DATA_DGST: return "ISCSI_ERR_DATA_DGST: Data digest mismatch"; case ISCSI_ERR_PARAM_NOT_FOUND: return "ISCSI_ERR_PARAM_NOT_FOUND: Parameter not found"; case ISCSI_ERR_NO_SCSI_CMD: return "ISCSI_ERR_NO_SCSI_CMD: Could not look up SCSI command"; case ISCSI_ERR_INVALID_HOST: return "ISCSI_ERR_INVALID_HOST: iSCSI host is in an invalid " "state"; case ISCSI_ERR_XMIT_FAILED: return "ISCSI_ERR_XMIT_FAILED: Transmission of iSCSI packet " "failed"; case ISCSI_ERR_TCP_CONN_CLOSE: return "ISCSI_ERR_TCP_CONN_CLOSE: TCP connection closed"; case ISCSI_ERR_SCSI_EH_SESSION_RST: return "ISCSI_ERR_SCSI_EH_SESSION_RST: Session was dropped as " "a result of SCSI error recovery"; default: return "Invalid or unknown error code"; } } open-iscsi-2.0.874/usr/kern_err_table.h000066400000000000000000000014651277325716400177310ustar00rootroot00000000000000/* * Copyright (C) 2011 Aastha Mehta * Copyright (C) 2011 Mike Christie * * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef __KERN_ERR_TABLE_H__ #define __KERN_ERR_TABLE_H__ extern const char *kern_err_code_to_string(int); #endif open-iscsi-2.0.874/usr/log.c000066400000000000000000000227341277325716400155310ustar00rootroot00000000000000/* * Copyright (C) 2002-2003 Ardis Technolgies * * Released under the terms of the GNU GPL v2.0. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "iscsi_util.h" #include "log.h" #define SEMKEY 0xA7L #define LOGDBG 0 #if LOGDBG #define logdbg(file, fmt, args...) fprintf(file, fmt, ##args) #else #define logdbg(file, fmt, args...) do {} while (0) #endif char *log_name; int log_level = 0; static int log_stop_daemon = 0; static void (*log_func)(int prio, void *priv, const char *fmt, va_list ap); static void *log_func_priv; static void free_logarea (void) { int shmid; if (!la) return; if (la->semid != -1) semctl(la->semid, 0, IPC_RMID, la->semarg); if (la->buff) { shmdt(la->buff); shmctl(la->shmid_buff, IPC_RMID, NULL); la->buff = NULL; la->shmid_buff = -1; } if (la->start) { shmdt(la->start); shmctl(la->shmid_msg, IPC_RMID, NULL); la->start = NULL; la->shmid_msg = -1; } shmid = la->shmid; shmdt(la); shmctl(shmid, IPC_RMID, NULL); la = NULL; } static int logarea_init (int size) { int shmid; logdbg(stderr,"enter logarea_init\n"); if ((shmid = shmget(IPC_PRIVATE, sizeof(struct logarea), 0644 | IPC_CREAT | IPC_EXCL)) == -1) { syslog(LOG_ERR, "shmget logarea failed %d", errno); return 1; } la = shmat(shmid, NULL, 0); if (!la) { syslog(LOG_ERR, "shmat logarea failed %d", errno); shmctl(shmid, IPC_RMID, NULL); return 1; } la->shmid = shmid; la->start = NULL; la->buff = NULL; la->semid = -1; if (size < MAX_MSG_SIZE) size = DEFAULT_AREA_SIZE; if ((shmid = shmget(IPC_PRIVATE, size, 0644 | IPC_CREAT | IPC_EXCL)) == -1) { syslog(LOG_ERR, "shmget msg failed %d", errno); free_logarea(); return 1; } la->shmid_msg = shmid; la->start = shmat(la->shmid_msg, NULL, 0); if (!la->start) { syslog(LOG_ERR, "shmat msg failed %d", errno); free_logarea(); return 1; } memset(la->start, 0, size); la->empty = 1; la->end = la->start + size; la->head = la->start; la->tail = la->start; if ((shmid = shmget(IPC_PRIVATE, MAX_MSG_SIZE + sizeof(struct logmsg), 0644 | IPC_CREAT | IPC_EXCL)) == -1) { syslog(LOG_ERR, "shmget logmsg failed %d", errno); free_logarea(); return 1; } la->buff = shmat(shmid, NULL, 0); if (!la->buff) { syslog(LOG_ERR, "shmat logmsgfailed %d", errno); free_logarea(); return 1; } if ((la->semid = semget(SEMKEY, 1, 0600 | IPC_CREAT)) < 0) { syslog(LOG_ERR, "semget failed %d", errno); free_logarea(); return 1; } la->semarg.val=1; if (semctl(la->semid, 0, SETVAL, la->semarg) < 0) { syslog(LOG_ERR, "semctl failed %d", errno); free_logarea(); return 1; } la->shmid_buff = shmid; la->ops[0].sem_num = 0; la->ops[0].sem_flg = 0; return 0; } #if LOGDBG static void dump_logarea (void) { struct logmsg * msg; logdbg(stderr, "\n==== area: start addr = %p, end addr = %p ====\n", la->start, la->end); logdbg(stderr, "|addr |next |prio|msg\n"); for (msg = (struct logmsg *)la->head; (void *)msg != la->tail; msg = msg->next) logdbg(stderr, "|%p |%p |%i |%s\n", (void *)msg, msg->next, msg->prio, (char *)&msg->str); logdbg(stderr, "|%p |%p |%i |%s\n", (void *)msg, msg->next, msg->prio, (char *)&msg->str); logdbg(stderr, "\n\n"); } #endif int log_enqueue (int prio, const char * fmt, va_list ap) { int len, fwd; char buff[MAX_MSG_SIZE]; struct logmsg * msg; struct logmsg * lastmsg; lastmsg = (struct logmsg *)la->tail; if (!la->empty) { fwd = sizeof(struct logmsg) + strlen((char *)&lastmsg->str) * sizeof(char) + 1; la->tail += fwd; } vsnprintf(buff, MAX_MSG_SIZE, fmt, ap); len = strlen(buff) * sizeof(char) + 1; /* not enough space on tail : rewind */ if (la->head <= la->tail && (len + sizeof(struct logmsg)) > (la->end - la->tail)) { logdbg(stderr, "enqueue: rewind tail to %p\n", la->tail); la->tail = la->start; } /* not enough space on head : drop msg */ if (la->head > la->tail && (len + sizeof(struct logmsg)) > (la->head - la->tail)) { logdbg(stderr, "enqueue: log area overrun, drop msg\n"); if (!la->empty) la->tail = lastmsg; return 1; } /* ok, we can stage the msg in the area */ la->empty = 0; msg = (struct logmsg *)la->tail; msg->prio = prio; memcpy((void *)&msg->str, buff, len); lastmsg->next = la->tail; msg->next = la->head; logdbg(stderr, "enqueue: %p, %p, %i, %s\n", (void *)msg, msg->next, msg->prio, (char *)&msg->str); #if LOGDBG dump_logarea(); #endif return 0; } int log_dequeue (void * buff) { struct logmsg * src = (struct logmsg *)la->head; struct logmsg * dst = (struct logmsg *)buff; struct logmsg * lst = (struct logmsg *)la->tail; int len; if (la->empty) return 0; len = strlen((char *)&src->str) * sizeof(char) + sizeof(struct logmsg) + 1; dst->prio = src->prio; memcpy(dst, src, len); if (la->tail == la->head) la->empty = 1; /* purge the last log msg */ else { la->head = src->next; lst->next = la->head; } logdbg(stderr, "dequeue: %p, %p, %i, %s\n", (void *)src, src->next, src->prio, (char *)&src->str); memset((void *)src, 0, len); return len; } /* * this one can block under memory pressure */ static void log_syslog (void * buff) { struct logmsg * msg = (struct logmsg *)buff; syslog(msg->prio, "%s", (char *)&msg->str); } void log_do_log_daemon(int prio, void *priv, const char *fmt, va_list ap) { struct sembuf ops[1]; ops[0].sem_num = la->ops[0].sem_num; ops[0].sem_flg = la->ops[0].sem_flg; ops[0].sem_op = -1; if (semop(la->semid, ops, 1) < 0) { syslog(LOG_ERR, "semop down failed %d", errno); return; } log_enqueue(prio, fmt, ap); ops[0].sem_op = 1; if (semop(la->semid, ops, 1) < 0) syslog(LOG_ERR, "semop up failed"); } void log_do_log_std(int prio, void *priv, const char *fmt, va_list ap) { if (prio == LOG_INFO) { vfprintf(stdout, fmt, ap); fprintf(stdout, "\n"); } else { fprintf(stderr, "%s: ", log_name); vfprintf(stderr, fmt, ap); fprintf(stderr, "\n"); fflush(stderr); } } void log_warning(const char *fmt, ...) { va_list ap; va_start(ap, fmt); log_func(LOG_WARNING, log_func_priv, fmt, ap); va_end(ap); } void log_error(const char *fmt, ...) { va_list ap; va_start(ap, fmt); log_func(LOG_ERR, log_func_priv, fmt, ap); va_end(ap); } void log_debug(int level, const char *fmt, ...) { if (log_level > level) { va_list ap; va_start(ap, fmt); log_func(LOG_DEBUG, log_func_priv, fmt, ap); va_end(ap); } } void log_info(const char *fmt, ...) { va_list ap; va_start(ap, fmt); log_func(LOG_INFO, log_func_priv, fmt, ap); va_end(ap); } #if 0 /* Unused */ static void __dump_line(int level, unsigned char *buf, int *cp) { char line[16*3+5], *lp = line; int i, cnt; cnt = *cp; if (!cnt) return; for (i = 0; i < 16; i++) { if (i < cnt) lp += sprintf(lp, " %02x", buf[i]); else lp += sprintf(lp, " "); if ((i % 4) == 3) lp += sprintf(lp, " |"); if (i >= cnt || !isprint(buf[i])) buf[i] = ' '; } log_debug(level, "%s %.16s |", line, buf); *cp = 0; } static void __dump_char(int level, unsigned char *buf, int *cp, int ch) { int cnt = (*cp)++; buf[cnt] = ch; if (cnt == 15) __dump_line(level, buf, cp); } #define dump_line() __dump_line(level, char_buf, &char_cnt) #define dump_char(ch) __dump_char(level, char_buf, &char_cnt, ch) #endif /* Unused */ static void log_flush(void) { int msglen; struct sembuf ops[1]; ops[0].sem_num = la->ops[0].sem_num; ops[0].sem_flg = la->ops[0].sem_flg; while (!la->empty) { ops[0].sem_op = -1; if (semop(la->semid, ops, 1) < 0) { syslog(LOG_ERR, "semop down failed %d", errno); exit(1); } msglen = log_dequeue(la->buff); ops[0].sem_op = 1; if (semop(la->semid, ops, 1) < 0) { syslog(LOG_ERR, "semop up failed"); exit(1); } if (msglen) log_syslog(la->buff); } } static void catch_signal(int signo) { switch (signo) { case SIGSEGV: log_flush(); break; case SIGTERM: log_stop_daemon = 1; break; } log_debug(1, "pid %d caught signal -%d", getpid(), signo); } static void __log_close(void) { if (log_func == log_do_log_daemon) { log_flush(); closelog(); free_logarea(); } } int log_init(char *program_name, int size, void (*func)(int prio, void *priv, const char *fmt, va_list ap), void *priv) { logdbg(stderr,"enter log_init\n"); log_name = program_name; log_func = func; log_func_priv = priv; if (log_func == log_do_log_daemon) { struct sigaction sa_old; struct sigaction sa_new; pid_t pid; openlog(log_name, 0, LOG_DAEMON); setlogmask (LOG_UPTO (LOG_DEBUG)); if (logarea_init(size)) { syslog(LOG_ERR, "logarea init failed"); return -1; } pid = fork(); if (pid < 0) { syslog(LOG_ERR, "starting logger failed"); exit(1); } else if (pid) { syslog(LOG_WARNING, "iSCSI logger with pid=%d started!", pid); return pid; } daemon_init(); /* flush on daemon's crash */ sa_new.sa_handler = (void*)catch_signal; sigemptyset(&sa_new.sa_mask); sa_new.sa_flags = 0; sigaction(SIGSEGV, &sa_new, &sa_old ); sigaction(SIGTERM, &sa_new, &sa_old ); while(1) { log_flush(); sleep(1); if (log_stop_daemon) break; } __log_close(); exit(0); } return 0; } void log_close(pid_t pid) { int status; if (log_func != log_do_log_daemon || pid < 0) { __log_close(); return; } if (pid > 0) { kill(pid, SIGTERM); waitpid(pid, &status, 0); } } open-iscsi-2.0.874/usr/log.h000066400000000000000000000043421277325716400155310ustar00rootroot00000000000000/* * iSCSI Safe Logging and Tracing Library * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * circular buffer code based on log.c from dm-multipath project * * heavily based on code from log.c: * Copyright (C) 2002-2003 Ardis Technolgies , * licensed under the terms of the GNU GPL v2.0, * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef LOG_H #define LOG_H #include #include #include "iscsid.h" union semun { int val; struct semid_ds *buf; unsigned short int *array; struct seminfo *__buf; }; #include #define DEFAULT_AREA_SIZE 16384 #define MAX_MSG_SIZE 256 extern int log_level; struct logmsg { short int prio; void *next; char *str; }; struct logarea { int shmid; int shmid_msg; int shmid_buff; int empty; void *head; void *tail; void *start; void *end; char *buff; struct sembuf ops[1]; int semid; union semun semarg; }; struct logarea *la; extern int log_init(char *program_name, int size, void (*func)(int prio, void *priv, const char *fmt, va_list ap), void *priv); extern void log_close (pid_t pid); extern void dump_logmsg (void *); extern void log_info(const char *fmt, ...) __attribute__ ((format (printf, 1, 2))); extern void log_warning(const char *fmt, ...) __attribute__ ((format (printf, 1, 2))); extern void log_error(const char *fmt, ...) __attribute__ ((format (printf, 1, 2))); extern void log_debug(int level, const char *fmt, ...) __attribute__ ((format (printf, 2, 3))); extern void log_do_log_daemon(int prio, void *priv, const char *fmt, va_list ap); extern void log_do_log_std(int prio, void *priv, const char *fmt, va_list ap); #endif /* LOG_H */ open-iscsi-2.0.874/usr/login.c000066400000000000000000001307471277325716400160640ustar00rootroot00000000000000/* * iSCSI Login Library * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * heavily based on code from iscsi-login.c: * Copyright (C) 2001 Cisco Systems, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. * * Formation of iSCSI login pdu, processing the login response and other * functions are defined here */ #include #include #include #include #include #include #include #include "initiator.h" #include "transport.h" #include "log.h" #include "iscsi_timer.h" /* caller is assumed to be well-behaved and passing NUL terminated strings */ int iscsi_add_text(struct iscsi_hdr *pdu, char *data, int max_data_length, char *param, char *value) { int param_len = strlen(param); int value_len = strlen(value); int length = param_len + 1 + value_len + 1; /* param, separator, * value, and trailing * NULL */ int pdu_length = ntoh24(pdu->dlength); char *text = data; char *end = data + max_data_length; /* find the end of the current text */ text += pdu_length; pdu_length += length; if (text + length >= end) { log_warning("Failed to add login text " "'%s=%s'", param, value); return 0; } /* param */ strncpy(text, param, param_len); text += param_len; /* separator */ *text++ = ISCSI_TEXT_SEPARATOR; /* value */ strncpy(text, value, value_len); text += value_len; /* NUL */ *text++ = '\0'; /* update the length in the PDU header */ hton24(pdu->dlength, pdu_length); return 1; } static int iscsi_find_key_value(char *param, char *pdu, char *pdu_end, char **value_start, char **value_end) { char *str = param; char *text = pdu; char *value; if (value_start) *value_start = NULL; if (value_end) *value_end = NULL; /* make sure they contain the same bytes */ while (*str) { if (text >= pdu_end) return 0; if (*text == '\0') return 0; if (*str != *text) return 0; str++; text++; } if ((text >= pdu_end) || (*text == '\0') || (*text != ISCSI_TEXT_SEPARATOR)) { return 0; } /* find the value */ value = text + 1; /* find the end of the value */ while ((text < pdu_end) && (*text)) text++; if (value_start) *value_start = value; if (value_end) *value_end = text; return 1; } static enum iscsi_login_status get_auth_key_type(struct iscsi_acl *auth_client, char **data, char *end) { char *key; char *value = NULL; char *value_end = NULL; char *text = *data; int keytype = AUTH_KEY_TYPE_NONE; while (acl_get_next_key_type(&keytype) == AUTH_STATUS_NO_ERROR) { key = (char *)acl_get_key_name(keytype); if (key && iscsi_find_key_value(key, text, end, &value, &value_end)) { if (acl_recv_key_value(auth_client, keytype, value) != AUTH_STATUS_NO_ERROR) { log_error("login negotiation failed, can't " "accept %s in security stage", text); return LOGIN_NEGOTIATION_FAILED; } text = value_end; *data = text; return LOGIN_OK; } } log_error("Login negotiation failed, can't accept %s in security " "stage", text); return LOGIN_NEGOTIATION_FAILED; } int resolve_address(char *host, char *port, struct sockaddr_storage *ss) { struct addrinfo hints, *res; int rc; memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; if ((rc = getaddrinfo(host, port, &hints, &res))) { log_error("Cannot resolve host %s. getaddrinfo error: " "[%s]", host, gai_strerror(rc)); return rc; } memcpy(ss, res->ai_addr, res->ai_addrlen); freeaddrinfo(res); return rc; } /* * try to reset the session's IP address and port, based on the TargetAddress * provided */ int iscsi_update_address(iscsi_conn_t *conn, char *address) { char *port, *tag; char default_port[NI_MAXSERV]; iscsi_session_t *session = conn->session; struct sockaddr_storage addr; if ((tag = strrchr(address, ','))) { *tag = '\0'; tag++; } if ((port = strrchr(address, ':'))) { *port = '\0'; port++; } if (!port) { sprintf(default_port, "%d", ISCSI_LISTEN_PORT); port = default_port; } if (*address == '[') { char *end_bracket; if (!(end_bracket = strchr(address, ']'))) { log_error("Invalid IPv6 address with opening bracket, " "but no closing bracket."); return 0; } *end_bracket = '\0'; address++; } if (resolve_address(address, port, &addr)) { log_error("cannot resolve host name %s", address); return 0; } conn->saddr = addr; if (tag) session->portal_group_tag = atoi(tag); return 1; } static enum iscsi_login_status get_security_text_keys(iscsi_session_t *session, int cid, char **data, struct iscsi_acl *auth_client, char *end) { char *text = *data; char *value = NULL; char *value_end = NULL; size_t size; int tag; enum iscsi_login_status ret; /* * a few keys are possible in Security stage * which the auth code doesn't care about, but * which we might want to see, or at least not * choke on. */ if (iscsi_find_key_value("TargetAlias", text, end, &value, &value_end)) { size = value_end - value; session->target_alias = malloc(size + 1); if (!session->target_alias) { /* Alias not critical. So just print an error */ log_error("Login failed to allocate alias"); *data = value_end; return LOGIN_OK; } memcpy(session->target_alias, value, size); session->target_alias[size] = '\0'; text = value_end; } else if (iscsi_find_key_value("TargetAddress", text, end, &value, &value_end)) { /* * if possible, change the session's * ip_address and port to the new TargetAddress for * leading connection */ if (iscsi_update_address(&session->conn[cid], value)) { text = value_end; } else { log_error("Login redirection failed, " "can't handle redirection to %s", value); return LOGIN_REDIRECTION_FAILED; } } else if (iscsi_find_key_value("TargetPortalGroupTag", text, end, &value, &value_end)) { /* * We should have already obtained this * via discovery, but the value could be stale. * If the target was reconfigured it will send us * the updated tpgt. */ tag = strtoul(value, NULL, 0); if (session->portal_group_tag >= 0) { if (tag != session->portal_group_tag) log_debug(2, "Portal group tag " "mismatch, expected %u, " "received %u. Updating", session->portal_group_tag, tag); } /* we now know the tag */ session->portal_group_tag = tag; text = value_end; } else { /* * any key we don't recognize either * goes to the auth code, or we choke * on it */ ret = get_auth_key_type(auth_client, &text, end); if (ret != LOGIN_OK) return ret; } *data = text; return LOGIN_OK; } static enum iscsi_login_status get_op_params_text_keys(iscsi_session_t *session, int cid, char **data, char *end) { char *text = *data; char *value = NULL; char *value_end = NULL; size_t size; iscsi_conn_t *conn = &session->conn[cid]; if (iscsi_find_key_value("TargetAlias", text, end, &value, &value_end)) { size = value_end - value; if (session->target_alias && strlen(session->target_alias) == size && memcmp(session->target_alias, value, size) == 0) { *data = value_end; return LOGIN_OK; } free(session->target_alias); session->target_alias = malloc(size + 1); if (!session->target_alias) { /* Alias not critical. So just print an error */ log_error("Login failed to allocate alias"); *data = value_end; return LOGIN_OK; } memcpy(session->target_alias, value, size); session->target_alias[size] = '\0'; text = value_end; } else if (iscsi_find_key_value("TargetAddress", text, end, &value, &value_end)) { if (iscsi_update_address(conn, value)) text = value_end; else { log_error("Login redirection failed, " "can't handle redirection to %s", value); return LOGIN_REDIRECTION_FAILED; } } else if (iscsi_find_key_value("TargetPortalGroupTag", text, end, &value, &value_end)) { int tag = strtoul(value, NULL, 0); /* * We should have already obtained this * via discovery, but the value could be stale. * If the target was reconfigured it will send us * the updated tpgt. */ if (session->portal_group_tag >= 0) { if (tag != session->portal_group_tag) log_debug(2, "Portal group tag " "mismatch, expected %u, " "received %u. Updating", session->portal_group_tag, tag); } /* we now know the tag */ session->portal_group_tag = tag; text = value_end; } else if (iscsi_find_key_value("InitialR2T", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_NORMAL) { if (value && (strcmp(value, "Yes") == 0)) session->initial_r2t_en = 1; else session->initial_r2t_en = 0; } else session->irrelevant_keys_bitmap |= IRRELEVANT_INITIALR2T; text = value_end; } else if (iscsi_find_key_value("ImmediateData", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_NORMAL) { if (value && (strcmp(value, "Yes") == 0)) session->imm_data_en = 1; else session->imm_data_en = 0; } else session->irrelevant_keys_bitmap |= IRRELEVANT_IMMEDIATEDATA; text = value_end; } else if (iscsi_find_key_value("MaxRecvDataSegmentLength", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_DISCOVERY || !session->t->template->rdma) { int tgt_max_xmit; conn_rec_t *conn_rec = &session->nrec.conn[cid]; tgt_max_xmit = strtoul(value, NULL, 0); /* * if the rec value is zero it means to use * what the target gave us. */ if (!conn_rec->iscsi.MaxXmitDataSegmentLength || tgt_max_xmit < conn->max_xmit_dlength) conn->max_xmit_dlength = tgt_max_xmit; } text = value_end; } else if (iscsi_find_key_value("FirstBurstLength", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_NORMAL) session->first_burst = strtoul(value, NULL, 0); else session->irrelevant_keys_bitmap |= IRRELEVANT_FIRSTBURSTLENGTH; text = value_end; } else if (iscsi_find_key_value("MaxBurstLength", text, end, &value, &value_end)) { /* * we don't really care, since it's a limit on the target's * R2Ts, but record it anwyay */ if (session->type == ISCSI_SESSION_TYPE_NORMAL) session->max_burst = strtoul(value, NULL, 0); else session->irrelevant_keys_bitmap |= IRRELEVANT_MAXBURSTLENGTH; text = value_end; } else if (iscsi_find_key_value("HeaderDigest", text, end, &value, &value_end)) { if (strcmp(value, "None") == 0) { if (conn->hdrdgst_en != ISCSI_DIGEST_CRC32C) conn->hdrdgst_en = ISCSI_DIGEST_NONE; else { log_error("Login negotiation " "failed, HeaderDigest=CRC32C " "is required, can't accept " "%s", text); return LOGIN_NEGOTIATION_FAILED; } } else if (strcmp(value, "CRC32C") == 0) { if (conn->hdrdgst_en != ISCSI_DIGEST_NONE) conn->hdrdgst_en = ISCSI_DIGEST_CRC32C; else { log_error("Login negotiation " "failed, HeaderDigest=None is " "required, can't accept %s", text); return LOGIN_NEGOTIATION_FAILED; } } else { log_error("Login negotiation failed, " "can't accept %s", text); return LOGIN_NEGOTIATION_FAILED; } text = value_end; } else if (iscsi_find_key_value("DataDigest", text, end, &value, &value_end)) { if (strcmp(value, "None") == 0) { if (conn->datadgst_en != ISCSI_DIGEST_CRC32C) conn->datadgst_en = ISCSI_DIGEST_NONE; else { log_error("Login negotiation " "failed, DataDigest=CRC32C " "is required, can't accept %s", text); return LOGIN_NEGOTIATION_FAILED; } } else if (strcmp(value, "CRC32C") == 0) { if (conn->datadgst_en != ISCSI_DIGEST_NONE) conn->datadgst_en = ISCSI_DIGEST_CRC32C; else { log_error("Login negotiation " "failed, DataDigest=None is " "required, can't accept %s", text); return LOGIN_NEGOTIATION_FAILED; } } else { log_error("Login negotiation failed, " "can't accept %s", text); return LOGIN_NEGOTIATION_FAILED; } text = value_end; } else if (iscsi_find_key_value("DefaultTime2Wait", text, end, &value, &value_end)) { session->def_time2wait = strtoul(value, NULL, 0); text = value_end; } else if (iscsi_find_key_value("DefaultTime2Retain", text, end, &value, &value_end)) { session->def_time2retain = strtoul(value, NULL, 0); text = value_end; } else if (iscsi_find_key_value("OFMarker", text, end, &value, &value_end)) /* result function is AND, target must honor our No */ text = value_end; else if (iscsi_find_key_value("OFMarkInt", text, end, &value, &value_end)) /* we don't do markers, so we don't care */ text = value_end; else if (iscsi_find_key_value("IFMarker", text, end, &value, &value_end)) /* result function is AND, target must honor our No */ text = value_end; else if (iscsi_find_key_value("IFMarkInt", text, end, &value, &value_end)) /* we don't do markers, so we don't care */ text = value_end; else if (iscsi_find_key_value("DataPDUInOrder", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_NORMAL) { if (value && strcmp(value, "Yes") == 0) session->pdu_inorder_en = 1; else session->pdu_inorder_en = 0; } else session->irrelevant_keys_bitmap |= IRRELEVANT_DATAPDUINORDER; text = value_end; } else if (iscsi_find_key_value ("DataSequenceInOrder", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_NORMAL) if (value && strcmp(value, "Yes") == 0) session->dataseq_inorder_en = 1; else session->dataseq_inorder_en = 0; else session->irrelevant_keys_bitmap |= IRRELEVANT_DATASEQUENCEINORDER; text = value_end; } else if (iscsi_find_key_value("MaxOutstandingR2T", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_NORMAL) { if (strcmp(value, "1")) { log_error("Login negotiation " "failed, can't accept Max" "OutstandingR2T %s", value); return LOGIN_NEGOTIATION_FAILED; } } else session->irrelevant_keys_bitmap |= IRRELEVANT_MAXOUTSTANDINGR2T; text = value_end; } else if (iscsi_find_key_value("MaxConnections", text, end, &value, &value_end)) { if (session->type == ISCSI_SESSION_TYPE_NORMAL) { if (strcmp(value, "1")) { log_error("Login negotiation " "failed, can't accept Max" "Connections %s", value); return LOGIN_NEGOTIATION_FAILED; } } else session->irrelevant_keys_bitmap |= IRRELEVANT_MAXCONNECTIONS; text = value_end; } else if (iscsi_find_key_value("ErrorRecoveryLevel", text, end, &value, &value_end)) { if (strcmp(value, "0")) { log_error("Login negotiation failed, " "can't accept ErrorRecovery %s", value); return LOGIN_NEGOTIATION_FAILED; } text = value_end; } else if (iscsi_find_key_value("RDMAExtensions", text, end, &value, &value_end)) { if (session->t->template->rdma && strcmp(value, "Yes") != 0) { log_error("Login negotiation failed, " "Target must support RDMAExtensions"); return LOGIN_NEGOTIATION_FAILED; } text = value_end; } else if (iscsi_find_key_value("InitiatorRecvDataSegmentLength", text, end, &value, &value_end)) { if (session->t->template->rdma) { conn->max_recv_dlength = MIN(conn->max_recv_dlength, strtoul(value, NULL, 0)); } text = value_end; } else if (iscsi_find_key_value("TargetRecvDataSegmentLength", text, end, &value, &value_end)) { if (session->t->template->rdma) { conn->max_xmit_dlength = MIN(conn->max_xmit_dlength, strtoul(value, NULL, 0)); } text = value_end; } else if (iscsi_find_key_value ("X-com.cisco.protocol", text, end, &value, &value_end)) { if (strcmp(value, "NotUnderstood") && strcmp(value, "Reject") && strcmp(value, "Irrelevant") && strcmp(value, "draft20")) { /* if we didn't get a compatible protocol, fail */ log_error("Login version mismatch, " "can't accept protocol %s", value); return LOGIN_VERSION_MISMATCH; } text = value_end; } else if (iscsi_find_key_value("X-com.cisco.PingTimeout", text, end, &value, &value_end)) /* we don't really care what the target ends up using */ text = value_end; else if (iscsi_find_key_value("X-com.cisco.sendAsyncText", text, end, &value, &value_end)) /* we don't bother for the target response */ text = value_end; else { log_error("Login negotiation failed, couldn't " "recognize text %s", text); return LOGIN_NEGOTIATION_FAILED; } *data = text; return LOGIN_OK; } static enum iscsi_login_status check_security_stage_status(iscsi_session_t *session, struct iscsi_acl *auth_client) { int debug_status = 0; switch (acl_recv_end(auth_client, session)) { case AUTH_STATUS_CONTINUE: /* continue sending PDUs */ break; case AUTH_STATUS_PASS: break; case AUTH_STATUS_NO_ERROR: /* treat this as an error, * since we should get a * different code */ case AUTH_STATUS_ERROR: case AUTH_STATUS_FAIL: default: if (acl_get_dbg_status(auth_client, &debug_status) != AUTH_STATUS_NO_ERROR) log_error("Login authentication failed " "with target %s, %s", session->target_name, acl_dbg_status_to_text(debug_status)); else log_error("Login authentication failed " "with target %s", session->target_name); return LOGIN_AUTHENTICATION_FAILED; } return LOGIN_OK; } /* * this assumes the text data is always NULL terminated. The caller can * always arrange for that by using a slightly larger buffer than the max PDU * size, and then appending a NULL to the PDU. */ static enum iscsi_login_status iscsi_process_login_response(iscsi_session_t *session, int cid, struct iscsi_login_rsp *login_rsp, char *data, int max_data_length) { int transit = login_rsp->flags & ISCSI_FLAG_LOGIN_TRANSIT; char *text = data; char *end; int pdu_current_stage, pdu_next_stage; enum iscsi_login_status ret; struct iscsi_acl *auth_client; iscsi_conn_t *conn = &session->conn[cid]; auth_client = (session->auth_buffers && session->num_auth_buffers) ? (struct iscsi_acl *)session->auth_buffers[0].address : NULL; end = text + ntoh24(login_rsp->dlength) + 1; if (end >= (data + max_data_length)) { log_error("Login failed, process_login_response " "buffer too small to guarantee NULL " "termination"); return LOGIN_FAILED; } /* guarantee a trailing NUL */ *end = '\0'; /* if the response status was success, sanity check the response */ if (login_rsp->status_class == ISCSI_STATUS_CLS_SUCCESS) { /* check the active version */ if (login_rsp->active_version != ISCSI_DRAFT20_VERSION) { log_error("Login version mismatch, " "received incompatible active iSCSI " "version 0x%02x, expected version " "0x%02x", login_rsp->active_version, ISCSI_DRAFT20_VERSION); return LOGIN_VERSION_MISMATCH; } /* make sure the current stage matches */ pdu_current_stage = (login_rsp->flags & ISCSI_FLAG_LOGIN_CURRENT_STAGE_MASK) >> 2; if (pdu_current_stage != conn->current_stage) { log_error("Received invalid login PDU, " "current stage mismatch, session %d, " "response %d", conn->current_stage, pdu_current_stage); return LOGIN_INVALID_PDU; } /* * make sure that we're actually advancing if the T-bit is set */ pdu_next_stage = login_rsp->flags & ISCSI_FLAG_LOGIN_NEXT_STAGE_MASK; if (transit && (pdu_next_stage <= conn->current_stage)) return LOGIN_INVALID_PDU; } if (conn->current_stage == ISCSI_SECURITY_NEGOTIATION_STAGE) { if (acl_recv_begin(auth_client) != AUTH_STATUS_NO_ERROR) { log_error("Login failed because " "acl_recv_begin failed"); return LOGIN_FAILED; } if (acl_recv_transit_bit(auth_client, transit) != AUTH_STATUS_NO_ERROR) { log_error("Login failed because " "acl_recv_transit_bit failed"); return LOGIN_FAILED; } } /* scan the text data */ while (text && (text < end)) { /* skip any NULs separating each text key=value pair */ while ((text < end) && (*text == '\0')) text++; if (text >= end) break; /* handle keys appropriate for each stage */ switch (conn->current_stage) { case ISCSI_SECURITY_NEGOTIATION_STAGE:{ ret = get_security_text_keys(session, cid, &text, auth_client, end); if (ret != LOGIN_OK) return ret; break; } case ISCSI_OP_PARMS_NEGOTIATION_STAGE:{ ret = get_op_params_text_keys(session, cid, &text, end); if (ret != LOGIN_OK) return ret; break; } default: return LOGIN_FAILED; } } if (conn->current_stage == ISCSI_SECURITY_NEGOTIATION_STAGE) { ret = check_security_stage_status(session, auth_client); if (ret != LOGIN_OK) return ret; } /* record some of the PDU fields for later use */ session->tsih = ntohs(login_rsp->tsih); session->exp_cmdsn = ntohl(login_rsp->exp_cmdsn); session->max_cmdsn = ntohl(login_rsp->max_cmdsn); if (login_rsp->status_class == ISCSI_STATUS_CLS_SUCCESS) conn->exp_statsn = ntohl(login_rsp->statsn) + 1; if (transit) { /* advance to the next stage */ conn->partial_response = 0; conn->current_stage = login_rsp->flags & ISCSI_FLAG_LOGIN_NEXT_STAGE_MASK; session->irrelevant_keys_bitmap = 0; } else /* * we got a partial response, don't advance, * more negotiation to do */ conn->partial_response = 1; return LOGIN_OK; /* this PDU is ok, though the login process * may not be done yet */ } static int add_params_normal_session(iscsi_session_t *session, struct iscsi_hdr *pdu, char *data, int max_data_length) { char value[AUTH_STR_MAX_LEN]; /* these are only relevant for normal sessions */ if (!iscsi_add_text(pdu, data, max_data_length, "InitialR2T", session->initial_r2t_en ? "Yes" : "No")) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "ImmediateData", session->imm_data_en ? "Yes" : "No")) return 0; sprintf(value, "%d", session->max_burst); if (!iscsi_add_text(pdu, data, max_data_length, "MaxBurstLength", value)) return 0; sprintf(value, "%d",session->first_burst); if (!iscsi_add_text(pdu, data, max_data_length, "FirstBurstLength", value)) return 0; /* these we must have */ if (!iscsi_add_text(pdu, data, max_data_length, "MaxOutstandingR2T", "1")) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "MaxConnections", "1")) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "DataPDUInOrder", "Yes")) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "DataSequenceInOrder", "Yes")) return 0; return 1; } static int add_params_transport_specific(iscsi_session_t *session, int cid, struct iscsi_hdr *pdu, char *data, int max_data_length) { char value[AUTH_STR_MAX_LEN]; iscsi_conn_t *conn = &session->conn[cid]; if (session->type == ISCSI_SESSION_TYPE_DISCOVERY || !session->t->template->rdma) { sprintf(value, "%d", conn->max_recv_dlength); if (!iscsi_add_text(pdu, data, max_data_length, "MaxRecvDataSegmentLength", value)) return 0; } else { sprintf(value, "%d", conn->max_recv_dlength); if (!iscsi_add_text(pdu, data, max_data_length, "InitiatorRecvDataSegmentLength", value)) return 0; sprintf(value, "%d", conn->max_xmit_dlength); if (!iscsi_add_text(pdu, data, max_data_length, "TargetRecvDataSegmentLength", value)) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "RDMAExtensions", "Yes")) return 0; } return 1; } static int check_irrelevant_keys(iscsi_session_t *session, struct iscsi_hdr *pdu, char *data, int max_data_length) { /* If you receive irrelevant keys, just check them from the irrelevant * keys bitmap and respond with the key=Irrelevant text */ if (session->irrelevant_keys_bitmap & IRRELEVANT_MAXCONNECTIONS) if (!iscsi_add_text(pdu, data, max_data_length, "MaxConnections", "Irrelevant")) return 0; if (session->irrelevant_keys_bitmap & IRRELEVANT_INITIALR2T) if (!iscsi_add_text(pdu, data, max_data_length, "InitialR2T", "Irrelevant")) return 0; if (session->irrelevant_keys_bitmap & IRRELEVANT_IMMEDIATEDATA) if (!iscsi_add_text(pdu, data, max_data_length, "ImmediateData", "Irrelevant")) return 0; if (session->irrelevant_keys_bitmap & IRRELEVANT_MAXBURSTLENGTH) if (!iscsi_add_text(pdu, data, max_data_length, "MaxBurstLength", "Irrelevant")) return 0; if (session->irrelevant_keys_bitmap & IRRELEVANT_FIRSTBURSTLENGTH) if (!iscsi_add_text(pdu, data, max_data_length, "FirstBurstLength", "Irrelevant")) return 0; if (session->irrelevant_keys_bitmap & IRRELEVANT_MAXOUTSTANDINGR2T) if (!iscsi_add_text(pdu, data, max_data_length, "MaxOutstandingR2T", "Irrelevant")) return 0; if (session->irrelevant_keys_bitmap & IRRELEVANT_DATAPDUINORDER) if (!iscsi_add_text(pdu, data, max_data_length, "DataPDUInOrder", "Irrelevant")) return 0; if (session->irrelevant_keys_bitmap & IRRELEVANT_DATASEQUENCEINORDER ) if (!iscsi_add_text(pdu, data, max_data_length, "DataSequenceInOrder", "Irrelevant")) return 0; return 1; } static int fill_crc_digest_text(iscsi_conn_t *conn, struct iscsi_hdr *pdu, char *data, int max_data_length) { switch (conn->hdrdgst_en) { case ISCSI_DIGEST_NONE: if (!iscsi_add_text(pdu, data, max_data_length, "HeaderDigest", "None")) return 0; break; case ISCSI_DIGEST_CRC32C: if (!iscsi_add_text(pdu, data, max_data_length, "HeaderDigest", "CRC32C")) return 0; break; case ISCSI_DIGEST_CRC32C_NONE: if (!iscsi_add_text(pdu, data, max_data_length, "HeaderDigest", "CRC32C,None")) return 0; break; default: case ISCSI_DIGEST_NONE_CRC32C: if (!iscsi_add_text(pdu, data, max_data_length, "HeaderDigest", "None,CRC32C")) return 0; break; } switch (conn->datadgst_en) { case ISCSI_DIGEST_NONE: if (!iscsi_add_text(pdu, data, max_data_length, "DataDigest", "None")) return 0; break; case ISCSI_DIGEST_CRC32C: if (!iscsi_add_text(pdu, data, max_data_length, "DataDigest", "CRC32C")) return 0; break; case ISCSI_DIGEST_CRC32C_NONE: if (!iscsi_add_text(pdu, data, max_data_length, "DataDigest", "CRC32C,None")) return 0; break; default: case ISCSI_DIGEST_NONE_CRC32C: if (!iscsi_add_text(pdu, data, max_data_length, "DataDigest", "None,CRC32C")) return 0; break; } return 1; } static int fill_op_params_text(iscsi_session_t *session, int cid, struct iscsi_hdr *pdu, char *data, int max_data_length, int *transit) { char value[AUTH_STR_MAX_LEN]; iscsi_conn_t *conn = &session->conn[cid]; int rdma; /* we always try to go from op params to full feature stage */ conn->current_stage = ISCSI_OP_PARMS_NEGOTIATION_STAGE; conn->next_stage = ISCSI_FULL_FEATURE_PHASE; *transit = 1; rdma = (session->type == ISCSI_SESSION_TYPE_NORMAL) && session->t->template->rdma; /* * If we haven't gotten a partial response, then either we shouldn't be * here, or we just switched to this stage, and need to start offering * keys. */ if (!conn->partial_response) { /* * request the desired settings the first time * we are in this stage */ if (!rdma && !fill_crc_digest_text(conn, pdu, data, max_data_length)) return 0; sprintf(value, "%d", session->def_time2wait); if (!iscsi_add_text(pdu, data, max_data_length, "DefaultTime2Wait", value)) return 0; sprintf(value, "%d", session->def_time2retain); if (!iscsi_add_text(pdu, data, max_data_length, "DefaultTime2Retain", value)) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "IFMarker", "No")) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "OFMarker", "No")) return 0; if (!iscsi_add_text(pdu, data, max_data_length, "ErrorRecoveryLevel", "0")) return 0; if (session->type == ISCSI_SESSION_TYPE_NORMAL) { if (!add_params_normal_session(session, pdu, data, max_data_length)) return 0; if (!add_params_transport_specific(session, cid, pdu, data, max_data_length)) return 0; } else { sprintf(value, "%d", conn->max_recv_dlength); if (!iscsi_add_text(pdu, data, max_data_length, "MaxRecvDataSegmentLength", value)) return 0; } } else { if (!check_irrelevant_keys(session, pdu, data, max_data_length)) return 0; if (rdma && !fill_crc_digest_text(conn, pdu, data, max_data_length)) return 0; } return 1; } static void enum_auth_keys(struct iscsi_acl *auth_client, struct iscsi_hdr *pdu, char *data, int max_data_length, int keytype) { int present = 0, rc; char *key = (char *)acl_get_key_name(keytype); int key_length = key ? strlen(key) : 0; int pdu_length = ntoh24(pdu->dlength); char *auth_value = data + pdu_length + key_length + 1; unsigned int max_length = max_data_length - (pdu_length + key_length + 1); /* * add the key/value pairs the auth code wants to send * directly to the PDU, since they could in theory be large. */ rc = acl_send_key_val(auth_client, keytype, &present, auth_value, max_length); if ((rc == AUTH_STATUS_NO_ERROR) && present) { /* actually fill in the key */ strncpy(&data[pdu_length], key, key_length); pdu_length += key_length; data[pdu_length] = '='; pdu_length++; /* * adjust the PDU's data segment length * to include the value and trailing NUL */ pdu_length += strlen(auth_value) + 1; hton24(pdu->dlength, pdu_length); } } static int fill_security_params_text(iscsi_session_t *session, int cid, struct iscsi_hdr *pdu, struct iscsi_acl *auth_client, char *data, int max_data_length, int *transit) { int keytype = AUTH_KEY_TYPE_NONE; int rc = acl_send_transit_bit(auth_client, transit); iscsi_conn_t *conn = &session->conn[cid]; /* see if we're ready for a stage change */ if (rc != AUTH_STATUS_NO_ERROR) return 0; if (*transit) { /* * discovery sessions can go right to full-feature phase, * unless they want to non-standard values for the few relevant * keys, or want to offer vendor-specific keys */ if (session->type == ISCSI_SESSION_TYPE_DISCOVERY) if ((conn->hdrdgst_en != ISCSI_DIGEST_NONE) || (conn->datadgst_en != ISCSI_DIGEST_NONE) || (conn->max_recv_dlength != ISCSI_DEF_MAX_RECV_SEG_LEN)) conn->next_stage = ISCSI_OP_PARMS_NEGOTIATION_STAGE; else conn->next_stage = ISCSI_FULL_FEATURE_PHASE; else conn->next_stage = ISCSI_OP_PARMS_NEGOTIATION_STAGE; } else conn->next_stage = ISCSI_SECURITY_NEGOTIATION_STAGE; /* enumerate all the keys the auth code might want to send */ while (acl_get_next_key_type(&keytype) == AUTH_STATUS_NO_ERROR) enum_auth_keys(auth_client, pdu, data, max_data_length, keytype); return 1; } /** * iscsi_make_login_pdu - Prepare the login pdu to be sent to iSCSI target. * @session: session for which login is initiated. * @pdu: login header * @data: contains text keys to be negotiated during login * @max_data_length: data size * * Description: * Based on whether authentication is enabled or not, corresponding text * keys are filled up in login pdu. * **/ static int iscsi_make_login_pdu(iscsi_session_t *session, int cid, struct iscsi_hdr *hdr, char *data, int max_data_length) { int transit = 0; int ret; struct iscsi_login *login_hdr = (struct iscsi_login *)hdr; struct iscsi_acl *auth_client; iscsi_conn_t *conn = &session->conn[cid]; auth_client = (session->auth_buffers && session->num_auth_buffers) ? (struct iscsi_acl *)session->auth_buffers[0].address : NULL; /* initialize the PDU header */ memset(login_hdr, 0, sizeof(*login_hdr)); login_hdr->opcode = ISCSI_OP_LOGIN | ISCSI_OP_IMMEDIATE; login_hdr->cid = 0; memcpy(login_hdr->isid, session->isid, sizeof(session->isid)); login_hdr->tsih = 0; login_hdr->cmdsn = htonl(session->cmdsn); /* don't increment on immediate */ login_hdr->min_version = ISCSI_DRAFT20_VERSION; login_hdr->max_version = ISCSI_DRAFT20_VERSION; login_hdr->exp_statsn = htonl(conn->exp_statsn); /* * the very first Login PDU has some additional requirements, * and we need to decide what stage to start in. */ if (conn->current_stage == ISCSI_INITIAL_LOGIN_STAGE) { if (session->initiator_name && session->initiator_name[0]) { if (!iscsi_add_text(hdr, data, max_data_length, "InitiatorName", session->initiator_name)) return 0; } else { log_error("InitiatorName is required " "on the first Login PDU"); return 0; } if (session->initiator_alias && session->initiator_alias[0]) { if (!iscsi_add_text(hdr, data, max_data_length, "InitiatorAlias", session->initiator_alias)) return 0; } if ((session->target_name && session->target_name[0]) && (session->type == ISCSI_SESSION_TYPE_NORMAL)) { if (!iscsi_add_text(hdr, data, max_data_length, "TargetName", session->target_name)) return 0; } if (!iscsi_add_text(hdr, data, max_data_length, "SessionType", (session->type == ISCSI_SESSION_TYPE_DISCOVERY) ? "Discovery" : "Normal")) return 0; if (auth_client) /* we're prepared to do authentication */ conn->current_stage = conn->next_stage = ISCSI_SECURITY_NEGOTIATION_STAGE; else /* can't do any authentication, skip that stage */ conn->current_stage = conn->next_stage = ISCSI_OP_PARMS_NEGOTIATION_STAGE; } /* fill in text based on the stage */ switch (conn->current_stage) { case ISCSI_OP_PARMS_NEGOTIATION_STAGE:{ ret = fill_op_params_text(session, cid, hdr, data, max_data_length, &transit); if (!ret) return ret; break; } case ISCSI_SECURITY_NEGOTIATION_STAGE:{ ret = fill_security_params_text(session, cid, hdr, auth_client, data, max_data_length, &transit); if (!ret) return ret; break; } case ISCSI_FULL_FEATURE_PHASE: log_error("Can't send login PDUs in full " "feature phase"); return 0; default: log_error("Can't send login PDUs in unknown " "stage %d", conn->current_stage); return 0; } /* fill in the flags */ login_hdr->flags = 0; login_hdr->flags |= conn->current_stage << 2; if (transit) { /* transit to the next stage */ login_hdr->flags |= conn->next_stage; login_hdr->flags |= ISCSI_FLAG_LOGIN_TRANSIT; } else /* next == current */ login_hdr->flags |= conn->current_stage; return 1; } static enum iscsi_login_status check_for_authentication(iscsi_session_t *session, struct iscsi_acl *auth_client) { enum iscsi_login_status ret = LOGIN_FAILED; auth_client = (struct iscsi_acl *)session->auth_buffers[0].address; /* prepare for authentication */ if (acl_init(TYPE_INITIATOR, session->num_auth_buffers, session->auth_buffers) != AUTH_STATUS_NO_ERROR) { log_error("Couldn't initialize authentication"); return LOGIN_FAILED; } if (session->username && (acl_set_user_name(auth_client, session->username) != AUTH_STATUS_NO_ERROR)) { log_error("Couldn't set username"); goto end; } if (session->password && (acl_set_passwd(auth_client, session->password, session->password_length) != AUTH_STATUS_NO_ERROR)) { log_error("Couldn't set password"); goto end; } if (acl_set_ip_sec(auth_client, 1) != AUTH_STATUS_NO_ERROR) { log_error("Couldn't set IPSec"); goto end; } if (acl_set_auth_rmt(auth_client, session->bidirectional_auth) != AUTH_STATUS_NO_ERROR) { log_error("Couldn't set remote authentication"); goto end; } return LOGIN_OK; end: if (auth_client && acl_finish(auth_client) != AUTH_STATUS_NO_ERROR) { log_error("Login failed, error finishing auth_client"); if (ret == LOGIN_OK) ret = LOGIN_FAILED; } return ret; } static enum iscsi_login_status check_status_login_response(iscsi_session_t *session, int cid, struct iscsi_login_rsp *login_rsp, char *data, int max_data_length, int *final) { enum iscsi_login_status ret; switch (login_rsp->status_class) { case ISCSI_STATUS_CLS_SUCCESS: /* process this response and possibly continue sending PDUs */ ret = iscsi_process_login_response(session, cid, login_rsp, data, max_data_length); if (ret != LOGIN_OK) /* pass back whatever * error we discovered */ *final = 1; break; case ISCSI_STATUS_CLS_REDIRECT: /* * we need to process this response to get the * TargetAddress of the redirect, but we don't care * about the return code. */ iscsi_process_login_response(session, cid, login_rsp, data, max_data_length); ret = LOGIN_REDIRECT; *final = 1; break; case ISCSI_STATUS_CLS_INITIATOR_ERR: if (login_rsp->status_detail == ISCSI_LOGIN_STATUS_AUTH_FAILED) { log_error("Login failed to authenticate " "with target %s", session->target_name); } ret = LOGIN_OK; *final = 1; break; default: /* * some sort of error, login terminated unsuccessfully, * though this function did it's job. * the caller must check the status_class and * status_detail and decide what to do next. */ ret = LOGIN_OK; *final = 1; } return ret; } int iscsi_login_begin(iscsi_session_t *session, iscsi_login_context_t *c) { iscsi_conn_t *conn = &session->conn[c->cid]; c->auth_client = NULL; c->login_rsp = (struct iscsi_login_rsp *)&c->pdu; c->received_pdu = 0; c->timeout = 0; c->final = 0; c->ret = LOGIN_FAILED; /* prepare the session of the connection is leading */ if (c->cid ==0) { session->cmdsn = 1; session->exp_cmdsn = 1; session->max_cmdsn = 1; } conn->current_stage = ISCSI_INITIAL_LOGIN_STAGE; conn->partial_response = 0; if (session->auth_buffers && session->num_auth_buffers) { c->ret = check_for_authentication(session, c->auth_client); if (c->ret != LOGIN_OK) return 1; } return 0; } int iscsi_login_req(iscsi_session_t *session, iscsi_login_context_t *c) { iscsi_conn_t *conn = &session->conn[c->cid]; c->final = 0; c->timeout = 0; c->login_rsp = (struct iscsi_login_rsp *)&c->pdu; c->ret = LOGIN_FAILED; memset(c->buffer, 0, c->bufsize); c->data = c->buffer; c->max_data_length = c->bufsize; /* * pick the appropriate timeout. If we know the target has * responded before, and we're in the security stage, we use a * longer timeout, since the authentication alogorithms can * take a while, especially if the target has to go talk to a * tacacs or RADIUS server (which may or may not be * responding). */ if (c->received_pdu && (conn->current_stage == ISCSI_SECURITY_NEGOTIATION_STAGE)) c->timeout = conn->auth_timeout; else c->timeout = conn->login_timeout; /* * fill in the PDU header and text data based on the login * stage that we're in */ if (!iscsi_make_login_pdu(session, c->cid, &c->pdu, c->data, c->max_data_length)) { log_error("login failed, couldn't make a login PDU"); c->ret = LOGIN_FAILED; goto done; } /* send a PDU to the target */ if (!iscsi_io_send_pdu(conn, &c->pdu, ISCSI_DIGEST_NONE, c->data, ISCSI_DIGEST_NONE, c->timeout)) { /* * FIXME: caller might want us to distinguish I/O * error and timeout. Might want to switch portals on * timeouts, but not I/O errors. */ log_error("Login I/O error, failed to send a PDU"); c->ret = LOGIN_IO_ERROR; goto done; } return 0; done: if (c->auth_client && acl_finish(c->auth_client) != AUTH_STATUS_NO_ERROR) { log_error("Login failed, error finishing c->auth_client"); if (c->ret == LOGIN_OK) c->ret = LOGIN_FAILED; } return 1; } int iscsi_login_rsp(iscsi_session_t *session, iscsi_login_context_t *c) { iscsi_conn_t *conn = &session->conn[c->cid]; int err; /* read the target's response into the same buffer */ err = iscsi_io_recv_pdu(conn, &c->pdu, ISCSI_DIGEST_NONE, c->data, c->max_data_length, ISCSI_DIGEST_NONE, c->timeout); if (err == -EAGAIN) { goto done; } else if (err < 0) { /* * FIXME: caller might want us to distinguish I/O * error and timeout. Might want to switch portals on * timeouts, but not I/O errors. */ log_error("Login I/O error, failed to receive a PDU"); c->ret = LOGIN_IO_ERROR; goto done; } err = -EIO; c->received_pdu = 1; /* check the PDU response type */ if (c->pdu.opcode == (ISCSI_OP_LOGIN_RSP | 0xC0)) { /* * it's probably a draft 8 login response, * which we can't deal with */ log_error("Received iSCSI draft 8 login " "response opcode 0x%x, expected draft " "20 login response 0x%2x", c->pdu.opcode, ISCSI_OP_LOGIN_RSP); c->ret = LOGIN_VERSION_MISMATCH; goto done; } else if (c->pdu.opcode != ISCSI_OP_LOGIN_RSP) { c->ret = LOGIN_INVALID_PDU; goto done; } /* * give the caller the status class and detail from the last * login response PDU received */ c->status_class = c->login_rsp->status_class; c->status_detail = c->login_rsp->status_detail; log_debug(1, "login response status %02d%02d", c->status_class, c->status_detail); c->ret = check_status_login_response(session, c->cid, c->login_rsp, c->data, c->max_data_length, &c->final); if (c->final) goto done; return 0; done: if (c->auth_client && acl_finish(c->auth_client) != AUTH_STATUS_NO_ERROR) { log_error("Login failed, error finishing c->auth_client"); if (c->ret == LOGIN_OK) c->ret = LOGIN_FAILED; } return err; } /** * iscsi_login - attempt to login to the target. * @session: login is initiated over this session * @buffer: holds login pdu * @bufsize: size of login pdu * @status_class: holds either success or failure as status of login * @status_detail: contains details based on the login status * * Description: * The caller must check the status class to determine if the login * succeeded. A return of 1 does not mean the login succeeded, it just * means this function worked, and the status class is valid info. * This allows the caller to decide whether or not to retry logins, so * that we don't have any policy logic here. **/ enum iscsi_login_status iscsi_login(iscsi_session_t *session, int cid, char *buffer, size_t bufsize, uint8_t *status_class, uint8_t *status_detail) { iscsi_conn_t *conn = &session->conn[cid]; iscsi_login_context_t *c = &conn->login_context; struct timeval connection_timer; struct pollfd pfd; int ret, timeout; /* * assume iscsi_login is only called from discovery, so it is * safe to always set to zero */ conn->exp_statsn = 0; c->cid = cid; c->buffer = buffer; c->bufsize = bufsize; if (iscsi_login_begin(session, c)) return c->ret; do { if (iscsi_login_req(session, c)) return c->ret; /* * TODO: merge the poll and req/rsp code with the discovery * poll and text req/rsp. */ iscsi_timer_set(&connection_timer, session->conn[0].active_timeout); timeout = iscsi_timer_msecs_until(&connection_timer); memset(&pfd, 0, sizeof (pfd)); pfd.fd = conn->socket_fd; pfd.events = POLLIN | POLLPRI; repoll: pfd.revents = 0; ret = poll(&pfd, 1, timeout); log_debug(7, "%s: Poll return %d", __FUNCTION__, ret); if (iscsi_timer_expired(&connection_timer)) { log_warning("Login response timeout. Waited %d " "seconds and did not get response PDU.", session->conn[0].active_timeout); c->ret = LOGIN_FAILED; return c->ret; } if (ret > 0) { if (pfd.revents & (POLLIN | POLLPRI)) { ret = iscsi_login_rsp(session, c); if (ret == -EAGAIN) goto repoll; if (status_class) *status_class = c->status_class; if (status_detail) *status_detail = c->status_detail; if (ret) return c->ret; } else if (pfd.revents & POLLHUP) { log_warning("Login POLLHUP"); c->ret = LOGIN_FAILED; return c->ret; } else if (pfd.revents & POLLNVAL) { log_warning("Login POLLNVAL"); c->ret = LOGIN_IO_ERROR; return c->ret; } else if (pfd.revents & POLLERR) { log_warning("Login POLLERR"); c->ret = LOGIN_IO_ERROR; return c->ret; } } else if (ret < 0) { log_error("Login poll error."); c->ret = LOGIN_FAILED; return c->ret; } } while (conn->current_stage != ISCSI_FULL_FEATURE_PHASE); c->ret = LOGIN_OK; if (c->auth_client && acl_finish(c->auth_client) != AUTH_STATUS_NO_ERROR) { log_error("Login failed, error finishing c->auth_client"); if (c->ret == LOGIN_OK) c->ret = LOGIN_FAILED; } return c->ret; } open-iscsi-2.0.874/usr/md5.c000066400000000000000000000163051277325716400154320ustar00rootroot00000000000000/* * This code implements the MD5 message-digest algorithm. * The algorithm is due to Ron Rivest. This code was * written by Colin Plumb in 1993, no copyright is claimed. * This code is in the public domain; do with it what you wish. * * Equivalent code is available from RSA Data Security, Inc. * This code has been tested against that, and is equivalent, * except that you don't need to include two pages of legalese * with every copy. * * To compute the message digest of a chunk of bytes, declare an * MD5Context structure, pass it to MD5Init, call MD5Update as * needed on buffers full of bytes, and then call MD5Final, which * will fill a supplied 16-byte array with the digest. * * Changed so as no longer to depend on Colin Plumb's `usual.h' header * definitions; now uses stuff from dpkg's config.h. * - Ian Jackson . * Still in the public domain. */ #include "md5.h" #ifdef WORDS_BIGENDIAN void byteSwap(UWORD32 *buf, unsigned words) { md5byte *p = (md5byte *)buf; do { *buf++ = (UWORD32)((unsigned)p[3] << 8 | p[2]) << 16 | ((unsigned)p[1] << 8 | p[0]); p += 4; } while (--words); } #else #define byteSwap(buf,words) #endif /* * Start MD5 accumulation. Set bit count to 0 and buffer to mysterious * initialization constants. */ void MD5Init(struct MD5Context *ctx) { ctx->buf[0] = 0x67452301; ctx->buf[1] = 0xefcdab89; ctx->buf[2] = 0x98badcfe; ctx->buf[3] = 0x10325476; ctx->bytes[0] = 0; ctx->bytes[1] = 0; } /* * Update context to reflect the concatenation of another buffer full * of bytes. */ void MD5Update(struct MD5Context *ctx, md5byte const *buf, unsigned len) { UWORD32 t; /* Update byte count */ t = ctx->bytes[0]; if ((ctx->bytes[0] = t + len) < t) ctx->bytes[1]++; /* Carry from low to high */ t = 64 - (t & 0x3f); /* Space available in ctx->in (at least 1) */ if (t > len) { memcpy((md5byte *)ctx->in + 64 - t, buf, len); return; } /* First chunk is an odd size */ memcpy((md5byte *)ctx->in + 64 - t, buf, t); byteSwap(ctx->in, 16); MD5Transform(ctx->buf, ctx->in); buf += t; len -= t; /* Process data in 64-byte chunks */ while (len >= 64) { memcpy(ctx->in, buf, 64); byteSwap(ctx->in, 16); MD5Transform(ctx->buf, ctx->in); buf += 64; len -= 64; } /* Handle any remaining bytes of data. */ memcpy(ctx->in, buf, len); } /* * Final wrapup - pad to 64-byte boundary with the bit pattern * 1 0* (64-bit count of bits processed, MSB-first) */ void MD5Final(md5byte digest[16], struct MD5Context *ctx) { int count = ctx->bytes[0] & 0x3f; /* Number of bytes in ctx->in */ md5byte *p = (md5byte *)ctx->in + count; /* Set the first char of padding to 0x80. There is always room. */ *p++ = 0x80; /* Bytes of padding needed to make 56 bytes (-8..55) */ count = 56 - 1 - count; if (count < 0) { /* Padding forces an extra block */ memset(p, 0, count + 8); byteSwap(ctx->in, 16); MD5Transform(ctx->buf, ctx->in); p = (md5byte *)ctx->in; count = 56; } memset(p, 0, count); byteSwap(ctx->in, 14); /* Append length in bits and transform */ ctx->in[14] = ctx->bytes[0] << 3; ctx->in[15] = ctx->bytes[1] << 3 | ctx->bytes[0] >> 29; MD5Transform(ctx->buf, ctx->in); byteSwap(ctx->buf, 4); memcpy(digest, ctx->buf, 16); memset(ctx, 0, sizeof(*ctx)); /* In case it's sensitive */ } #ifndef ASM_MD5 /* The four core functions - F1 is optimized somewhat */ /* #define F1(x, y, z) (x & y | ~x & z) */ #define F1(x, y, z) (z ^ (x & (y ^ z))) #define F2(x, y, z) F1(z, x, y) #define F3(x, y, z) (x ^ y ^ z) #define F4(x, y, z) (y ^ (x | ~z)) /* This is the central step in the MD5 algorithm. */ #define MD5STEP(f,w,x,y,z,in,s) \ (w += f(x,y,z) + in, w = (w<>(32-s)) + x) /* * The core of the MD5 algorithm, this alters an existing MD5 hash to * reflect the addition of 16 longwords of new data. MD5Update blocks * the data and converts bytes into longwords for this routine. */ void MD5Transform(UWORD32 buf[4], UWORD32 const in[16]) { register UWORD32 a, b, c, d; a = buf[0]; b = buf[1]; c = buf[2]; d = buf[3]; MD5STEP(F1, a, b, c, d, in[0] + 0xd76aa478, 7); MD5STEP(F1, d, a, b, c, in[1] + 0xe8c7b756, 12); MD5STEP(F1, c, d, a, b, in[2] + 0x242070db, 17); MD5STEP(F1, b, c, d, a, in[3] + 0xc1bdceee, 22); MD5STEP(F1, a, b, c, d, in[4] + 0xf57c0faf, 7); MD5STEP(F1, d, a, b, c, in[5] + 0x4787c62a, 12); MD5STEP(F1, c, d, a, b, in[6] + 0xa8304613, 17); MD5STEP(F1, b, c, d, a, in[7] + 0xfd469501, 22); MD5STEP(F1, a, b, c, d, in[8] + 0x698098d8, 7); MD5STEP(F1, d, a, b, c, in[9] + 0x8b44f7af, 12); MD5STEP(F1, c, d, a, b, in[10] + 0xffff5bb1, 17); MD5STEP(F1, b, c, d, a, in[11] + 0x895cd7be, 22); MD5STEP(F1, a, b, c, d, in[12] + 0x6b901122, 7); MD5STEP(F1, d, a, b, c, in[13] + 0xfd987193, 12); MD5STEP(F1, c, d, a, b, in[14] + 0xa679438e, 17); MD5STEP(F1, b, c, d, a, in[15] + 0x49b40821, 22); MD5STEP(F2, a, b, c, d, in[1] + 0xf61e2562, 5); MD5STEP(F2, d, a, b, c, in[6] + 0xc040b340, 9); MD5STEP(F2, c, d, a, b, in[11] + 0x265e5a51, 14); MD5STEP(F2, b, c, d, a, in[0] + 0xe9b6c7aa, 20); MD5STEP(F2, a, b, c, d, in[5] + 0xd62f105d, 5); MD5STEP(F2, d, a, b, c, in[10] + 0x02441453, 9); MD5STEP(F2, c, d, a, b, in[15] + 0xd8a1e681, 14); MD5STEP(F2, b, c, d, a, in[4] + 0xe7d3fbc8, 20); MD5STEP(F2, a, b, c, d, in[9] + 0x21e1cde6, 5); MD5STEP(F2, d, a, b, c, in[14] + 0xc33707d6, 9); MD5STEP(F2, c, d, a, b, in[3] + 0xf4d50d87, 14); MD5STEP(F2, b, c, d, a, in[8] + 0x455a14ed, 20); MD5STEP(F2, a, b, c, d, in[13] + 0xa9e3e905, 5); MD5STEP(F2, d, a, b, c, in[2] + 0xfcefa3f8, 9); MD5STEP(F2, c, d, a, b, in[7] + 0x676f02d9, 14); MD5STEP(F2, b, c, d, a, in[12] + 0x8d2a4c8a, 20); MD5STEP(F3, a, b, c, d, in[5] + 0xfffa3942, 4); MD5STEP(F3, d, a, b, c, in[8] + 0x8771f681, 11); MD5STEP(F3, c, d, a, b, in[11] + 0x6d9d6122, 16); MD5STEP(F3, b, c, d, a, in[14] + 0xfde5380c, 23); MD5STEP(F3, a, b, c, d, in[1] + 0xa4beea44, 4); MD5STEP(F3, d, a, b, c, in[4] + 0x4bdecfa9, 11); MD5STEP(F3, c, d, a, b, in[7] + 0xf6bb4b60, 16); MD5STEP(F3, b, c, d, a, in[10] + 0xbebfbc70, 23); MD5STEP(F3, a, b, c, d, in[13] + 0x289b7ec6, 4); MD5STEP(F3, d, a, b, c, in[0] + 0xeaa127fa, 11); MD5STEP(F3, c, d, a, b, in[3] + 0xd4ef3085, 16); MD5STEP(F3, b, c, d, a, in[6] + 0x04881d05, 23); MD5STEP(F3, a, b, c, d, in[9] + 0xd9d4d039, 4); MD5STEP(F3, d, a, b, c, in[12] + 0xe6db99e5, 11); MD5STEP(F3, c, d, a, b, in[15] + 0x1fa27cf8, 16); MD5STEP(F3, b, c, d, a, in[2] + 0xc4ac5665, 23); MD5STEP(F4, a, b, c, d, in[0] + 0xf4292244, 6); MD5STEP(F4, d, a, b, c, in[7] + 0x432aff97, 10); MD5STEP(F4, c, d, a, b, in[14] + 0xab9423a7, 15); MD5STEP(F4, b, c, d, a, in[5] + 0xfc93a039, 21); MD5STEP(F4, a, b, c, d, in[12] + 0x655b59c3, 6); MD5STEP(F4, d, a, b, c, in[3] + 0x8f0ccc92, 10); MD5STEP(F4, c, d, a, b, in[10] + 0xffeff47d, 15); MD5STEP(F4, b, c, d, a, in[1] + 0x85845dd1, 21); MD5STEP(F4, a, b, c, d, in[8] + 0x6fa87e4f, 6); MD5STEP(F4, d, a, b, c, in[15] + 0xfe2ce6e0, 10); MD5STEP(F4, c, d, a, b, in[6] + 0xa3014314, 15); MD5STEP(F4, b, c, d, a, in[13] + 0x4e0811a1, 21); MD5STEP(F4, a, b, c, d, in[4] + 0xf7537e82, 6); MD5STEP(F4, d, a, b, c, in[11] + 0xbd3af235, 10); MD5STEP(F4, c, d, a, b, in[2] + 0x2ad7d2bb, 15); MD5STEP(F4, b, c, d, a, in[9] + 0xeb86d391, 21); buf[0] += a; buf[1] += b; buf[2] += c; buf[3] += d; } #endif open-iscsi-2.0.874/usr/md5.h000066400000000000000000000030461277325716400154350ustar00rootroot00000000000000/* * This is the header file for the MD5 message-digest algorithm. * The algorithm is due to Ron Rivest. This code was * written by Colin Plumb in 1993, no copyright is claimed. * This code is in the public domain; do with it what you wish. * * Equivalent code is available from RSA Data Security, Inc. * This code has been tested against that, and is equivalent, * except that you don't need to include two pages of legalese * with every copy. * * To compute the message digest of a chunk of bytes, declare an * MD5Context structure, pass it to MD5Init, call MD5Update as * needed on buffers full of bytes, and then call MD5Final, which * will fill a supplied 16-byte array with the digest. * * Changed so as no longer to depend on Colin Plumb's `usual.h' * header definitions; now uses stuff from dpkg's config.h * - Ian Jackson . * Still in the public domain. */ #ifndef MD5_H #define MD5_H #include #include #include #include #if (__BYTE_ORDER == __BIG_ENDIAN) # define WORDS_BIGENDIAN 1 #endif typedef uint32_t UWORD32; #ifdef __cplusplus extern "C" { #endif #define md5byte unsigned char struct MD5Context { UWORD32 buf[4]; UWORD32 bytes[2]; UWORD32 in[16]; }; void MD5Init(struct MD5Context *context); void MD5Update(struct MD5Context *context, md5byte const *buf, unsigned len); void MD5Final(unsigned char digest[16], struct MD5Context *context); void MD5Transform(UWORD32 buf[4], UWORD32 const in[16]); #ifdef __cplusplus } #endif #endif /* !MD5_H */ open-iscsi-2.0.874/usr/mgmt_ipc.c000066400000000000000000000310571277325716400165450ustar00rootroot00000000000000/* * iSCSI Administrator Utility Socket Interface * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * Originally based on: * (C) 2004 FUJITA Tomonori * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include "iscsid.h" #include "idbm.h" #include "mgmt_ipc.h" #include "event_poll.h" #include "log.h" #include "transport.h" #include "sysdeps.h" #include "iscsi_ipc.h" #include "iscsi_err.h" #include "iscsi_util.h" #define PEERUSER_MAX 64 #define EXTMSG_MAX (64 * 1024) #define SD_SOCKET_FDS_START 3 int mgmt_ipc_listen(void) { int fd, err, addr_len; struct sockaddr_un addr; /* first check if we have fd handled by systemd */ fd = mgmt_ipc_systemd(); if (fd >= 0) return fd; /* manually establish a socket */ fd = socket(AF_LOCAL, SOCK_STREAM, 0); if (fd < 0) { log_error("Can not create IPC socket"); return fd; } addr_len = setup_abstract_addr(&addr, ISCSIADM_NAMESPACE); if ((err = bind(fd, (struct sockaddr *) &addr, addr_len)) < 0 ) { log_error("Can not bind IPC socket"); close(fd); return err; } if ((err = listen(fd, 32)) < 0) { log_error("Can not listen IPC socket"); close(fd); return err; } return fd; } int mgmt_ipc_systemd(void) { const char *env; env = getenv("LISTEN_PID"); if (!env || (strtoul(env, NULL, 10) != getpid())) return -EINVAL; env = getenv("LISTEN_FDS"); if (!env) return -EINVAL; if (strtoul(env, NULL, 10) != 1) { log_error("Did not receive exactly one IPC socket from systemd"); return -EINVAL; } return SD_SOCKET_FDS_START; } void mgmt_ipc_close(int fd) { event_loop_exit(NULL); if (fd >= 0) close(fd); } static int mgmt_ipc_session_login(queue_task_t *qtask) { return session_login_task(&qtask->req.u.session.rec, qtask); } static int mgmt_ipc_session_getstats(queue_task_t *qtask) { int sid = qtask->req.u.session.sid; iscsi_session_t *session; int rc; if (!(session = session_find_by_sid(sid))) return ISCSI_ERR_SESS_NOT_FOUND; rc = ipc->get_stats(session->t->handle, session->id, session->conn[0].id, (void *)&qtask->rsp.u.getstats, MGMT_IPC_GETSTATS_BUF_MAX); if (rc) { log_error("get_stats(): IPC error %d " "session [%02d]", rc, sid); return ISCSI_ERR_INTERNAL; } mgmt_ipc_write_rsp(qtask, ISCSI_SUCCESS); return ISCSI_SUCCESS; } static int mgmt_ipc_send_targets(queue_task_t *qtask) { iscsiadm_req_t *req = &qtask->req; int err; err = iscsi_host_send_targets(qtask, req->u.st.host_no, req->u.st.do_login, &req->u.st.ss); mgmt_ipc_write_rsp(qtask, err); return ISCSI_SUCCESS; } static int mgmt_ipc_session_logout(queue_task_t *qtask) { return session_logout_task(qtask->req.u.session.sid, qtask); } static int mgmt_ipc_session_sync(queue_task_t *qtask) { struct ipc_msg_session *session= &qtask->req.u.session; return iscsi_sync_session(&session->rec, qtask, session->sid); } static int mgmt_ipc_cfg_initiatorname(queue_task_t *qtask) { if (dconfig->initiator_name) strcpy(qtask->rsp.u.config.var, dconfig->initiator_name); mgmt_ipc_write_rsp(qtask, ISCSI_SUCCESS); return ISCSI_SUCCESS; } static int mgmt_ipc_session_info(queue_task_t *qtask) { int sid = qtask->req.u.session.sid; iscsi_session_t *session; struct ipc_msg_session_state *info; if (!(session = session_find_by_sid(sid))) { log_debug(1, "session with sid %d not found!", sid); return ISCSI_ERR_SESS_NOT_FOUND; } info = &qtask->rsp.u.session_state; info->conn_state = session->conn[0].state; info->session_state = session->r_stage; mgmt_ipc_write_rsp(qtask, ISCSI_SUCCESS); return ISCSI_SUCCESS; } static int mgmt_ipc_cfg_initiatoralias(queue_task_t *qtask) { strcpy(qtask->rsp.u.config.var, dconfig->initiator_alias); mgmt_ipc_write_rsp(qtask, ISCSI_SUCCESS); return ISCSI_SUCCESS; } static int mgmt_ipc_cfg_filename(queue_task_t *qtask) { strcpy(qtask->rsp.u.config.var, dconfig->config_file); mgmt_ipc_write_rsp(qtask, ISCSI_SUCCESS); return ISCSI_SUCCESS; } static int mgmt_ipc_conn_add(queue_task_t *qtask) { return ISCSI_ERR; } static int mgmt_ipc_immediate_stop(queue_task_t *qtask) { event_loop_exit(qtask); return ISCSI_SUCCESS; } static int mgmt_ipc_conn_remove(queue_task_t *qtask) { return ISCSI_ERR; } /* * Parse a list of strings, encoded as a 32bit * length followed by the string itself (not necessarily * NUL-terminated). */ static int mgmt_ipc_parse_strings(queue_task_t *qtask, char ***result) { char *data, *endp, **argv = NULL; unsigned int left, argc; again: data = qtask->payload; left = qtask->req.payload_len; endp = NULL; argc = 0; while (left) { uint32_t len; if (left < 4) return -1; memcpy(&len, data, 4); data += 4; if (endp) *endp = '\0'; if (len > left) return -1; if (argv) { argv[argc] = (char *) data; endp = data + len; } data += len; argc++; } if (endp) *endp = '\0'; if (argv == NULL) { argv = malloc((argc + 1) * sizeof(char *)); *result = argv; goto again; } argv[argc] = NULL; return argc; } static int mgmt_ipc_notify_common(queue_task_t *qtask, int (*handler)(int, char **)) { char **argv = NULL; int argc, err = ISCSI_ERR; argc = mgmt_ipc_parse_strings(qtask, &argv); if (argc > 0) err = handler(argc, argv); if (argv) free(argv); mgmt_ipc_write_rsp(qtask, err); return ISCSI_SUCCESS; } /* Replace these dummies as you implement them elsewhere */ static int iscsi_discovery_add_node(int argc, char **argv) { return ISCSI_SUCCESS; } static int iscsi_discovery_del_node(int argc, char **argv) { return ISCSI_SUCCESS; } static int iscsi_discovery_add_portal(int argc, char **argv) { return ISCSI_SUCCESS; } static int iscsi_discovery_del_portal(int argc, char **argv) { return ISCSI_SUCCESS; } static int mgmt_ipc_notify_add_node(queue_task_t *qtask) { return mgmt_ipc_notify_common(qtask, iscsi_discovery_add_node); } static int mgmt_ipc_notify_del_node(queue_task_t *qtask) { return mgmt_ipc_notify_common(qtask, iscsi_discovery_del_node); } static int mgmt_ipc_notify_add_portal(queue_task_t *qtask) { return mgmt_ipc_notify_common(qtask, iscsi_discovery_add_portal); } static int mgmt_ipc_notify_del_portal(queue_task_t *qtask) { return mgmt_ipc_notify_common(qtask, iscsi_discovery_del_portal); } static int mgmt_peeruser(int sock, char *user) { #if defined(SO_PEERCRED) /* Linux style: use getsockopt(SO_PEERCRED) */ struct ucred peercred; socklen_t so_len = sizeof(peercred); struct passwd *pass; errno = 0; if (getsockopt(sock, SOL_SOCKET, SO_PEERCRED, &peercred, &so_len) != 0 || so_len != sizeof(peercred)) { /* We didn't get a valid credentials struct. */ log_error("peeruser_unux: error receiving credentials: %m"); return 0; } pass = getpwuid(peercred.uid); if (pass == NULL) { log_error("peeruser_unix: unknown local user with uid %d", (int) peercred.uid); return 0; } strlcpy(user, pass->pw_name, PEERUSER_MAX); return 1; #elif defined(SCM_CREDS) struct msghdr msg; typedef struct cmsgcred Cred; #define cruid cmcred_uid Cred *cred; /* Compute size without padding */ /* for NetBSD */ char cmsgmem[_ALIGN(sizeof(struct cmsghdr)) + _ALIGN(sizeof(Cred))]; /* Point to start of first structure */ struct cmsghdr *cmsg = (struct cmsghdr *) cmsgmem; struct iovec iov; char buf; struct passwd *pw; memset(&msg, 0, sizeof(msg)); msg.msg_iov = &iov; msg.msg_iovlen = 1; msg.msg_control = (char *) cmsg; msg.msg_controllen = sizeof(cmsgmem); memset(cmsg, 0, sizeof(cmsgmem)); /* * The one character which is received here is not meaningful; its * purposes is only to make sure that recvmsg() blocks long enough for * the other side to send its credentials. */ iov.iov_base = &buf; iov.iov_len = 1; if (recvmsg(sock, &msg, 0) < 0 || cmsg->cmsg_len < sizeof(cmsgmem) || cmsg->cmsg_type != SCM_CREDS) { log_error("ident_unix: error receiving credentials: %m"); return 0; } cred = (Cred *) CMSG_DATA(cmsg); pw = getpwuid(cred->cruid); if (pw == NULL) { log_error("ident_unix: unknown local user with uid %d", (int) cred->cruid); return 0; } strlcpy(user, pw->pw_name, PEERUSER_MAX); return 1; #else log_error("'mgmg_ipc' auth is not supported on local connections " "on this platform"); return 0; #endif } static void mgmt_ipc_destroy_queue_task(queue_task_t *qtask) { if (qtask->mgmt_ipc_fd >= 0) close(qtask->mgmt_ipc_fd); if (qtask->payload) free(qtask->payload); if (qtask->allocated) free(qtask); } /* * Send the IPC response and destroy the queue_task. * The recovery code uses a qtask which is allocated as * part of a larger structure, and we don't want it to * get freed when we come here. This is what qtask->allocated * is for. */ void mgmt_ipc_write_rsp(queue_task_t *qtask, int err) { if (!qtask) return; log_debug(4, "%s: rsp to fd %d", __FUNCTION__, qtask->mgmt_ipc_fd); if (qtask->mgmt_ipc_fd < 0) { mgmt_ipc_destroy_queue_task(qtask); return; } qtask->rsp.err = err; if (write(qtask->mgmt_ipc_fd, &qtask->rsp, sizeof(qtask->rsp)) < 0) log_error("IPC qtask write failed: %s", strerror(errno)); mgmt_ipc_destroy_queue_task(qtask); } static int mgmt_ipc_read_data(int fd, void *ptr, size_t len) { int n; while (len) { n = read(fd, ptr, len); if (n < 0) { if (errno == EINTR) continue; return -EIO; } if (n == 0) { /* Client closed connection */ return -EIO; } ptr += n; len -= n; } return 0; } static int mgmt_ipc_read_req(queue_task_t *qtask) { iscsiadm_req_t *req = &qtask->req; int rc; rc = mgmt_ipc_read_data(qtask->mgmt_ipc_fd, req, sizeof(*req)); if (rc >= 0 && req->payload_len > 0) { /* Limit what we accept */ if (req->payload_len > EXTMSG_MAX) return -EIO; /* Remember the allocated pointer in the * qtask - it will be freed by write_rsp. * Note: we allocate one byte in excess * so we can append a NUL byte. */ qtask->payload = malloc(req->payload_len + 1); rc = mgmt_ipc_read_data(qtask->mgmt_ipc_fd, qtask->payload, req->payload_len); } return rc; } static mgmt_ipc_fn_t * mgmt_ipc_functions[__MGMT_IPC_MAX_COMMAND] = { [MGMT_IPC_SESSION_LOGIN] = mgmt_ipc_session_login, [MGMT_IPC_SESSION_LOGOUT] = mgmt_ipc_session_logout, [MGMT_IPC_SESSION_SYNC] = mgmt_ipc_session_sync, [MGMT_IPC_SESSION_STATS] = mgmt_ipc_session_getstats, [MGMT_IPC_SEND_TARGETS] = mgmt_ipc_send_targets, [MGMT_IPC_SESSION_INFO] = mgmt_ipc_session_info, [MGMT_IPC_CONN_ADD] = mgmt_ipc_conn_add, [MGMT_IPC_CONN_REMOVE] = mgmt_ipc_conn_remove, [MGMT_IPC_CONFIG_INAME] = mgmt_ipc_cfg_initiatorname, [MGMT_IPC_CONFIG_IALIAS] = mgmt_ipc_cfg_initiatoralias, [MGMT_IPC_CONFIG_FILE] = mgmt_ipc_cfg_filename, [MGMT_IPC_IMMEDIATE_STOP] = mgmt_ipc_immediate_stop, [MGMT_IPC_NOTIFY_ADD_NODE] = mgmt_ipc_notify_add_node, [MGMT_IPC_NOTIFY_DEL_NODE] = mgmt_ipc_notify_del_node, [MGMT_IPC_NOTIFY_ADD_PORTAL] = mgmt_ipc_notify_add_portal, [MGMT_IPC_NOTIFY_DEL_PORTAL] = mgmt_ipc_notify_del_portal, }; void mgmt_ipc_handle(int accept_fd) { unsigned int command; int fd, err; queue_task_t *qtask = NULL; mgmt_ipc_fn_t *handler = NULL; char user[PEERUSER_MAX]; qtask = calloc(1, sizeof(queue_task_t)); if (!qtask) return; if ((fd = accept(accept_fd, NULL, NULL)) < 0) { free(qtask); return; } qtask->allocated = 1; qtask->mgmt_ipc_fd = fd; if (!mgmt_peeruser(fd, user) || strncmp(user, "root", PEERUSER_MAX)) { err = ISCSI_ERR_ACCESS; goto err; } if (mgmt_ipc_read_req(qtask) < 0) { mgmt_ipc_destroy_queue_task(qtask); return; } command = qtask->req.command; qtask->rsp.command = command; if (0 <= command && command < __MGMT_IPC_MAX_COMMAND) handler = mgmt_ipc_functions[command]; if (handler != NULL) { /* If the handler returns OK, this means it * already sent the reply. */ err = handler(qtask); if (err == ISCSI_SUCCESS) return; } else { log_error("unknown request: %s(%d) %u", __FUNCTION__, __LINE__, command); err = ISCSI_ERR_INVALID_MGMT_REQ; } err: /* This will send the response, close the * connection and free the qtask */ mgmt_ipc_write_rsp(qtask, err); } open-iscsi-2.0.874/usr/mgmt_ipc.h000066400000000000000000000057511277325716400165540ustar00rootroot00000000000000/* * iSCSI Daemon/Admin Management IPC * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef MGMT_IPC_H #define MGMT_IPC_H #include "types.h" #include "iscsi_if.h" #include "config.h" #define ISCSIADM_NAMESPACE "ISCSIADM_ABSTRACT_NAMESPACE" #define PEERUSER_MAX 64 typedef enum iscsiadm_cmd { MGMT_IPC_UNKNOWN = 0, MGMT_IPC_SESSION_LOGIN = 1, MGMT_IPC_SESSION_LOGOUT = 2, MGMT_IPC_SESSION_ACTIVESTAT = 4, MGMT_IPC_CONN_ADD = 5, MGMT_IPC_CONN_REMOVE = 6, MGMT_IPC_SESSION_STATS = 7, MGMT_IPC_CONFIG_INAME = 8, MGMT_IPC_CONFIG_IALIAS = 9, MGMT_IPC_CONFIG_FILE = 10, MGMT_IPC_IMMEDIATE_STOP = 11, MGMT_IPC_SESSION_SYNC = 12, MGMT_IPC_SESSION_INFO = 13, MGMT_IPC_ISNS_DEV_ATTR_QUERY = 14, MGMT_IPC_SEND_TARGETS = 15, MGMT_IPC_NOTIFY_ADD_NODE = 16, MGMT_IPC_NOTIFY_DEL_NODE = 17, MGMT_IPC_NOTIFY_ADD_PORTAL = 18, MGMT_IPC_NOTIFY_DEL_PORTAL = 19, __MGMT_IPC_MAX_COMMAND } iscsiadm_cmd_e; /* IPC Request */ typedef struct iscsiadm_req { iscsiadm_cmd_e command; uint32_t payload_len; union { /* messages */ struct ipc_msg_session { int sid; node_rec_t rec; } session; struct ipc_msg_conn { int sid; int cid; } conn; struct ipc_msg_send_targets { int host_no; int do_login; struct sockaddr_storage ss; } st; struct ipc_msg_set_host_param { int host_no; int param; /* TODO: make this variable len to support */ char value[IFNAMSIZ + 1]; } set_host_param; } u; } iscsiadm_req_t; /* IPC Response */ typedef struct iscsiadm_rsp { iscsiadm_cmd_e command; int err; /* ISCSI_ERR value */ union { #define MGMT_IPC_GETSTATS_BUF_MAX (sizeof(struct iscsi_uevent) + \ sizeof(struct iscsi_stats) + \ sizeof(struct iscsi_stats_custom) * \ ISCSI_STATS_CUSTOM_MAX) struct ipc_msg_getstats { struct iscsi_uevent ev; struct iscsi_stats stats; char custom[sizeof(struct iscsi_stats_custom) * ISCSI_STATS_CUSTOM_MAX]; } getstats; struct ipc_msg_config { char var[VALUE_MAXLEN]; } config; struct ipc_msg_session_state { int session_state; int conn_state; } session_state; } u; } iscsiadm_rsp_t; struct queue_task; typedef int mgmt_ipc_fn_t(struct queue_task *); struct queue_task; void mgmt_ipc_write_rsp(struct queue_task *qtask, int err); int mgmt_ipc_listen(void); int mgmt_ipc_systemd(void); void mgmt_ipc_close(int fd); void mgmt_ipc_handle(int accept_fd); #endif /* MGMT_IPC_H */ open-iscsi-2.0.874/usr/mntcheck.c000066400000000000000000000116241277325716400165400ustar00rootroot00000000000000/* * Common code for checking sessions for mnt use * * Copyright (C) 2014 - 2015 Chris Leech * Copyright (C) 2014 - 2015 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include "initiator.h" #include "transport.h" #include "iscsid.h" #include "iscsi_ipc.h" #include "log.h" #include "iscsi_sysfs.h" #include "iscsi_settings.h" #include "iface.h" #include "host.h" #include "sysdeps.h" #include "iscsi_err.h" #include "iscsi_net_util.h" static struct libmnt_table *mtab, *swaps; static struct libmnt_cache *mntcache; static void libmount_cleanup(void) { mnt_free_table(mtab); mnt_free_table(swaps); mnt_free_cache(mntcache); mtab = NULL; swaps = NULL; mntcache = NULL; } static int libmount_init(void) { mnt_init_debug(0); mtab = mnt_new_table(); swaps = mnt_new_table(); mntcache = mnt_new_cache(); if (!mtab || !swaps || !mntcache) { libmount_cleanup(); return -ENOMEM; } mnt_table_set_cache(mtab, mntcache); mnt_table_set_cache(swaps, mntcache); mnt_table_parse_mtab(mtab, NULL); mnt_table_parse_swaps(swaps, NULL); return 0; } static int trans_filter(const struct dirent *d) { if (!strcmp(".", d->d_name) || !strcmp("..", d->d_name)) return 0; return 1; } static int subdir_filter(const struct dirent *d) { if (!(d->d_type & DT_DIR)) return 0; return trans_filter(d); } static int is_partition(const char *path) { char *devtype; int rc = 0; devtype = sysfs_get_uevent_devtype(path); if (!devtype) return 0; if (strcmp(devtype, "partition") == 0) rc = 1; free(devtype); return rc; } static int blockdev_check_mnts(char *syspath) { struct libmnt_fs *fs; char *devname = NULL; char *_devname = NULL; int rc = 0; devname = sysfs_get_uevent_devname(syspath); if (!devname) goto out; _devname = calloc(1, PATH_MAX); if (!_devname) goto out; snprintf(_devname, PATH_MAX, "/dev/%s", devname); fs = mnt_table_find_source(mtab, _devname, MNT_ITER_FORWARD); if (fs) { rc = 1; goto out; } fs = mnt_table_find_source(swaps, _devname, MNT_ITER_FORWARD); if (fs) rc = 1; out: free(devname); free(_devname); return rc; } static int count_device_users(char *syspath); static int blockdev_get_partitions(char *syspath) { struct dirent **parts = NULL; int n, i; int count = 0; n = scandir(syspath, &parts, subdir_filter, alphasort); for (i = 0; i < n; i++) { char *newpath; newpath = calloc(1, PATH_MAX); if (!newpath) continue; snprintf(newpath, PATH_MAX, "%s/%s", syspath, parts[i]->d_name); free(parts[i]); if (is_partition(newpath)) { count += count_device_users(newpath); } free(newpath); } free(parts); return count; } static int blockdev_get_holders(char *syspath) { char *path = NULL; struct dirent **holds = NULL; int n, i; int count = 0; path = calloc(1, PATH_MAX); if (!path) return 0; snprintf(path, PATH_MAX, "%s/holders", syspath); n = scandir(path, &holds, trans_filter, alphasort); for (i = 0; i < n; i++) { char *newpath; char *rp; newpath = calloc(1, PATH_MAX); if (!newpath) continue; snprintf(newpath, PATH_MAX, "%s/%s", path, holds[i]->d_name); free(holds[i]); rp = realpath(newpath, NULL); if (rp) count += count_device_users(rp); free(newpath); free(rp); } free(path); free(holds); return count; } static int count_device_users(char *syspath) { int count = 0; count += blockdev_check_mnts(syspath); count += blockdev_get_partitions(syspath); count += blockdev_get_holders(syspath); return count; }; static void device_in_use(void *data, int host_no, int target, int lun) { char *syspath = NULL; char *devname = NULL; int *count = data; devname = iscsi_sysfs_get_blockdev_from_lun(host_no, target, lun); if (!devname) goto out; syspath = calloc(1, PATH_MAX); if (!syspath) goto out; snprintf(syspath, PATH_MAX, "/sys/class/block/%s", devname); *count += count_device_users(syspath); out: free(syspath); free(devname); } int session_in_use(int sid) { int host_no = -1, err = 0; int count = 0; if (libmount_init()) { log_error("Failed to initialize libmount, " "not checking for active mounts on session [%d].", sid); return 0; } host_no = iscsi_sysfs_get_host_no_from_sid(sid, &err); if (!err) iscsi_sysfs_for_each_device(&count, host_no, sid, device_in_use); libmount_cleanup(); return count; } open-iscsi-2.0.874/usr/netlink.c000066400000000000000000001216421277325716400164120ustar00rootroot00000000000000/* * iSCSI Netlink/Linux Interface * * Copyright (C) 2004 Dmitry Yusupov, Alex Aizman * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "types.h" #include "iscsi_if.h" #include "log.h" #include "iscsi_ipc.h" #include "initiator.h" #include "iscsi_sysfs.h" #include "transport.h" #include "iscsi_netlink.h" #include "iscsi_err.h" #include "iscsi_timer.h" static int ctrl_fd; static struct sockaddr_nl src_addr, dest_addr; static void *xmitbuf = NULL; static int xmitlen = 0; static void *recvbuf = NULL; static int recvlen = 0; static void *nlm_sendbuf; static void *nlm_recvbuf; static void *pdu_sendbuf; static void *setparam_buf; static struct iscsi_ipc_ev_clbk *ipc_ev_clbk; static int ctldev_handle(void); #define NLM_BUF_DEFAULT_MAX (NLMSG_SPACE(ISCSI_DEF_MAX_RECV_SEG_LEN + \ sizeof(struct iscsi_uevent) + \ sizeof(struct iscsi_hdr))) #define PDU_SENDBUF_DEFAULT_MAX (ISCSI_DEF_MAX_RECV_SEG_LEN + \ sizeof(struct iscsi_uevent) + \ sizeof(struct iscsi_hdr)) #define NLM_SETPARAM_DEFAULT_MAX (NI_MAXHOST + 1 + sizeof(struct iscsi_uevent)) struct iscsi_ping_event { uint32_t host_no; uint32_t pid; int32_t status; int active; }; struct iscsi_ping_event ping_event; struct nlattr *iscsi_nla_alloc(uint16_t type, uint16_t len) { struct nlattr *attr; attr = calloc(1, ISCSI_NLA_TOTAL_LEN(len)); if (!attr) return NULL; attr->nla_len = ISCSI_NLA_LEN(len); attr->nla_type = type; return attr; } static int kread(char *data, int count) { log_debug(7, "in %s %u %u %p %p", __FUNCTION__, recvlen, count, data, recvbuf); memcpy(data, recvbuf + recvlen, count); recvlen += count; return count; } static int nl_read(int ctrl_fd, char *data, int size, int flags) { int rc; struct iovec iov; struct msghdr msg; log_debug(7, "in %s", __FUNCTION__); iov.iov_base = data; iov.iov_len = size; memset(&msg, 0, sizeof(msg)); msg.msg_name= (void*)&src_addr; msg.msg_namelen = sizeof(src_addr); msg.msg_iov = &iov; msg.msg_iovlen = 1; rc = recvmsg(ctrl_fd, &msg, flags); return rc; } static int nlpayload_read(int ctrl_fd, char *data, int count, int flags) { int rc; struct iovec iov; struct msghdr msg; log_debug(7, "in %s", __FUNCTION__); iov.iov_base = nlm_recvbuf; iov.iov_len = NLMSG_SPACE(count); if (iov.iov_len > NLM_BUF_DEFAULT_MAX) { log_error("Cannot read %lu bytes. nlm_recvbuf too small.", iov.iov_len); return -1; } memset(iov.iov_base, 0, iov.iov_len); memset(&msg, 0, sizeof(msg)); msg.msg_name= (void*)&src_addr; msg.msg_namelen = sizeof(src_addr); msg.msg_iov = &iov; msg.msg_iovlen = 1; /* * Netlink recvmsg call path: * * - transport api callback * - iscsi_control_conn_error (should succeed) * - iscsi_unicast_skb (must succeed) * - netlink_unicast (must succeed) * - netlink_data_ready (must succeed) * - netlink_sendskb (must succeed) * - netlink_recvmsg (must succeed) * - sock_recvmsg (must succeed) * - sys_recvmsg (must succeed) * - sys_socketcall (must succeed) * - syscall_call (must succeed) * * Note1: "must succeed" means succeed unless bug in daemon. * It also means - no sleep and memory allocation on * the path. * * Note2: "should succeed" means will succeed in most of cases * because of mempool preallocation. * * FIXME: if "Note2" than interface should generate iSCSI error * level 0 on its own. Interface must always succeed on this. */ rc = recvmsg(ctrl_fd, &msg, flags); if (data) memcpy(data, NLMSG_DATA(iov.iov_base), count); return rc; } static int kwritev(enum iscsi_uevent_e type, struct iovec *iovp, int count) { int i, rc; struct nlmsghdr *nlh; struct msghdr msg; int datalen = 0; log_debug(7, "in %s", __FUNCTION__); for (i = 0; i < count; i++) { datalen += iovp[i].iov_len; } if (xmitbuf && type != ISCSI_UEVENT_SEND_PDU) { for (i = 0; i < count; i++) { memcpy(xmitbuf + xmitlen, iovp[i].iov_base, iovp[i].iov_len); xmitlen += iovp[i].iov_len; } return datalen; } nlh = nlm_sendbuf; memset(nlh, 0, NLMSG_SPACE(0)); datalen = 0; for (i = 1; i < count; i++) datalen += iovp[i].iov_len; nlh->nlmsg_len = datalen + sizeof(*nlh); nlh->nlmsg_pid = getpid(); nlh->nlmsg_flags = 0; nlh->nlmsg_type = type; iovp[0].iov_base = (void *)nlh; iovp[0].iov_len = sizeof(*nlh); memset(&msg, 0, sizeof(msg)); msg.msg_name= (void*)&dest_addr; msg.msg_namelen = sizeof(dest_addr); msg.msg_iov = iovp; msg.msg_iovlen = count; do { /* * Netlink down call path: * * - transport api call * - iscsi_if_recv_msg (must succeed) * - iscsi_if_rx (must succeed) * - netlink_data_ready (must succeed) * - netlink_sendskb (must succeed) * - netlink_sendmsg (alloc_skb() might fail) * - sock_sendmsg (must succeed) * - sys_sendmsg (must succeed) * - sys_socketcall (must succeed) * - syscall_call (must succeed) * * Note1: "must succeed" means succeed unless bug in daemon. * It also means - no sleep and memory allocation on * the path. * * Note2: netlink_sendmsg() might fail because of OOM. Since * we are in user-space, we will sleep until we succeed. */ rc = sendmsg(ctrl_fd, &msg, 0); if (rc == -ENOMEM) { log_debug(1, "sendmsg: alloc_skb() failed"); sleep(1); } else if (rc < 0) { log_error("sendmsg: bug? ctrl_fd %d", ctrl_fd); exit(rc); } } while (rc < 0); return rc; } /* * __kipc_call() should never block. Therefore * Netlink's xmit logic is serialized. This means we do not allocate on * xmit path. Instead we reuse nlm_sendbuf buffer. * * Transport must assure non-blocking operations for: * * - session_create() * - conn_create() * - conn_bind() * _ set_param() * - conn_start() * - conn_stop() * * Its OK to block for cleanup for short period of time in operatations for: * * - conn_destroy() * - session_destroy() * * FIXME: interface needs to be extended to allow longer blocking on * cleanup. (Dima) */ static int __kipc_call(struct iovec *iovp, int count) { int rc, iferr; struct iscsi_uevent *ev = iovp[1].iov_base; enum iscsi_uevent_e type = ev->type; log_debug(7, "in %s", __FUNCTION__); rc = kwritev(type, iovp, count); do { if ((rc = nlpayload_read(ctrl_fd, (void*)ev, sizeof(*ev), MSG_PEEK)) < 0) { return rc; } if (ev->type != type) { log_debug(1, "expecting event %d, got %d, handling...", type, ev->type); if (ev->type == ISCSI_KEVENT_IF_ERROR) { if ((rc = nlpayload_read(ctrl_fd, (void*)ev, sizeof(*ev), 0)) < 0) { return rc; } /* * iferror is u32, but the kernel returns * negative errno values for errors. */ iferr = ev->iferror; if (iferr == -ENOSYS) /* not fatal so let caller handle log */ log_debug(1, "Received iferror %d: %s.", iferr, strerror(-iferr)); else if (iferr < 0) log_error("Received iferror %d: %s.", iferr, strerror(-iferr)); else log_error("Received iferror %d.", iferr); return ev->iferror; } /* * receive and queue async. event which as of * today could be: * - CONN_ERROR * - RECV_PDU */ ctldev_handle(); } else if (ev->type == ISCSI_UEVENT_GET_STATS) { /* kget_stats() will read */ return 0; } else if (ev->type == ISCSI_UEVENT_GET_CHAP) { /* kget_chap() will read */ return 0; } else if (ev->type == ISCSI_UEVENT_GET_HOST_STATS) { /* kget_host_stats() will read */ return 0; } else { if ((rc = nlpayload_read(ctrl_fd, (void*)ev, sizeof(*ev), 0)) < 0) { return rc; } break; } } while (ev->type != type); return rc; } static int ksendtargets(uint64_t transport_handle, uint32_t host_no, struct sockaddr *addr) { int rc, addrlen; struct iscsi_uevent *ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(setparam_buf, 0, NLM_SETPARAM_DEFAULT_MAX); ev = (struct iscsi_uevent *)setparam_buf; ev->type = ISCSI_UEVENT_TGT_DSCVR; ev->transport_handle = transport_handle; ev->u.tgt_dscvr.type = ISCSI_TGT_DSCVR_SEND_TARGETS; ev->u.tgt_dscvr.host_no = host_no; if (addr->sa_family == PF_INET) addrlen = sizeof(struct sockaddr_in); else if (addr->sa_family == PF_INET6) addrlen = sizeof(struct sockaddr_in6); else { log_error("%s unknown addr family %d", __FUNCTION__, addr->sa_family); return -EINVAL; } memcpy(setparam_buf + sizeof(*ev), addr, addrlen); iov[1].iov_base = ev; iov[1].iov_len = sizeof(*ev) + addrlen; rc = __kipc_call(iov, 2); if (rc < 0) { log_error("sendtargets failed rc%d", rc); return rc; } return 0; } static int kcreate_session(uint64_t transport_handle, uint64_t ep_handle, uint32_t initial_cmdsn, uint16_t cmds_max, uint16_t qdepth, uint32_t *out_sid, uint32_t *hostno) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); if (ep_handle == 0) { ev.type = ISCSI_UEVENT_CREATE_SESSION; ev.transport_handle = transport_handle; ev.u.c_session.initial_cmdsn = initial_cmdsn; ev.u.c_session.cmds_max = cmds_max; ev.u.c_session.queue_depth = qdepth; } else { ev.type = ISCSI_UEVENT_CREATE_BOUND_SESSION; ev.transport_handle = transport_handle; ev.u.c_bound_session.initial_cmdsn = initial_cmdsn; ev.u.c_bound_session.cmds_max = cmds_max; ev.u.c_bound_session.queue_depth = qdepth; ev.u.c_bound_session.ep_handle = ep_handle; } iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; *hostno = ev.r.c_session_ret.host_no; *out_sid = ev.r.c_session_ret.sid; return 0; } static int kdestroy_session(uint64_t transport_handle, uint32_t sid) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_DESTROY_SESSION; ev.transport_handle = transport_handle; ev.u.d_session.sid = sid; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kunbind_session(uint64_t transport_handle, uint32_t sid) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_UNBIND_SESSION; ev.transport_handle = transport_handle; ev.u.d_session.sid = sid; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kcreate_conn(uint64_t transport_handle, uint32_t sid, uint32_t cid, uint32_t *out_cid) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_CREATE_CONN; ev.transport_handle = transport_handle; ev.u.c_conn.cid = cid; ev.u.c_conn.sid = sid; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) { log_debug(7, "returned %d", rc); return rc; } if ((int)ev.r.c_conn_ret.cid == -1) return -EIO; *out_cid = ev.r.c_conn_ret.cid; return 0; } static int kdestroy_conn(uint64_t transport_handle, uint32_t sid, uint32_t cid) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_DESTROY_CONN; ev.transport_handle = transport_handle; ev.u.d_conn.sid = sid; ev.u.d_conn.cid = cid; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kbind_conn(uint64_t transport_handle, uint32_t sid, uint32_t cid, uint64_t transport_eph, int is_leading, int *retcode) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_BIND_CONN; ev.transport_handle = transport_handle; ev.u.b_conn.sid = sid; ev.u.b_conn.cid = cid; ev.u.b_conn.transport_eph = transport_eph; ev.u.b_conn.is_leading = is_leading; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; *retcode = ev.r.retcode; return 0; } static void ksend_pdu_begin(uint64_t transport_handle, uint32_t sid, uint32_t cid, int hdr_size, int data_size) { struct iscsi_uevent *ev; int total_xmitlen = sizeof(*ev) + hdr_size + data_size; log_debug(7, "in %s", __FUNCTION__); if (xmitbuf) { log_error("send's begin state machine bug?"); exit(-EIO); } if (total_xmitlen > PDU_SENDBUF_DEFAULT_MAX) { log_error("BUG: Cannot send %d bytes.", total_xmitlen); exit(-EINVAL); } xmitbuf = pdu_sendbuf; memset(xmitbuf, 0, total_xmitlen); xmitlen = sizeof(*ev); ev = xmitbuf; memset(ev, 0, sizeof(*ev)); ev->type = ISCSI_UEVENT_SEND_PDU; ev->transport_handle = transport_handle; ev->u.send_pdu.sid = sid; ev->u.send_pdu.cid = cid; ev->u.send_pdu.hdr_size = hdr_size; ev->u.send_pdu.data_size = data_size; log_debug(3, "send PDU began for hdr %d bytes and data %d bytes", hdr_size, data_size); } static int ksend_pdu_end(uint64_t transport_handle, uint32_t sid, uint32_t cid, int *retcode) { int rc; struct iscsi_uevent *ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); if (!xmitbuf) { log_error("send's end state machine bug?"); exit(-EIO); } ev = xmitbuf; if (ev->u.send_pdu.sid != sid || ev->u.send_pdu.cid != cid) { log_error("send's end state machine corruption?"); exit(-EIO); } iov[1].iov_base = xmitbuf; iov[1].iov_len = xmitlen; rc = __kipc_call(iov, 2); if (rc < 0) goto err; if (ev->r.retcode) { *retcode = ev->r.retcode; goto err; } if (ev->type != ISCSI_UEVENT_SEND_PDU) { log_error("bad event: bug on send_pdu_end?"); exit(-EIO); } log_debug(3, "send PDU finished for conn %d:%d", sid, cid); xmitbuf = NULL; return 0; err: xmitbuf = NULL; xmitlen = 0; return rc; } static int kset_host_param(uint64_t transport_handle, uint32_t host_no, enum iscsi_host_param param, void *value, int type) { struct iscsi_uevent *ev; char *param_str; int rc, len; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(setparam_buf, 0, NLM_SETPARAM_DEFAULT_MAX); ev = (struct iscsi_uevent *)setparam_buf; ev->type = ISCSI_UEVENT_SET_HOST_PARAM; ev->transport_handle = transport_handle; ev->u.set_host_param.host_no = host_no; ev->u.set_host_param.param = param; param_str = setparam_buf + sizeof(*ev); switch (type) { case ISCSI_INT: sprintf(param_str, "%d", *((int *)value)); break; case ISCSI_STRING: if (!strlen(value)) return 0; sprintf(param_str, "%s", (char *)value); break; default: log_error("invalid type %d", type); return -EINVAL; } ev->u.set_host_param.len = len = strlen(param_str) + 1; iov[1].iov_base = ev; iov[1].iov_len = sizeof(*ev) + len; rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kset_param(uint64_t transport_handle, uint32_t sid, uint32_t cid, enum iscsi_param param, void *value, int type) { struct iscsi_uevent *ev; char *param_str; int rc, len; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(setparam_buf, 0, NLM_SETPARAM_DEFAULT_MAX); ev = (struct iscsi_uevent *)setparam_buf; ev->type = ISCSI_UEVENT_SET_PARAM; ev->transport_handle = transport_handle; ev->u.set_param.sid = sid; ev->u.set_param.cid = cid; ev->u.set_param.param = param; param_str = setparam_buf + sizeof(*ev); switch (type) { case ISCSI_INT: sprintf(param_str, "%d", *((int *)value)); break; case ISCSI_UINT: sprintf(param_str, "%u", *((unsigned int *)value)); break; case ISCSI_STRING: if (!strlen(value)) return 0; sprintf(param_str, "%s", (char *)value); break; default: log_error("invalid type %d", type); return -EINVAL; } ev->u.set_param.len = len = strlen(param_str) + 1; iov[1].iov_base = ev; iov[1].iov_len = sizeof(*ev) + len; rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kstop_conn(uint64_t transport_handle, uint32_t sid, uint32_t cid, int flag) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_STOP_CONN; ev.transport_handle = transport_handle; ev.u.stop_conn.sid = sid; ev.u.stop_conn.cid = cid; ev.u.stop_conn.flag = flag; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kstart_conn(uint64_t transport_handle, uint32_t sid, uint32_t cid, int *retcode) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_START_CONN; ev.transport_handle = transport_handle; ev.u.start_conn.sid = sid; ev.u.start_conn.cid = cid; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; *retcode = ev.r.retcode; return 0; } static int krecv_pdu_begin(struct iscsi_conn *conn) { int rc; log_debug(7, "in %s", __FUNCTION__); if (recvbuf) { log_error("recv's begin state machine bug?"); return -EIO; } if (!conn->recv_context) { rc = ipc->ctldev_handle(); if (rc == -ENXIO) /* event for some other conn */ return -EAGAIN; else if (rc < 0) /* fatal handling error or conn error */ return rc; /* * Session create/destroy event for another conn */ if (!conn->recv_context) return -EAGAIN; } recvbuf = conn->recv_context->data + sizeof(struct iscsi_uevent); recvlen = 0; log_debug(3, "recv PDU began, pdu handle %p", recvbuf); return 0; } static int krecv_pdu_end(struct iscsi_conn *conn) { log_debug(7, "in %s", __FUNCTION__); if (!recvbuf) { log_error("recv's end state machine bug?"); return -EIO; } log_debug(3, "recv PDU finished for pdu handle 0x%p", recvbuf); ipc_ev_clbk->put_ev_context(conn->recv_context); conn->recv_context = NULL; recvbuf = NULL; return 0; } int ktransport_ep_connect(iscsi_conn_t *conn, int non_blocking) { int rc, addrlen; struct iscsi_uevent *ev; struct sockaddr *dst_addr = (struct sockaddr *)&conn->saddr; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(setparam_buf, 0, NLM_SETPARAM_DEFAULT_MAX); ev = (struct iscsi_uevent *)setparam_buf; ev->transport_handle = conn->session->t->handle; if (conn->bind_ep) { ev->type = ISCSI_UEVENT_TRANSPORT_EP_CONNECT_THROUGH_HOST; ev->u.ep_connect_through_host.non_blocking = non_blocking; ev->u.ep_connect_through_host.host_no = conn->session->hostno; } else { ev->type = ISCSI_UEVENT_TRANSPORT_EP_CONNECT; ev->u.ep_connect.non_blocking = non_blocking; } if (dst_addr->sa_family == PF_INET) addrlen = sizeof(struct sockaddr_in); else if (dst_addr->sa_family == PF_INET6) addrlen = sizeof(struct sockaddr_in6); else { log_error("%s unknown addr family %d", __FUNCTION__, dst_addr->sa_family); return -EINVAL; } memcpy(setparam_buf + sizeof(*ev), dst_addr, addrlen); iov[1].iov_base = ev; iov[1].iov_len = sizeof(*ev) + addrlen; rc = __kipc_call(iov, 2); if (rc < 0) return rc; if (!ev->r.ep_connect_ret.handle) return -EIO; conn->transport_ep_handle = ev->r.ep_connect_ret.handle; log_debug(6, "%s got handle %llx", __FUNCTION__, (unsigned long long)conn->transport_ep_handle); return 0; } int ktransport_ep_poll(iscsi_conn_t *conn, int timeout_ms) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_TRANSPORT_EP_POLL; ev.transport_handle = conn->session->t->handle; ev.u.ep_poll.ep_handle = conn->transport_ep_handle; ev.u.ep_poll.timeout_ms = timeout_ms; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return ev.r.retcode; } void ktransport_ep_disconnect(iscsi_conn_t *conn) { int rc; struct iscsi_uevent ev; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); if (conn->transport_ep_handle == -1) return; memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_TRANSPORT_EP_DISCONNECT; ev.transport_handle = conn->session->t->handle; ev.u.ep_disconnect.ep_handle = conn->transport_ep_handle; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) { log_error("connection %d:%d transport disconnect failed for " "ep %" PRIu64 " with error %d.", conn->session->id, conn->id, conn->transport_ep_handle, rc); } else conn->transport_ep_handle = -1; } static int kget_stats(uint64_t transport_handle, uint32_t sid, uint32_t cid, char *statsbuf, int statsbuf_max) { int rc; int ev_size; struct iscsi_uevent ev; char nlm_ev[NLMSG_SPACE(sizeof(struct iscsi_uevent))]; struct nlmsghdr *nlh; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_GET_STATS; ev.transport_handle = transport_handle; ev.u.get_stats.sid = sid; ev.u.get_stats.cid = cid; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; if ((rc = nl_read(ctrl_fd, nlm_ev, NLMSG_SPACE(sizeof(struct iscsi_uevent)), MSG_PEEK)) < 0) { log_error("can not read nlm_ev, error %d", rc); return rc; } nlh = (struct nlmsghdr *)nlm_ev; ev_size = nlh->nlmsg_len - NLMSG_ALIGN(sizeof(struct nlmsghdr)); log_debug(6, "message real length is %d bytes", nlh->nlmsg_len); if (ev_size > statsbuf_max) { log_error("destanation buffer for statistics is " "not big enough to fit %d bytes", statsbuf_max); ev_size = statsbuf_max; } if ((rc = nlpayload_read(ctrl_fd, (void*)statsbuf, ev_size, 0)) < 0) { log_error("can not read from NL socket, error %d", rc); return rc; } return 0; } static int kset_net_config(uint64_t transport_handle, uint32_t host_no, struct iovec *iovs, uint32_t param_count) { struct iscsi_uevent ev; int rc, ev_len; struct iovec *iov = iovs + 1; log_debug(8, "in %s", __FUNCTION__); ev_len = sizeof(ev); ev.type = ISCSI_UEVENT_SET_IFACE_PARAMS; ev.transport_handle = transport_handle; ev.u.set_iface_params.host_no = host_no; /* first two iovs for nlmsg hdr and ev */ ev.u.set_iface_params.count = param_count - 2; iov->iov_base = &ev; iov->iov_len = ev_len; rc = __kipc_call(iovs, param_count); if (rc < 0) return rc; return 0; } static int krecv_conn_state(struct iscsi_conn *conn, uint32_t *state) { int rc; rc = ipc->ctldev_handle(); if (rc == -ENXIO) { /* event for some other conn */ rc = -EAGAIN; goto exit; } else if (rc < 0) /* fatal handling error or conn error */ goto exit; /* unexpected event without a receive context */ if (!conn->recv_context) return -EAGAIN; *state = *(enum iscsi_conn_state *)conn->recv_context->data; ipc_ev_clbk->put_ev_context(conn->recv_context); conn->recv_context = NULL; exit: return rc; } static int ksend_ping(uint64_t transport_handle, uint32_t host_no, struct sockaddr *addr, uint32_t iface_num, uint32_t iface_type, uint32_t pid, uint32_t size) { int rc, addrlen; struct iscsi_uevent *ev; struct iovec iov[2]; log_debug(8, "in %s", __FUNCTION__); memset(setparam_buf, 0, NLM_SETPARAM_DEFAULT_MAX); ev = (struct iscsi_uevent *)setparam_buf; ev->type = ISCSI_UEVENT_PING; ev->transport_handle = transport_handle; ev->u.iscsi_ping.host_no = host_no; ev->u.iscsi_ping.iface_num = iface_num; ev->u.iscsi_ping.iface_type = iface_type; ev->u.iscsi_ping.payload_size = size; ev->u.iscsi_ping.pid = pid; if (addr->sa_family == PF_INET) addrlen = sizeof(struct sockaddr_in); else if (addr->sa_family == PF_INET6) addrlen = sizeof(struct sockaddr_in6); else { log_error("%s unknown addr family %d", __FUNCTION__, addr->sa_family); return -EINVAL; } memcpy(setparam_buf + sizeof(*ev), addr, addrlen); iov[1].iov_base = ev; iov[1].iov_len = sizeof(*ev) + addrlen; rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kexec_ping(uint64_t transport_handle, uint32_t host_no, struct sockaddr *addr, uint32_t iface_num, uint32_t iface_type, uint32_t size, uint32_t *status) { struct pollfd pfd; struct timeval ping_timer; int timeout, fd, rc; uint32_t pid; *status = 0; fd = ipc->ctldev_open(); if (fd < 0) { log_error("Could not open netlink socket."); return ISCSI_ERR; } /* prepare to poll */ memset(&pfd, 0, sizeof(pfd)); pfd.fd = fd; pfd.events = POLLIN | POLLPRI; /* get unique ping id */ pid = rand(); rc = ksend_ping(transport_handle, host_no, addr, iface_num, iface_type, pid, size); if (rc != 0) { switch (rc) { case -ENOSYS: rc = ISCSI_ERR_OP_NOT_SUPP; break; case -EINVAL: rc = ISCSI_ERR_INVAL; break; default: rc = ISCSI_ERR; } goto close_nl; } ping_event.host_no = -1; ping_event.pid = -1; ping_event.status = -1; ping_event.active = -1; iscsi_timer_set(&ping_timer, 30); timeout = iscsi_timer_msecs_until(&ping_timer); while (1) { pfd.revents = 0; rc = poll(&pfd, 1, timeout); if (iscsi_timer_expired(&ping_timer)) { rc = ISCSI_ERR_TRANS_TIMEOUT; break; } if (rc > 0) { if (pfd.revents & (POLLIN | POLLPRI)) { timeout = iscsi_timer_msecs_until(&ping_timer); rc = ipc->ctldev_handle(); if (ping_event.active != 1) continue; if (pid != ping_event.pid) continue; rc = 0; *status = ping_event.status; break; } if (pfd.revents & POLLHUP) { rc = ISCSI_ERR_TRANS; break; } if (pfd.revents & POLLNVAL) { rc = ISCSI_ERR_INTERNAL; break; } if (pfd.revents & POLLERR) { rc = ISCSI_ERR_INTERNAL; break; } } else if (rc < 0) { rc = ISCSI_ERR_INTERNAL; break; } } close_nl: ipc->ctldev_close(); return rc; } static int kget_chap(uint64_t transport_handle, uint32_t host_no, uint16_t chap_tbl_idx, uint32_t num_entries, char *chap_buf, uint32_t *valid_chap_entries) { int rc = 0; int ev_size; struct iscsi_uevent ev; struct iovec iov[2]; char nlm_ev[NLMSG_SPACE(sizeof(struct iscsi_uevent))]; struct nlmsghdr *nlh; memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_GET_CHAP; ev.transport_handle = transport_handle; ev.u.get_chap.host_no = host_no; ev.u.get_chap.chap_tbl_idx = chap_tbl_idx; ev.u.get_chap.num_entries = num_entries; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; if ((rc = nl_read(ctrl_fd, nlm_ev, NLMSG_SPACE(sizeof(struct iscsi_uevent)), MSG_PEEK)) < 0) { log_error("can not read nlm_ev, error %d", rc); return rc; } nlh = (struct nlmsghdr *)nlm_ev; ev_size = nlh->nlmsg_len - NLMSG_ALIGN(sizeof(struct nlmsghdr)); if ((rc = nlpayload_read(ctrl_fd, (void *)chap_buf, ev_size, 0)) < 0) { log_error("can not read from NL socket, error %d", rc); return rc; } *valid_chap_entries = ev.u.get_chap.num_entries; return rc; } static int kset_chap(uint64_t transport_handle, uint32_t host_no, struct iovec *iovs, uint32_t param_count) { int rc; struct iscsi_uevent ev; struct iovec *iov = iovs + 1; log_debug(8, "in %s", __func__); ev.type = ISCSI_UEVENT_SET_CHAP; ev.transport_handle = transport_handle; ev.u.set_path.host_no = host_no; iov->iov_base = &ev; iov->iov_len = sizeof(ev); rc = __kipc_call(iovs, param_count); if (rc < 0) return rc; return 0; } static int kdelete_chap(uint64_t transport_handle, uint32_t host_no, uint16_t chap_tbl_idx) { int rc = 0; struct iscsi_uevent ev; struct iovec iov[2]; memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_DELETE_CHAP; ev.transport_handle = transport_handle; ev.u.delete_chap.host_no = host_no; ev.u.delete_chap.chap_tbl_idx = chap_tbl_idx; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return rc; } static int kset_flashnode_params(uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx, struct iovec *iovs, uint32_t param_count) { struct iscsi_uevent ev; int rc, ev_len; struct iovec *iov = iovs + 1; log_debug(8, "in %s", __FUNCTION__); ev_len = sizeof(ev); ev.type = ISCSI_UEVENT_SET_FLASHNODE_PARAMS; ev.transport_handle = transport_handle; ev.u.set_flashnode.host_no = host_no; ev.u.set_flashnode.flashnode_idx = flashnode_idx; /* first two iovs for nlmsg hdr and ev */ ev.u.set_flashnode.count = param_count - 2; iov->iov_base = &ev; iov->iov_len = ev_len; rc = __kipc_call(iovs, param_count); if (rc < 0) return rc; return 0; } static int knew_flashnode(uint64_t transport_handle, uint32_t host_no, void *value, uint32_t *flashnode_idx) { struct iscsi_uevent *ev; char *param_str; int rc, len; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(setparam_buf, 0, NLM_SETPARAM_DEFAULT_MAX); ev = (struct iscsi_uevent *)setparam_buf; ev->type = ISCSI_UEVENT_NEW_FLASHNODE; ev->transport_handle = transport_handle; ev->u.new_flashnode.host_no = host_no; param_str = setparam_buf + sizeof(*ev); if (!strlen(value)) return 0; sprintf(param_str, "%s", (char *)value); len = strlen(param_str) + 1; ev->u.new_flashnode.len = len; iov[1].iov_base = ev; iov[1].iov_len = sizeof(*ev) + len; rc = __kipc_call(iov, 2); if (rc < 0) return rc; *flashnode_idx = ev->r.new_flashnode_ret.flashnode_idx; return 0; } static int kdel_flashnode(uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx) { struct iscsi_uevent ev; int rc; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_DEL_FLASHNODE; ev.transport_handle = transport_handle; ev.u.del_flashnode.host_no = host_no; ev.u.del_flashnode.flashnode_idx = flashnode_idx; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int klogin_flashnode(uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx) { struct iscsi_uevent ev; int rc; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_LOGIN_FLASHNODE; ev.transport_handle = transport_handle; ev.u.login_flashnode.host_no = host_no; ev.u.login_flashnode.flashnode_idx = flashnode_idx; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int klogout_flashnode(uint64_t transport_handle, uint32_t host_no, uint32_t flashnode_idx) { struct iscsi_uevent ev; int rc; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_LOGOUT_FLASHNODE; ev.transport_handle = transport_handle; ev.u.logout_flashnode.host_no = host_no; ev.u.logout_flashnode.flashnode_idx = flashnode_idx; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int klogout_flashnode_sid(uint64_t transport_handle, uint32_t host_no, uint32_t sid) { struct iscsi_uevent ev; int rc; struct iovec iov[2]; log_debug(7, "in %s", __FUNCTION__); memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_LOGOUT_FLASHNODE_SID; ev.transport_handle = transport_handle; ev.u.logout_flashnode_sid.host_no = host_no; ev.u.logout_flashnode_sid.sid = sid; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; return 0; } static int kget_host_stats(uint64_t transport_handle, uint32_t host_no, char *host_stats) { int rc = 0; int ev_size; struct iscsi_uevent ev; struct iovec iov[2]; char nlm_ev[NLMSG_SPACE(sizeof(struct iscsi_uevent))]; struct nlmsghdr *nlh; memset(&ev, 0, sizeof(struct iscsi_uevent)); ev.type = ISCSI_UEVENT_GET_HOST_STATS; ev.transport_handle = transport_handle; ev.u.get_host_stats.host_no = host_no; iov[1].iov_base = &ev; iov[1].iov_len = sizeof(ev); rc = __kipc_call(iov, 2); if (rc < 0) return rc; if ((rc = nl_read(ctrl_fd, nlm_ev, NLMSG_SPACE(sizeof(struct iscsi_uevent)), MSG_PEEK)) < 0) { log_error("can not read nlm_ev, error %d", rc); return rc; } nlh = (struct nlmsghdr *)nlm_ev; ev_size = nlh->nlmsg_len - NLMSG_ALIGN(sizeof(struct nlmsghdr)); if ((rc = nlpayload_read(ctrl_fd, (void *)host_stats, ev_size, 0)) < 0) { log_error("can not read from NL socket, error %d", rc); return rc; } return rc; } static void drop_data(struct nlmsghdr *nlh) { int ev_size; ev_size = nlh->nlmsg_len - NLMSG_ALIGN(sizeof(struct nlmsghdr)); nlpayload_read(ctrl_fd, NULL, ev_size, 0); } static int ctldev_handle(void) { int rc, ev_size; struct iscsi_uevent *ev; iscsi_session_t *session = NULL; iscsi_conn_t *conn = NULL; char nlm_ev[NLMSG_SPACE(sizeof(struct iscsi_uevent))]; struct nlmsghdr *nlh; struct iscsi_ev_context *ev_context; uint32_t sid = 0, cid = 0; log_debug(7, "in %s", __FUNCTION__); if ((rc = nl_read(ctrl_fd, nlm_ev, NLMSG_SPACE(sizeof(struct iscsi_uevent)), MSG_PEEK)) < 0) { log_error("can not read nlm_ev, error %d", rc); return rc; } nlh = (struct nlmsghdr *)nlm_ev; ev = (struct iscsi_uevent *)NLMSG_DATA(nlm_ev); log_debug(7, "%s got event type %u", __FUNCTION__, ev->type); /* drivers like qla4xxx can be inserted after iscsid is started */ switch (ev->type) { case ISCSI_KEVENT_CREATE_SESSION: /* old kernels sent ISCSI_UEVENT_CREATE_SESSION on creation */ case ISCSI_UEVENT_CREATE_SESSION: drop_data(nlh); if (!ipc_ev_clbk) return 0; if (ipc_ev_clbk->create_session) ipc_ev_clbk->create_session(ev->r.c_session_ret.host_no, ev->r.c_session_ret.sid); return 0; case ISCSI_KEVENT_DESTROY_SESSION: drop_data(nlh); if (!ipc_ev_clbk) return 0; if (ipc_ev_clbk->destroy_session) ipc_ev_clbk->destroy_session(ev->r.d_session.host_no, ev->r.d_session.sid); return 0; case ISCSI_KEVENT_RECV_PDU: sid = ev->r.recv_req.sid; cid = ev->r.recv_req.cid; break; case ISCSI_KEVENT_CONN_ERROR: sid = ev->r.connerror.sid; cid = ev->r.connerror.cid; break; case ISCSI_KEVENT_CONN_LOGIN_STATE: sid = ev->r.conn_login.sid; cid = ev->r.conn_login.cid; break; case ISCSI_KEVENT_UNBIND_SESSION: sid = ev->r.unbind_session.sid; /* session wide event so cid is 0 */ cid = 0; break; case ISCSI_KEVENT_HOST_EVENT: switch (ev->r.host_event.code) { case ISCSI_EVENT_LINKUP: log_warning("Host%u: Link Up.", ev->r.host_event.host_no); break; case ISCSI_EVENT_LINKDOWN: log_warning("Host%u: Link Down.", ev->r.host_event.host_no); break; default: log_debug(7, "Host%u: Unknown host event: %u.", ev->r.host_event.host_no, ev->r.host_event.code); } drop_data(nlh); return 0; case ISCSI_KEVENT_PING_COMP: ping_event.host_no = ev->r.ping_comp.host_no; ping_event.pid = ev->r.ping_comp.pid; ping_event.status = ev->r.ping_comp.status; ping_event.active = 1; drop_data(nlh); return 0; default: if ((ev->type > ISCSI_UEVENT_MAX && ev->type < KEVENT_BASE) || (ev->type > ISCSI_KEVENT_MAX)) log_error("Unknown kernel event %d. You may want to " " upgrade your iscsi tools.", ev->type); else /* * If another app is using the interface we might * see their * stuff. Just drop it. */ log_debug(7, "Got unknown event %d. Dropping.", ev->type); drop_data(nlh); return 0; } /* verify connection */ session = session_find_by_sid(sid); if (!session) { /* * this can happen normally when other apps are using the * nl interface. */ log_debug(1, "Could not verify connection %d:%d. Dropping " "event.", sid, cid); drop_data(nlh); return -ENXIO; } conn = &session->conn[0]; ev_size = nlh->nlmsg_len - NLMSG_ALIGN(sizeof(struct nlmsghdr)); ev_context = ipc_ev_clbk->get_ev_context(conn, ev_size); if (!ev_context) { log_error("Can not allocate memory for receive context."); drop_data(nlh); return -ENOMEM; } log_debug(6, "message real length is %d bytes, recv_handle %p", nlh->nlmsg_len, ev_context->data); if ((rc = nlpayload_read(ctrl_fd, ev_context->data, ev_size, 0)) < 0) { ipc_ev_clbk->put_ev_context(ev_context); log_error("can not read from NL socket, error %d", rc); /* retry later */ return rc; } /* * we sched these events because the handlers could call back * into ctldev_handle */ switch (ev->type) { case ISCSI_KEVENT_RECV_PDU: rc = ipc_ev_clbk->sched_ev_context(ev_context, conn, 0, EV_CONN_RECV_PDU); break; case ISCSI_KEVENT_CONN_ERROR: memcpy(ev_context->data, &ev->r.connerror.error, sizeof(ev->r.connerror.error)); rc = ipc_ev_clbk->sched_ev_context(ev_context, conn, 0, EV_CONN_ERROR); break; case ISCSI_KEVENT_CONN_LOGIN_STATE: memcpy(ev_context->data, &ev->r.conn_login.state, sizeof(ev->r.conn_login.state)); rc = ipc_ev_clbk->sched_ev_context(ev_context, conn, 0, EV_CONN_LOGIN); break; case ISCSI_KEVENT_UNBIND_SESSION: rc = ipc_ev_clbk->sched_ev_context(ev_context, conn, 0, EV_CONN_STOP); break; default: ipc_ev_clbk->put_ev_context(ev_context); log_error("unknown kernel event %d", ev->type); return -EEXIST; } if (rc) ipc_ev_clbk->put_ev_context(ev_context); return rc; } static int ctldev_open(void) { log_debug(7, "in %s", __FUNCTION__); nlm_sendbuf = calloc(1, NLM_BUF_DEFAULT_MAX); if (!nlm_sendbuf) { log_error("can not allocate nlm_sendbuf"); return -1; } nlm_recvbuf = calloc(1, NLM_BUF_DEFAULT_MAX); if (!nlm_recvbuf) { log_error("can not allocate nlm_recvbuf"); goto free_nlm_sendbuf; } pdu_sendbuf = calloc(1, PDU_SENDBUF_DEFAULT_MAX); if (!pdu_sendbuf) { log_error("can not allocate nlm_sendbuf"); goto free_nlm_recvbuf; } setparam_buf = calloc(1, NLM_SETPARAM_DEFAULT_MAX); if (!setparam_buf) { log_error("can not allocate setparam_buf"); goto free_pdu_sendbuf; } ctrl_fd = socket(PF_NETLINK, SOCK_RAW, NETLINK_ISCSI); if (ctrl_fd < 0) { log_error("can not create NETLINK_ISCSI socket"); goto free_setparam_buf; } memset(&src_addr, 0, sizeof(src_addr)); src_addr.nl_family = AF_NETLINK; src_addr.nl_pid = getpid(); src_addr.nl_groups = 1; if (bind(ctrl_fd, (struct sockaddr *)&src_addr, sizeof(src_addr))) { log_error("can not bind NETLINK_ISCSI socket"); goto close_socket; } memset(&dest_addr, 0, sizeof(dest_addr)); dest_addr.nl_family = AF_NETLINK; dest_addr.nl_pid = 0; /* kernel */ dest_addr.nl_groups = 0; /* unicast */ log_debug(7, "created NETLINK_ISCSI socket..."); return ctrl_fd; close_socket: close(ctrl_fd); free_setparam_buf: free(setparam_buf); free_pdu_sendbuf: free(pdu_sendbuf); free_nlm_recvbuf: free(nlm_recvbuf); free_nlm_sendbuf: free(nlm_sendbuf); return -1; } static void ctldev_close(void) { log_debug(7, "in %s", __FUNCTION__); if (ctrl_fd >= 0) close(ctrl_fd); free(setparam_buf); free(pdu_sendbuf); free(nlm_recvbuf); free(nlm_sendbuf); } struct iscsi_ipc nl_ipc = { .name = "Open-iSCSI Kernel IPC/NETLINK v.1", .ctldev_bufmax = NLM_BUF_DEFAULT_MAX, .ctldev_open = ctldev_open, .ctldev_close = ctldev_close, .ctldev_handle = ctldev_handle, .sendtargets = ksendtargets, .create_session = kcreate_session, .destroy_session = kdestroy_session, .unbind_session = kunbind_session, .create_conn = kcreate_conn, .destroy_conn = kdestroy_conn, .bind_conn = kbind_conn, .set_param = kset_param, .set_host_param = kset_host_param, .get_param = NULL, .start_conn = kstart_conn, .stop_conn = kstop_conn, .get_stats = kget_stats, .writev = kwritev, .send_pdu_begin = ksend_pdu_begin, .send_pdu_end = ksend_pdu_end, .read = kread, .recv_pdu_begin = krecv_pdu_begin, .recv_pdu_end = krecv_pdu_end, .set_net_config = kset_net_config, .recv_conn_state = krecv_conn_state, .exec_ping = kexec_ping, .get_chap = kget_chap, .set_chap = kset_chap, .delete_chap = kdelete_chap, .set_flash_node_params = kset_flashnode_params, .new_flash_node = knew_flashnode, .del_flash_node = kdel_flashnode, .login_flash_node = klogin_flashnode, .logout_flash_node = klogout_flashnode, .logout_flash_node_sid = klogout_flashnode_sid, .get_host_stats = kget_host_stats, }; struct iscsi_ipc *ipc = &nl_ipc; void ipc_register_ev_callback(struct iscsi_ipc_ev_clbk *ev_clbk) { ipc_ev_clbk = ev_clbk; } open-iscsi-2.0.874/usr/scsi.c000066400000000000000000000044271277325716400157100ustar00rootroot00000000000000/* * The following is from the linux kernel scsi_error.c * * scsi_error.c Copyright (C) 1997 Eric Youngdale * * SCSI error/timeout handling * Initial versions: Eric Youngdale. Based upon conversations with * Leonard Zubkoff and David Miller at Linux Expo, * ideas originating from all over the place. * * Restructured scsi_unjam_host and associated functions. * September 04, 2002 Mike Anderson (andmike@us.ibm.com) * * Forward port of Russell King's (rmk@arm.linux.org.uk) changes and * minor cleanups. * September 30, 2002 Mike Anderson (andmike@us.ibm.com) */ #include #include "scsi.h" /** * scsi_normalize_sense - normalize main elements from either fixed or * descriptor sense data format into a common format. * * @sense_buffer: byte array containing sense data returned by device * @sb_len: number of valid bytes in sense_buffer * @sshdr: pointer to instance of structure that common * elements are written to. * * Notes: * The "main elements" from sense data are: response_code, sense_key, * asc, ascq and additional_length (only for descriptor format). * * Typically this function can be called after a device has * responded to a SCSI command with the CHECK_CONDITION status. * * Return value: * 1 if valid sense data information found, else 0; **/ int scsi_normalize_sense(const uint8_t *sense_buffer, int sb_len, struct scsi_sense_hdr *sshdr) { if (!sense_buffer || !sb_len) return 0; memset(sshdr, 0, sizeof(struct scsi_sense_hdr)); sshdr->response_code = (sense_buffer[0] & 0x7f); if (!scsi_sense_valid(sshdr)) return 0; if (sshdr->response_code >= 0x72) { /* * descriptor format */ if (sb_len > 1) sshdr->sense_key = (sense_buffer[1] & 0xf); if (sb_len > 2) sshdr->asc = sense_buffer[2]; if (sb_len > 3) sshdr->ascq = sense_buffer[3]; if (sb_len > 7) sshdr->additional_length = sense_buffer[7]; } else { /* * fixed format */ if (sb_len > 2) sshdr->sense_key = (sense_buffer[2] & 0xf); if (sb_len > 7) { sb_len = (sb_len < (sense_buffer[7] + 8)) ? sb_len : (sense_buffer[7] + 8); if (sb_len > 12) sshdr->asc = sense_buffer[12]; if (sb_len > 13) sshdr->ascq = sense_buffer[13]; } } return 1; } open-iscsi-2.0.874/usr/scsi.h000066400000000000000000000020771277325716400157140ustar00rootroot00000000000000/* * this is from the linux kernel scsi_eh.h */ #ifndef _SCSI_SCSI_H #define _SCSI_SCSI_H #include /* * This is a slightly modified SCSI sense "descriptor" format header. * The addition is to allow the 0x70 and 0x71 response codes. The idea * is to place the salient data from either "fixed" or "descriptor" sense * format into one structure to ease application processing. * * The original sense buffer should be kept around for those cases * in which more information is required (e.g. the LBA of a MEDIUM ERROR). */ struct scsi_sense_hdr { /* See SPC-3 section 4.5 */ uint8_t response_code; /* permit: 0x0, 0x70, 0x71, 0x72, 0x73 */ uint8_t sense_key; uint8_t asc; uint8_t ascq; uint8_t byte4; uint8_t byte5; uint8_t byte6; uint8_t additional_length; /* always 0 for fixed sense format */ }; static inline int scsi_sense_valid(struct scsi_sense_hdr *sshdr) { if (!sshdr) return 0; return (sshdr->response_code & 0x70) == 0x70; } extern int scsi_normalize_sense(const uint8_t *sense_buffer, int sb_len, struct scsi_sense_hdr *sshdr); #endif open-iscsi-2.0.874/usr/session_info.c000066400000000000000000000301101277325716400174310ustar00rootroot00000000000000#include #include #include #include "list.h" #include "log.h" #include "iscsi_sysfs.h" #include "version.h" #include "iscsi_settings.h" #include "mgmt_ipc.h" #include "session_info.h" #include "transport.h" #include "initiator.h" #include "iface.h" #include "iscsid_req.h" #include "iscsi_err.h" int session_info_create_list(void *data, struct session_info *info) { struct session_link_info *link_info = data; struct list_head *list = link_info->list; struct session_info *new, *curr, *match = NULL; if (link_info->match_fn && !link_info->match_fn(link_info->data, info)) return -1; new = calloc(1, sizeof(*new)); if (!new) return ISCSI_ERR_NOMEM; memcpy(new, info, sizeof(*new)); INIT_LIST_HEAD(&new->list); if (list_empty(list)) { list_add_tail(&new->list, list); return 0; } list_for_each_entry(curr, list, list) { if (!strcmp(curr->targetname, info->targetname)) { match = curr; if (!strcmp(curr->address, info->address)) { match = curr; if (curr->port == info->port) { match = curr; break; } } } } list_add_tail(&new->list, match ? match->list.next : list); return 0; } void session_info_free_list(struct list_head *list) { struct session_info *curr, *tmp; list_for_each_entry_safe(curr, tmp, list, list) { list_del(&curr->list); free(curr); } } static char *get_iscsi_node_type(struct session_info *info) { int pid = iscsi_sysfs_session_user_created(info->sid); if (!pid) return "flash"; else return "non-flash"; } static int session_info_print_flat(void *data, struct session_info *info) { struct iscsi_transport *t = iscsi_sysfs_get_transport_by_sid(info->sid); if (strchr(info->persistent_address, '.')) printf("%s: [%d] %s:%d,%d %s (%s)\n", t ? t->name : UNKNOWN_VALUE, info->sid, info->persistent_address, info->persistent_port, info->tpgt, info->targetname, get_iscsi_node_type(info)); else printf("%s: [%d] [%s]:%d,%d %s (%s)\n", t ? t->name : UNKNOWN_VALUE, info->sid, info->persistent_address, info->persistent_port, info->tpgt, info->targetname, get_iscsi_node_type(info)); return 0; } static int print_iscsi_state(int sid, char *prefix) { iscsiadm_req_t req; iscsiadm_rsp_t rsp; int err; char *state = NULL; char state_buff[SCSI_MAX_STATE_VALUE]; static char *conn_state[] = { "FREE", "TRANSPORT WAIT", "IN LOGIN", "LOGGED IN", "IN LOGOUT", "LOGOUT REQUESTED", "CLEANUP WAIT", }; static char *session_state[] = { "NO CHANGE", "CLEANUP", "REOPEN", "REDIRECT", }; memset(&req, 0, sizeof(iscsiadm_req_t)); req.command = MGMT_IPC_SESSION_INFO; req.u.session.sid = sid; err = iscsid_exec_req(&req, &rsp, 1); /* * for drivers like qla4xxx, iscsid does not display * anything here since it does not know about it. */ if (!err && rsp.u.session_state.conn_state >= 0 && rsp.u.session_state.conn_state <= ISCSI_CONN_STATE_CLEANUP_WAIT) state = conn_state[rsp.u.session_state.conn_state]; printf("%s\t\tiSCSI Connection State: %s\n", prefix, state ? state : "Unknown"); state = NULL; memset(state_buff, 0, SCSI_MAX_STATE_VALUE); if (!iscsi_sysfs_get_session_state(state_buff, sid)) printf("%s\t\tiSCSI Session State: %s\n", prefix, state_buff); else printf("%s\t\tiSCSI Session State: Unknown\n", prefix); if (!err && rsp.u.session_state.session_state >= 0 && rsp.u.session_state.session_state <= R_STAGE_SESSION_REDIRECT) state = session_state[rsp.u.session_state.session_state]; printf("%s\t\tInternal iscsid Session State: %s\n", prefix, state ? state : "Unknown"); return 0; } static void print_iscsi_params(int sid, char *prefix) { struct iscsi_session_operational_config session_conf; struct iscsi_conn_operational_config conn_conf; iscsi_sysfs_get_negotiated_session_conf(sid, &session_conf); iscsi_sysfs_get_negotiated_conn_conf(sid, &conn_conf); printf("%s\t\t************************\n", prefix); printf("%s\t\tNegotiated iSCSI params:\n", prefix); printf("%s\t\t************************\n", prefix); if (is_valid_operational_value(conn_conf.HeaderDigest)) printf("%s\t\tHeaderDigest: %s\n", prefix, conn_conf.HeaderDigest ? "CRC32C" : "None"); if (is_valid_operational_value(conn_conf.DataDigest)) printf("%s\t\tDataDigest: %s\n", prefix, conn_conf.DataDigest ? "CRC32C" : "None"); if (is_valid_operational_value(conn_conf.MaxRecvDataSegmentLength)) printf("%s\t\tMaxRecvDataSegmentLength: %d\n", prefix, conn_conf.MaxRecvDataSegmentLength); if (is_valid_operational_value(conn_conf.MaxXmitDataSegmentLength)) printf("%s\t\tMaxXmitDataSegmentLength: %d\n", prefix, conn_conf.MaxXmitDataSegmentLength); if (is_valid_operational_value(session_conf.FirstBurstLength)) printf("%s\t\tFirstBurstLength: %d\n", prefix, session_conf.FirstBurstLength); if (is_valid_operational_value(session_conf.MaxBurstLength)) printf("%s\t\tMaxBurstLength: %d\n", prefix, session_conf.MaxBurstLength); if (is_valid_operational_value(session_conf.ImmediateData)) printf("%s\t\tImmediateData: %s\n", prefix, session_conf.ImmediateData ? "Yes" : "No"); if (is_valid_operational_value(session_conf.InitialR2T)) printf("%s\t\tInitialR2T: %s\n", prefix, session_conf.InitialR2T ? "Yes" : "No"); if (is_valid_operational_value(session_conf.MaxOutstandingR2T)) printf("%s\t\tMaxOutstandingR2T: %d\n", prefix, session_conf.MaxOutstandingR2T); } static void print_scsi_device_info(void *data, int host_no, int target, int lun) { char *prefix = data; char *blockdev, state[SCSI_MAX_STATE_VALUE]; printf("%s\t\tscsi%d Channel 00 Id %d Lun: %d\n", prefix, host_no, target, lun); blockdev = iscsi_sysfs_get_blockdev_from_lun(host_no, target, lun); if (blockdev) { printf("%s\t\t\tAttached scsi disk %s\t\t", prefix, blockdev); free(blockdev); if (!iscsi_sysfs_get_device_state(state, host_no, target, lun)) printf("State: %s\n", state); else printf("State: Unknown\n"); } } static int print_scsi_state(int sid, char *prefix, unsigned int flags) { int host_no = -1, err = 0; char state[SCSI_MAX_STATE_VALUE]; printf("%s\t\t************************\n", prefix); printf("%s\t\tAttached SCSI devices:\n", prefix); printf("%s\t\t************************\n", prefix); host_no = iscsi_sysfs_get_host_no_from_sid(sid, &err); if (err) { printf("%s\t\tUnavailable\n", prefix); return err; } if (flags & SESSION_INFO_HOST_DEVS) { printf("%s\t\tHost Number: %d\t", prefix, host_no); if (!iscsi_sysfs_get_host_state(state, host_no)) printf("State: %s\n", state); else printf("State: Unknown\n"); } if (flags & SESSION_INFO_SCSI_DEVS) iscsi_sysfs_for_each_device(prefix, host_no, sid, print_scsi_device_info); return 0; } void session_info_print_tree(struct list_head *list, char *prefix, unsigned int flags, int do_show) { struct session_info *curr, *prev = NULL; list_for_each_entry(curr, list, list) { if (!prev || strcmp(prev->targetname, curr->targetname)) { printf("%sTarget: %s (%s)\n", prefix, curr->targetname, get_iscsi_node_type(curr)); prev = NULL; } if (!prev || (strcmp(prev->address, curr->address) || prev->port != curr->port)) { if (strchr(curr->address, '.')) printf("%s\tCurrent Portal: %s:%d,%d\n", prefix, curr->address, curr->port, curr->tpgt); else printf("%s\tCurrent Portal: [%s]:%d,%d\n", prefix, curr->address, curr->port, curr->tpgt); if (strchr(curr->persistent_address, '.')) printf("%s\tPersistent Portal: %s:%d,%d\n", prefix, curr->persistent_address, curr->persistent_port, curr->tpgt); else printf("%s\tPersistent Portal: [%s]:%d,%d\n", prefix, curr->persistent_address, curr->persistent_port, curr->tpgt); } else printf("\n"); if (flags & SESSION_INFO_IFACE) { char *new_prefix; printf("%s\t\t**********\n", prefix); printf("%s\t\tInterface:\n", prefix); printf("%s\t\t**********\n", prefix); new_prefix = calloc(1, 1 + strlen(prefix) + strlen("\t\t")); if (!new_prefix) printf("Could not print interface info. " "Out of Memory.\n"); else { sprintf(new_prefix, "%s%s", prefix, "\t\t"); iface_print(&curr->iface, new_prefix); } } if (flags & SESSION_INFO_ISCSI_STATE) { printf("%s\t\tSID: %d\n", prefix, curr->sid); print_iscsi_state(curr->sid, prefix); } if (flags & SESSION_INFO_ISCSI_TIM) { printf("%s\t\t*********\n", prefix); printf("%s\t\tTimeouts:\n", prefix); printf("%s\t\t*********\n", prefix); printf("%s\t\tRecovery Timeout: %d\n", prefix, ((curr->tmo).recovery_tmo)); if ((curr->tmo).tgt_reset_tmo >= 0) printf("%s\t\tTarget Reset Timeout: %d\n", prefix, ((curr->tmo).tgt_reset_tmo)); else printf("%s\t\tTarget Reset Timeout: %s\n", prefix, UNKNOWN_VALUE); if ((curr->tmo).lu_reset_tmo >= 0) printf("%s\t\tLUN Reset Timeout: %d\n", prefix, ((curr->tmo).lu_reset_tmo)); else printf("%s\t\tLUN Reset Timeout: %s\n", prefix, UNKNOWN_VALUE); if ((curr->tmo).lu_reset_tmo >= 0) printf("%s\t\tAbort Timeout: %d\n", prefix, ((curr->tmo).abort_tmo)); else printf("%s\t\tAbort Timeout: %s\n", prefix, UNKNOWN_VALUE); } if (flags & SESSION_INFO_ISCSI_AUTH) { printf("%s\t\t*****\n", prefix); printf("%s\t\tCHAP:\n", prefix); printf("%s\t\t*****\n", prefix); if (!do_show) { strcpy(curr->chap.password, "********"); strcpy(curr->chap.password_in, "********"); } if (strlen((curr->chap).username)) printf("%s\t\tusername: %s\n", prefix, (curr->chap).username); else printf("%s\t\tusername: %s\n", prefix, UNKNOWN_VALUE); if (strlen((curr->chap).password)) printf("%s\t\tpassword: %s\n", prefix, (curr->chap).password); else printf("%s\t\tpassword: %s\n", prefix, UNKNOWN_VALUE); if (strlen((curr->chap).username_in)) printf("%s\t\tusername_in: %s\n", prefix, (curr->chap).username_in); else printf("%s\t\tusername_in: %s\n", prefix, UNKNOWN_VALUE); if (strlen((curr->chap).password_in)) printf("%s\t\tpassword_in: %s\n", prefix, (curr->chap).password_in); else printf("%s\t\tpassword_in: %s\n", prefix, UNKNOWN_VALUE); } if (flags & SESSION_INFO_ISCSI_PARAMS) print_iscsi_params(curr->sid, prefix); if (flags & (SESSION_INFO_SCSI_DEVS | SESSION_INFO_HOST_DEVS)) print_scsi_state(curr->sid, prefix, flags); prev = curr; } } int session_info_print(int info_level, struct session_info *info, int do_show) { struct list_head list; int num_found = 0, err = 0; char *version; unsigned int flags = 0; switch (info_level) { case 0: case -1: if (info) { session_info_print_flat(NULL, info); num_found = 1; } else err = iscsi_sysfs_for_each_session(info, &num_found, session_info_print_flat, 0); break; case 3: version = iscsi_sysfs_get_iscsi_kernel_version(); if (version) { printf("iSCSI Transport Class version %s\n", version); printf("version %s\n", ISCSI_VERSION_STR); free(version); } flags |= (SESSION_INFO_SCSI_DEVS | SESSION_INFO_HOST_DEVS); /* fall through */ case 2: flags |= (SESSION_INFO_ISCSI_PARAMS | SESSION_INFO_ISCSI_TIM | SESSION_INFO_ISCSI_AUTH); /* fall through */ case 1: INIT_LIST_HEAD(&list); struct session_link_info link_info; flags |= (SESSION_INFO_ISCSI_STATE | SESSION_INFO_IFACE); if (info) { INIT_LIST_HEAD(&info->list); list_add_tail(&list, &info->list); session_info_print_tree(&list, "", flags, do_show); num_found = 1; break; } memset(&link_info, 0, sizeof(link_info)); link_info.list = &list; link_info.data = NULL; link_info.match_fn = NULL; err = iscsi_sysfs_for_each_session(&link_info, &num_found, session_info_create_list, 0); if (err || !num_found) break; session_info_print_tree(&list, "", flags, do_show); session_info_free_list(&list); break; default: log_error("Invalid info level %d. Try 0 - 3.", info_level); return ISCSI_ERR_INVAL; } if (err) { log_error("Can not get list of active sessions (%d)", err); return err; } else if (!num_found) { log_error("No active sessions."); return ISCSI_ERR_NO_OBJS_FOUND; } return 0; } open-iscsi-2.0.874/usr/session_info.h000066400000000000000000000030661277325716400174500ustar00rootroot00000000000000#ifndef SESSION_INFO_H #define SESSION_INFO_H #include #include "sysfs.h" #include "types.h" #include "iscsi_proto.h" #include "config.h" struct list; struct session_timeout { int abort_tmo; int lu_reset_tmo; int recovery_tmo; int tgt_reset_tmo; }; struct session_CHAP { char username[AUTH_STR_MAX_LEN]; char password[AUTH_STR_MAX_LEN]; char username_in[AUTH_STR_MAX_LEN]; char password_in[AUTH_STR_MAX_LEN]; }; struct session_info { struct list_head list; /* local info */ struct iface_rec iface; int sid; struct session_timeout tmo; struct session_CHAP chap; /* remote info */ char targetname[TARGET_NAME_MAXLEN + 1]; int tpgt; char address[NI_MAXHOST + 1]; int port; char persistent_address[NI_MAXHOST + 1]; int persistent_port; }; typedef int (session_match_info_fn_t)(void *data, struct session_info *info); struct session_link_info { struct list_head *list; session_match_info_fn_t *match_fn; void *data; }; #define SESSION_INFO_IFACE 0x1 #define SESSION_INFO_ISCSI_PARAMS 0x2 #define SESSION_INFO_ISCSI_STATE 0x4 #define SESSION_INFO_SCSI_DEVS 0x8 #define SESSION_INFO_HOST_DEVS 0x10 #define SESSION_INFO_ISCSI_TIM 0x20 #define SESSION_INFO_ISCSI_AUTH 0x40 extern int session_info_create_list(void *data, struct session_info *info); extern void session_info_free_list(struct list_head *list); extern int session_info_print(int info_level, struct session_info *match_info, int do_show); extern void session_info_print_tree(struct list_head *list, char *prefix, unsigned int flags, int do_show); #endif open-iscsi-2.0.874/usr/session_mgmt.c000066400000000000000000000301641277325716400174530ustar00rootroot00000000000000/* * iSCSI session management helpers * * Copyright (C) 2010 Mike Christie * Copyright (C) 2010 Red Hat, Inc. All rights reserved. * Copyright (C) 2011 Dell Inc. * maintained by open-iscsi@googlegroups.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include "idbm.h" #include "list.h" #include "iscsi_util.h" #include "mgmt_ipc.h" #include "session_info.h" #include "iscsi_sysfs.h" #include "log.h" #include "iscsid_req.h" #include "iscsi_err.h" static void log_login_msg(struct node_rec *rec, int rc) { if (rc) { log_error("Could not login to [iface: %s, target: %s, " "portal: %s,%d].", rec->iface.name, rec->name, rec->conn[0].address, rec->conn[0].port); iscsi_err_print_msg(rc); } else log_info("Login to [iface: %s, target: %s, portal: " "%s,%d] successful.", rec->iface.name, rec->name, rec->conn[0].address, rec->conn[0].port); } struct iscsid_async_req { struct list_head list; void *data; int fd; }; /** * iscsid_reqs_close - close open async requests * @list: list of async reqs * * This just closes the socket to the daemon. */ static void iscsid_reqs_close(struct list_head *list) { struct iscsid_async_req *tmp, *curr; list_for_each_entry_safe(curr, tmp, list, list) { close(curr->fd); list_del(&curr->list); free(curr); } } static int iscsid_login_reqs_wait(struct list_head *list) { struct iscsid_async_req *tmp, *curr; struct node_rec *rec; int ret = 0; list_for_each_entry_safe(curr, tmp, list, list) { int err; rec = curr->data; err = iscsid_req_wait(MGMT_IPC_SESSION_LOGIN, curr->fd); if (err && !ret) ret = err; log_login_msg(rec, err); list_del(&curr->list); free(curr); } return ret; } /** * __iscsi_login_portal - request iscsid to login to portal * @data: If set, copies the session.multiple value to the portal record * so it is propagated to iscsid. * @list: If async, list to add session to * @rec: portal rec to log into */ static int __iscsi_login_portal(void *data, struct list_head *list, struct node_rec *rec) { struct iscsid_async_req *async_req = NULL; int rc = 0, fd; if (data && !rec->session.multiple) { struct node_rec *pattern_rec = data; rec->session.multiple = pattern_rec->session.multiple; } log_info("Logging in to [iface: %s, target: %s, portal: %s,%d]%s", rec->iface.name, rec->name, rec->conn[0].address, rec->conn[0].port, (rec->session.multiple ? " (multiple)" : "")); if (list) { async_req = calloc(1, sizeof(*async_req)); if (!async_req) log_info("Could not allocate memory for async login " "handling. Using sequential login instead."); else INIT_LIST_HEAD(&async_req->list); } if (async_req) rc = iscsid_req_by_rec_async(MGMT_IPC_SESSION_LOGIN, rec, &fd); else rc = iscsid_req_by_rec(MGMT_IPC_SESSION_LOGIN, rec); if (rc) { log_login_msg(rec, rc); if (async_req) free(async_req); return rc; } if (async_req) { list_add_tail(&async_req->list, list); async_req->fd = fd; async_req->data = rec; } else log_login_msg(rec, rc); return 0; } /** * iscsi_login_portal - request iscsid to login to portal multiple * times, based on the session.nr_sessions in the portal record. * @data: If set, session.multiple will cause an additional session to * be created regardless of the value of session.nr_sessions * @list: If async, list to add session to * @rec: portal rec to log into */ int iscsi_login_portal(void *data, struct list_head *list, struct node_rec *rec) { struct node_rec *pattern_rec = data; int rc = 0, session_count = 0, i; /* * If pattern_rec->session.multiple is set, just add a single new * session by passing things along to __iscsi_login_portal */ if (pattern_rec && pattern_rec->session.multiple) return __iscsi_login_portal(data, list, rec); /* * Count the current number of sessions, and only create those * that are missing. */ rc = iscsi_sysfs_for_each_session(rec, &session_count, iscsi_match_session_count, 0); if (rc) { log_error("Could not count current number of sessions"); goto done; } if (session_count >= rec->session.nr_sessions) { log_warning("%s: %d session%s requested, but %d " "already present.", rec->iface.name, rec->session.nr_sessions, rec->session.nr_sessions == 1 ? "" : "s", session_count); rc = ISCSI_ERR_SESS_EXISTS; goto done; } /* * Ensure the record's 'multiple' flag is set so __iscsi_login_portal * will allow multiple logins. */ rec->session.multiple = 1; for (i = session_count; i < rec->session.nr_sessions; ++i) { log_debug(1, "%s: Creating session %d/%d", rec->iface.name, i + 1, rec->session.nr_sessions); int err = __iscsi_login_portal(pattern_rec, list, rec); if (err && !rc) rc = err; } done: return rc; } /** * iscsi_login_portal_nowait - request iscsid to login to portal * @rec: portal rec to log into * * This sends the login request, but does not wait for the result. */ int iscsi_login_portal_nowait(struct node_rec *rec) { struct list_head list; int err; INIT_LIST_HEAD(&list); err = iscsi_login_portal(NULL, &list, rec); if (err > 0) return err; iscsid_reqs_close(&list); return 0; } /** * __iscsi_login_portals - login into portals on @rec_list, * @data: data to pass to login_fn * @nr_found: returned with number of portals logged into * @wait: bool indicating if the fn should wait for the result * @rec_list: list of portals to log into * @clear_list: If set, delete and free rec_list after iterating through. * @login_fn: list iter function * * This will loop over the list of portals and login. It * will attempt to login asynchronously, and then wait for * them to complete if wait is set. */ static int __iscsi_login_portals(void *data, int *nr_found, int wait, struct list_head *rec_list, int clear_list, int (*login_fn)(void *, struct list_head *, struct node_rec *)) { struct node_rec *curr_rec, *tmp; struct list_head login_list; int ret = 0, err; *nr_found = 0; INIT_LIST_HEAD(&login_list); list_for_each_entry(curr_rec, rec_list, list) { err = login_fn(data, &login_list, curr_rec); if (err > 0 && !ret) ret = err; if (!err) (*nr_found)++; } if (wait) { err = iscsid_login_reqs_wait(&login_list); if (err && !ret) ret = err; } else iscsid_reqs_close(&login_list); if (clear_list) { list_for_each_entry_safe(curr_rec, tmp, rec_list, list) { list_del(&curr_rec->list); free(curr_rec); } } return ret; } /** * iscsi_login_portals - login into portals on @rec_list, * @data: data to pass to login_fn * @nr_found: returned with number of portals logged into * @wait: bool indicating if the fn should wait for the result * @rec_list: list of portals to log into. This list is deleted after * iterating through it. * @login_fn: list iter function * * This will loop over the list of portals and login. It * will attempt to login asynchronously, and then wait for * them to complete if wait is set. */ int iscsi_login_portals(void *data, int *nr_found, int wait, struct list_head *rec_list, int (*login_fn)(void *, struct list_head *, struct node_rec *)) { return __iscsi_login_portals(data, nr_found, wait, rec_list, 1, login_fn); } /** * iscsi_login_portals_safe - login into portals on @rec_list, but do not * clear out rec_list. */ int iscsi_login_portals_safe(void *data, int *nr_found, int wait, struct list_head *rec_list, int (*login_fn)(void *, struct list_head *, struct node_rec *)) { return __iscsi_login_portals(data, nr_found, wait, rec_list, 0, login_fn); } static void log_logout_msg(struct session_info *info, int rc) { if (rc) { log_error("Could not logout of [sid: %d, target: %s, " "portal: %s,%d].", info->sid, info->targetname, info->persistent_address, info->port); iscsi_err_print_msg(rc); } else log_info("Logout of [sid: %d, target: %s, " "portal: %s,%d] successful.", info->sid, info->targetname, info->persistent_address, info->port); } static int iscsid_logout_reqs_wait(struct list_head *list) { struct iscsid_async_req *tmp, *curr; struct session_info *info; int ret = 0; list_for_each_entry_safe(curr, tmp, list, list) { int err; info = curr->data; err = iscsid_req_wait(MGMT_IPC_SESSION_LOGOUT, curr->fd); log_logout_msg(info, err); if (err) ret = err; list_del(&curr->list); free(curr); } return ret; } /** * iscsi_logout_portal - logout of portal * @info: session to log out of * @list: if async, this is the list to add the logout req to */ int iscsi_logout_portal(struct session_info *info, struct list_head *list) { struct iscsid_async_req *async_req = NULL; int fd, rc; /* TODO: add fn to add session prefix info like dev_printk */ log_info("Logging out of session [sid: %d, target: %s, portal: " "%s,%d]", info->sid, info->targetname, info->persistent_address, info->port); if (list) { async_req = calloc(1, sizeof(*async_req)); if (!async_req) log_info("Could not allocate memory for async logout " "handling. Using sequential logout instead."); } if (!async_req) rc = iscsid_req_by_sid(MGMT_IPC_SESSION_LOGOUT, info->sid); else { INIT_LIST_HEAD(&async_req->list); rc = iscsid_req_by_sid_async(MGMT_IPC_SESSION_LOGOUT, info->sid, &fd); } /* we raced with another app or instance of iscsiadm */ if (rc) { log_logout_msg(info, rc); if (async_req) free(async_req); return rc; } if (async_req) { list_add_tail(&async_req->list, list); async_req->fd = fd; async_req->data = info; } else log_logout_msg(info, rc); return 0; } /** * iscsi_logout_portals - logout portals * @data: data to pass to iter logout_fn * @nr_found: number of sessions logged out * @wait: bool indicating if the fn should wait for the result * @logout_fn: logout iter function * * This will loop over the list of sessions and run the logout fn * on them. It will attempt to logout asynchronously, and then wait for * them to complete if wait is set. */ int iscsi_logout_portals(void *data, int *nr_found, int wait, int (*logout_fn)(void *, struct list_head *, struct session_info *)) { struct session_info *curr_info; struct session_link_info link_info; struct list_head session_list, logout_list; int ret = 0, err; INIT_LIST_HEAD(&session_list); INIT_LIST_HEAD(&logout_list); memset(&link_info, 0, sizeof(link_info)); link_info.list = &session_list; link_info.data = NULL; link_info.match_fn = NULL; *nr_found = 0; err = iscsi_sysfs_for_each_session(&link_info, nr_found, session_info_create_list, 0); if (err && !list_empty(&session_list)) log_error("Could not read in all sessions: %s", iscsi_err_to_str(err)); else if (err && list_empty(&session_list)) { log_error("Could not read session info."); return err; } else if (list_empty(&session_list)) return ISCSI_ERR_NO_OBJS_FOUND; ret = err; *nr_found = 0; list_for_each_entry(curr_info, &session_list, list) { err = logout_fn(data, &logout_list, curr_info); if (err > 0 && !ret) ret = err; if (!err) (*nr_found)++; } if (!*nr_found) { ret = ISCSI_ERR_NO_OBJS_FOUND; goto free_list; } if (wait) { err = iscsid_logout_reqs_wait(&logout_list); if (err && !ret) ret = err; } else iscsid_reqs_close(&logout_list); if (ret) log_error("Could not logout of all requested sessions"); free_list: session_info_free_list(&session_list); return ret; } /* TODO merge with initiator.c implementation */ /* And add locking */ int iscsi_check_for_running_session(struct node_rec *rec) { int nr_found = 0; if (iscsi_sysfs_for_each_session(rec, &nr_found, iscsi_match_session, 0)) return 1; return 0; } open-iscsi-2.0.874/usr/session_mgmt.h000066400000000000000000000017021277325716400174540ustar00rootroot00000000000000#ifndef _SESSION_MGMT_H_ #define _SESSION_MGMT_H_ struct node_rec; struct list_head; struct session_info; extern int iscsi_login_portal(void *data, struct list_head *list, struct node_rec *rec); extern int iscsi_login_portal_nowait(struct node_rec *rec); extern int iscsi_login_portals(void *data, int *nr_found, int wait, struct list_head *rec_list, int (*login_fn)(void *, struct list_head *, struct node_rec *)); extern int iscsi_login_portals_safe(void *data, int *nr_found, int wait, struct list_head *rec_list, int (*login_fn)(void *, struct list_head *, struct node_rec *)); extern int iscsi_logout_portal(struct session_info *info, struct list_head *list); extern int iscsi_logout_portals(void *data, int *nr_found, int wait, int (*logout_fn)(void *, struct list_head *, struct session_info *)); extern int iscsi_check_for_running_session(struct node_rec *rec); #endif open-iscsi-2.0.874/usr/sha1.c000066400000000000000000000125571277325716400156060ustar00rootroot00000000000000/* * Cryptographic API. * * SHA1 Secure Hash Algorithm. * * Derived from cryptoapi implementation, adapted for in-place * scatterlist interface. Originally based on the public domain * implementation written by Steve Reid. * * Copyright (c) Alan Smithee. * Copyright (c) Andrew McDonald * Copyright (c) Jean-Francois Dive * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the Free * Software Foundation; either version 2 of the License, or (at your option) * any later version. * */ #include "sha1.h" #define SHA1_DIGEST_SIZE 20 #define SHA1_HMAC_BLOCK_SIZE 64 static inline uint32_t rol(uint32_t value, uint32_t bits) { return (((value) << (bits)) | ((value) >> (32 - (bits)))); } /* blk0() and blk() perform the initial expand. */ /* I got the idea of expanding during the round function from SSLeay */ # define blk0(i) block32[i] #define blk(i) (block32[i&15] = rol(block32[(i+13)&15]^block32[(i+8)&15] \ ^block32[(i+2)&15]^block32[i&15],1)) /* (R0+R1), R2, R3, R4 are the different operations used in SHA1 */ #define R0(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk0(i)+0x5A827999+rol(v,5); \ w=rol(w,30); #define R1(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk(i)+0x5A827999+rol(v,5); \ w=rol(w,30); #define R2(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0x6ED9EBA1+rol(v,5);w=rol(w,30); #define R3(v,w,x,y,z,i) z+=(((w|x)&y)|(w&x))+blk(i)+0x8F1BBCDC+rol(v,5); \ w=rol(w,30); #define R4(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0xCA62C1D6+rol(v,5);w=rol(w,30); /* Hash a single 512-bit block. This is the core of the algorithm. */ static void sha1_transform(uint32_t *state, const uint8_t *in) { uint32_t a, b, c, d, e; uint32_t block32[16]; /* convert/copy data to workspace */ for (a = 0; a < sizeof(block32)/sizeof(uint32_t); a++) block32[a] = ntohl (((const uint32_t *)in)[a]); /* Copy context->state[] to working vars */ a = state[0]; b = state[1]; c = state[2]; d = state[3]; e = state[4]; /* 4 rounds of 20 operations each. Loop unrolled. */ R0(a,b,c,d,e, 0); R0(e,a,b,c,d, 1); R0(d,e,a,b,c, 2); R0(c,d,e,a,b, 3); R0(b,c,d,e,a, 4); R0(a,b,c,d,e, 5); R0(e,a,b,c,d, 6); R0(d,e,a,b,c, 7); R0(c,d,e,a,b, 8); R0(b,c,d,e,a, 9); R0(a,b,c,d,e,10); R0(e,a,b,c,d,11); R0(d,e,a,b,c,12); R0(c,d,e,a,b,13); R0(b,c,d,e,a,14); R0(a,b,c,d,e,15); R1(e,a,b,c,d,16); R1(d,e,a,b,c,17); R1(c,d,e,a,b,18); R1(b,c,d,e,a,19); R2(a,b,c,d,e,20); R2(e,a,b,c,d,21); R2(d,e,a,b,c,22); R2(c,d,e,a,b,23); R2(b,c,d,e,a,24); R2(a,b,c,d,e,25); R2(e,a,b,c,d,26); R2(d,e,a,b,c,27); R2(c,d,e,a,b,28); R2(b,c,d,e,a,29); R2(a,b,c,d,e,30); R2(e,a,b,c,d,31); R2(d,e,a,b,c,32); R2(c,d,e,a,b,33); R2(b,c,d,e,a,34); R2(a,b,c,d,e,35); R2(e,a,b,c,d,36); R2(d,e,a,b,c,37); R2(c,d,e,a,b,38); R2(b,c,d,e,a,39); R3(a,b,c,d,e,40); R3(e,a,b,c,d,41); R3(d,e,a,b,c,42); R3(c,d,e,a,b,43); R3(b,c,d,e,a,44); R3(a,b,c,d,e,45); R3(e,a,b,c,d,46); R3(d,e,a,b,c,47); R3(c,d,e,a,b,48); R3(b,c,d,e,a,49); R3(a,b,c,d,e,50); R3(e,a,b,c,d,51); R3(d,e,a,b,c,52); R3(c,d,e,a,b,53); R3(b,c,d,e,a,54); R3(a,b,c,d,e,55); R3(e,a,b,c,d,56); R3(d,e,a,b,c,57); R3(c,d,e,a,b,58); R3(b,c,d,e,a,59); R4(a,b,c,d,e,60); R4(e,a,b,c,d,61); R4(d,e,a,b,c,62); R4(c,d,e,a,b,63); R4(b,c,d,e,a,64); R4(a,b,c,d,e,65); R4(e,a,b,c,d,66); R4(d,e,a,b,c,67); R4(c,d,e,a,b,68); R4(b,c,d,e,a,69); R4(a,b,c,d,e,70); R4(e,a,b,c,d,71); R4(d,e,a,b,c,72); R4(c,d,e,a,b,73); R4(b,c,d,e,a,74); R4(a,b,c,d,e,75); R4(e,a,b,c,d,76); R4(d,e,a,b,c,77); R4(c,d,e,a,b,78); R4(b,c,d,e,a,79); /* Add the working vars back into context.state[] */ state[0] += a; state[1] += b; state[2] += c; state[3] += d; state[4] += e; /* Wipe variables */ a = b = c = d = e = 0; memset (block32, 0x00, sizeof block32); } void sha1_init(void *ctx) { struct sha1_ctx *sctx = ctx; static const struct sha1_ctx initstate = { 0, { 0x67452301, 0xEFCDAB89, 0x98BADCFE, 0x10325476, 0xC3D2E1F0 }, { 0, } }; *sctx = initstate; } void sha1_update(void *ctx, const uint8_t *data, unsigned int len) { struct sha1_ctx *sctx = ctx; unsigned int i, j; j = (sctx->count >> 3) & 0x3f; sctx->count += len << 3; if ((j + len) > 63) { memcpy(&sctx->buffer[j], data, (i = 64-j)); sha1_transform(sctx->state, sctx->buffer); for ( ; i + 63 < len; i += 64) { sha1_transform(sctx->state, &data[i]); } j = 0; } else i = 0; memcpy(&sctx->buffer[j], &data[i], len - i); } /* Add padding and return the message digest. */ void sha1_final(void* ctx, uint8_t *out) { struct sha1_ctx *sctx = ctx; uint32_t i, j, index, padlen; uint64_t t; uint8_t bits[8] = { 0, }; static const uint8_t padding[64] = { 0x80, }; t = sctx->count; bits[7] = 0xff & t; t>>=8; bits[6] = 0xff & t; t>>=8; bits[5] = 0xff & t; t>>=8; bits[4] = 0xff & t; t>>=8; bits[3] = 0xff & t; t>>=8; bits[2] = 0xff & t; t>>=8; bits[1] = 0xff & t; t>>=8; bits[0] = 0xff & t; /* Pad out to 56 mod 64 */ index = (sctx->count >> 3) & 0x3f; padlen = (index < 56) ? (56 - index) : ((64+56) - index); sha1_update(sctx, padding, padlen); /* Append length */ sha1_update(sctx, bits, sizeof bits); /* Store state in digest */ for (i = j = 0; i < 5; i++, j += 4) { uint32_t t2 = sctx->state[i]; out[j+3] = t2 & 0xff; t2>>=8; out[j+2] = t2 & 0xff; t2>>=8; out[j+1] = t2 & 0xff; t2>>=8; out[j ] = t2 & 0xff; } /* Wipe context */ memset(sctx, 0, sizeof *sctx); } open-iscsi-2.0.874/usr/sha1.h000066400000000000000000000011631277325716400156020ustar00rootroot00000000000000/* * sha1.h - SHA1 Secure Hash Algorithm used for CHAP authentication. * copied from the Linux kernel's Cryptographic API and slightly adjusted to * fit IET's needs * * This file is (c) 2004 Xiranet Communications GmbH * and licensed under the GPL. */ #ifndef SHA1_H #define SHA1_H #include #include #include "types.h" struct sha1_ctx { uint64_t count; uint32_t state[5]; uint8_t buffer[64]; }; void sha1_init(void *ctx); void sha1_update(void *ctx, const uint8_t *data, unsigned int len); void sha1_final(void* ctx, uint8_t *out); #endif open-iscsi-2.0.874/usr/statics.c000066400000000000000000000004001277325716400164040ustar00rootroot00000000000000#include #include #include #include static struct passwd root_pw = { .pw_name = "root", }; struct passwd* getpwuid(uid_t uid) { if (uid == 0) return &root_pw; else { errno = ENOENT; return 0; } } open-iscsi-2.0.874/usr/strings.c000066400000000000000000000070301277325716400164310ustar00rootroot00000000000000/* * Copyright (C) 2002 Cisco Systems, Inc. * maintained by linux-iscsi-devel@lists.sourceforge.net * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include #include #include #include #include #include "strings.h" #include "log.h" int str_init_buffer(struct str_buffer *s, size_t initial_allocation) { if (s) { memset(s, 0, sizeof (*s)); s->buffer = NULL; if (initial_allocation) { s->buffer = malloc(initial_allocation); if (s->buffer) { s->allocated_length = initial_allocation; memset(s->buffer, 0, initial_allocation); } } s->data_length = 0; return 1; } return 0; } struct str_buffer *str_alloc_buffer(size_t initial_allocation) { struct str_buffer *s = calloc(1, sizeof (*s)); if (s) str_init_buffer(s, initial_allocation); return s; } void str_free_buffer(struct str_buffer *s) { if (s) { if (s->buffer) { free(s->buffer); s->buffer = NULL; } s->allocated_length = 0; s->data_length = 0; } } int str_enlarge_data(struct str_buffer *s, int length) { void *new_buf; if (s) { s->data_length += length; if (s->data_length > s->allocated_length) { log_debug(7, "enlarge buffer from %lu to %lu", s->allocated_length, s->data_length); new_buf = realloc(s->buffer, s->data_length); if (!new_buf) { /* too big */ log_error("enlarged buffer %p to %d data " "bytes, with only %d bytes of buffer " "space", s, (int)s->data_length, (int)s->allocated_length); return ENOMEM; } s->buffer = new_buf; memset(s->buffer + s->allocated_length, 0, s->data_length - s->allocated_length); s->allocated_length = s->data_length; } } return 0; } void str_remove_initial(struct str_buffer *s, int length) { char *remaining; int amount; if (s && length) { remaining = s->buffer + length; amount = s->data_length - length; if (amount < 0) amount = 0; if (amount) memmove(s->buffer, remaining, amount); s->data_length = amount; s->buffer[amount] = '\0'; } } /* truncate the data length down */ void str_truncate_buffer(struct str_buffer *s, size_t length) { if (s) { if (!s->data_length) return; if (length <= s->data_length) { s->data_length = length; s->buffer[s->data_length] = '\0'; } else if (length <= s->allocated_length) { /* clear the data, and declare the * data length to be larger */ memset(s->buffer + s->data_length, 0, length - s->data_length); s->data_length = length; } else { log_error( "couldn't truncate data buffer to length %d, " "only allocated %d", (int)length, (int)s->allocated_length); } } } char *str_buffer_data(struct str_buffer *s) { if (s) return s->buffer; else return NULL; } size_t str_data_length(struct str_buffer * s) { if (s) return s->data_length; else return 0; } size_t str_unused_length(struct str_buffer * s) { if (s) return s->allocated_length - s->data_length; else return 0; } open-iscsi-2.0.874/usr/strings.h000066400000000000000000000027011277325716400164360ustar00rootroot00000000000000/* * iSCSI variable-sized string buffers * * Copyright (C) 2002 Cisco Systems, Inc. * maintained by linux-iscsi-devel@lists.sourceforge.net * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef STRINGS_H #define STRINGS_H struct str_buffer { size_t allocated_length; size_t data_length; /* not including the trailing NUL */ char *buffer; }; extern int str_init_buffer(struct str_buffer *s, size_t initial_allocation); extern struct str_buffer *str_alloc_buffer(size_t initial_allocation); extern void str_free_buffer(struct str_buffer *s); extern int str_enlarge_data(struct str_buffer *s, int length); extern void str_remove_initial(struct str_buffer *s, int length); extern void str_truncate_buffer(struct str_buffer *s, size_t length); extern char *str_buffer_data(struct str_buffer *s); extern size_t str_data_length(struct str_buffer *s); extern size_t str_unused_length(struct str_buffer *s); #endif /* STRINGS_H */ open-iscsi-2.0.874/usr/sysfs.c000066400000000000000000000446101277325716400161140ustar00rootroot00000000000000/* * This is from udev-121's udev_sysfs.c * * Copyright (C) 2005-2006 Kay Sievers * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation version 2 of the License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #include #include #include #include #include #include #include #include #include #include #include "log.h" #include "sysdeps.h" #include "sysfs.h" /* * We take this file from udev so we want to make as few changes are possible, * so we can maintain patches. * * This is from udev_utils_string.c */ static void remove_trailing_chars(char *path, char c) { size_t len; len = strlen(path); while (len > 0 && path[len-1] == c) path[--len] = '\0'; } /* this converts udevs logging to ours. */ #define dbg(format, arg...) \ do { \ log_debug(3, "%s: " format, __FUNCTION__,## arg); \ } while (0) /* * Begin udev_sysfs.c code */ char sysfs_path[PATH_SIZE]; /* device cache */ static LIST_HEAD(dev_list); int sysfs_init(void) { const char *env; env = getenv("SYSFS_PATH"); if (env) { strlcpy(sysfs_path, env, sizeof(sysfs_path)); remove_trailing_chars(sysfs_path, '/'); } else strlcpy(sysfs_path, "/sys", sizeof(sysfs_path)); dbg("sysfs_path='%s'", sysfs_path); INIT_LIST_HEAD(&dev_list); return 0; } void sysfs_cleanup(void) { struct sysfs_device *dev_loop; struct sysfs_device *dev_temp; list_for_each_entry_safe(dev_loop, dev_temp, &dev_list, node) { list_del_init(&dev_loop->node); free(dev_loop); } } void sysfs_device_set_values(struct sysfs_device *dev, const char *devpath, const char *subsystem, const char *driver) { char *pos; strlcpy(dev->devpath, devpath, sizeof(dev->devpath)); if (subsystem != NULL) strlcpy(dev->subsystem, subsystem, sizeof(dev->subsystem)); if (driver != NULL) strlcpy(dev->driver, driver, sizeof(dev->driver)); /* set kernel name */ pos = strrchr(dev->devpath, '/'); if (pos == NULL) return; strlcpy(dev->kernel, &pos[1], sizeof(dev->kernel)); dbg("kernel='%s'", dev->kernel); /* some devices have '!' in their name, change that to '/' */ pos = dev->kernel; while (pos[0] != '\0') { if (pos[0] == '!') pos[0] = '/'; pos++; } /* get kernel number */ pos = &dev->kernel[strlen(dev->kernel)]; while (isdigit(pos[-1])) pos--; strlcpy(dev->kernel_number, pos, sizeof(dev->kernel_number)); dbg("kernel_number='%s'", dev->kernel_number); } int sysfs_resolve_link(char *devpath, size_t size) { char link_path[PATH_SIZE]; char link_target[PATH_SIZE]; int len; int i; int back; strlcpy(link_path, sysfs_path, sizeof(link_path)); strlcat(link_path, devpath, sizeof(link_path)); len = readlink(link_path, link_target, sizeof(link_target)); if (len <= 0) return -1; link_target[len] = '\0'; dbg("path link '%s' points to '%s'", devpath, link_target); for (back = 0; strncmp(&link_target[back * 3], "../", 3) == 0; back++) ; dbg("base '%s', tail '%s', back %i", devpath, &link_target[back * 3], back); for (i = 0; i <= back; i++) { char *pos = strrchr(devpath, '/'); if (pos == NULL) return -1; pos[0] = '\0'; } dbg("after moving back '%s'", devpath); strlcat(devpath, "/", size); strlcat(devpath, &link_target[back * 3], size); return 0; } struct sysfs_device *sysfs_device_get(const char *devpath) { char path[PATH_SIZE]; char devpath_real[PATH_SIZE]; struct sysfs_device *dev; struct sysfs_device *dev_loop; struct stat statbuf; char link_path[PATH_SIZE]; char link_target[PATH_SIZE]; int len; char *pos; /* we handle only these devpathes */ if (devpath != NULL && strncmp(devpath, "/devices/", 9) != 0 && strncmp(devpath, "/subsystem/", 11) != 0 && strncmp(devpath, "/module/", 8) != 0 && strncmp(devpath, "/bus/", 5) != 0 && strncmp(devpath, "/class/", 7) != 0 && strncmp(devpath, "/block/", 7) != 0) return NULL; dbg("open '%s'", devpath); strlcpy(devpath_real, devpath, sizeof(devpath_real)); remove_trailing_chars(devpath_real, '/'); if (devpath[0] == '\0' ) return NULL; /* look for device already in cache (we never put an untranslated path in the cache) */ list_for_each_entry(dev_loop, &dev_list, node) { if (strcmp(dev_loop->devpath, devpath_real) == 0) { dbg("found in cache '%s'", dev_loop->devpath); return dev_loop; } } /* if we got a link, resolve it to the real device */ strlcpy(path, sysfs_path, sizeof(path)); strlcat(path, devpath_real, sizeof(path)); if (lstat(path, &statbuf) != 0) { dbg("stat '%s' failed: %s", path, strerror(errno)); return NULL; } if (S_ISLNK(statbuf.st_mode)) { if (sysfs_resolve_link(devpath_real, sizeof(devpath_real)) != 0) return NULL; /* now look for device in cache after path translation */ list_for_each_entry(dev_loop, &dev_list, node) { if (strcmp(dev_loop->devpath, devpath_real) == 0) { dbg("found in cache '%s'", dev_loop->devpath); return dev_loop; } } } /* it is a new device */ dbg("new uncached device '%s'", devpath_real); dev = malloc(sizeof(struct sysfs_device)); if (dev == NULL) return NULL; memset(dev, 0x00, sizeof(struct sysfs_device)); sysfs_device_set_values(dev, devpath_real, NULL, NULL); /* get subsystem name */ strlcpy(link_path, sysfs_path, sizeof(link_path)); strlcat(link_path, dev->devpath, sizeof(link_path)); strlcat(link_path, "/subsystem", sizeof(link_path)); len = readlink(link_path, link_target, sizeof(link_target)); if (len > 0) { /* get subsystem from "subsystem" link */ link_target[len] = '\0'; dbg("subsystem link '%s' points to '%s'", link_path, link_target); pos = strrchr(link_target, '/'); if (pos != NULL) strlcpy(dev->subsystem, &pos[1], sizeof(dev->subsystem)); } else if (strstr(dev->devpath, "/drivers/") != NULL) { strlcpy(dev->subsystem, "drivers", sizeof(dev->subsystem)); } else if (strncmp(dev->devpath, "/module/", 8) == 0) { strlcpy(dev->subsystem, "module", sizeof(dev->subsystem)); } else if (strncmp(dev->devpath, "/subsystem/", 11) == 0) { pos = strrchr(dev->devpath, '/'); if (pos == &dev->devpath[10]) strlcpy(dev->subsystem, "subsystem", sizeof(dev->subsystem)); } else if (strncmp(dev->devpath, "/class/", 7) == 0) { pos = strrchr(dev->devpath, '/'); if (pos == &dev->devpath[6]) strlcpy(dev->subsystem, "subsystem", sizeof(dev->subsystem)); } else if (strncmp(dev->devpath, "/bus/", 5) == 0) { pos = strrchr(dev->devpath, '/'); if (pos == &dev->devpath[4]) strlcpy(dev->subsystem, "subsystem", sizeof(dev->subsystem)); } /* get driver name */ strlcpy(link_path, sysfs_path, sizeof(link_path)); strlcat(link_path, dev->devpath, sizeof(link_path)); strlcat(link_path, "/driver", sizeof(link_path)); len = readlink(link_path, link_target, sizeof(link_target)); if (len > 0) { link_target[len] = '\0'; dbg("driver link '%s' points to '%s'", link_path, link_target); pos = strrchr(link_target, '/'); if (pos != NULL) strlcpy(dev->driver, &pos[1], sizeof(dev->driver)); } dbg("add to cache 'devpath=%s', subsystem='%s', driver='%s'", dev->devpath, dev->subsystem, dev->driver); list_add(&dev->node, &dev_list); return dev; } struct sysfs_device *sysfs_device_get_parent(struct sysfs_device *dev) { char parent_devpath[PATH_SIZE]; char *pos; dbg("open '%s'", dev->devpath); /* look if we already know the parent */ if (dev->parent != NULL) return dev->parent; strlcpy(parent_devpath, dev->devpath, sizeof(parent_devpath)); dbg("'%s'", parent_devpath); /* strip last element */ pos = strrchr(parent_devpath, '/'); if (pos == NULL || pos == parent_devpath) return NULL; pos[0] = '\0'; if (strncmp(parent_devpath, "/class", 6) == 0) { pos = strrchr(parent_devpath, '/'); if (pos == &parent_devpath[6] || pos == parent_devpath) { dbg("/class top level, look for device link"); goto device_link; } } if (strcmp(parent_devpath, "/block") == 0) { dbg("/block top level, look for device link"); goto device_link; } /* are we at the top level? */ pos = strrchr(parent_devpath, '/'); if (pos == NULL || pos == parent_devpath) return NULL; /* get parent and remember it */ dev->parent = sysfs_device_get(parent_devpath); return dev->parent; device_link: strlcpy(parent_devpath, dev->devpath, sizeof(parent_devpath)); strlcat(parent_devpath, "/device", sizeof(parent_devpath)); if (sysfs_resolve_link(parent_devpath, sizeof(parent_devpath)) != 0) return NULL; /* get parent and remember it */ dev->parent = sysfs_device_get(parent_devpath); return dev->parent; } struct sysfs_device *sysfs_device_get_parent_with_subsystem(struct sysfs_device *dev, const char *subsystem) { struct sysfs_device *dev_parent; dev_parent = sysfs_device_get_parent(dev); while (dev_parent != NULL) { if (strcmp(dev_parent->subsystem, subsystem) == 0) return dev_parent; dev_parent = sysfs_device_get_parent(dev_parent); } return NULL; } char *sysfs_attr_get_value(const char *devpath, const char *attr_name) { char path_full[PATH_SIZE]; char value[NAME_SIZE] = { '\0', }; struct stat statbuf; int fd; ssize_t size; size_t sysfs_len; dbg("open '%s'/'%s'", devpath, attr_name); sysfs_len = strlcpy(path_full, sysfs_path, sizeof(path_full)); if(sysfs_len >= sizeof(path_full)) sysfs_len = sizeof(path_full) - 1; strlcat(path_full, devpath, sizeof(path_full)); strlcat(path_full, "/", sizeof(path_full)); strlcat(path_full, attr_name, sizeof(path_full)); if (lstat(path_full, &statbuf) != 0) { dbg("stat '%s' failed: %s", path_full, strerror(errno)); goto out; } if (S_ISLNK(statbuf.st_mode)) { /* links return the last element of the target path */ char link_target[PATH_SIZE]; int len; const char *pos; len = readlink(path_full, link_target, sizeof(link_target)); if (len > 0) { link_target[len] = '\0'; pos = strrchr(link_target, '/'); if (pos != NULL) { dbg("cache '%s' with link value '%s'", path_full, value); strlcpy(value, &pos[1], NAME_SIZE); } } goto out; } /* skip directories */ if (S_ISDIR(statbuf.st_mode)) goto out; /* skip non-readable files */ if ((statbuf.st_mode & S_IRUSR) == 0) goto out; /* read attribute value */ fd = open(path_full, O_RDONLY); if (fd < 0) { dbg("attribute '%s' can not be opened", path_full); goto out; } size = read(fd, value, sizeof(value)); close(fd); if (size < 0) goto out; if (size == sizeof(value)) goto out; /* got a valid value, store and return it */ value[size] = '\0'; remove_trailing_chars(value, '\n'); out: if (value[0] == '\0') return NULL; return strdup(value); } int sysfs_lookup_devpath_by_subsys_id(char *devpath_full, size_t len, const char *subsystem, const char *id) { size_t sysfs_len; char path_full[PATH_SIZE]; char *path; struct stat statbuf; sysfs_len = strlcpy(path_full, sysfs_path, sizeof(path_full)); path = &path_full[sysfs_len]; if (strcmp(subsystem, "subsystem") == 0) { strlcpy(path, "/subsystem/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; strlcpy(path, "/bus/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; goto out; strlcpy(path, "/class/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; } if (strcmp(subsystem, "module") == 0) { strlcpy(path, "/module/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; goto out; } if (strcmp(subsystem, "drivers") == 0) { char subsys[NAME_SIZE]; char *driver; strlcpy(subsys, id, sizeof(subsys)); driver = strchr(subsys, ':'); if (driver != NULL) { driver[0] = '\0'; driver = &driver[1]; strlcpy(path, "/subsystem/", sizeof(path_full) - sysfs_len); strlcat(path, subsys, sizeof(path_full) - sysfs_len); strlcat(path, "/drivers/", sizeof(path_full) - sysfs_len); strlcat(path, driver, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; strlcpy(path, "/bus/", sizeof(path_full) - sysfs_len); strlcat(path, subsys, sizeof(path_full) - sysfs_len); strlcat(path, "/drivers/", sizeof(path_full) - sysfs_len); strlcat(path, driver, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; } goto out; } strlcpy(path, "/subsystem/", sizeof(path_full) - sysfs_len); strlcat(path, subsystem, sizeof(path_full) - sysfs_len); strlcat(path, "/devices/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; strlcpy(path, "/bus/", sizeof(path_full) - sysfs_len); strlcat(path, subsystem, sizeof(path_full) - sysfs_len); strlcat(path, "/devices/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; strlcpy(path, "/class/", sizeof(path_full) - sysfs_len); strlcat(path, subsystem, sizeof(path_full) - sysfs_len); strlcat(path, "/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; strlcpy(path, "/firmware/", sizeof(path_full) - sysfs_len); strlcat(path, subsystem, sizeof(path_full) - sysfs_len); strlcat(path, "/", sizeof(path_full) - sysfs_len); strlcat(path, id, sizeof(path_full) - sysfs_len); if (stat(path_full, &statbuf) == 0) goto found; out: return 0; found: if (S_ISLNK(statbuf.st_mode)) sysfs_resolve_link(path, sizeof(path_full) - sysfs_len); strlcpy(devpath_full, path, len); return 1; } char *sysfs_get_value(const char *id, char *subsys, char *param) { char devpath[PATH_SIZE]; char *sysfs_value; if (!sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), subsys, id)) { log_debug(3, "Could not lookup devpath for %s %s", subsys, id); return NULL; } sysfs_value = sysfs_attr_get_value(devpath, param); if (!sysfs_value) { log_debug(3, "Could not read attr %s on path %s", param, devpath); return NULL; } if (!strncmp(sysfs_value, "", 6) || !strncmp(sysfs_value, "(null)", 6)) { free(sysfs_value); return NULL; } return sysfs_value; } int sysfs_get_uint(char *id, char *subsys, char *param, unsigned int *value) { char *sysfs_value; *value = -1; sysfs_value = sysfs_get_value(id, subsys, param); if (!sysfs_value) return EIO; errno = 0; *value = strtoul(sysfs_value, NULL, 0); free(sysfs_value); if (errno) return errno; return 0; } int sysfs_get_int(const char *id, char *subsys, char *param, int *value) { char *sysfs_value; *value = -1; sysfs_value = sysfs_get_value(id, subsys, param); if (!sysfs_value) return EIO; *value = atoi(sysfs_value); free(sysfs_value); return 0; } int sysfs_get_str(char *id, char *subsys, char *param, char *value, int value_size) { char *sysfs_value; int len; value[0] = '\0'; sysfs_value = sysfs_get_value(id, subsys, param); if (!sysfs_value || !strlen(sysfs_value)) return EIO; len = strlen(sysfs_value); if (len && (sysfs_value[len - 1] == '\n')) sysfs_value[len - 1] = '\0'; strncpy(value, sysfs_value, value_size); value[value_size - 1] = '\0'; free(sysfs_value); return 0; } int sysfs_get_uint64(char *id, char *subsys, char *param, uint64_t *value) { char *sysfs_value; *value = -1; sysfs_value = sysfs_get_value(id, subsys, param); if (!sysfs_value) return EIO; if (sscanf(sysfs_value, "%" PRIu64 "\n", value) != 1) { free(sysfs_value); return EINVAL; } free(sysfs_value); return 0; } int sysfs_get_uint8(char *id, char *subsys, char *param, uint8_t *value) { char *sysfs_value; *value = -1; sysfs_value = sysfs_get_value(id, subsys, param); if (!sysfs_value) return EIO; *value = (uint8_t)atoi(sysfs_value); free(sysfs_value); return 0; } int sysfs_get_uint16(char *id, char *subsys, char *param, uint16_t *value) { char *sysfs_value; *value = -1; sysfs_value = sysfs_get_value(id, subsys, param); if (!sysfs_value) return EIO; *value = (uint16_t)atoi(sysfs_value); free(sysfs_value); return 0; } int sysfs_set_param(char *id, char *subsys, char *attr_name, char *write_buf, ssize_t buf_size) { struct stat statbuf; char devpath[PATH_SIZE]; size_t sysfs_len; char path_full[PATH_SIZE]; int rc = 0, fd; if (!sysfs_lookup_devpath_by_subsys_id(devpath, sizeof(devpath), subsys, id)) { log_debug(3, "Could not lookup devpath for %s %s", subsys, id); return EIO; } sysfs_len = strlcpy(path_full, sysfs_path, sizeof(path_full)); if(sysfs_len >= sizeof(path_full)) sysfs_len = sizeof(path_full) - 1; strlcat(path_full, devpath, sizeof(path_full)); strlcat(path_full, "/", sizeof(path_full)); strlcat(path_full, attr_name, sizeof(path_full)); if (lstat(path_full, &statbuf)) { log_debug(3, "Could not stat %s", path_full); return errno; } if ((statbuf.st_mode & S_IWUSR) == 0) { log_error("Could not write to %s. Invalid permissions.", path_full); return EACCES; } fd = open(path_full, O_WRONLY); if (fd < 0) { log_error("Could not open %s err %d", path_full, errno); return errno; } if (write(fd, write_buf, buf_size) == -1) rc = errno; close(fd); return rc; } char *sysfs_get_uevent_field(const char *path, const char *field) { char *uevent_path = NULL; FILE *f = NULL; char *line, buffer[1024]; char *ff, *d; char *out = NULL; uevent_path = calloc(1, PATH_MAX); if (!uevent_path) return NULL; snprintf(uevent_path, PATH_MAX, "%s/uevent", path); f = fopen(uevent_path, "r"); if (!f) goto out; while ((line = fgets(buffer, sizeof (buffer), f))) { ff = strtok(line, "="); d = strtok(NULL, "\n"); if (strcmp(ff, field)) continue; out = strdup(d); break; } fclose(f); out: free(uevent_path); return out; } char *sysfs_get_uevent_devtype(const char *path) { return sysfs_get_uevent_field(path, "DEVTYPE"); } char *sysfs_get_uevent_devname(const char *path) { return sysfs_get_uevent_field(path, "DEVNAME"); } open-iscsi-2.0.874/usr/sysfs.h000066400000000000000000000056701277325716400161240ustar00rootroot00000000000000/* * This is from udev-121 udev.h * * Copyright (C) 2003 Greg Kroah-Hartman * Copyright (C) 2003-2006 Kay Sievers * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation version 2 of the License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #ifndef _SYSFS_ #define _SYSFS_ #include #include "list.h" #include "string.h" #define PATH_SIZE 512 #define NAME_SIZE 256 struct sysfs_device { struct list_head node; /* for device cache */ struct sysfs_device *parent; /* already cached parent*/ char devpath[PATH_SIZE]; char subsystem[NAME_SIZE]; /* $class, $bus, drivers, module */ char kernel[NAME_SIZE]; /* device instance name */ char kernel_number[NAME_SIZE]; char driver[NAME_SIZE]; /* device driver name */ }; extern char sysfs_path[PATH_SIZE]; extern int sysfs_init(void); extern void sysfs_cleanup(void); extern void sysfs_device_set_values(struct sysfs_device *dev, const char *devpath, const char *subsystem, const char *driver); extern struct sysfs_device *sysfs_device_get(const char *devpath); extern struct sysfs_device *sysfs_device_get_parent(struct sysfs_device *dev); extern struct sysfs_device *sysfs_device_get_parent_with_subsystem(struct sysfs_device *dev, const char *subsystem); extern char *sysfs_attr_get_value(const char *devpath, const char *attr_name); extern int sysfs_resolve_link(char *path, size_t size); extern int sysfs_lookup_devpath_by_subsys_id(char *devpath, size_t len, const char *subsystem, const char *id); extern char *sysfs_get_value(const char *id, char *subsys, char *param); extern int sysfs_get_uint(char *id, char *subsys, char *param, unsigned int *value); extern int sysfs_get_int(const char *id, char *subsys, char *param, int *value); extern int sysfs_get_str(char *id, char *subsys, char *param, char *value, int value_size); extern int sysfs_get_uint64(char *id, char *subsys, char *param, uint64_t *value); extern int sysfs_get_uint8(char *id, char *subsys, char *param, uint8_t *value); extern int sysfs_get_uint16(char *id, char *subsys, char *param, uint16_t *value); extern int sysfs_set_param(char *id, char *subsys, char *attr_name, char *write_buf, ssize_t buf_size); extern char *sysfs_get_uevent_field(const char *path, const char *field); extern char *sysfs_get_uevent_devtype(const char *path); extern char *sysfs_get_uevent_devname(const char *path); #endif open-iscsi-2.0.874/usr/transport.c000066400000000000000000000155431277325716400170040ustar00rootroot00000000000000/* * iSCSI transport * * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #include #include #include #include #include #ifdef USE_KMOD #include #endif #include #include #include #include #include #include "sysdeps.h" #include "iscsi_err.h" #include "initiator.h" #include "transport.h" #include "log.h" #include "iscsi_util.h" #include "iscsi_sysfs.h" #include "uip_mgmt_ipc.h" #include "cxgbi.h" #include "be2iscsi.h" #include "iser.h" struct iscsi_transport_template iscsi_tcp = { .name = "tcp", .ep_connect = iscsi_io_tcp_connect, .ep_poll = iscsi_io_tcp_poll, .ep_disconnect = iscsi_io_tcp_disconnect, }; struct iscsi_transport_template iscsi_iser = { .name = "iser", .rdma = 1, .ep_connect = ktransport_ep_connect, .ep_poll = ktransport_ep_poll, .ep_disconnect = ktransport_ep_disconnect, .create_conn = iser_create_conn, }; struct iscsi_transport_template cxgb3i = { .name = "cxgb3i", .set_host_ip = SET_HOST_IP_OPT, .bind_ep_required = 1, .ep_connect = ktransport_ep_connect, .ep_poll = ktransport_ep_poll, .ep_disconnect = ktransport_ep_disconnect, .create_conn = cxgbi_create_conn, }; struct iscsi_transport_template cxgb4i = { .name = "cxgb4i", .set_host_ip = SET_HOST_IP_NOT_REQ, .bind_ep_required = 1, .ep_connect = ktransport_ep_connect, .ep_poll = ktransport_ep_poll, .ep_disconnect = ktransport_ep_disconnect, .create_conn = cxgbi_create_conn, }; struct iscsi_transport_template bnx2i = { .name = "bnx2i", .set_host_ip = SET_HOST_IP_REQ, .use_boot_info = 1, .bind_ep_required = 1, .ep_connect = ktransport_ep_connect, .ep_poll = ktransport_ep_poll, .ep_disconnect = ktransport_ep_disconnect, .set_net_config = uip_broadcast_params, .exec_ping = uip_broadcast_ping_req, }; struct iscsi_transport_template be2iscsi = { .name = "be2iscsi", .bind_ep_required = 1, .create_conn = be2iscsi_create_conn, .ep_connect = ktransport_ep_connect, .ep_poll = ktransport_ep_poll, .ep_disconnect = ktransport_ep_disconnect, }; struct iscsi_transport_template qla4xxx = { .name = "qla4xxx", .set_host_ip = SET_HOST_IP_NOT_REQ, .bind_ep_required = 1, .ep_connect = ktransport_ep_connect, .ep_poll = ktransport_ep_poll, .ep_disconnect = ktransport_ep_disconnect, }; struct iscsi_transport_template ocs = { .name = "ocs", .bind_ep_required = 1, .ep_connect = ktransport_ep_connect, .ep_poll = ktransport_ep_poll, .ep_disconnect = ktransport_ep_disconnect, }; static struct iscsi_transport_template *iscsi_transport_templates[] = { &iscsi_tcp, &iscsi_iser, &cxgb3i, &cxgb4i, &bnx2i, &qla4xxx, &be2iscsi, &ocs, NULL }; int transport_probe_for_offload(void) { struct if_nameindex *ifni; char transport_name[ISCSI_TRANSPORT_NAME_MAXLEN]; int i, sockfd; struct ifreq if_hwaddr; ifni = if_nameindex(); if (!ifni) { log_error("Could not search for transport modules: %s", strerror(errno)); return ISCSI_ERR_TRANS_NOT_FOUND; } sockfd = socket(AF_INET, SOCK_DGRAM, 0); if (sockfd < 0) { log_error("Could not open socket for ioctl: %s", strerror(errno)); goto free_ifni; } for (i = 0; ifni[i].if_index && ifni[i].if_name; i++) { struct if_nameindex *n = &ifni[i]; log_debug(6, "kmod probe found %s", n->if_name); strlcpy(if_hwaddr.ifr_name, n->if_name, IFNAMSIZ); if (ioctl(sockfd, SIOCGIFHWADDR, &if_hwaddr) < 0) continue; /* check for ARPHRD_ETHER (ethernet) */ if (if_hwaddr.ifr_hwaddr.sa_family != 1) continue; if (net_get_transport_name_from_netdev(n->if_name, transport_name)) continue; transport_load_kmod(transport_name); } close(sockfd); free_ifni: if_freenameindex(ifni); return 0; } /* * Most distros still do not have wide libkmod use, so * use modprobe for now */ #ifdef USE_KMOD int transport_load_kmod(char *transport_name) { struct kmod_ctx *ctx; struct kmod_module *mod; int rc; ctx = kmod_new(NULL, NULL); if (!ctx) { log_error("Could not load transport module %s. Out of " "memory.", transport_name); return ISCSI_ERR_NOMEM; } kmod_load_resources(ctx); /* * dumb dumb dumb - named iscsi_tcp and ib_iser differently from * transport name */ if (!strcmp(transport_name, "tcp")) rc = kmod_module_new_from_name(ctx, "iscsi_tcp", &mod); else if (!strcmp(transport_name, "iser")) rc = kmod_module_new_from_name(ctx, "ib_iser", &mod); else rc = kmod_module_new_from_name(ctx, transport_name, &mod); if (rc) { log_error("Failed to load module %s.", transport_name); rc = ISCSI_ERR_TRANS_NOT_FOUND; goto unref_mod; } rc = kmod_module_probe_insert_module(mod, KMOD_PROBE_APPLY_BLACKLIST, NULL, NULL, NULL, NULL); if (rc) { log_error("Could not insert module %s. Kmod error %d", transport_name, rc); rc = ISCSI_ERR_TRANS_NOT_FOUND; } kmod_module_unref(mod); unref_mod: kmod_unref(ctx); return rc; } #else int transport_load_kmod(char *transport_name) { char *cmdline[4]; pid_t pid; cmdline[0] = "/sbin/modprobe"; cmdline[1] = "-qb"; cmdline[3] = NULL; /* * dumb dumb mistake - named iscsi_tcp and ib_iser differently from * transport name */ if (!strcmp(transport_name, "tcp")) cmdline[2] = "iscsi_tcp"; else if (!strcmp(transport_name, "iser")) cmdline[2] = "ib_iser"; else cmdline[2] = transport_name; if (iscsi_sysfs_is_transport_loaded(cmdline[2])) return 0; pid = fork(); if (pid == 0) { if (execv("/sbin/modprobe", cmdline) < 0) { log_error("Failed to load module %s: %s", transport_name, strerror(errno)); exit(-errno); } exit(0); } else if (pid < 0) { log_error("Failed to fork process to load module %s: %s", transport_name, strerror(errno)); return ISCSI_ERR_TRANS_NOT_FOUND; } if (waitpid(pid, NULL, 0) < 0) { log_error("Failed to load module %s", transport_name); return ISCSI_ERR_TRANS_NOT_FOUND; } return 0; } #endif int set_transport_template(struct iscsi_transport *t) { struct iscsi_transport_template *tmpl; int j; for (j = 0; iscsi_transport_templates[j] != NULL; j++) { tmpl = iscsi_transport_templates[j]; if (!strcmp(tmpl->name, t->name)) { t->template = tmpl; log_debug(3, "Matched transport %s", t->name); return 0; } } log_error("Could not find template for %s. An updated iscsiadm " "is probably needed.", t->name); return ENOSYS; } open-iscsi-2.0.874/usr/transport.h000066400000000000000000000041021277325716400167760ustar00rootroot00000000000000/* * iSCSI transport * * Copyright (C) 2006 Mike Christie * Copyright (C) 2006 Red Hat, Inc. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #ifndef ISCSI_TRANSPORT_H #define ISCSI_TRANSPORT_H #include "types.h" #include "config.h" enum set_host_ip_opts { SET_HOST_IP_NOT_REQ, /* iface.ipaddress is not supported */ SET_HOST_IP_REQ, /* iface.ipaddress must be specified */ SET_HOST_IP_OPT, /* iface.ipaddress is not required */ }; struct iscsi_transport; struct iscsi_conn; struct iscsi_transport_template { const char *name; uint8_t rdma; /* * Drivers should set this if they require iscsid to set * the host's ip address. */ uint8_t set_host_ip; uint8_t use_boot_info; uint8_t bind_ep_required; int (*ep_connect) (struct iscsi_conn *conn, int non_blocking); int (*ep_poll) (struct iscsi_conn *conn, int timeout_ms); void (*ep_disconnect) (struct iscsi_conn *conn); void (*create_conn) (struct iscsi_conn *conn); int (*set_net_config) (struct iscsi_transport *t, struct iface_rec *iface, struct iscsi_session *session); int (*exec_ping) (struct iscsi_transport *t, struct iface_rec *iface, int datalen, struct sockaddr_storage *dst_addr, uint32_t *status); }; /* represents data path provider */ struct iscsi_transport { struct list_head list; uint64_t handle; uint32_t caps; char name[ISCSI_TRANSPORT_NAME_MAXLEN]; struct list_head sessions; struct iscsi_transport_template *template; }; extern int set_transport_template(struct iscsi_transport *t); extern int transport_load_kmod(char *transport_name); extern int transport_probe_for_offload(void); #endif open-iscsi-2.0.874/usr/types.h000066400000000000000000000006411277325716400161120ustar00rootroot00000000000000/* * Copyright (C) 2002-2003 Ardis Technolgies * * Released under the terms of the GNU GPL v2.0. */ #ifndef TYPES_H #define TYPES_H #include #include #include #include /* * using the __be types allows stricter static * typechecking in the kernel using sparse */ typedef uint16_t __be16; typedef uint32_t __be32; #endif /* TYPES_H */ open-iscsi-2.0.874/usr/uip_mgmt_ipc.c000066400000000000000000000044251277325716400174210ustar00rootroot00000000000000/* * uIP iSCSI Daemon/Admin Management IPC * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #include #include #include "log.h" #include "uip_mgmt_ipc.h" #include "iscsid_req.h" #include "iscsi_err.h" int uip_broadcast_params(struct iscsi_transport *t, struct iface_rec *iface, struct iscsi_session *session) { struct iscsid_uip_broadcast broadcast; log_debug(3, "broadcasting to uip"); memset(&broadcast, 0, sizeof(broadcast)); broadcast.header.command = ISCSID_UIP_IPC_GET_IFACE; broadcast.header.payload_len = sizeof(*iface); memcpy(&broadcast.u.iface_rec, iface, sizeof(*iface)); return uip_broadcast(&broadcast, sizeof(iscsid_uip_broadcast_header_t) + sizeof(*iface), O_NONBLOCK, NULL); } int uip_broadcast_ping_req(struct iscsi_transport *t, struct iface_rec *iface, int datalen, struct sockaddr_storage *dst_addr, uint32_t *status) { struct iscsid_uip_broadcast broadcast; int len = 0; log_debug(3, "broadcasting ping request to uip\n"); memset(&broadcast, 0, sizeof(broadcast)); broadcast.header.command = ISCSID_UIP_IPC_PING; len = sizeof(*iface) + sizeof(*dst_addr) + sizeof(datalen); broadcast.header.payload_len = len; memcpy(&broadcast.u.ping_rec.ifrec, iface, sizeof(*iface)); if (dst_addr->ss_family == PF_INET) { len = sizeof(struct sockaddr_in); } else if (dst_addr->ss_family == PF_INET6) { len = sizeof(struct sockaddr_in6); } else { log_error("%s unknown addr family %d\n", __FUNCTION__, dst_addr->ss_family); return ISCSI_ERR_INVAL; } memcpy(&broadcast.u.ping_rec.ipaddr, dst_addr, len); broadcast.u.ping_rec.datalen = datalen; return uip_broadcast(&broadcast, sizeof(iscsid_uip_broadcast_header_t) + broadcast.header.payload_len, 0, status); } open-iscsi-2.0.874/usr/uip_mgmt_ipc.h000066400000000000000000000045521277325716400174270ustar00rootroot00000000000000/* * uIP iSCSI Daemon/Admin Management IPC * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. */ #ifndef UIP_MGMT_IPC_H #define UIP_MGMT_IPC_H #include "types.h" #include "iscsi_if.h" #include "config.h" #include "mgmt_ipc.h" #include "initiator.h" #include "transport.h" #define ISCSID_UIP_NAMESPACE "ISCSID_UIP_ABSTRACT_NAMESPACE" typedef enum iscsid_uip_cmd { ISCSID_UIP_IPC_UNKNOWN = 0, ISCSID_UIP_IPC_GET_IFACE = 1, ISCSID_UIP_IPC_PING = 2, __ISCSID_UIP_IPC_MAX_COMMAND } iscsid_uip_cmd_e; typedef struct iscsid_uip_broadcast_header { iscsid_uip_cmd_e command; uint32_t payload_len; } iscsid_uip_broadcast_header_t; /* IPC Request */ typedef struct iscsid_uip_broadcast { struct iscsid_uip_broadcast_header header; union { /* messages */ struct ipc_broadcast_iface_rec { struct iface_rec rec; } iface_rec; struct ipc_broadcast_ping_rec { struct iface_rec ifrec; struct sockaddr_storage ipaddr; int datalen; int *status; } ping_rec; } u; } iscsid_uip_broadcast_t; typedef enum iscsid_uip_mgmt_ipc_err { ISCSID_UIP_MGMT_IPC_OK = 0, ISCSID_UIP_MGMT_IPC_ERR = 1, ISCSID_UIP_MGMT_IPC_ERR_NOT_FOUND = 2, ISCSID_UIP_MGMT_IPC_ERR_NOMEM = 3, ISCSID_UIP_MGMT_IPC_DEVICE_UP = 4, ISCSID_UIP_MGMT_IPC_DEVICE_INITIALIZING = 5, } iscsid_uip_mgmt_ipc_err_e; /* IPC Response */ typedef struct iscsid_uip_mgmt_rsp { iscsid_uip_cmd_e command; iscsid_uip_mgmt_ipc_err_e err; enum iscsi_ping_status_code ping_sc; } iscsid_uip_rsp_t; extern int uip_broadcast_params(struct iscsi_transport *t, struct iface_rec *iface, struct iscsi_session *session); extern int uip_broadcast_ping_req(struct iscsi_transport *t, struct iface_rec *iface, int datalen, struct sockaddr_storage *dst_addr, uint32_t *status); #endif /* UIP_MGMT_IPC_H */ open-iscsi-2.0.874/usr/version.h000066400000000000000000000005151277325716400164330ustar00rootroot00000000000000#ifndef ISCSI_VERSION_DEF #define ISCSI_VERSION_DEF /* * iSCSI tools version. * This may not be the same value as the kernel versions because * some other maintainer could merge a patch without going through us */ #define ISCSI_VERSION_STR "2.0-874" #define ISCSI_VERSION_FILE "/sys/module/scsi_transport_iscsi/version" #endif open-iscsi-2.0.874/utils/000077500000000000000000000000001277325716400151235ustar00rootroot00000000000000open-iscsi-2.0.874/utils/.gitignore000066400000000000000000000000141277325716400171060ustar00rootroot00000000000000iscsi-iname open-iscsi-2.0.874/utils/Makefile000066400000000000000000000005221277325716400165620ustar00rootroot00000000000000# This Makefile will work only with GNU make. CFLAGS ?= -O2 -fno-inline -g CFLAGS += -Wall -Wstrict-prototypes PROGRAMS = iscsi-iname all: $(PROGRAMS) iscsi-iname: md5.o iscsi-iname.o $(CC) $(CFLAGS) $(LDFLAGS) $^ $(DBM_LIB) -o $@ clean: rm -f *.o $(PROGRAMS) .depend depend: gcc $(CFLAGS) -M `ls *.c` > .depend -include .depend open-iscsi-2.0.874/utils/fwparam_ibft/000077500000000000000000000000001277325716400175645ustar00rootroot00000000000000open-iscsi-2.0.874/utils/fwparam_ibft/Makefile000066400000000000000000000026261277325716400212320ustar00rootroot00000000000000# # Copyright (C) IBM Corporation. 2007 # Author: Doug Maxey # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # # Authors: Patrick Mansfield # Mike Anderson # Doug Maxey # "Prasanna Mumbai" # SYSDEPS_OBJS = $(sort $(wildcard ../sysdeps/*.o)) OBJS := fw_entry.o fwparam_sysfs.o $(SYSDEPS_OBJS) ../../usr/iscsi_net_util.o OBJS += prom_lex.o prom_parse.tab.o fwparam_ppc.o CLEANFILES = $(OBJS) *.output *~ CFLAGS ?= -O2 -g WARNFLAGS ?= -Wall -Wstrict-prototypes CFLAGS += -fPIC $(WARNFLAGS) -I../../include -I../../usr -D_GNU_SOURCE all: $(OBJS) clean: rm -f *.o $(CLEANFILES) .depend $(OBJS): prom_parse.tab.h prom_parse.h fwparam_ibft.h depend: gcc $(CFLAGS) -M `ls *.c` > .depend -include .depend open-iscsi-2.0.874/utils/fwparam_ibft/fw_entry.c000066400000000000000000000146531277325716400215760ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * based on code written by "Prasanna Mumbai" * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ #include #include #include #include #include #include #include #include #include #include #include #include #include "fw_context.h" #include "fwparam.h" #include "idbm_fields.h" #include "iscsi_net_util.h" #include "iscsi_err.h" #include "config.h" #include "iface.h" /** * fw_setup_nics - setup nics (ethXs) based on ibft net info * * If this is a offload card, this function does nothing. The * net info is used by the iscsi iface settings for the iscsi * function. */ int fw_setup_nics(void) { struct boot_context *context; struct list_head targets; char *iface_prev = NULL, transport[16]; int needs_bringup = 0, ret = 0, err; INIT_LIST_HEAD(&targets); ret = fw_get_targets(&targets); if (ret || list_empty(&targets)) { printf("Could not setup fw entries.\n"); return ISCSI_ERR_NO_OBJS_FOUND; } /* * For each target in iBFT bring up required NIC and use routing * to force iSCSI traffic through correct NIC */ list_for_each_entry(context, &targets, list) { /* if it is a offload nic ignore it */ if (!net_get_transport_name_from_netdev(context->iface, transport)) continue; if (iface_prev == NULL || strcmp(context->iface, iface_prev)) { /* Note: test above works because there is a * maximum of two targets in the iBFT */ iface_prev = context->iface; needs_bringup = 1; } err = net_setup_netdev(context->iface, context->ipaddr, context->mask, context->gateway, context->vlan, context->target_ipaddr, needs_bringup); if (err) ret = err; } fw_free_targets(&targets); if (ret) return ISCSI_ERR; else return 0; } /** * fw_get_entry - return boot context of portal used for boot * @context: firmware info of portal * * Returns non-zero if no portal was used for boot. * * This function is not thread safe. */ int fw_get_entry(struct boot_context *context) { int ret; ret = fwparam_ppc_boot_info(context); if (ret) ret = fwparam_sysfs_boot_info(context); return ret; } /** * fw_get_targets - get a boot_context struct for each target * @list: list to add entires on. * * Returns zero if entries were found that can be traversed with the * list.h helpers, or non-zero if no entries are found. * * fw_free_targets should be called to free the list. * * This function is not thread safe. */ int fw_get_targets(struct list_head *list) { int ret; ret = fwparam_ppc_get_targets(list); if (ret) ret = fwparam_sysfs_get_targets(list); return ret; } void fw_free_targets(struct list_head *list) { struct boot_context *curr, *tmp; if (!list || list_empty(list)) return; list_for_each_entry_safe(curr, tmp, list, list) { list_del(&curr->list); free(curr); } } static void dump_initiator(struct boot_context *context) { struct iface_rec iface; memset(&iface, 0, sizeof(iface)); iface_setup_defaults(&iface); iface_setup_from_boot_context(&iface, context); if (strlen(context->initiatorname)) printf("%s = %s\n", IFACE_INAME, context->initiatorname); if (strlen(context->isid)) printf("%s = %s\n", IFACE_ISID, context->isid); printf("%s = %s\n", IFACE_TRANSPORTNAME, iface.transport_name); } static void dump_target(struct boot_context *context) { if (strlen(context->targetname)) printf("%s = %s\n", NODE_NAME, context->targetname); if (strlen(context->target_ipaddr)) printf(CONN_ADDR" = %s\n", 0, context->target_ipaddr); printf(CONN_PORT" = %d\n", 0, context->target_port); if (strlen(context->chap_name)) printf("%s = %s\n", SESSION_USERNAME, context->chap_name); if (strlen(context->chap_password)) printf("%s = %s\n", SESSION_PASSWORD, context->chap_password); if (strlen(context->chap_name_in)) printf("%s = %s\n", SESSION_USERNAME_IN, context->chap_name_in); if (strlen(context->chap_password_in)) printf("%s = %s\n", SESSION_PASSWORD_IN, context->chap_password_in); if (strlen(context->lun)) printf("%s = %s\n", NODE_BOOT_LUN, context->lun); } static void dump_network(struct boot_context *context) { /* Dump the 8 byte mac address (not iser support) */ if (strlen(context->mac)) printf("%s = %s\n", IFACE_HWADDR, context->mac); /* * If the 'origin' field is 3 (IBFT_IP_PREFIX_ORIGIN_DHCP), * then DHCP is used. * Otherwise evaluate the 'dhcp' field, if this has a valid * address then DHCP was used (broadcom sends 0.0.0.0). */ if ((context->origin == IBFT_IP_PREFIX_ORIGIN_DHCP) || (strlen(context->dhcp) && strcmp(context->dhcp, "0.0.0.0"))) printf("%s = DHCP\n", IFACE_BOOT_PROTO); else printf("%s = STATIC\n", IFACE_BOOT_PROTO); if (strlen(context->ipaddr)) printf("%s = %s\n", IFACE_IPADDR, context->ipaddr); if (strlen(context->mask)) printf("%s = %s\n", IFACE_SUBNET_MASK, context->mask); if (strlen(context->gateway)) printf("%s = %s\n", IFACE_GATEWAY, context->gateway); if (strlen(context->primary_dns)) printf("%s = %s\n", IFACE_PRIMARY_DNS, context->primary_dns); if (strlen(context->secondary_dns)) printf("%s = %s\n", IFACE_SEC_DNS, context->secondary_dns); if (strlen(context->vlan)) printf("%s = %s\n", IFACE_VLAN_ID, context->vlan); if (strlen(context->iface)) printf("%s = %s\n", IFACE_NETNAME, context->iface); } /** * fw_print_entry - print boot context info of portal used for boot * @context: firmware info of portal * * Does not print anything if no portal was used for boot. * * TODO: Merge this in with idbm.c helpers. */ void fw_print_entry(struct boot_context *context) { printf("%s\n", ISCSI_BEGIN_REC); dump_initiator(context); dump_network(context); dump_target(context); printf("%s\n", ISCSI_END_REC); } open-iscsi-2.0.874/utils/fwparam_ibft/fwparam.h000066400000000000000000000021241277325716400213710ustar00rootroot00000000000000/* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, * USA. */ #ifndef FWPARAM_H_ #define FWPARAM_H_ #include #include "fw_context.h" #define FILENAMESZ (256) struct boot_context; int fwparam_sysfs_boot_info(struct boot_context *context); int fwparam_sysfs_get_targets(struct list_head *list); int fwparam_ppc_boot_info(struct boot_context *context); int fwparam_ppc_get_targets(struct list_head *list); #endif /* FWPARAM_IBFT_H_ */ open-iscsi-2.0.874/utils/fwparam_ibft/fwparam_ibft.c000066400000000000000000000311711277325716400223740ustar00rootroot00000000000000/* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, * USA. * * Copyright (C) IBM Corporation, 2006 * * Authors: Patrick Mansfield * Mike Anderson * */ #include #include #include #include #include #include #include #include #include #include "fwparam_ibft.h" #include "fw_context.h" char *progname = "fwparam_ibft"; int debug; int dev_count; char filename[FILENAMESZ]; const char nulls[16]; /* defaults to zero */ int verify_hdr(char *name, struct ibft_hdr *hdr, int id, int version, int length) { #define VERIFY_HDR_FIELD(val) \ if (hdr->val != val) { \ fprintf(stderr, \ "%s: error, %s structure expected %s %d but" \ " got %d\n", \ progname, name, #val, hdr->val, val); \ return -1; \ } if (debug > 1) fprintf(stderr, "%s: verifying %s header\n", __FUNCTION__, name); VERIFY_HDR_FIELD(id); VERIFY_HDR_FIELD(version); VERIFY_HDR_FIELD(length); #undef VERIFY_HDR_FIELD return 0; } #define CHECK_HDR(ident, name) \ verify_hdr(#name, &ident->hdr, id_##name, version_##name, \ sizeof(*ident)) /* * Format 8 byte scsi LUN. Just format 8 bytes of hex, we could also * format in the format as specified in rfc4173 (1-2-3-4, or 1-2), that is * a nice format for humans :) */ void format_lun(char *buf, size_t size, uint8_t *lun) { int i; for (i = 0; i < 8; i++) snprintf(buf++, size--, "%x", lun[i]); } void dump_lun(char *prefix, char *id, uint8_t *lun) { char buf[32]; format_lun(buf, sizeof(buf), lun); if (prefix) printf("%s%s=%s\n", prefix, id, buf); else printf("%s=%s\n", id, buf); } void dump_word(char *prefix, char *id, unsigned short value) { if (prefix) printf("%s%s=%d\n", prefix, id, value); else printf("%s=%d\n", id, value); } void dump_string(char *prefix, char *id, char *value, int len) { if (len == 0) return; /* * Not checking if the offset is non-zero, it is not even passed * in, else we need to pass a start and offset rather than value. */ /* * prints the string in "value" that has "len" characters (the * printf "*" * means use the next argument as the length). */ if (prefix) printf("%s%s=%.*s\n", prefix, id, len, value); else printf("%s=%.*s\n", id, len, value); } void format_ipaddr(char *buf, size_t size, uint8_t *ip) { if (ip[0] == 0 && ip[1] == 0 && ip[2] == 0 && ip[3] == 0 && ip[4] == 0 && ip[5] == 0 && ip[6] == 0 && ip[7] == 0 && ip[8] == 0 && ip[9] == 0 && ip[10] == 0xff && ip[11] == 0xff) { /* * IPV4 */ snprintf(buf, size, "%d.%d.%d.%d", ip[12], ip[13], ip[14], ip[15]); } else { /* XXX ... */ fprintf(stderr, "%s: warning no IPV6 support.\n", progname); buf[0] = '\0'; return; } } /* * Dump the 16 byte ipaddr, as IPV6 or IPV4. */ void dump_ipaddr(char *prefix, char *id, uint8_t *ip) { char buf[32]; /* * Assumes all zero means no IP address. */ if (!memcmp(ip, nulls, sizeof(nulls))) return; format_ipaddr(buf, sizeof(buf), ip); if (prefix) printf("%s%s=%s\n", prefix, id, buf); else printf("%s=%s\n", id, buf); } /* * Dump the 8 byte mac address */ void dump_mac(char *prefix, char *id, uint8_t *mac) { int i; if (prefix) printf("%s%s=", prefix, id); else printf("%s=", id); for (i = 0; i < 5; i++) printf("%02x:", mac[i]); printf("%02x\n", mac[i]); } void dump_initiator_prefix(void *ibft_loc, struct ibft_initiator *initiator, char *prefix) { if (!initiator) return; /* * Not all fields are (or were) supported by open-iscsi. Plus, * some of these are for discovery. */ dump_ipaddr(prefix, "ISNS", initiator->isns_server); dump_ipaddr(prefix, "SLP", initiator->slp_server); dump_ipaddr(prefix, "PRIMARY_RADIUS_SERVER", initiator->pri_radius_server); dump_ipaddr(prefix, "SECONDARY_RADIUS_SERVER", initiator->sec_radius_server); dump_string(prefix, "NAME", ibft_loc + initiator->initiator_name_off, initiator->initiator_name_len); } void dump_nic_prefix(void *ibft_loc, struct ibft_nic *nic, char *prefix) { if (!nic) return; dump_mac(prefix, "HWADDR", nic->mac); /* * Assume dhcp if any non-zero portions of its address are set * (again, undocumented). */ if (memcmp(nic->dhcp, nulls, sizeof(nic->dhcp))) { dump_ipaddr(prefix, "DHCP", nic->dhcp); } else { dump_ipaddr(prefix, "IPADDR", nic->ip_addr); /* * XXX: Not sure how a mask "prefix" will be used in network * bringup, this sounds less flexible than the normal * masks used. */ printf("%s%s=%d\n", prefix, "MASK", nic->subnet_mask_prefix); dump_ipaddr(prefix, "GATEWAY", nic->gateway); dump_ipaddr(prefix, "DNSADDR1", nic->primary_dns); dump_ipaddr(prefix, "DNSADDR2", nic->secondary_dns); } dump_string(prefix, "HOSTNAME", ibft_loc + nic->hostname_off, nic->hostname_len); /* * XXX unknown vlan: */ dump_word(prefix, "VLAN", nic->vlan); /* * XXX sort of unknown pci_bdf: 8 bits bus, 5 bits device, 3 bits * function. */ if (prefix ) printf("%s%s=%d:%d:%d\n", prefix, "PCI_BDF", /* bus */ (nic->pci_bdf & 0xff00) >> 8, /* device */ (nic->pci_bdf & 0xf8) >> 3, /* function */ (nic->pci_bdf & 0x07)); else printf("%s=%d:%d:%d\n", "PCI_BDF", /* bus */ (nic->pci_bdf & 0xff00) >> 8, /* device */ (nic->pci_bdf & 0xf8) >> 3, /* function */ (nic->pci_bdf & 0x07)); } void dump_tgt_prefix(void *ibft_loc, struct ibft_tgt *tgt, char *prefix) { if (!tgt) return; dump_ipaddr(prefix, "IPADDR", tgt->ip_addr); dump_word(prefix, "PORT", tgt->port); /* * XXX there should at least be a "no LUN specified field", or * have different location objects, so the setup can search for * the appropriate LU (like mount by label, or use of the * /dev/disk/by-id names, or .... * * Like: * uint8_t lu_type; 0: nothing specified, 1: LUN, 2: misc * name - OS can use any way it wants, would have embedded a * "NAME=string", like "LABEL=myrootvolume", or * "DEV_NAME=/dev/disk/by-id/scsi-198279562093043094003030903". * union lu_value { * uint8_t lun[8]; * uint8_t misc_name[64]; * }; * * Maybe just add an extension header, and let the admin/user put * strings like: "area:VALUE=string" into it? */ dump_lun(prefix, "LUN", tgt->lun); dump_string(prefix, "NAME", ibft_loc + tgt->tgt_name_off, tgt->tgt_name_len); /* * Note: don't dump the nic association, just let the IP address take * care of the routing. */ /* * Note: don't dump the chap "type", just the chap names and secrets * if any are specified - they imply CHAP and reversed CHAP. */ dump_string(prefix, "CHAP_NAME", ibft_loc + tgt->chap_name_off, tgt->chap_name_len); dump_string(prefix, "CHAP_PASSWORD", ibft_loc + tgt->chap_secret_off, tgt->chap_secret_len); dump_string(prefix, "CHAP_NAME_IN", ibft_loc + tgt->rev_chap_name_off, tgt->rev_chap_name_len); dump_string(prefix, "CHAP_PASSWORD_IN", ibft_loc + tgt->rev_chap_secret_off, tgt->rev_chap_secret_len); } /* * Read in and dump ASCII output for ibft starting at ibft_loc. */ int dump_ibft(void *ibft_loc, struct boot_context *context) { struct ibft_table_hdr *ibft_hdr = ibft_loc; struct ibft_control *control; struct ibft_initiator *initiator = NULL; struct ibft_nic *nic0 = NULL, *nic1 = NULL; struct ibft_tgt *tgt0 = NULL, *tgt1 = NULL; char ipbuf[32]; control = ibft_loc + sizeof(*ibft_hdr); CHECK_HDR(control, control); /* * The ibft is setup to return multiple pieces for each * object (like multiple nic's or multiple targets), but it only * maps 1 initiator, two targets, and two nics, follow that layout * here (i.e. don't search for others). * * Also, unknown what to do for extensions piece, it is not * documented. */ if (control->initiator_off) { initiator = ibft_loc + control->initiator_off; CHECK_HDR(initiator, initiator); } if (control->nic0_off) { nic0 = ibft_loc + control->nic0_off; CHECK_HDR(nic0, nic); } if (control->nic1_off) { nic1 = ibft_loc + control->nic1_off; CHECK_HDR(nic1, nic); } if (control->tgt0_off) { tgt0 = ibft_loc + control->tgt0_off; CHECK_HDR(tgt0, target); } if (control->tgt1_off) { tgt1 = ibft_loc + control->tgt1_off; CHECK_HDR(tgt1, target); } strlcpy(context->initiatorname, (char *)ibft_loc+initiator->initiator_name_off, initiator->initiator_name_len + 1); if (tgt0 && (tgt0->hdr.flags & INIT_FLAG_FW_SEL_BOOT)) { strlcpy((char *)context->targetname, (char *)(ibft_loc+tgt0->tgt_name_off), tgt0->tgt_name_len); format_ipaddr(ipbuf, sizeof(ipbuf), tgt0->ip_addr); strlcpy((char *)context->target_ipaddr, ipbuf, sizeof(ipbuf)); context->target_port = tgt0->port; strlcpy(context->chap_name, (char *)(ibft_loc + tgt0->chap_name_off), tgt0->chap_name_len); strlcpy(context->chap_password, (char*)(ibft_loc + tgt0->chap_secret_off), tgt0->chap_secret_len); strlcpy(context->chap_name_in, (char *)(ibft_loc + tgt0->rev_chap_name_off), tgt0->rev_chap_name_len); strlcpy(context->chap_password_in, (char *)(ibft_loc + tgt0->rev_chap_secret_off), tgt0->rev_chap_secret_len); } else if (tgt1 && (tgt1->hdr.flags & INIT_FLAG_FW_SEL_BOOT)) { strlcpy((char *)context->targetname, (char *)(ibft_loc+tgt1->tgt_name_off), tgt1->tgt_name_len); format_ipaddr(ipbuf, sizeof(ipbuf), tgt1->ip_addr); strlcpy((char *)context->target_ipaddr,ipbuf, sizeof(ipbuf)); context->target_port = tgt1->port; strlcpy(context->chap_name, (char *)(ibft_loc + tgt1->chap_name_off), tgt1->chap_name_len); strlcpy(context->chap_password, (char*)(ibft_loc + tgt1->chap_secret_off), tgt1->chap_secret_len); strlcpy(context->chap_name_in, (char *)(ibft_loc + tgt1->rev_chap_name_off), tgt1->rev_chap_name_len); strlcpy(context->chap_password_in, (char *)(ibft_loc + tgt1->rev_chap_secret_off), tgt1->rev_chap_secret_len); } return 0; } char *search_ibft(unsigned char *start, int length) { unsigned char *cur_ptr; struct ibft_table_hdr *ibft_hdr; unsigned char check_sum; uint32_t i; cur_ptr = (unsigned char *)start; for (cur_ptr = (unsigned char *)start; cur_ptr < (start + length); cur_ptr++) { if (memcmp(cur_ptr, iBFTSTR,strlen(iBFTSTR))) continue; ibft_hdr = (struct ibft_table_hdr *)cur_ptr; /* Make sure it's correct version. */ if (ibft_hdr->revision != iBFT_REV) continue; /* Make sure that length is valid. */ if ((cur_ptr + ibft_hdr->length) <= (start + length)) { /* Let verify the checksum */ for (i = 0, check_sum = 0; i < ibft_hdr->length; i++) check_sum += cur_ptr[i]; if (check_sum == 0) return (char *)cur_ptr; } } return NULL; } int fwparam_ibft(struct boot_context *context, const char *filepath) { int fd, ret; char *filebuf, *ibft_loc; int start = 512 * 1024; /* 512k */ int end_search = (1024 * 1024) - start; /* 512k */ struct stat buf; if (filepath) strlcpy(filename, filepath, FILENAMESZ); else strlcpy(filename, X86_DEFAULT_FILENAME, FILENAMESZ); fd = open(filename, O_RDONLY); if (fd < 0) { fprintf(stderr, "Could not open %s: %s (%d)\n", filename, strerror(errno), errno); return -1; } /* Find the size. */ if (stat(filename, &buf)!=0) { fprintf(stderr, "Could not stat file %s: %s (%d)\n", filename, strerror(errno), errno); return -1; } /* And if not zero use that size */ if (buf.st_size > 0) { start = 0; end_search=buf.st_size; } /* * XXX Possibly warn and exit if start > filesize(fd), or if start + * end_search > filesize(fd). Else, we will get a bus error for * small files (with memmap, and for testing at least, it would * be hard to find a system with less than 1024k). */ filebuf = mmap(NULL, end_search, PROT_READ, MAP_PRIVATE, fd, start); if (filebuf == MAP_FAILED) { fprintf(stderr, "Could not mmap %s: %s (%d)\n", filename, strerror(errno), errno); ret = -1; goto done; } ibft_loc = search_ibft((unsigned char *)filebuf, end_search); if (ibft_loc) ret = dump_ibft(ibft_loc, context); else { printf("Could not find iBFT.\n"); ret = -1; } munmap(filebuf, end_search); done: close(fd); return ret; } open-iscsi-2.0.874/utils/fwparam_ibft/fwparam_ibft.h000066400000000000000000000070561277325716400224060ustar00rootroot00000000000000/* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, * USA. * * Copyright (C) IBM Corporation, 2006,2007 * * Authors: Doug Maxey * Patrick Mansfield * */ #ifndef FWPARAM_IBFT_H_ #define FWPARAM_IBFT_H_ /* #include */ #include #include "fw_context.h" /* * Structures here are is based on Doug's original code, and Patrick's * interpretation of the IBM internal design document title the "iSCSI * Boot Firmware Table (iBFT)". */ #define iBFTSTR "iBFT" #define iBFT_SIG { 'i','B','F','T' } #define iBFT_REV 1 /* * These macros are lower case to make the verify_hdr macro easier. */ #define version_control 1 #define version_initiator 1 #define version_nic 1 #define version_target 1 #define version_extensions 1 enum ibft_id { id_control = 1, id_initiator, id_nic, id_target, id_extensions, }; struct ibft_hdr { uint8_t id; uint8_t version; uint16_t length; uint8_t ind; uint8_t flags; }; struct ibft_table_hdr { uint8_t signature[4]; uint32_t length; uint8_t revision; uint8_t checksum; uint8_t oemid[6]; uint8_t oem_table_id[8]; uint8_t rsvd1[24]; } __attribute__((__packed__)); struct ibft_control { struct ibft_hdr hdr; uint16_t extensions; uint16_t initiator_off; uint16_t nic0_off; uint16_t tgt0_off; uint16_t nic1_off; uint16_t tgt1_off; } __attribute__((__packed__)); struct ibft_initiator { #define INIT_FLAG_VALID 1 #define INIT_FLAG_FW_SEL_BOOT 2 struct ibft_hdr hdr; uint8_t isns_server[16]; uint8_t slp_server[16]; uint8_t pri_radius_server[16]; uint8_t sec_radius_server[16]; uint16_t initiator_name_len; uint16_t initiator_name_off; } __attribute__((__packed__)); struct ibft_nic { #define NIC_FLAG_VALID 1 #define NIC_FLAG_FW_SEL_BOOT 2 struct ibft_hdr hdr; uint8_t ip_addr[16]; uint8_t subnet_mask_prefix; uint8_t origin; uint8_t gateway[16]; uint8_t primary_dns[16]; uint8_t secondary_dns[16]; uint8_t dhcp[16]; uint16_t vlan; uint8_t mac[6]; uint16_t pci_bdf; uint16_t hostname_len; uint16_t hostname_off; } __attribute__((__packed__)); struct ibft_tgt { #define TGT_FLAG_VALID 1 #define TGT_FLAG_FW_SEL_BOOT 2 #define TGT_FLAG_USE_RADIUS_CHAT 4 #define TGT_FLAG_USE_RADIUS_RCHAT 8 struct ibft_hdr hdr; uint8_t ip_addr[16]; uint16_t port; uint8_t lun[8]; #define TGT_CHAP 1 #define TGT_MUTUAL_CHAP 2 uint8_t chap_type; uint8_t nic_assoc; uint16_t tgt_name_len; uint16_t tgt_name_off; uint16_t chap_name_len; uint16_t chap_name_off; uint16_t chap_secret_len; uint16_t chap_secret_off; uint16_t rev_chap_name_len; uint16_t rev_chap_name_off; uint16_t rev_chap_secret_len; uint16_t rev_chap_secret_off; } __attribute__((__packed__)); /* Common variables */ #define FILENAMESZ (256) extern char filename[FILENAMESZ]; #define X86_DEFAULT_FILENAME "/dev/mem" extern int debug; extern int dev_count; extern int fwparam_ibft(struct boot_context *context, const char *filepath); #endif /* FWPARAM_IBFT_H_ */ open-iscsi-2.0.874/utils/fwparam_ibft/fwparam_ibft_sysfs.c000066400000000000000000000226271277325716400236310ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Konrad Rzeszutek * Copyright (C) Red Hat, Inc. All rights reserved. 2008 * Copyright (C) Mike Christie 2008 * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #define _XOPEN_SOURCE 500 #define _SVID_SOURCE #include #include #include #include #include #include #include #include #include #include #include "sysfs.h" #include "fw_context.h" #include "fwparam.h" #include "sysdeps.h" #include "iscsi_net_util.h" #define IBFT_MAX 255 #define IBFT_SYSFS_ROOT "/sys/firmware/ibft/" #define NET_SYSFS_ROOT "/sys/class/net/" #define IBFT_SUBSYS "ibft" static char *target_list[IBFT_MAX]; static char *nic_list[IBFT_MAX]; static int nic_cnt; static int tgt_cnt; static int file_exist(const char *file) { struct stat bootpath_stat; return !stat(file, &bootpath_stat); } /* * Finds the etherrnetX and targetX under the sysfs directory. */ static int find_sysfs_dirs(const char *fpath, const struct stat *sb, int tflag, struct FTW *ftw) { if (tflag == FTW_D && (strstr(fpath + ftw->base, "target"))) { if (tgt_cnt == IBFT_MAX) { printf("Too many targets found in IBFT data." "Max number of targets %d\n", IBFT_MAX); return 0; } target_list[tgt_cnt++] = strdup(strstr(fpath, "target")); } if (tflag == FTW_D && (strstr(fpath + ftw->base, "ethernet"))) { if (nic_cnt == IBFT_MAX) { printf("Too many nics found in IBFT data." "Max number of nics %d\n", IBFT_MAX); return 0; } nic_list[nic_cnt++] = strdup(strstr(fpath, "ethernet")); } return 0; } static int get_iface_from_device(char *id, struct boot_context *context) { char dev_dir[FILENAMESZ]; int rc = ENODEV; DIR *dirfd; struct dirent *dent; memset(dev_dir, 0, FILENAMESZ); snprintf(dev_dir, FILENAMESZ, IBFT_SYSFS_ROOT"/%s/device", id); if (!file_exist(dev_dir)) return 0; dirfd = opendir(dev_dir); if (!dirfd) return errno; while ((dent = readdir(dirfd))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..") || strncmp(dent->d_name, "net:", 4)) continue; if (!strncmp(dent->d_name, "net:", 4)) { if ((strlen(dent->d_name) - 4) > (sizeof(context->iface) - 1)) { rc = EINVAL; printf("Net device %s too big for iface " "buffer.\n", dent->d_name); break; } if (sscanf(dent->d_name, "net:%s", context->iface) != 1) rc = EINVAL; rc = 0; break; } else { printf("Could not read ethernet to net link.\n"); rc = EOPNOTSUPP; break; } } closedir(dirfd); if (rc != ENODEV) return rc; /* If not found try again with newer kernel networkdev sysfs layout */ strlcat(dev_dir, "/net", FILENAMESZ); if (!file_exist(dev_dir)) return rc; dirfd = opendir(dev_dir); if (!dirfd) return errno; while ((dent = readdir(dirfd))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; /* Take the first "regular" directory entry */ if (strlen(dent->d_name) > (sizeof(context->iface) - 1)) { rc = EINVAL; printf("Net device %s too big for iface buffer.\n", dent->d_name); break; } strcpy(context->iface, dent->d_name); rc = 0; break; } closedir(dirfd); return rc; } /* * Routines to fill in the context values. */ static int fill_nic_context(char *id, struct boot_context *context) { int rc; rc = sysfs_get_str(id, IBFT_SUBSYS, "mac", context->mac, sizeof(context->mac)); if (rc) return rc; /* * Some offload cards like bnx2i use different MACs for the net and * iscsi functions, so we have to follow the sysfs links. * * Other ibft implementations may not be tied to a pci function, * so there will not be any device/net link, so we drop down to * the MAC matching. */ rc = get_iface_from_device(id, context); if (rc) { rc = net_get_netdev_from_hwaddress(context->mac, context->iface); if (rc) return rc; } sysfs_get_str(id, IBFT_SUBSYS, "ip-addr", context->ipaddr, sizeof(context->ipaddr)); sysfs_get_str(id, IBFT_SUBSYS, "vlan", context->vlan, sizeof(context->vlan)); sysfs_get_str(id, IBFT_SUBSYS, "subnet-mask", context->mask, sizeof(context->mask)); sysfs_get_str(id, IBFT_SUBSYS, "gateway", context->gateway, sizeof(context->gateway)); sysfs_get_str(id, IBFT_SUBSYS, "primary-dns", context->primary_dns, sizeof(context->primary_dns)); sysfs_get_str(id, IBFT_SUBSYS, "secondary-dns", context->secondary_dns, sizeof(context->secondary_dns)); sysfs_get_str(id, IBFT_SUBSYS, "dhcp", context->dhcp, sizeof(context->dhcp)); sysfs_get_str(id, IBFT_SUBSYS, "origin", context->origin, sizeof(context->origin)); return 0; } static void fill_initiator_context(struct boot_context *context) { sysfs_get_str("initiator", IBFT_SUBSYS, "initiator-name", context->initiatorname, sizeof(context->initiatorname)); sysfs_get_str("initiator", IBFT_SUBSYS, "isid", context->isid, sizeof(context->isid)); } static int fill_tgt_context(char *id, struct boot_context *context) { int rc; rc = sysfs_get_str(id, IBFT_SUBSYS, "target-name", context->targetname, sizeof(context->targetname)); if (rc) return rc; rc = sysfs_get_str(id, IBFT_SUBSYS, "ip-addr", context->target_ipaddr, sizeof(context->target_ipaddr)); if (rc) return rc; /* * We can live without the rest of they do not exist. If we * failed to get them we will figure it out when we login. */ if (sysfs_get_int(id, IBFT_SUBSYS, "port", &context->target_port)) context->target_port = ISCSI_LISTEN_PORT; sysfs_get_str(id, IBFT_SUBSYS, "lun", context->lun, sizeof(context->lun)); sysfs_get_str(id, IBFT_SUBSYS, "chap-name", context->chap_name, sizeof(context->chap_name)); sysfs_get_str(id, IBFT_SUBSYS, "chap-secret", context->chap_password, sizeof(context->chap_password)); sysfs_get_str(id, IBFT_SUBSYS, "rev-chap-name", context->chap_name_in, sizeof(context->chap_name_in)); sysfs_get_str(id, IBFT_SUBSYS, "rev-chap-name-secret", context->chap_password_in, sizeof(context->chap_password_in)); return 0; } #define IBFT_SYSFS_FLAG_FW_SEL_BOOT 2 static int find_boot_flag(char *list[], ssize_t size, int *boot_idx) { int rc = ENODEV; int i, flag = 0; for (i = 0; i < size; i++, flag = -1) { rc = sysfs_get_int(list[i], IBFT_SUBSYS, "flags", &flag); if (rc) continue; if (flag & IBFT_SYSFS_FLAG_FW_SEL_BOOT) { *boot_idx = i; rc = 0; break; } rc = ENODEV; flag = 0; } return rc; } static void deallocate_lists(void) { int i; for (i = 0; i < nic_cnt; i++) free(nic_list[i]); nic_cnt = 0; for (i = 0; i < tgt_cnt; i++) free(target_list[i]); tgt_cnt = 0; } int fwparam_ibft_sysfs_boot_info(struct boot_context *context) { char initiator_dir[FILENAMESZ]; int rc = 1; int nic_idx = -1, tgt_idx = -1; memset(&initiator_dir, 0 , FILENAMESZ); snprintf(initiator_dir, FILENAMESZ, "%sinitiator", IBFT_SYSFS_ROOT); nic_cnt = 0; tgt_cnt = 0; if (file_exist(initiator_dir)) { /* Find the target's and the ethernet's */ rc = nftw(IBFT_SYSFS_ROOT, find_sysfs_dirs, 20, 1); /* Find wihch target and which ethernet have the boot flag set. */ rc = find_boot_flag(nic_list, nic_cnt, &nic_idx); if (rc) goto free; rc = find_boot_flag(target_list, tgt_cnt, &tgt_idx); if (rc) goto free; /* Fill in the context values */ rc = fill_nic_context(nic_list[nic_idx], context); rc |= fill_tgt_context(target_list[tgt_idx], context); fill_initiator_context(context); } free: deallocate_lists(); return rc; } int fwparam_ibft_sysfs_get_targets(struct list_head *list) { struct boot_context *context; int rc = 0, i, nic_idx, nic; char initiator_dir[FILENAMESZ]; memset(&initiator_dir, 0 , FILENAMESZ); snprintf(initiator_dir, FILENAMESZ, "%sinitiator", IBFT_SYSFS_ROOT); if (!file_exist(initiator_dir)) return ENODEV; nic_cnt = 0; tgt_cnt = 0; /* Find the target's and the ethernet's */ nftw(IBFT_SYSFS_ROOT, find_sysfs_dirs, 20, 1); for (i = 0; i < tgt_cnt; i++) { context = calloc(1, sizeof(*context)); if (!context) { rc = ENOMEM; break; } rc = fill_tgt_context(target_list[i], context); if (rc) break; rc = sysfs_get_int(target_list[i], IBFT_SUBSYS, "nic-assoc", &nic_idx); if (rc) break; for (nic = 0; nic < nic_cnt; nic++) { int id; rc = sysfs_get_int(nic_list[nic], IBFT_SUBSYS, "index", &id); if (!rc && (id == nic_idx)) break; } if (nic == nic_cnt) { printf("Invalid nic-assoc of %d. Max id %d.\n", nic_idx, nic_cnt); break; } rc = fill_nic_context(nic_list[nic], context); if (rc) break; fill_initiator_context(context); list_add_tail(&context->list, list); } if (rc) { if (context) free(context); fw_free_targets(list); } deallocate_lists(); return rc; } open-iscsi-2.0.874/utils/fwparam_ibft/fwparam_ppc.c000066400000000000000000000344351277325716400222400ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #define _XOPEN_SOURCE 500 #include #include #include #include #include #include #include #include "fwparam.h" #include "fw_context.h" #include "iscsi_obp.h" #include "prom_parse.h" #include "sysdeps.h" #include "iscsi_err.h" void* yy_scan_string(const char *str); int yyparse(struct ofw_dev *ofwdev); #define BOOTPATH "/chosen/bootpath" #define DT_TOP "/proc/device-tree" #define LOCAL_MAC_FILE "/local-mac-address" static int devtree_offset; static char *bootpath_val; static int bytes_read; #define OFWDEV_MAX (10) static struct ofw_dev *ofwdevs[OFWDEV_MAX]; static char *niclist[OFWDEV_MAX]; static int nic_count; static int debug; static int dev_count; static void cp_param(char *dest, const char *name, struct ofw_dev *dev, enum obp_param item, int len) { if (dev->param[item]) strlcpy(dest, dev->param[item]->val, len); } static void cp_int_param(int *dest, const char *name, struct ofw_dev *dev, enum obp_param item) { if (dev->param[item]) *dest = strtol(dev->param[item]->val, NULL, 10); } static char *find_devtree(const char *filename) { char *devtree = strdup(filename); char *chop_at; struct stat dt_stat; int error; /* * What is the path to the device-tree? The only valid * directories to locate the property are under /aliases or * /chosen. */ chop_at = strstr(devtree, "/chosen"); if (!chop_at) chop_at = strstr(devtree, "/aliases"); if (!chop_at) { char *vdev = malloc(strlen(filename) + strlen("/vdevice") + 1); /* * test to see if there is /vdevice dir */ if (vdev) { sprintf(vdev, "%s%s", filename, "/vdevice"); error = stat(vdev, &dt_stat); free(vdev); if (error) { free(devtree); return NULL; } } } else devtree[chop_at - devtree] = 0; if (devtree) devtree_offset = strlen(devtree); return devtree; } /* * Take the path to the property under chosen, and swizzle to make that * the base for the device path discovered. */ static int locate_mac(const char *devtree, struct ofw_dev *ofwdev) { int error = 0; int mac_path_len = strlen(ofwdev->dev_path) + strlen(LOCAL_MAC_FILE) + 2; char *mac_file; int mac_fd; mac_path_len += strlen(devtree); mac_file = malloc(mac_path_len); if (!mac_file) { error = ENOMEM; fprintf(stderr, "%s: malloc , %s\n", __func__, strerror(errno)); goto lpm_bail; } snprintf(mac_file, mac_path_len, "%s%s%s", devtree, ofwdev->dev_path, LOCAL_MAC_FILE); mac_fd = open(mac_file, O_RDONLY); if (mac_fd < 0) { error = errno; fprintf(stderr, "%s: open %s, %s\n", __func__, mac_file, strerror(errno)); goto lpm_bail; } bytes_read = read(mac_fd, ofwdev->mac, 6); if (bytes_read != 6) { error = EIO; fprintf(stderr, "%s: read %s, %s\n", __func__, mac_file, strerror(errno)); goto lpm_bail; } free(mac_file); close(mac_fd); lpm_bail: return error; } const char *obp_qual_set(struct ofw_dev *ofwdev, const char *qual) { if (!strcmp("bootp", qual)) ofwdev->quals[ofwdev->qual_count++] = OBP_QUAL_BOOTP; else if (!strcmp("dhcpv6", qual)) ofwdev->quals[ofwdev->qual_count++] = OBP_QUAL_DHCPV6; else if (!strcmp("ipv6", qual)) ofwdev->quals[ofwdev->qual_count++] = OBP_QUAL_IPV6; else if (!strcmp("iscsi", qual)) { ofwdev->type = OFW_DT_ISCSI; ofwdev->quals[ofwdev->qual_count++] = OBP_QUAL_ISCSI; } else if (!strcmp("ping", qual)) ofwdev->quals[ofwdev->qual_count++] = OBP_QUAL_PING; else printf("%s: %s UNKNOWN\n", __func__, qual); return qual; } void add_obp_parm(struct ofw_dev *ofwdev, enum obp_param parm, const char *str) { int psz = sizeof(struct ofw_obp_param) + strlen(str); ofwdev->param[parm] = malloc(psz); if (ofwdev->param[parm] == NULL) { printf("%s: ENOMEM!\n", __func__); return; } memset(ofwdev->param[parm], 0, psz); ofwdev->param[parm]->len = psz; strcpy(ofwdev->param[parm]->val, str); } void obp_parm_addr(struct ofw_dev *ofwdev, const char *parm, const char *addr) { if (!strcmp("ciaddr", parm)) add_obp_parm(ofwdev, OBP_PARAM_CIADDR, addr); else if (!strcmp("dhcp", parm)) add_obp_parm(ofwdev, OBP_PARAM_DHCP, addr); else if (!strcmp("giaddr", parm)) add_obp_parm(ofwdev, OBP_PARAM_GIADDR, addr); else if (!strcmp("isns", parm)) add_obp_parm(ofwdev, OBP_PARAM_ISNS, addr); else if (!strcmp("siaddr", parm)) add_obp_parm(ofwdev, OBP_PARAM_SIADDR, addr); else if (!strcmp("slp", parm)) add_obp_parm(ofwdev, OBP_PARAM_SLP, addr); else if (!strcmp("subnet-mask", parm)) add_obp_parm(ofwdev, OBP_PARAM_SUBNET_MASK, addr); else printf("%s: %s UNKNOWN\n", __func__, parm); } void obp_parm_iqn(struct ofw_dev *ofwdev, const char *parm, const char *iqn) { if (!strcmp("itname", parm)) add_obp_parm(ofwdev, OBP_PARAM_ITNAME, iqn); else if (!strcmp("iname", parm)) add_obp_parm(ofwdev, OBP_PARAM_INAME, iqn); else printf("%s: %s UNKNOWN\n", __func__, parm); } void obp_parm_hexnum(struct ofw_dev *ofwdev, const char *parm, const char *numstr) { if (!strcmp("bootp-retries", parm)) add_obp_parm(ofwdev, OBP_PARAM_BOOTP_RETRIES, numstr); else if (!strcmp("tftp-retries", parm)) add_obp_parm(ofwdev, OBP_PARAM_TFTP_RETRIES, numstr); else if (!strcmp("iport", parm)) add_obp_parm(ofwdev, OBP_PARAM_IPORT, numstr); else if (!strcmp("ilun", parm)) add_obp_parm(ofwdev, OBP_PARAM_ILUN, numstr); else if (!strcmp("isid", parm)) add_obp_parm(ofwdev, OBP_PARAM_ISID, numstr); else printf("%s: %s UNKNOWN <%s>\n", __func__, parm, numstr); } void obp_parm_str(struct ofw_dev *ofwdev, const char *parm, const char *str) { if (!strcmp("filename", parm)) add_obp_parm(ofwdev, OBP_PARAM_FILENAME, str); else if (!strcmp("ichapid", parm)) add_obp_parm(ofwdev, OBP_PARAM_ICHAPID, str); else if (!strcmp("ichappw", parm)) add_obp_parm(ofwdev, OBP_PARAM_ICHAPPW, str); else if (!strcmp("chapid", parm)) add_obp_parm(ofwdev, OBP_PARAM_CHAPID, str); else if (!strcmp("chappw", parm)) add_obp_parm(ofwdev, OBP_PARAM_CHAPPW, str); else printf("%s: %s UNKNOWN <%s>\n", __func__, parm, str); } void yyerror(struct ofw_dev *ofwdev, const char *msg) { fprintf(stderr, "%s: error in <%s> at l%d.c%d\n", "fwparam_ppc", ofwdev->prop_path, yylloc.last_line, yylloc.last_column); } static int parse_params(const char *buf, struct ofw_dev *ofwdev) { int error = 0; #if YYDEBUG yydebug = 1; #endif if (yy_scan_string(buf)) error = yyparse(ofwdev); return error; } static int find_file(const char *filename) { int error, fd; struct stat bootpath_stat; error = stat(filename, &bootpath_stat); if (error < 0) { fprintf(stderr, "%s: stat %s, %s\n", __func__, filename, strerror(errno)); return error; } bootpath_val = malloc(bootpath_stat.st_size); if (!bootpath_val) { error = ENOMEM; fprintf(stderr, "%s: Could not open %s: %s (%d)\n", __func__, filename, strerror(error), error); return -1; } fd = open(filename, O_RDONLY); if (fd < 0) { fprintf(stderr, "%s: Could not open %s: %s (%d)\n", __func__, filename, strerror(errno), errno); free(bootpath_val); return -1; } bytes_read = read(fd, bootpath_val, bootpath_stat.st_size); close(fd); free(bootpath_val); if (bytes_read != bootpath_stat.st_size) { fprintf(stderr, "%s: Could not open %s: %s (%d)\n", __func__, filename, strerror(EIO), EIO); return -1; } return 1; } static int find_nics(const char *fpath, const struct stat *sb, int tflag, struct FTW *ftw) { if (tflag == FTW_D && (strstr(fpath + ftw->base, "iscsi-toe") || strstr(fpath + ftw->base, "ethernet"))) { if (nic_count < OFWDEV_MAX) niclist[nic_count++] = strdup(fpath + devtree_offset); } return 0; } int nic_cmp(const char **a, const char **b) { return strcmp(*a, *b); } static int find_initiator(const char *fpath, const struct stat *sb, int tflag, struct FTW *ftw) { struct ofw_dev *dev; if (tflag == FTW_F && (strstr(fpath + ftw->base, "/aliases/iscsi-disk"))) { if (dev_count < OFWDEV_MAX) { ofwdevs[dev_count++] = dev = calloc(sizeof(struct ofw_dev), 1); dev->prop_path = strdup(fpath + devtree_offset); } } return 0; } static int loop_devs(const char *devtree) { int error; int i; char prefix[256]; nic_count = 0; error = nftw(devtree, find_nics, 20, 0); if (error) return error; /* * Sort the nics into "natural" order. The proc fs * device-tree has them in somewhat random, or reversed order. */ qsort(niclist, nic_count, sizeof(char *), (__compar_fn_t)nic_cmp); snprintf(prefix, sizeof(prefix), "%s/%s", devtree, "aliases"); dev_count = 0; error = nftw(prefix, find_initiator, 20, 0); if (error) return error; for (i = 0; i < dev_count; i++) { snprintf(prefix, sizeof(prefix), "%s%s", devtree, ofwdevs[i]->prop_path); if (find_file(prefix) > 0) { error = parse_params(bootpath_val, ofwdevs[i]); if (!error) error = locate_mac(devtree, ofwdevs[i]); } } return error; } #define set_context(fld,abrv,item) \ cp_param(context->fld, (abrv), ofwdev, (item), sizeof(context->fld)) #define set_int_context(fld,abrv,item) \ cp_int_param(&context->fld, (abrv), ofwdev, (item)) static void fill_context(struct boot_context *context, struct ofw_dev *ofwdev) { int ndx; memset(context, 0, sizeof(*context)); set_context(initiatorname, "NAME", OBP_PARAM_ITNAME); snprintf(context->mac, sizeof(context->mac), "%02x:%02x:%02x:%02x:%02x:%02x", ofwdev->mac[0], ofwdev->mac[1], ofwdev->mac[2], ofwdev->mac[3], ofwdev->mac[4], ofwdev->mac[5]); /* * nic parameters */ for (ndx = 0; ndx < nic_count; ndx++) { if (!strcmp(niclist[ndx], ofwdev->dev_path)) { snprintf(context->iface, sizeof(context->iface), "eth%d", ndx); break; } } set_context(ipaddr, "IPADDR", OBP_PARAM_CIADDR); set_context(mask, "MASK", OBP_PARAM_SUBNET_MASK); /* * target parameters */ set_context(target_ipaddr, "IPADDR", OBP_PARAM_SIADDR); set_int_context(target_port, "PORT", OBP_PARAM_IPORT); set_context(lun, "LUN", OBP_PARAM_ILUN); set_context(targetname, "NAME", OBP_PARAM_INAME); set_context(isid, "ISID", OBP_PARAM_ISID); /* * chap stuff is always associated with the target */ set_context(chap_name, "CHAP_NAME", OBP_PARAM_ICHAPID); set_context(chap_password, "CHAP_PASSWORD", OBP_PARAM_ICHAPPW); set_context(chap_name_in, "CHAP_NAME_IN", OBP_PARAM_CHAPID); set_context(chap_password_in, "CHAP_PASSWORD_IN", OBP_PARAM_CHAPPW); } int fwparam_ppc_boot_info(struct boot_context *context) { char filename[FILENAMESZ]; int error; char *devtree; /* * For powerpc, our operations are fundamentally to locate * either the one boot target (the singleton disk), or to find * the nics that support iscsi boot. The only nics in IBM * systems that can support iscsi are the ones that provide * the appropriate FCODE with a load method. */ memset(filename, 0, FILENAMESZ); snprintf(filename, FILENAMESZ, "%s%s", DT_TOP, BOOTPATH); if (debug) fprintf(stderr, "%s: file:%s; debug:%d\n", __func__, filename, debug); devtree = find_devtree(filename); if (!devtree) return ISCSI_ERR_INVAL; /* * Always search the device-tree to find the capable nic devices. */ error = loop_devs(devtree); if (error) goto free_devtree; if (find_file(filename) < 1) error = ISCSI_ERR_NO_OBJS_FOUND; else { if (debug) printf("%s:\n%s\n\n", filename, bootpath_val); /* * We find *almost* everything we need in the * bootpath, save the mac-address. */ if (!strstr(bootpath_val, "iscsi")) { error = ISCSI_ERR_INVAL; goto free_devtree; } ofwdevs[0] = calloc(1, sizeof(struct ofw_dev)); if (!ofwdevs[0]) { error = ISCSI_ERR_NOMEM; goto free_devtree; } error = parse_params(bootpath_val, ofwdevs[0]); if (!error) error = locate_mac(devtree, ofwdevs[0]); if (!error) { context = calloc(1, sizeof(*context)); if (!context) error = ISCSI_ERR_NOMEM; else fill_context(context, ofwdevs[0]); } free(ofwdevs[0]); } free_devtree: free(devtree); return error; } /* * Due to lack of time this is just fwparam_ppc_boot_info which * adds the target used for boot to the list. It does not add * all possible targets (IBM please add). */ int fwparam_ppc_get_targets(struct list_head *list) { char filename[FILENAMESZ]; struct boot_context *context; int error; char *devtree; /* * For powerpc, our operations are fundamentally to locate * either the one boot target (the singleton disk), or to find * the nics that support iscsi boot. The only nics in IBM * systems that can support iscsi are the ones that provide * the appropriate FCODE with a load method. */ memset(filename, 0, FILENAMESZ); snprintf(filename, FILENAMESZ, "%s%s", DT_TOP, BOOTPATH); if (debug) fprintf(stderr, "%s: file:%s; debug:%d\n", __func__, filename, debug); devtree = find_devtree(filename); if (!devtree) return ISCSI_ERR_INVAL; /* * Always search the device-tree to find the capable nic devices. */ error = loop_devs(devtree); if (error) goto free_devtree; if (find_file(filename) < 1) error = ISCSI_ERR_NO_OBJS_FOUND; else { if (debug) printf("%s:\n%s\n\n", filename, bootpath_val); /* * We find *almost* everything we need in the * bootpath, save the mac-address. */ if (!strstr(bootpath_val, "iscsi")) { error = ISCSI_ERR_INVAL; goto free_devtree; } ofwdevs[0] = calloc(1, sizeof(struct ofw_dev)); if (!ofwdevs[0]) { error = ISCSI_ERR_NOMEM; goto free_devtree; } error = parse_params(bootpath_val, ofwdevs[0]); if (!error) error = locate_mac(devtree, ofwdevs[0]); if (!error) { context = calloc(1, sizeof(*context)); if (!context) error = ISCSI_ERR_NOMEM; else { fill_context(context, ofwdevs[0]); list_add_tail(&context->list, list); } } free(ofwdevs[0]); } free_devtree: free(devtree); return error; } open-iscsi-2.0.874/utils/fwparam_ibft/fwparam_sysfs.c000066400000000000000000000314771277325716400226300ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Konrad Rzeszutek * Copyright (C) Red Hat, Inc. All rights reserved. 2008 - 2010 * Copyright (C) Mike Christie 2008 - 2010 * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #define _XOPEN_SOURCE 500 #define _SVID_SOURCE #include #include #include #include #include #include #include #include #include #include #include "sysfs.h" #include "fw_context.h" #include "fwparam.h" #include "sysdeps.h" #include "iscsi_net_util.h" #include "iscsi_err.h" #define ISCSI_BOOT_MAX 255 #define IBFT_SYSFS_ROOT "/sys/firmware/ibft/" #define IBFT_SUBSYS "ibft" #define ISCSI_LLD_ROOT "/sys/firmware/" #define ISCSI_LLD_SUBSYS_PREFIX "iscsi_boot" static char *target_list[ISCSI_BOOT_MAX]; static char *nic_list[ISCSI_BOOT_MAX]; static int nic_cnt; static int tgt_cnt; static int file_exist(const char *file) { struct stat bootpath_stat; return !stat(file, &bootpath_stat); } /* * Finds the etherrnetX and targetX under the sysfs directory. */ static int find_sysfs_dirs(const char *fpath, const struct stat *sb, int tflag, struct FTW *ftw) { if (tflag == FTW_D && (strstr(fpath + ftw->base, "target"))) { if (tgt_cnt == ISCSI_BOOT_MAX) { printf("Too many targets found in iSCSI boot data." "Max number of targets %d\n", ISCSI_BOOT_MAX); return 0; } target_list[tgt_cnt++] = strdup(strstr(fpath, "target")); } if (tflag == FTW_D && (strstr(fpath + ftw->base, "ethernet"))) { if (nic_cnt == ISCSI_BOOT_MAX) { printf("Too many nics found in iSCSI boot data." "Max number of nics %d\n", ISCSI_BOOT_MAX); return 0; } nic_list[nic_cnt++] = strdup(strstr(fpath, "ethernet")); } return 0; } static int get_iface_from_device(char *id, struct boot_context *context) { char dev_dir[FILENAMESZ]; int rc = ENODEV; DIR *dirfd; struct dirent *dent; memset(dev_dir, 0, FILENAMESZ); snprintf(dev_dir, FILENAMESZ, IBFT_SYSFS_ROOT"/%s/device", id); if (!file_exist(dev_dir)) return 0; dirfd = opendir(dev_dir); if (!dirfd) return errno; while ((dent = readdir(dirfd))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..") || strncmp(dent->d_name, "net:", 4)) continue; if (!strncmp(dent->d_name, "net:", 4)) { if ((strlen(dent->d_name) - 4) > (sizeof(context->iface) - 1)) { rc = EINVAL; printf("Net device %s too big for iface " "buffer.\n", dent->d_name); break; } if (sscanf(dent->d_name, "net:%s", context->iface) != 1) rc = EINVAL; rc = 0; break; } else { printf("Could not read ethernet to net link.\n"); rc = EOPNOTSUPP; break; } } closedir(dirfd); if (rc != ENODEV) return rc; /* If not found try again with newer kernel networkdev sysfs layout */ strlcat(dev_dir, "/net", FILENAMESZ); if (!file_exist(dev_dir)) return rc; dirfd = opendir(dev_dir); if (!dirfd) return errno; while ((dent = readdir(dirfd))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; /* Take the first "regular" directory entry */ if (strlen(dent->d_name) > (sizeof(context->iface) - 1)) { rc = EINVAL; printf("Net device %s too big for iface buffer.\n", dent->d_name); break; } strcpy(context->iface, dent->d_name); rc = 0; break; } closedir(dirfd); return rc; } /* * Routines to fill in the context values. */ static int fill_nic_context(char *subsys, char *id, struct boot_context *context) { int rc; rc = sysfs_get_int(id, subsys, "flags", &context->nic_flags); /* * Per spec we would need to check against Bit 0 * (Block Valid Flag), but some firmware only * sets Bit 1 (Firmware Booting Selected). * So any setting is deemed okay. */ if (!rc && (context->nic_flags == 0)) rc = ENODEV; if (rc) return rc; rc = sysfs_get_str(id, subsys, "mac", context->mac, sizeof(context->mac)); if (rc) return rc; /* * Some offload cards like bnx2i use different MACs for the net and * iscsi functions, so we have to follow the sysfs links. * * Other ibft implementations may not be tied to a pci function, * so there will not be any device/net link, so we drop down to * the MAC matching. * * And finally, some cards like be2iscsi and qla4xxx do not have * any linux network subsys representation. These hosts will * not have the ibft subsys. Instead the subsys is the scsi host * number. */ if (!strcmp(IBFT_SUBSYS, subsys)) { rc = get_iface_from_device(id, context); if (rc) { rc = net_get_netdev_from_hwaddress(context->mac, context->iface); if (rc) return rc; } } else strlcpy(context->scsi_host_name, subsys, sizeof(context->scsi_host_name)); memset(&context->boot_nic, 0, sizeof(context->boot_nic)); snprintf(context->boot_nic, sizeof(context->boot_nic), "%s", id); sysfs_get_str(id, subsys, "ip-addr", context->ipaddr, sizeof(context->ipaddr)); sysfs_get_str(id, subsys, "vlan", context->vlan, sizeof(context->vlan)); sysfs_get_str(id, subsys, "subnet-mask", context->mask, sizeof(context->mask)); sysfs_get_str(id, subsys, "gateway", context->gateway, sizeof(context->gateway)); sysfs_get_str(id, subsys, "primary-dns", context->primary_dns, sizeof(context->primary_dns)); sysfs_get_str(id, subsys, "secondary-dns", context->secondary_dns, sizeof(context->secondary_dns)); sysfs_get_str(id, subsys, "dhcp", context->dhcp, sizeof(context->dhcp)); sysfs_get_int(id, subsys, "origin", (int *)&context->origin); return 0; } static void fill_initiator_context(char *subsys, struct boot_context *context) { sysfs_get_str("initiator", subsys, "initiator-name", context->initiatorname, sizeof(context->initiatorname)); sysfs_get_str("initiator", subsys, "isid", context->isid, sizeof(context->isid)); strlcpy(context->boot_root, subsys, sizeof(context->boot_root)); } static int fill_tgt_context(char *subsys, char *id, struct boot_context *context) { int rc; rc = sysfs_get_int(id, subsys, "flags", &context->target_flags); /* * Per spec we would need to check against Bit 0 * (Block Valid Flag), but some firmware only * sets Bit 1 (Firmware Booting Selected). * So any setting is deemed okay. */ if (!rc && (context->target_flags == 0)) rc = ENODEV; if (rc) return rc; rc = sysfs_get_str(id, subsys, "target-name", context->targetname, sizeof(context->targetname)); if (rc) return rc; rc = sysfs_get_str(id, subsys, "ip-addr", context->target_ipaddr, sizeof(context->target_ipaddr)); if (rc) return rc; memset(&context->boot_target, 0, sizeof(context->boot_target)); snprintf(context->boot_target, sizeof(context->boot_target), "%s", id); /* * We can live without the rest of they do not exist. If we * failed to get them we will figure it out when we login. */ if (sysfs_get_int(id, subsys, "port", &context->target_port)) context->target_port = ISCSI_LISTEN_PORT; sysfs_get_str(id, subsys, "lun", context->lun, sizeof(context->lun)); sysfs_get_str(id, subsys, "chap-name", context->chap_name, sizeof(context->chap_name)); sysfs_get_str(id, subsys, "chap-secret", context->chap_password, sizeof(context->chap_password)); sysfs_get_str(id, subsys, "rev-chap-name", context->chap_name_in, sizeof(context->chap_name_in)); sysfs_get_str(id, subsys, "rev-chap-name-secret", context->chap_password_in, sizeof(context->chap_password_in)); return 0; } #define IBFT_SYSFS_FLAG_FW_SEL_BOOT 2 static int find_boot_flag(char *subsys, char *list[], ssize_t size, int *boot_idx) { int rc = ENODEV; int i, flag = 0; for (i = 0; i < size; i++, flag = -1) { rc = sysfs_get_int(list[i], subsys, "flags", &flag); if (rc) continue; if (flag & IBFT_SYSFS_FLAG_FW_SEL_BOOT) { *boot_idx = i; rc = 0; break; } rc = ENODEV; flag = 0; } return rc; } static void deallocate_lists(void) { int i; for (i = 0; i < nic_cnt; i++) free(nic_list[i]); nic_cnt = 0; for (i = 0; i < tgt_cnt; i++) free(target_list[i]); tgt_cnt = 0; } static int get_boot_info(struct boot_context *context, char *rootdir, char *subsys) { char initiator_dir[FILENAMESZ]; int rc = ENODEV; int nic_idx = -1, tgt_idx = -1; memset(&initiator_dir, 0 , FILENAMESZ); snprintf(initiator_dir, FILENAMESZ, "%sinitiator", rootdir); nic_cnt = 0; tgt_cnt = 0; if (file_exist(initiator_dir)) { /* Find the targets and the ethernets */ rc = nftw(rootdir, find_sysfs_dirs, 20, 1); /* Find wihch target and which ethernet have the boot flag set. */ rc = find_boot_flag(subsys, nic_list, nic_cnt, &nic_idx); if (rc) goto free; rc = find_boot_flag(subsys, target_list, tgt_cnt, &tgt_idx); if (rc) goto free; /* Fill in the context values */ rc = fill_nic_context(subsys, nic_list[nic_idx], context); rc |= fill_tgt_context(subsys, target_list[tgt_idx], context); fill_initiator_context(subsys, context); } free: deallocate_lists(); return rc; } int fwparam_sysfs_boot_info(struct boot_context *context) { struct dirent *dent; DIR *dirfd; int rc = 0; if (!get_boot_info(context, IBFT_SYSFS_ROOT, IBFT_SUBSYS)) return 0; /* * We could have multiple iscsi llds and each lld could have * multiple targets/ethernet ports */ dirfd = opendir(ISCSI_LLD_ROOT); if (!dirfd) return ISCSI_ERR_SYSFS_LOOKUP; while ((dent = readdir(dirfd))) { char lld_root[FILENAMESZ]; memset(&lld_root, 0 , FILENAMESZ); if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; if (strncmp(dent->d_name, ISCSI_LLD_SUBSYS_PREFIX, 10)) continue; snprintf(lld_root, FILENAMESZ, ISCSI_LLD_ROOT"%s/", dent->d_name); if (!get_boot_info(context, lld_root, dent->d_name)) goto done; } rc = ISCSI_ERR_NO_OBJS_FOUND; done: closedir(dirfd); return rc; } static int get_targets(struct list_head *list, char *rootdir, char *subsys) { struct boot_context *context; int rc = 0, i, nic_idx, nic; char initiator_dir[FILENAMESZ]; memset(&initiator_dir, 0 , FILENAMESZ); snprintf(initiator_dir, FILENAMESZ, "%sinitiator", rootdir); if (!file_exist(initiator_dir)) return ENODEV; nic_cnt = 0; tgt_cnt = 0; /* Find the targets and the ethernets */ nftw(rootdir, find_sysfs_dirs, 20, 1); for (i = 0; i < tgt_cnt; i++) { context = calloc(1, sizeof(*context)); if (!context) { rc = ENOMEM; break; } rc = fill_tgt_context(subsys, target_list[i], context); if (rc) goto cleanup; rc = sysfs_get_int(target_list[i], subsys, "nic-assoc", &nic_idx); if (rc) goto cleanup; for (nic = 0; nic < nic_cnt; nic++) { int id; rc = sysfs_get_int(nic_list[nic], subsys, "index", &id); if (!rc && (id == nic_idx)) break; } if (nic == nic_cnt) { printf("Invalid nic-assoc of %d. Max id %d.\n", nic_idx, nic_cnt); goto cleanup; } rc = fill_nic_context(subsys, nic_list[nic], context); if (rc) goto cleanup; fill_initiator_context(subsys, context); list_add_tail(&context->list, list); continue; cleanup: free(context); context = NULL; } if (rc) { if (context) free(context); /* * If there are some valid targets return them. Most likely, * the driver/ibft-implementation reported partial info * for targets/initiators that were not used for boot. */ if (!list_empty(list)) rc = 0; } deallocate_lists(); return rc; } int fwparam_sysfs_get_targets(struct list_head *list) { struct dirent *dent; DIR *dirfd; int rc = 0; /* ibft only has one instance */ get_targets(list, IBFT_SYSFS_ROOT, IBFT_SUBSYS); /* * We could have multiple iscsi llds and each lld could have * multiple targets/ethernet ports */ dirfd = opendir(ISCSI_LLD_ROOT); if (!dirfd) { rc = ISCSI_ERR_SYSFS_LOOKUP; goto done; } while ((dent = readdir(dirfd))) { char lld_root[FILENAMESZ]; memset(&lld_root, 0 , FILENAMESZ); if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; if (strncmp(dent->d_name, ISCSI_LLD_SUBSYS_PREFIX, 10)) continue; snprintf(lld_root, FILENAMESZ, ISCSI_LLD_ROOT"%s/", dent->d_name); get_targets(list, lld_root, dent->d_name); } closedir(dirfd); done: if (!rc && list_empty(list)) rc = ISCSI_ERR_NO_OBJS_FOUND; if (rc) fw_free_targets(list); return rc; } open-iscsi-2.0.874/utils/fwparam_ibft/iscsi_obp.h000066400000000000000000000061171277325716400217140ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef ISCSI_OBP_H_ #define ISCSI_OBP_H_ enum ofw_dev_type { OFW_DT_NONE, OFW_DT_BLOCK, OFW_DT_NETWORK, OFW_DT_ISCSI, }; enum obp_tftp_qual { OBP_QUAL_NONE, OBP_QUAL_BOOTP, OBP_QUAL_DHCPV6, OBP_QUAL_IPV6, OBP_QUAL_ISCSI, OBP_QUAL_PING, OBP_QUAL_COUNT, /* Numnber of defined OBP qualifiers */ }; enum obp_param { /* * Defined iscsi boot parameters. */ OBP_PARAM_NONE, OBP_PARAM_BLKSIZE, /* default is 512 */ OBP_PARAM_BOOTP_RETRIES, /* default 5 */ OBP_PARAM_CHAPID, /* target chap id */ OBP_PARAM_CHAPPW, /* target chap password */ OBP_PARAM_CIADDR, /* client (my) ip addr */ OBP_PARAM_DHCP, /* dhcp server address */ OBP_PARAM_FILENAME, /* boot filename */ OBP_PARAM_GIADDR, /* gateway addr */ OBP_PARAM_ICHAPID, /* initiator chapid */ OBP_PARAM_ICHAPPW, /* initiator chap password */ OBP_PARAM_ILUN, /* misnomer, really the target lun */ OBP_PARAM_INAME, /* NB: target iqn */ OBP_PARAM_IPORT, /* initiator port, defaults to 3260 */ OBP_PARAM_ISID, /* session id */ OBP_PARAM_ISNS, /* sns server address */ OBP_PARAM_ITNAME, /* NB: Initiator iqn */ OBP_PARAM_SIADDR, /* iscsi server ip address. */ OBP_PARAM_SLP, /* slp server address */ OBP_PARAM_SUBNET_MASK, OBP_PARAM_TFTP_RETRIES, /* default 5 */ OBP_PARAM_TIMEOUT, /* ping timeout period. */ OBP_PARAM_COUNT, /* number of defined OBP_PARAMs */ }; struct ofw_obp_param { unsigned char len; /* length of value string. */ char val[1]; /* string value from the property */ }; struct ofw_dev { char *prop_path; /* where we found these properties. */ enum ofw_dev_type type; /* known type of boot device. */ int qual_count; /* count of qualifiers. */ enum obp_tftp_qual quals[OBP_QUAL_COUNT]; struct ofw_obp_param *param[OBP_PARAM_COUNT]; int cfg_part; /* boot partition number. */ char *dev_path; /* path to this ofw device. */ unsigned char mac[6]; /* The binary mac address. */ }; const char *obp_qual_set(struct ofw_dev *ofwdev, const char *qual); void add_obp_parm(struct ofw_dev *ofwdev, enum obp_param parm, const char *str); void obp_parm_addr(struct ofw_dev *ofwdev, const char *parm, const char *addr); void obp_parm_iqn(struct ofw_dev *ofwdev, const char *parm, const char *iqn); void obp_parm_hexnum(struct ofw_dev *ofwdev, const char *parm, const char *numstr); void obp_parm_str(struct ofw_dev *ofwdev, const char *parm, const char *str); #endif /* ISCSI_OBP_H_ */ open-iscsi-2.0.874/utils/fwparam_ibft/prom_lex.c000066400000000000000000002174061277325716400215670ustar00rootroot00000000000000 #line 3 "" #define YY_INT_ALIGNED short int /* A lexical scanner generated by flex */ #define FLEX_SCANNER #define YY_FLEX_MAJOR_VERSION 2 #define YY_FLEX_MINOR_VERSION 5 #define YY_FLEX_SUBMINOR_VERSION 35 #if YY_FLEX_SUBMINOR_VERSION > 0 #define FLEX_BETA #endif /* First, we deal with platform-specific or compiler-specific issues. */ /* begin standard C headers. */ #include #include #include #include /* end standard C headers. */ /* flex integer type definitions */ #ifndef FLEXINT_H #define FLEXINT_H /* C99 systems have . Non-C99 systems may or may not. */ #if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L /* C99 says to define __STDC_LIMIT_MACROS before including stdint.h, * if you want the limit (max/min) macros for int types. */ #ifndef __STDC_LIMIT_MACROS #define __STDC_LIMIT_MACROS 1 #endif #include typedef int8_t flex_int8_t; typedef uint8_t flex_uint8_t; typedef int16_t flex_int16_t; typedef uint16_t flex_uint16_t; typedef int32_t flex_int32_t; typedef uint32_t flex_uint32_t; #else typedef signed char flex_int8_t; typedef short int flex_int16_t; typedef int flex_int32_t; typedef unsigned char flex_uint8_t; typedef unsigned short int flex_uint16_t; typedef unsigned int flex_uint32_t; /* Limits of integral types. */ #ifndef INT8_MIN #define INT8_MIN (-128) #endif #ifndef INT16_MIN #define INT16_MIN (-32767-1) #endif #ifndef INT32_MIN #define INT32_MIN (-2147483647-1) #endif #ifndef INT8_MAX #define INT8_MAX (127) #endif #ifndef INT16_MAX #define INT16_MAX (32767) #endif #ifndef INT32_MAX #define INT32_MAX (2147483647) #endif #ifndef UINT8_MAX #define UINT8_MAX (255U) #endif #ifndef UINT16_MAX #define UINT16_MAX (65535U) #endif #ifndef UINT32_MAX #define UINT32_MAX (4294967295U) #endif #endif /* ! C99 */ #endif /* ! FLEXINT_H */ #ifdef __cplusplus /* The "const" storage-class-modifier is valid. */ #define YY_USE_CONST #else /* ! __cplusplus */ /* C99 requires __STDC__ to be defined as 1. */ #if defined (__STDC__) #define YY_USE_CONST #endif /* defined (__STDC__) */ #endif /* ! __cplusplus */ #ifdef YY_USE_CONST #define yyconst const #else #define yyconst #endif /* Returned upon end-of-file. */ #define YY_NULL 0 /* Promotes a possibly negative, possibly signed char to an unsigned * integer for use as an array index. If the signed char is negative, * we want to instead treat it as an 8-bit unsigned char, hence the * double cast. */ #define YY_SC_TO_UI(c) ((unsigned int) (unsigned char) c) /* Enter a start condition. This macro really ought to take a parameter, * but we do it the disgusting crufty way forced on us by the ()-less * definition of BEGIN. */ #define BEGIN (yy_start) = 1 + 2 * /* Translate the current start state into a value that can be later handed * to BEGIN to return to the state. The YYSTATE alias is for lex * compatibility. */ #define YY_START (((yy_start) - 1) / 2) #define YYSTATE YY_START /* Action number for EOF rule of a given start state. */ #define YY_STATE_EOF(state) (YY_END_OF_BUFFER + state + 1) /* Special action meaning "start processing a new file". */ #define YY_NEW_FILE yyrestart(yyin ) #define YY_END_OF_BUFFER_CHAR 0 /* Size of default input buffer. */ #ifndef YY_BUF_SIZE #ifdef __ia64__ /* On IA-64, the buffer size is 16k, not 8k. * Moreover, YY_BUF_SIZE is 2*YY_READ_BUF_SIZE in the general case. * Ditto for the __ia64__ case accordingly. */ #define YY_BUF_SIZE 32768 #else #define YY_BUF_SIZE 16384 #endif /* __ia64__ */ #endif /* The state buf must be large enough to hold one state per character in the main buffer. */ #define YY_STATE_BUF_SIZE ((YY_BUF_SIZE + 2) * sizeof(yy_state_type)) #ifndef YY_TYPEDEF_YY_BUFFER_STATE #define YY_TYPEDEF_YY_BUFFER_STATE typedef struct yy_buffer_state *YY_BUFFER_STATE; #endif extern int yyleng; extern FILE *yyin, *yyout; #define EOB_ACT_CONTINUE_SCAN 0 #define EOB_ACT_END_OF_FILE 1 #define EOB_ACT_LAST_MATCH 2 #define YY_LESS_LINENO(n) /* Return all but the first "n" matched characters back to the input stream. */ #define yyless(n) \ do \ { \ /* Undo effects of setting up yytext. */ \ int yyless_macro_arg = (n); \ YY_LESS_LINENO(yyless_macro_arg);\ *yy_cp = (yy_hold_char); \ YY_RESTORE_YY_MORE_OFFSET \ (yy_c_buf_p) = yy_cp = yy_bp + yyless_macro_arg - YY_MORE_ADJ; \ YY_DO_BEFORE_ACTION; /* set up yytext again */ \ } \ while ( 0 ) #define unput(c) yyunput( c, (yytext_ptr) ) #ifndef YY_TYPEDEF_YY_SIZE_T #define YY_TYPEDEF_YY_SIZE_T typedef size_t yy_size_t; #endif #ifndef YY_STRUCT_YY_BUFFER_STATE #define YY_STRUCT_YY_BUFFER_STATE struct yy_buffer_state { FILE *yy_input_file; char *yy_ch_buf; /* input buffer */ char *yy_buf_pos; /* current position in input buffer */ /* Size of input buffer in bytes, not including room for EOB * characters. */ yy_size_t yy_buf_size; /* Number of characters read into yy_ch_buf, not including EOB * characters. */ int yy_n_chars; /* Whether we "own" the buffer - i.e., we know we created it, * and can realloc() it to grow it, and should free() it to * delete it. */ int yy_is_our_buffer; /* Whether this is an "interactive" input source; if so, and * if we're using stdio for input, then we want to use getc() * instead of fread(), to make sure we stop fetching input after * each newline. */ int yy_is_interactive; /* Whether we're considered to be at the beginning of a line. * If so, '^' rules will be active on the next match, otherwise * not. */ int yy_at_bol; int yy_bs_lineno; /**< The line count. */ int yy_bs_column; /**< The column count. */ /* Whether to try to fill the input buffer when we reach the * end of it. */ int yy_fill_buffer; int yy_buffer_status; #define YY_BUFFER_NEW 0 #define YY_BUFFER_NORMAL 1 /* When an EOF's been seen but there's still some text to process * then we mark the buffer as YY_EOF_PENDING, to indicate that we * shouldn't try reading from the input source any more. We might * still have a bunch of tokens to match, though, because of * possible backing-up. * * When we actually see the EOF, we change the status to "new" * (via yyrestart()), so that the user can continue scanning by * just pointing yyin at a new input file. */ #define YY_BUFFER_EOF_PENDING 2 }; #endif /* !YY_STRUCT_YY_BUFFER_STATE */ /* Stack of input buffers. */ static size_t yy_buffer_stack_top = 0; /**< index of top of stack. */ static size_t yy_buffer_stack_max = 0; /**< capacity of stack. */ static YY_BUFFER_STATE * yy_buffer_stack = 0; /**< Stack as an array. */ /* We provide macros for accessing buffer states in case in the * future we want to put the buffer states in a more general * "scanner state". * * Returns the top of the stack, or NULL. */ #define YY_CURRENT_BUFFER ( (yy_buffer_stack) \ ? (yy_buffer_stack)[(yy_buffer_stack_top)] \ : NULL) /* Same as previous macro, but useful when we know that the buffer stack is not * NULL or when we need an lvalue. For internal use only. */ #define YY_CURRENT_BUFFER_LVALUE (yy_buffer_stack)[(yy_buffer_stack_top)] /* yy_hold_char holds the character lost when yytext is formed. */ static char yy_hold_char; static int yy_n_chars; /* number of characters read into yy_ch_buf */ int yyleng; /* Points to current character in buffer. */ static char *yy_c_buf_p = (char *) 0; static int yy_init = 0; /* whether we need to initialize */ static int yy_start = 0; /* start state number */ /* Flag which is used to allow yywrap()'s to do buffer switches * instead of setting up a fresh yyin. A bit of a hack ... */ static int yy_did_buffer_switch_on_eof; void yyrestart (FILE *input_file ); void yy_switch_to_buffer (YY_BUFFER_STATE new_buffer ); YY_BUFFER_STATE yy_create_buffer (FILE *file,int size ); void yy_delete_buffer (YY_BUFFER_STATE b ); void yy_flush_buffer (YY_BUFFER_STATE b ); void yypush_buffer_state (YY_BUFFER_STATE new_buffer ); void yypop_buffer_state (void ); static void yyensure_buffer_stack (void ); static void yy_load_buffer_state (void ); static void yy_init_buffer (YY_BUFFER_STATE b,FILE *file ); #define YY_FLUSH_BUFFER yy_flush_buffer(YY_CURRENT_BUFFER ) YY_BUFFER_STATE yy_scan_buffer (char *base,yy_size_t size ); YY_BUFFER_STATE yy_scan_string (yyconst char *yy_str ); YY_BUFFER_STATE yy_scan_bytes (yyconst char *bytes,int len ); void *yyalloc (yy_size_t ); void *yyrealloc (void *,yy_size_t ); void yyfree (void * ); #define yy_new_buffer yy_create_buffer #define yy_set_interactive(is_interactive) \ { \ if ( ! YY_CURRENT_BUFFER ){ \ yyensure_buffer_stack (); \ YY_CURRENT_BUFFER_LVALUE = \ yy_create_buffer(yyin,YY_BUF_SIZE ); \ } \ YY_CURRENT_BUFFER_LVALUE->yy_is_interactive = is_interactive; \ } #define yy_set_bol(at_bol) \ { \ if ( ! YY_CURRENT_BUFFER ){\ yyensure_buffer_stack (); \ YY_CURRENT_BUFFER_LVALUE = \ yy_create_buffer(yyin,YY_BUF_SIZE ); \ } \ YY_CURRENT_BUFFER_LVALUE->yy_at_bol = at_bol; \ } #define YY_AT_BOL() (YY_CURRENT_BUFFER_LVALUE->yy_at_bol) /* Begin user sect3 */ #define yywrap(n) 1 #define YY_SKIP_YYWRAP typedef unsigned char YY_CHAR; FILE *yyin = (FILE *) 0, *yyout = (FILE *) 0; typedef int yy_state_type; extern int yylineno; int yylineno = 1; extern char yytext[]; static yy_state_type yy_get_previous_state (void ); static yy_state_type yy_try_NUL_trans (yy_state_type current_state ); static int yy_get_next_buffer (void ); static void yy_fatal_error (yyconst char msg[] ); /* Done after the current pattern has been matched and before the * corresponding action - sets up yytext. */ #define YY_DO_BEFORE_ACTION \ (yytext_ptr) = yy_bp; \ yyleng = (size_t) (yy_cp - yy_bp); \ (yy_hold_char) = *yy_cp; \ *yy_cp = '\0'; \ if ( yyleng >= YYLMAX ) \ YY_FATAL_ERROR( "token too large, exceeds YYLMAX" ); \ yy_flex_strncpy( yytext, (yytext_ptr), yyleng + 1 ); \ (yy_c_buf_p) = yy_cp; #define YY_NUM_RULES 17 #define YY_END_OF_BUFFER 18 /* This struct is not used in this scanner, but its presence is necessary. */ struct yy_trans_info { flex_int32_t yy_verify; flex_int32_t yy_nxt; }; static yyconst flex_int16_t yy_accept[444] = { 0, 0, 0, 18, 16, 15, 15, 12, 12, 16, 12, 12, 12, 12, 12, 12, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 15, 0, 12, 12, 14, 0, 0, 0, 12, 0, 0, 12, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 10, 0, 0, 0, 0, 0, 0, 0, 12, 12, 14, 7, 0, 0, 0, 0, 0, 4, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 11, 0, 0, 0, 0, 0, 12, 0, 0, 0, 0, 0, 11, 0, 0, 0, 0, 0, 0, 0, 6, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 13, 0, 0, 6, 0, 0, 0, 0, 0, 0, 0, 3, 0, 9, 6, 0, 0, 5, 0, 0, 0, 0, 0, 0, 13, 0, 0, 0, 0, 0, 0, 0, 0, 9, 0, 0, 0, 0, 0, 8, 0, 13, 0, 0, 0, 0, 0, 9, 0, 0, 0, 0, 0, 0, 2, 8, 13, 1, 0, 9, 0, 0, 0, 0, 0, 0, 8, 13, 0, 9, 0, 0, 10, 0, 0, 0, 13, 0, 9, 0, 0, 0, 0, 0, 13, 0, 9, 0, 0, 0, 13, 0, 9, 0, 0, 13, 9, 0, 0, 13, 9, 13, 9, 13, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 0 } ; static yyconst flex_int32_t yy_ec[256] = { 0, 1, 1, 1, 1, 1, 1, 1, 1, 2, 3, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 4, 5, 1, 6, 6, 7, 6, 6, 6, 8, 6, 6, 6, 9, 1, 1, 1, 1, 1, 1, 10, 10, 10, 10, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 1, 12, 1, 1, 1, 1, 13, 14, 15, 16, 17, 18, 19, 20, 21, 11, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 11, 11, 35, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1 } ; static yyconst flex_int32_t yy_meta[36] = { 0, 1, 1, 1, 2, 3, 4, 4, 4, 5, 4, 2, 6, 4, 4, 4, 4, 4, 4, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2 } ; static yyconst flex_int16_t yy_base[680] = { 0, 0, 0, 1198, 1199, 34, 36, 35, 1192, 0, 39, 40, 41, 47, 42, 44, 29, 67, 1176, 1182, 1179, 1180, 86, 1174, 1161, 1174, 51, 69, 73, 1184, 0, 1175, 1165, 1160, 43, 1172, 1171, 51, 1168, 1152, 1161, 1157, 1166, 1163, 1162, 1156, 1158, 1142, 1160, 25, 1147, 85, 1146, 1153, 1139, 1147, 1133, 1135, 1135, 1199, 1151, 1136, 1148, 1130, 1146, 1142, 80, 1153, 1152, 0, 1199, 1126, 1124, 1128, 1126, 1136, 1199, 1124, 1128, 1132, 1131, 1131, 1116, 1132, 1119, 1119, 1113, 1133, 1135, 1109, 1122, 1107, 1123, 1122, 1130, 1112, 1119, 1110, 1114, 1199, 1104, 1101, 1094, 97, 106, 0, 1105, 42, 1101, 94, 1108, 1090, 1093, 1096, 1104, 1098, 1091, 1100, 1085, 1199, 0, 1094, 1090, 1099, 1086, 1095, 1093, 1105, 1087, 117, 1102, 0, 1071, 1076, 104, 1088, 1069, 1073, 1093, 1075, 1086, 1069, 1199, 99, 0, 1093, 1079, 1069, 1199, 1065, 1062, 1063, 1076, 121, 125, 0, 1073, 1070, 1059, 1056, 1069, 1061, 1068, 1049, 0, 120, 1056, 1077, 1063, 1062, 131, 1073, 0, 1047, 1059, 1055, 1043, 1056, 0, 1046, 1050, 1044, 1038, 1044, 1036, 1199, 134, 0, 1199, 1035, 0, 1039, 1034, 1046, 1046, 1048, 1031, 1199, 0, 1030, 0, 1027, 1035, 1199, 1039, 1025, 1033, 0, 1032, 0, 1039, 137, 1018, 1028, 1032, 0, 1031, 0, 1018, 1025, 1015, 0, 1014, 0, 145, 142, 0, 0, 120, 132, 0, 0, 0, 0, 1199, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1199, 1199, 149, 152, 156, 159, 163, 144, 166, 143, 170, 142, 174, 131, 178, 115, 182, 112, 186, 92, 190, 89, 194, 87, 198, 85, 202, 67, 206, 56, 210, 214, 218, 222, 226, 230, 234, 238, 242, 246, 250, 254, 258, 262, 266, 270, 274, 278, 282, 286, 290, 294, 298, 302, 306, 310, 314, 318, 322, 326, 330, 334, 338, 342, 346, 350, 354, 358, 362, 366, 370, 374, 378, 382, 386, 390, 394, 398, 402, 406, 410, 414, 418, 422, 426, 430, 434, 438, 442, 446, 450, 454, 458, 462, 466, 470, 474, 478, 482, 486, 490, 494, 498, 502, 506, 510, 514, 518, 522, 526, 530, 534, 538, 542, 546, 550, 554, 558, 562, 566, 570, 574, 578, 582, 586, 590, 594, 598, 602, 606, 610, 614, 618, 622, 626, 630, 634, 638, 642, 646, 650, 654, 658, 662, 666, 670, 674, 678, 682, 686, 690, 694, 698, 702, 706, 710, 714, 718, 722, 726, 730, 734, 738, 742, 746, 750, 754, 758, 762, 766, 770, 774, 778, 782, 786, 790, 794, 798, 802, 806, 810, 814, 818, 822, 826, 830, 834, 838, 842, 846, 850, 854, 858, 862, 866, 870, 874, 878, 882, 886, 890, 894, 898, 902, 906, 910, 914, 918, 922, 926, 930, 934, 938, 942, 946, 950, 954, 958, 962, 966, 970, 974, 978, 982, 986, 990, 994, 998, 1002, 1006, 1010, 1014, 1018, 1022, 1026, 1030, 1034, 1038 } ; static yyconst flex_int16_t yy_def[680] = { 0, 443, 1, 443, 443, 443, 443, 444, 444, 445, 444, 444, 444, 444, 444, 444, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 446, 446, 447, 443, 443, 443, 446, 443, 443, 446, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 448, 448, 447, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 449, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 450, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 451, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 452, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 453, 443, 443, 443, 443, 443, 443, 443, 443, 454, 443, 443, 443, 443, 443, 443, 443, 455, 443, 443, 443, 443, 443, 456, 443, 443, 443, 443, 443, 443, 443, 443, 457, 443, 443, 458, 443, 443, 443, 443, 443, 443, 443, 459, 443, 460, 443, 443, 443, 443, 443, 443, 461, 443, 462, 443, 443, 443, 443, 443, 463, 443, 464, 443, 443, 443, 465, 443, 466, 443, 443, 467, 468, 443, 443, 469, 470, 471, 472, 443, 473, 474, 475, 476, 477, 478, 479, 480, 481, 482, 483, 484, 485, 486, 487, 488, 489, 490, 491, 492, 493, 494, 495, 496, 497, 498, 499, 500, 501, 502, 503, 504, 505, 506, 507, 508, 509, 510, 511, 512, 513, 514, 515, 516, 517, 518, 519, 520, 521, 522, 523, 524, 525, 526, 527, 528, 529, 530, 531, 532, 533, 534, 535, 536, 537, 538, 539, 540, 541, 542, 543, 544, 545, 546, 547, 548, 549, 550, 551, 552, 553, 554, 555, 556, 557, 558, 559, 560, 561, 562, 563, 564, 565, 566, 567, 568, 569, 570, 571, 572, 573, 574, 575, 576, 577, 578, 579, 580, 581, 582, 583, 584, 585, 586, 587, 588, 589, 590, 591, 592, 593, 594, 595, 596, 597, 598, 599, 600, 601, 602, 603, 604, 605, 606, 607, 608, 609, 610, 611, 612, 613, 614, 615, 616, 617, 618, 619, 620, 621, 622, 623, 624, 625, 626, 627, 628, 629, 630, 631, 632, 633, 634, 635, 636, 637, 638, 639, 640, 641, 642, 643, 644, 645, 646, 647, 648, 649, 650, 651, 652, 653, 654, 655, 656, 657, 658, 659, 660, 661, 662, 663, 664, 665, 666, 667, 668, 669, 670, 671, 672, 673, 674, 675, 676, 677, 678, 679, 443, 0, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443 } ; static yyconst flex_int16_t yy_nxt[1235] = { 0, 4, 5, 6, 4, 4, 7, 7, 7, 4, 8, 4, 9, 10, 11, 12, 13, 14, 15, 16, 4, 17, 4, 18, 4, 19, 4, 20, 4, 21, 22, 23, 24, 25, 4, 4, 26, 26, 26, 26, 27, 28, 28, 28, 443, 443, 443, 443, 443, 443, 42, 86, 443, 26, 26, 133, 443, 34, 87, 43, 234, 35, 36, 32, 37, 41, 33, 38, 39, 134, 31, 232, 73, 40, 44, 66, 66, 66, 27, 67, 67, 67, 45, 46, 76, 103, 104, 104, 104, 230, 47, 226, 48, 221, 49, 50, 215, 51, 52, 57, 89, 58, 59, 129, 129, 129, 90, 60, 158, 61, 91, 103, 130, 130, 130, 135, 207, 159, 62, 198, 162, 136, 153, 154, 154, 154, 163, 170, 170, 170, 153, 171, 171, 171, 179, 187, 180, 186, 186, 186, 197, 197, 197, 203, 203, 203, 172, 155, 131, 188, 188, 181, 29, 29, 30, 30, 30, 229, 30, 68, 68, 69, 69, 69, 228, 69, 105, 105, 144, 144, 144, 144, 164, 164, 164, 164, 178, 178, 178, 178, 190, 190, 190, 190, 200, 200, 200, 200, 209, 209, 209, 209, 217, 217, 217, 217, 223, 223, 223, 223, 227, 227, 227, 227, 231, 231, 231, 231, 233, 233, 233, 233, 235, 235, 235, 235, 236, 236, 236, 236, 237, 237, 237, 237, 238, 238, 238, 238, 239, 239, 239, 239, 240, 240, 240, 240, 241, 241, 241, 241, 242, 242, 242, 242, 243, 243, 243, 243, 244, 244, 244, 244, 245, 245, 245, 245, 246, 246, 246, 246, 247, 247, 247, 247, 248, 248, 248, 248, 249, 249, 249, 249, 250, 250, 250, 250, 251, 251, 251, 251, 252, 252, 252, 252, 253, 253, 253, 253, 254, 254, 254, 254, 255, 255, 255, 255, 256, 256, 256, 256, 257, 257, 257, 257, 258, 258, 258, 258, 259, 259, 259, 259, 260, 260, 260, 260, 261, 261, 261, 261, 262, 262, 262, 262, 263, 263, 263, 263, 264, 264, 264, 264, 265, 265, 265, 265, 266, 266, 266, 266, 267, 267, 267, 267, 268, 268, 268, 268, 269, 269, 269, 269, 270, 270, 270, 270, 271, 271, 271, 271, 272, 272, 272, 272, 273, 273, 273, 273, 274, 274, 274, 274, 275, 275, 275, 275, 276, 276, 276, 276, 277, 277, 277, 277, 278, 278, 278, 278, 279, 279, 279, 279, 280, 280, 280, 280, 281, 281, 281, 281, 282, 282, 282, 282, 283, 283, 283, 283, 284, 284, 284, 284, 285, 285, 285, 285, 286, 286, 286, 286, 287, 287, 287, 287, 288, 288, 288, 288, 289, 289, 289, 289, 290, 290, 290, 290, 291, 291, 291, 291, 292, 292, 292, 292, 293, 293, 293, 293, 294, 294, 294, 294, 295, 295, 295, 295, 296, 296, 296, 296, 297, 297, 297, 297, 298, 298, 298, 298, 299, 299, 299, 299, 300, 300, 300, 300, 301, 301, 301, 301, 302, 302, 302, 302, 303, 303, 303, 303, 304, 304, 304, 304, 305, 305, 305, 305, 306, 306, 306, 306, 307, 307, 307, 307, 308, 308, 308, 308, 309, 309, 309, 309, 310, 310, 310, 310, 311, 311, 311, 311, 312, 312, 312, 312, 313, 313, 313, 313, 314, 314, 314, 314, 315, 315, 315, 315, 316, 316, 316, 316, 317, 317, 317, 317, 318, 318, 318, 318, 319, 319, 319, 319, 320, 320, 320, 320, 321, 321, 321, 321, 322, 322, 322, 322, 323, 323, 323, 323, 324, 324, 324, 324, 325, 325, 325, 325, 326, 326, 326, 326, 327, 327, 327, 327, 328, 328, 328, 328, 329, 329, 329, 329, 330, 330, 330, 330, 331, 331, 331, 331, 332, 332, 332, 332, 333, 333, 333, 333, 334, 334, 334, 334, 335, 335, 335, 335, 336, 336, 336, 336, 337, 337, 337, 337, 338, 338, 338, 338, 339, 339, 339, 339, 340, 340, 340, 340, 341, 341, 341, 341, 342, 342, 342, 342, 343, 343, 343, 343, 344, 344, 344, 344, 345, 345, 345, 345, 346, 346, 346, 346, 347, 347, 347, 347, 348, 348, 348, 348, 349, 349, 349, 349, 350, 350, 350, 350, 351, 351, 351, 351, 352, 352, 352, 352, 353, 353, 353, 353, 354, 354, 354, 354, 355, 355, 355, 355, 356, 356, 356, 356, 357, 357, 357, 357, 358, 358, 358, 358, 359, 359, 359, 359, 360, 360, 360, 360, 361, 361, 361, 361, 362, 362, 362, 362, 363, 363, 363, 363, 364, 364, 364, 364, 365, 365, 365, 365, 366, 366, 366, 366, 367, 367, 367, 367, 368, 368, 368, 368, 369, 369, 369, 369, 370, 370, 370, 370, 371, 371, 371, 371, 372, 372, 372, 372, 373, 373, 373, 373, 374, 374, 374, 374, 375, 375, 375, 375, 376, 376, 376, 376, 377, 377, 377, 377, 378, 378, 378, 378, 379, 379, 379, 379, 380, 380, 380, 380, 381, 381, 381, 381, 382, 382, 382, 382, 383, 383, 383, 383, 384, 384, 384, 384, 385, 385, 385, 385, 386, 386, 386, 386, 387, 387, 387, 387, 388, 388, 388, 388, 389, 389, 389, 389, 390, 390, 390, 390, 391, 391, 391, 391, 392, 392, 392, 392, 393, 393, 393, 393, 394, 394, 394, 394, 395, 395, 395, 395, 396, 396, 396, 396, 397, 397, 397, 397, 398, 398, 398, 398, 399, 399, 399, 399, 400, 400, 400, 400, 401, 401, 401, 401, 402, 402, 402, 402, 403, 403, 403, 403, 404, 404, 404, 404, 405, 405, 405, 405, 406, 406, 406, 406, 407, 407, 407, 407, 408, 408, 408, 408, 409, 409, 409, 409, 410, 410, 410, 410, 411, 411, 411, 411, 412, 412, 412, 412, 413, 413, 413, 413, 414, 414, 414, 414, 415, 415, 415, 415, 416, 416, 416, 416, 417, 417, 417, 417, 418, 418, 418, 418, 419, 419, 419, 419, 420, 420, 420, 420, 421, 421, 421, 421, 422, 422, 422, 422, 423, 423, 423, 423, 424, 424, 424, 424, 425, 425, 425, 425, 426, 426, 426, 426, 427, 427, 427, 427, 428, 428, 428, 428, 429, 429, 429, 429, 430, 430, 430, 430, 431, 431, 431, 431, 432, 432, 432, 432, 433, 433, 433, 433, 434, 434, 434, 434, 435, 435, 435, 435, 436, 436, 436, 436, 437, 437, 437, 437, 438, 438, 438, 438, 439, 439, 439, 439, 440, 440, 440, 440, 441, 441, 441, 441, 442, 442, 442, 442, 99, 99, 225, 224, 222, 220, 99, 219, 218, 216, 214, 213, 212, 211, 210, 208, 206, 205, 204, 203, 202, 201, 199, 196, 195, 194, 193, 192, 191, 99, 59, 188, 189, 188, 153, 185, 184, 183, 182, 99, 99, 177, 176, 175, 174, 173, 99, 169, 168, 167, 99, 166, 99, 165, 99, 161, 160, 119, 99, 99, 99, 157, 156, 103, 152, 151, 150, 149, 148, 147, 146, 145, 99, 99, 143, 142, 141, 140, 139, 138, 137, 59, 132, 128, 127, 126, 125, 70, 70, 124, 123, 70, 122, 99, 99, 121, 120, 119, 118, 117, 99, 116, 115, 114, 113, 112, 59, 111, 110, 109, 108, 107, 106, 443, 27, 102, 70, 101, 100, 99, 98, 97, 96, 95, 70, 94, 93, 92, 88, 85, 84, 70, 83, 70, 82, 81, 80, 79, 78, 77, 75, 74, 72, 71, 70, 443, 65, 64, 63, 56, 55, 54, 53, 443, 443, 3, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443 } ; static yyconst flex_int16_t yy_chk[1235] = { 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 5, 5, 6, 6, 7, 7, 7, 7, 10, 11, 12, 14, 34, 15, 16, 49, 13, 26, 26, 107, 37, 12, 49, 16, 471, 12, 12, 11, 13, 15, 11, 13, 13, 107, 10, 469, 34, 14, 17, 27, 27, 27, 28, 28, 28, 28, 17, 17, 37, 66, 66, 66, 66, 467, 17, 465, 17, 463, 17, 17, 461, 17, 17, 22, 51, 22, 22, 103, 103, 103, 51, 22, 134, 22, 51, 104, 104, 104, 104, 109, 459, 134, 22, 457, 143, 109, 129, 129, 129, 129, 143, 153, 153, 153, 154, 154, 154, 154, 165, 455, 165, 170, 170, 170, 186, 186, 186, 211, 211, 211, 453, 451, 449, 229, 228, 165, 444, 444, 445, 445, 445, 225, 445, 446, 446, 447, 447, 447, 224, 447, 448, 448, 450, 450, 450, 450, 452, 452, 452, 452, 454, 454, 454, 454, 456, 456, 456, 456, 458, 458, 458, 458, 460, 460, 460, 460, 462, 462, 462, 462, 464, 464, 464, 464, 466, 466, 466, 466, 468, 468, 468, 468, 470, 470, 470, 470, 472, 472, 472, 472, 473, 473, 473, 473, 474, 474, 474, 474, 475, 475, 475, 475, 476, 476, 476, 476, 477, 477, 477, 477, 478, 478, 478, 478, 479, 479, 479, 479, 480, 480, 480, 480, 481, 481, 481, 481, 482, 482, 482, 482, 483, 483, 483, 483, 484, 484, 484, 484, 485, 485, 485, 485, 486, 486, 486, 486, 487, 487, 487, 487, 488, 488, 488, 488, 489, 489, 489, 489, 490, 490, 490, 490, 491, 491, 491, 491, 492, 492, 492, 492, 493, 493, 493, 493, 494, 494, 494, 494, 495, 495, 495, 495, 496, 496, 496, 496, 497, 497, 497, 497, 498, 498, 498, 498, 499, 499, 499, 499, 500, 500, 500, 500, 501, 501, 501, 501, 502, 502, 502, 502, 503, 503, 503, 503, 504, 504, 504, 504, 505, 505, 505, 505, 506, 506, 506, 506, 507, 507, 507, 507, 508, 508, 508, 508, 509, 509, 509, 509, 510, 510, 510, 510, 511, 511, 511, 511, 512, 512, 512, 512, 513, 513, 513, 513, 514, 514, 514, 514, 515, 515, 515, 515, 516, 516, 516, 516, 517, 517, 517, 517, 518, 518, 518, 518, 519, 519, 519, 519, 520, 520, 520, 520, 521, 521, 521, 521, 522, 522, 522, 522, 523, 523, 523, 523, 524, 524, 524, 524, 525, 525, 525, 525, 526, 526, 526, 526, 527, 527, 527, 527, 528, 528, 528, 528, 529, 529, 529, 529, 530, 530, 530, 530, 531, 531, 531, 531, 532, 532, 532, 532, 533, 533, 533, 533, 534, 534, 534, 534, 535, 535, 535, 535, 536, 536, 536, 536, 537, 537, 537, 537, 538, 538, 538, 538, 539, 539, 539, 539, 540, 540, 540, 540, 541, 541, 541, 541, 542, 542, 542, 542, 543, 543, 543, 543, 544, 544, 544, 544, 545, 545, 545, 545, 546, 546, 546, 546, 547, 547, 547, 547, 548, 548, 548, 548, 549, 549, 549, 549, 550, 550, 550, 550, 551, 551, 551, 551, 552, 552, 552, 552, 553, 553, 553, 553, 554, 554, 554, 554, 555, 555, 555, 555, 556, 556, 556, 556, 557, 557, 557, 557, 558, 558, 558, 558, 559, 559, 559, 559, 560, 560, 560, 560, 561, 561, 561, 561, 562, 562, 562, 562, 563, 563, 563, 563, 564, 564, 564, 564, 565, 565, 565, 565, 566, 566, 566, 566, 567, 567, 567, 567, 568, 568, 568, 568, 569, 569, 569, 569, 570, 570, 570, 570, 571, 571, 571, 571, 572, 572, 572, 572, 573, 573, 573, 573, 574, 574, 574, 574, 575, 575, 575, 575, 576, 576, 576, 576, 577, 577, 577, 577, 578, 578, 578, 578, 579, 579, 579, 579, 580, 580, 580, 580, 581, 581, 581, 581, 582, 582, 582, 582, 583, 583, 583, 583, 584, 584, 584, 584, 585, 585, 585, 585, 586, 586, 586, 586, 587, 587, 587, 587, 588, 588, 588, 588, 589, 589, 589, 589, 590, 590, 590, 590, 591, 591, 591, 591, 592, 592, 592, 592, 593, 593, 593, 593, 594, 594, 594, 594, 595, 595, 595, 595, 596, 596, 596, 596, 597, 597, 597, 597, 598, 598, 598, 598, 599, 599, 599, 599, 600, 600, 600, 600, 601, 601, 601, 601, 602, 602, 602, 602, 603, 603, 603, 603, 604, 604, 604, 604, 605, 605, 605, 605, 606, 606, 606, 606, 607, 607, 607, 607, 608, 608, 608, 608, 609, 609, 609, 609, 610, 610, 610, 610, 611, 611, 611, 611, 612, 612, 612, 612, 613, 613, 613, 613, 614, 614, 614, 614, 615, 615, 615, 615, 616, 616, 616, 616, 617, 617, 617, 617, 618, 618, 618, 618, 619, 619, 619, 619, 620, 620, 620, 620, 621, 621, 621, 621, 622, 622, 622, 622, 623, 623, 623, 623, 624, 624, 624, 624, 625, 625, 625, 625, 626, 626, 626, 626, 627, 627, 627, 627, 628, 628, 628, 628, 629, 629, 629, 629, 630, 630, 630, 630, 631, 631, 631, 631, 632, 632, 632, 632, 633, 633, 633, 633, 634, 634, 634, 634, 635, 635, 635, 635, 636, 636, 636, 636, 637, 637, 637, 637, 638, 638, 638, 638, 639, 639, 639, 639, 640, 640, 640, 640, 641, 641, 641, 641, 642, 642, 642, 642, 643, 643, 643, 643, 644, 644, 644, 644, 645, 645, 645, 645, 646, 646, 646, 646, 647, 647, 647, 647, 648, 648, 648, 648, 649, 649, 649, 649, 650, 650, 650, 650, 651, 651, 651, 651, 652, 652, 652, 652, 653, 653, 653, 653, 654, 654, 654, 654, 655, 655, 655, 655, 656, 656, 656, 656, 657, 657, 657, 657, 658, 658, 658, 658, 659, 659, 659, 659, 660, 660, 660, 660, 661, 661, 661, 661, 662, 662, 662, 662, 663, 663, 663, 663, 664, 664, 664, 664, 665, 665, 665, 665, 666, 666, 666, 666, 667, 667, 667, 667, 668, 668, 668, 668, 669, 669, 669, 669, 670, 670, 670, 670, 671, 671, 671, 671, 672, 672, 672, 672, 673, 673, 673, 673, 674, 674, 674, 674, 675, 675, 675, 675, 676, 676, 676, 676, 677, 677, 677, 677, 678, 678, 678, 678, 679, 679, 679, 679, 222, 220, 219, 218, 216, 214, 213, 212, 210, 208, 206, 205, 204, 202, 201, 199, 196, 195, 194, 193, 192, 191, 189, 184, 183, 182, 181, 180, 179, 177, 176, 175, 174, 173, 171, 169, 168, 167, 166, 163, 162, 161, 160, 159, 158, 157, 156, 152, 151, 150, 149, 147, 146, 145, 141, 140, 139, 138, 137, 136, 135, 133, 132, 130, 128, 127, 126, 125, 124, 123, 122, 121, 118, 117, 116, 115, 114, 113, 112, 111, 110, 108, 106, 102, 101, 100, 98, 97, 96, 95, 94, 93, 92, 91, 90, 89, 88, 87, 86, 85, 84, 83, 82, 81, 80, 79, 78, 77, 75, 74, 73, 72, 71, 68, 67, 65, 64, 63, 62, 61, 60, 58, 57, 56, 55, 54, 53, 52, 50, 48, 47, 46, 45, 44, 43, 42, 41, 40, 39, 38, 36, 35, 33, 32, 31, 29, 25, 24, 23, 21, 20, 19, 18, 8, 3, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443, 443 } ; static yy_state_type yy_last_accepting_state; static char *yy_last_accepting_cpos; extern int yy_flex_debug; int yy_flex_debug = 0; /* The intent behind this definition is that it'll catch * any uses of REJECT which flex missed. */ #define REJECT reject_used_but_not_detected #define yymore() yymore_used_but_not_detected #define YY_MORE_ADJ 0 #define YY_RESTORE_YY_MORE_OFFSET #ifndef YYLMAX #define YYLMAX 8192 #endif char yytext[YYLMAX]; char *yytext_ptr; #line 1 "prom_lex.l" /* * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /* definitions */ #line 23 "prom_lex.l" #include "prom_parse.h" #undef LEXDEBUG #ifdef LEXDEBUG #define dbg(a) dbgprint((a)) #else #define dbg(a) do {} while (0) #endif /* LEXDEBUG */ #define upval(d) \ dbg(#d); \ yylval.str[0] = 0; \ strcat(yylval.str, yytext); \ yylloc.first_column = yylloc.last_column; \ yylloc.last_column += yyleng; \ return d void dbgprint(const char *item) { fprintf(stderr, "%s: \"%s\" len=%d ", item, yytext, yyleng);} #define YY_NO_INPUT 1 /* CHOSEN uses only boot related paths. */ #line 975 "" #define INITIAL 0 #ifndef YY_NO_UNISTD_H /* Special case for "unistd.h", since it is non-ANSI. We include it way * down here because we want the user's section 1 to have been scanned first. * The user has a chance to override it with an option. */ #include #endif #ifndef YY_EXTRA_TYPE #define YY_EXTRA_TYPE void * #endif static int yy_init_globals (void ); /* Accessor methods to globals. These are made visible to non-reentrant scanners for convenience. */ int yylex_destroy (void ); int yyget_debug (void ); void yyset_debug (int debug_flag ); YY_EXTRA_TYPE yyget_extra (void ); void yyset_extra (YY_EXTRA_TYPE user_defined ); FILE *yyget_in (void ); void yyset_in (FILE * in_str ); FILE *yyget_out (void ); void yyset_out (FILE * out_str ); int yyget_leng (void ); char *yyget_text (void ); int yyget_lineno (void ); void yyset_lineno (int line_number ); /* Macros after this point can all be overridden by user definitions in * section 1. */ #ifndef YY_SKIP_YYWRAP #ifdef __cplusplus extern "C" int yywrap (void ); #else extern int yywrap (void ); #endif #endif #ifndef yytext_ptr static void yy_flex_strncpy (char *,yyconst char *,int ); #endif #ifdef YY_NEED_STRLEN static int yy_flex_strlen (yyconst char * ); #endif #ifndef YY_NO_INPUT #ifdef __cplusplus static int yyinput (void ); #else static int input (void ); #endif #endif /* Amount of stuff to slurp up with each read. */ #ifndef YY_READ_BUF_SIZE #ifdef __ia64__ /* On IA-64, the buffer size is 16k, not 8k */ #define YY_READ_BUF_SIZE 16384 #else #define YY_READ_BUF_SIZE 8192 #endif /* __ia64__ */ #endif /* Copy whatever the last rule matched to the standard output. */ #ifndef ECHO /* This used to be an fputs(), but since the string might contain NUL's, * we now use fwrite(). */ #define ECHO do { if (fwrite( yytext, yyleng, 1, yyout )) {} } while (0) #endif /* Gets input and stuffs it into "buf". number of characters read, or YY_NULL, * is returned in "result". */ #ifndef YY_INPUT #define YY_INPUT(buf,result,max_size) \ if ( YY_CURRENT_BUFFER_LVALUE->yy_is_interactive ) \ { \ int c = '*'; \ size_t n; \ for ( n = 0; n < max_size && \ (c = getc( yyin )) != EOF && c != '\n'; ++n ) \ buf[n] = (char) c; \ if ( c == '\n' ) \ buf[n++] = (char) c; \ if ( c == EOF && ferror( yyin ) ) \ YY_FATAL_ERROR( "input in flex scanner failed" ); \ result = n; \ } \ else \ { \ errno=0; \ while ( (result = fread(buf, 1, max_size, yyin))==0 && ferror(yyin)) \ { \ if( errno != EINTR) \ { \ YY_FATAL_ERROR( "input in flex scanner failed" ); \ break; \ } \ errno=0; \ clearerr(yyin); \ } \ }\ \ #endif /* No semi-colon after return; correct usage is to write "yyterminate();" - * we don't want an extra ';' after the "return" because that will cause * some compilers to complain about unreachable statements. */ #ifndef yyterminate #define yyterminate() return YY_NULL #endif /* Number of entries by which start-condition stack grows. */ #ifndef YY_START_STACK_INCR #define YY_START_STACK_INCR 25 #endif /* Report a fatal error. */ #ifndef YY_FATAL_ERROR #define YY_FATAL_ERROR(msg) yy_fatal_error( msg ) #endif /* end tables serialization structures and prototypes */ /* Default declaration of generated scanner - a define so the user can * easily add parameters. */ #ifndef YY_DECL #define YY_DECL_IS_OURS 1 extern int yylex (void); #define YY_DECL int yylex (void) #endif /* !YY_DECL */ /* Code executed at the beginning of each rule, after yytext and yyleng * have been set up. */ #ifndef YY_USER_ACTION #define YY_USER_ACTION #endif /* Code executed at the end of each rule. */ #ifndef YY_BREAK #define YY_BREAK break; #endif #define YY_RULE_SETUP \ YY_USER_ACTION /** The main scanner function which does all the work. */ YY_DECL { register yy_state_type yy_current_state; register char *yy_cp, *yy_bp; register int yy_act; #line 65 "prom_lex.l" #line 1163 "" if ( !(yy_init) ) { (yy_init) = 1; #ifdef YY_USER_INIT YY_USER_INIT; #endif if ( ! (yy_start) ) (yy_start) = 1; /* first start state */ if ( ! yyin ) yyin = stdin; if ( ! yyout ) yyout = stdout; if ( ! YY_CURRENT_BUFFER ) { yyensure_buffer_stack (); YY_CURRENT_BUFFER_LVALUE = yy_create_buffer(yyin,YY_BUF_SIZE ); } yy_load_buffer_state( ); } while ( 1 ) /* loops until end-of-file is reached */ { yy_cp = (yy_c_buf_p); /* Support of yytext. */ *yy_cp = (yy_hold_char); /* yy_bp points to the position in yy_ch_buf of the start of * the current run. */ yy_bp = yy_cp; yy_current_state = (yy_start); yy_match: do { register YY_CHAR yy_c = yy_ec[YY_SC_TO_UI(*yy_cp)]; if ( yy_accept[yy_current_state] ) { (yy_last_accepting_state) = yy_current_state; (yy_last_accepting_cpos) = yy_cp; } while ( yy_chk[yy_base[yy_current_state] + yy_c] != yy_current_state ) { yy_current_state = (int) yy_def[yy_current_state]; if ( yy_current_state >= 444 ) yy_c = yy_meta[(unsigned int) yy_c]; } yy_current_state = yy_nxt[yy_base[yy_current_state] + (unsigned int) yy_c]; ++yy_cp; } while ( yy_current_state != 443 ); yy_cp = (yy_last_accepting_cpos); yy_current_state = (yy_last_accepting_state); yy_find_action: yy_act = yy_accept[yy_current_state]; YY_DO_BEFORE_ACTION; do_action: /* This label is used only to access EOF actions. */ switch ( yy_act ) { /* beginning of action switch */ case 0: /* must back up */ /* undo the effects of YY_DO_BEFORE_ACTION */ *yy_cp = (yy_hold_char); yy_cp = (yy_last_accepting_cpos); yy_current_state = (yy_last_accepting_state); goto yy_find_action; case 1: YY_RULE_SETUP #line 67 "prom_lex.l" { upval(CHOSEN); } YY_BREAK case 2: YY_RULE_SETUP #line 68 "prom_lex.l" { upval(VDEVICE); } YY_BREAK case 3: YY_RULE_SETUP #line 69 "prom_lex.l" { upval(VDEVINST); } YY_BREAK case 4: YY_RULE_SETUP #line 70 "prom_lex.l" { upval(VDEVDEV); } YY_BREAK case 5: YY_RULE_SETUP #line 71 "prom_lex.l" { upval(VDEVRAW); } YY_BREAK case 6: YY_RULE_SETUP #line 72 "prom_lex.l" { upval(OBPQUAL); } YY_BREAK case 7: YY_RULE_SETUP #line 73 "prom_lex.l" { upval(BUSNAME); } YY_BREAK case 8: YY_RULE_SETUP #line 74 "prom_lex.l" { upval(IPV4); } YY_BREAK case 9: YY_RULE_SETUP #line 75 "prom_lex.l" { upval(IQN); } YY_BREAK case 10: YY_RULE_SETUP #line 76 "prom_lex.l" { upval(BOOTDEV); } YY_BREAK case 11: YY_RULE_SETUP #line 77 "prom_lex.l" { upval(OBPPARM); } YY_BREAK case 12: YY_RULE_SETUP #line 78 "prom_lex.l" { upval(HEX4); } YY_BREAK case 13: YY_RULE_SETUP #line 79 "prom_lex.l" { upval(HEX16); } YY_BREAK case 14: YY_RULE_SETUP #line 80 "prom_lex.l" { upval(FILENAME); } YY_BREAK case 15: /* rule 15 can match eol */ YY_RULE_SETUP #line 81 "prom_lex.l" { /* eat all whitespace. */ yylloc.first_column = yylloc.last_column; yylloc.last_column += yyleng; } YY_BREAK case 16: YY_RULE_SETUP #line 85 "prom_lex.l" { /* any other single char. */ dbg("??"); yylloc.first_column = yylloc.last_column; yylloc.last_column += yyleng; return *yytext; } YY_BREAK case YY_STATE_EOF(INITIAL): #line 92 "prom_lex.l" yyterminate(); YY_BREAK case 17: YY_RULE_SETUP #line 93 "prom_lex.l" ECHO; YY_BREAK #line 1340 "" case YY_END_OF_BUFFER: { /* Amount of text matched not including the EOB char. */ int yy_amount_of_matched_text = (int) (yy_cp - (yytext_ptr)) - 1; /* Undo the effects of YY_DO_BEFORE_ACTION. */ *yy_cp = (yy_hold_char); YY_RESTORE_YY_MORE_OFFSET if ( YY_CURRENT_BUFFER_LVALUE->yy_buffer_status == YY_BUFFER_NEW ) { /* We're scanning a new file or input source. It's * possible that this happened because the user * just pointed yyin at a new source and called * yylex(). If so, then we have to assure * consistency between YY_CURRENT_BUFFER and our * globals. Here is the right place to do so, because * this is the first action (other than possibly a * back-up) that will match for the new input source. */ (yy_n_chars) = YY_CURRENT_BUFFER_LVALUE->yy_n_chars; YY_CURRENT_BUFFER_LVALUE->yy_input_file = yyin; YY_CURRENT_BUFFER_LVALUE->yy_buffer_status = YY_BUFFER_NORMAL; } /* Note that here we test for yy_c_buf_p "<=" to the position * of the first EOB in the buffer, since yy_c_buf_p will * already have been incremented past the NUL character * (since all states make transitions on EOB to the * end-of-buffer state). Contrast this with the test * in input(). */ if ( (yy_c_buf_p) <= &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)] ) { /* This was really a NUL. */ yy_state_type yy_next_state; (yy_c_buf_p) = (yytext_ptr) + yy_amount_of_matched_text; yy_current_state = yy_get_previous_state( ); /* Okay, we're now positioned to make the NUL * transition. We couldn't have * yy_get_previous_state() go ahead and do it * for us because it doesn't know how to deal * with the possibility of jamming (and we don't * want to build jamming into it because then it * will run more slowly). */ yy_next_state = yy_try_NUL_trans( yy_current_state ); yy_bp = (yytext_ptr) + YY_MORE_ADJ; if ( yy_next_state ) { /* Consume the NUL. */ yy_cp = ++(yy_c_buf_p); yy_current_state = yy_next_state; goto yy_match; } else { yy_cp = (yy_last_accepting_cpos); yy_current_state = (yy_last_accepting_state); goto yy_find_action; } } else switch ( yy_get_next_buffer( ) ) { case EOB_ACT_END_OF_FILE: { (yy_did_buffer_switch_on_eof) = 0; if ( yywrap( ) ) { /* Note: because we've taken care in * yy_get_next_buffer() to have set up * yytext, we can now set up * yy_c_buf_p so that if some total * hoser (like flex itself) wants to * call the scanner after we return the * YY_NULL, it'll still work - another * YY_NULL will get returned. */ (yy_c_buf_p) = (yytext_ptr) + YY_MORE_ADJ; yy_act = YY_STATE_EOF(YY_START); goto do_action; } else { if ( ! (yy_did_buffer_switch_on_eof) ) YY_NEW_FILE; } break; } case EOB_ACT_CONTINUE_SCAN: (yy_c_buf_p) = (yytext_ptr) + yy_amount_of_matched_text; yy_current_state = yy_get_previous_state( ); yy_cp = (yy_c_buf_p); yy_bp = (yytext_ptr) + YY_MORE_ADJ; goto yy_match; case EOB_ACT_LAST_MATCH: (yy_c_buf_p) = &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)]; yy_current_state = yy_get_previous_state( ); yy_cp = (yy_c_buf_p); yy_bp = (yytext_ptr) + YY_MORE_ADJ; goto yy_find_action; } break; } default: YY_FATAL_ERROR( "fatal flex scanner internal error--no action found" ); } /* end of action switch */ } /* end of scanning one token */ } /* end of yylex */ /* yy_get_next_buffer - try to read in a new buffer * * Returns a code representing an action: * EOB_ACT_LAST_MATCH - * EOB_ACT_CONTINUE_SCAN - continue scanning from current position * EOB_ACT_END_OF_FILE - end of file */ static int yy_get_next_buffer (void) { register char *dest = YY_CURRENT_BUFFER_LVALUE->yy_ch_buf; register char *source = (yytext_ptr); register int number_to_move, i; int ret_val; if ( (yy_c_buf_p) > &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars) + 1] ) YY_FATAL_ERROR( "fatal flex scanner internal error--end of buffer missed" ); if ( YY_CURRENT_BUFFER_LVALUE->yy_fill_buffer == 0 ) { /* Don't try to fill the buffer, so this is an EOF. */ if ( (yy_c_buf_p) - (yytext_ptr) - YY_MORE_ADJ == 1 ) { /* We matched a single character, the EOB, so * treat this as a final EOF. */ return EOB_ACT_END_OF_FILE; } else { /* We matched some text prior to the EOB, first * process it. */ return EOB_ACT_LAST_MATCH; } } /* Try to read more data. */ /* First move last chars to start of buffer. */ number_to_move = (int) ((yy_c_buf_p) - (yytext_ptr)) - 1; for ( i = 0; i < number_to_move; ++i ) *(dest++) = *(source++); if ( YY_CURRENT_BUFFER_LVALUE->yy_buffer_status == YY_BUFFER_EOF_PENDING ) /* don't do the read, it's not guaranteed to return an EOF, * just force an EOF */ YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars) = 0; else { int num_to_read = YY_CURRENT_BUFFER_LVALUE->yy_buf_size - number_to_move - 1; while ( num_to_read <= 0 ) { /* Not enough room in the buffer - grow it. */ /* just a shorter name for the current buffer */ YY_BUFFER_STATE b = YY_CURRENT_BUFFER; int yy_c_buf_p_offset = (int) ((yy_c_buf_p) - b->yy_ch_buf); if ( b->yy_is_our_buffer ) { int new_size = b->yy_buf_size * 2; if ( new_size <= 0 ) b->yy_buf_size += b->yy_buf_size / 8; else b->yy_buf_size *= 2; b->yy_ch_buf = (char *) /* Include room in for 2 EOB chars. */ yyrealloc((void *) b->yy_ch_buf,b->yy_buf_size + 2 ); } else /* Can't grow it, we don't own it. */ b->yy_ch_buf = 0; if ( ! b->yy_ch_buf ) YY_FATAL_ERROR( "fatal error - scanner input buffer overflow" ); (yy_c_buf_p) = &b->yy_ch_buf[yy_c_buf_p_offset]; num_to_read = YY_CURRENT_BUFFER_LVALUE->yy_buf_size - number_to_move - 1; } if ( num_to_read > YY_READ_BUF_SIZE ) num_to_read = YY_READ_BUF_SIZE; /* Read in more data. */ YY_INPUT( (&YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[number_to_move]), (yy_n_chars), (size_t) num_to_read ); YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars); } if ( (yy_n_chars) == 0 ) { if ( number_to_move == YY_MORE_ADJ ) { ret_val = EOB_ACT_END_OF_FILE; yyrestart(yyin ); } else { ret_val = EOB_ACT_LAST_MATCH; YY_CURRENT_BUFFER_LVALUE->yy_buffer_status = YY_BUFFER_EOF_PENDING; } } else ret_val = EOB_ACT_CONTINUE_SCAN; if ((yy_size_t) ((yy_n_chars) + number_to_move) > YY_CURRENT_BUFFER_LVALUE->yy_buf_size) { /* Extend the array by 50%, plus the number we really need. */ yy_size_t new_size = (yy_n_chars) + number_to_move + ((yy_n_chars) >> 1); YY_CURRENT_BUFFER_LVALUE->yy_ch_buf = (char *) yyrealloc((void *) YY_CURRENT_BUFFER_LVALUE->yy_ch_buf,new_size ); if ( ! YY_CURRENT_BUFFER_LVALUE->yy_ch_buf ) YY_FATAL_ERROR( "out of dynamic memory in yy_get_next_buffer()" ); } (yy_n_chars) += number_to_move; YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)] = YY_END_OF_BUFFER_CHAR; YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars) + 1] = YY_END_OF_BUFFER_CHAR; (yytext_ptr) = &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[0]; return ret_val; } /* yy_get_previous_state - get the state just before the EOB char was reached */ static yy_state_type yy_get_previous_state (void) { register yy_state_type yy_current_state; register char *yy_cp; yy_current_state = (yy_start); for ( yy_cp = (yytext_ptr) + YY_MORE_ADJ; yy_cp < (yy_c_buf_p); ++yy_cp ) { register YY_CHAR yy_c = (*yy_cp ? yy_ec[YY_SC_TO_UI(*yy_cp)] : 1); if ( yy_accept[yy_current_state] ) { (yy_last_accepting_state) = yy_current_state; (yy_last_accepting_cpos) = yy_cp; } while ( yy_chk[yy_base[yy_current_state] + yy_c] != yy_current_state ) { yy_current_state = (int) yy_def[yy_current_state]; if ( yy_current_state >= 444 ) yy_c = yy_meta[(unsigned int) yy_c]; } yy_current_state = yy_nxt[yy_base[yy_current_state] + (unsigned int) yy_c]; } return yy_current_state; } /* yy_try_NUL_trans - try to make a transition on the NUL character * * synopsis * next_state = yy_try_NUL_trans( current_state ); */ static yy_state_type yy_try_NUL_trans (yy_state_type yy_current_state ) { register int yy_is_jam; register char *yy_cp = (yy_c_buf_p); register YY_CHAR yy_c = 1; if ( yy_accept[yy_current_state] ) { (yy_last_accepting_state) = yy_current_state; (yy_last_accepting_cpos) = yy_cp; } while ( yy_chk[yy_base[yy_current_state] + yy_c] != yy_current_state ) { yy_current_state = (int) yy_def[yy_current_state]; if ( yy_current_state >= 444 ) yy_c = yy_meta[(unsigned int) yy_c]; } yy_current_state = yy_nxt[yy_base[yy_current_state] + (unsigned int) yy_c]; yy_is_jam = (yy_current_state == 443); return yy_is_jam ? 0 : yy_current_state; } #ifndef YY_NO_INPUT #ifdef __cplusplus static int yyinput (void) #else static int input (void) #endif { int c; *(yy_c_buf_p) = (yy_hold_char); if ( *(yy_c_buf_p) == YY_END_OF_BUFFER_CHAR ) { /* yy_c_buf_p now points to the character we want to return. * If this occurs *before* the EOB characters, then it's a * valid NUL; if not, then we've hit the end of the buffer. */ if ( (yy_c_buf_p) < &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)] ) /* This was really a NUL. */ *(yy_c_buf_p) = '\0'; else { /* need more input */ int offset = (yy_c_buf_p) - (yytext_ptr); ++(yy_c_buf_p); switch ( yy_get_next_buffer( ) ) { case EOB_ACT_LAST_MATCH: /* This happens because yy_g_n_b() * sees that we've accumulated a * token and flags that we need to * try matching the token before * proceeding. But for input(), * there's no matching to consider. * So convert the EOB_ACT_LAST_MATCH * to EOB_ACT_END_OF_FILE. */ /* Reset buffer status. */ yyrestart(yyin ); /*FALLTHROUGH*/ case EOB_ACT_END_OF_FILE: { if ( yywrap( ) ) return EOF; if ( ! (yy_did_buffer_switch_on_eof) ) YY_NEW_FILE; #ifdef __cplusplus return yyinput(); #else return input(); #endif } case EOB_ACT_CONTINUE_SCAN: (yy_c_buf_p) = (yytext_ptr) + offset; break; } } } c = *(unsigned char *) (yy_c_buf_p); /* cast for 8-bit char's */ *(yy_c_buf_p) = '\0'; /* preserve yytext */ (yy_hold_char) = *++(yy_c_buf_p); return c; } #endif /* ifndef YY_NO_INPUT */ /** Immediately switch to a different input stream. * @param input_file A readable stream. * * @note This function does not reset the start condition to @c INITIAL . */ void yyrestart (FILE * input_file ) { if ( ! YY_CURRENT_BUFFER ){ yyensure_buffer_stack (); YY_CURRENT_BUFFER_LVALUE = yy_create_buffer(yyin,YY_BUF_SIZE ); } yy_init_buffer(YY_CURRENT_BUFFER,input_file ); yy_load_buffer_state( ); } /** Switch to a different input buffer. * @param new_buffer The new input buffer. * */ void yy_switch_to_buffer (YY_BUFFER_STATE new_buffer ) { /* TODO. We should be able to replace this entire function body * with * yypop_buffer_state(); * yypush_buffer_state(new_buffer); */ yyensure_buffer_stack (); if ( YY_CURRENT_BUFFER == new_buffer ) return; if ( YY_CURRENT_BUFFER ) { /* Flush out information for old buffer. */ *(yy_c_buf_p) = (yy_hold_char); YY_CURRENT_BUFFER_LVALUE->yy_buf_pos = (yy_c_buf_p); YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars); } YY_CURRENT_BUFFER_LVALUE = new_buffer; yy_load_buffer_state( ); /* We don't actually know whether we did this switch during * EOF (yywrap()) processing, but the only time this flag * is looked at is after yywrap() is called, so it's safe * to go ahead and always set it. */ (yy_did_buffer_switch_on_eof) = 1; } static void yy_load_buffer_state (void) { (yy_n_chars) = YY_CURRENT_BUFFER_LVALUE->yy_n_chars; (yytext_ptr) = (yy_c_buf_p) = YY_CURRENT_BUFFER_LVALUE->yy_buf_pos; yyin = YY_CURRENT_BUFFER_LVALUE->yy_input_file; (yy_hold_char) = *(yy_c_buf_p); } /** Allocate and initialize an input buffer state. * @param file A readable stream. * @param size The character buffer size in bytes. When in doubt, use @c YY_BUF_SIZE. * * @return the allocated buffer state. */ YY_BUFFER_STATE yy_create_buffer (FILE * file, int size ) { YY_BUFFER_STATE b; b = (YY_BUFFER_STATE) yyalloc(sizeof( struct yy_buffer_state ) ); if ( ! b ) YY_FATAL_ERROR( "out of dynamic memory in yy_create_buffer()" ); b->yy_buf_size = size; /* yy_ch_buf has to be 2 characters longer than the size given because * we need to put in 2 end-of-buffer characters. */ b->yy_ch_buf = (char *) yyalloc(b->yy_buf_size + 2 ); if ( ! b->yy_ch_buf ) YY_FATAL_ERROR( "out of dynamic memory in yy_create_buffer()" ); b->yy_is_our_buffer = 1; yy_init_buffer(b,file ); return b; } /** Destroy the buffer. * @param b a buffer created with yy_create_buffer() * */ void yy_delete_buffer (YY_BUFFER_STATE b ) { if ( ! b ) return; if ( b == YY_CURRENT_BUFFER ) /* Not sure if we should pop here. */ YY_CURRENT_BUFFER_LVALUE = (YY_BUFFER_STATE) 0; if ( b->yy_is_our_buffer ) yyfree((void *) b->yy_ch_buf ); yyfree((void *) b ); } /* Initializes or reinitializes a buffer. * This function is sometimes called more than once on the same buffer, * such as during a yyrestart() or at EOF. */ static void yy_init_buffer (YY_BUFFER_STATE b, FILE * file ) { int oerrno = errno; yy_flush_buffer(b ); b->yy_input_file = file; b->yy_fill_buffer = 1; /* If b is the current buffer, then yy_init_buffer was _probably_ * called from yyrestart() or through yy_get_next_buffer. * In that case, we don't want to reset the lineno or column. */ if (b != YY_CURRENT_BUFFER){ b->yy_bs_lineno = 1; b->yy_bs_column = 0; } b->yy_is_interactive = 0; errno = oerrno; } /** Discard all buffered characters. On the next scan, YY_INPUT will be called. * @param b the buffer state to be flushed, usually @c YY_CURRENT_BUFFER. * */ void yy_flush_buffer (YY_BUFFER_STATE b ) { if ( ! b ) return; b->yy_n_chars = 0; /* We always need two end-of-buffer characters. The first causes * a transition to the end-of-buffer state. The second causes * a jam in that state. */ b->yy_ch_buf[0] = YY_END_OF_BUFFER_CHAR; b->yy_ch_buf[1] = YY_END_OF_BUFFER_CHAR; b->yy_buf_pos = &b->yy_ch_buf[0]; b->yy_at_bol = 1; b->yy_buffer_status = YY_BUFFER_NEW; if ( b == YY_CURRENT_BUFFER ) yy_load_buffer_state( ); } /** Pushes the new state onto the stack. The new state becomes * the current state. This function will allocate the stack * if necessary. * @param new_buffer The new state. * */ void yypush_buffer_state (YY_BUFFER_STATE new_buffer ) { if (new_buffer == NULL) return; yyensure_buffer_stack(); /* This block is copied from yy_switch_to_buffer. */ if ( YY_CURRENT_BUFFER ) { /* Flush out information for old buffer. */ *(yy_c_buf_p) = (yy_hold_char); YY_CURRENT_BUFFER_LVALUE->yy_buf_pos = (yy_c_buf_p); YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars); } /* Only push if top exists. Otherwise, replace top. */ if (YY_CURRENT_BUFFER) (yy_buffer_stack_top)++; YY_CURRENT_BUFFER_LVALUE = new_buffer; /* copied from yy_switch_to_buffer. */ yy_load_buffer_state( ); (yy_did_buffer_switch_on_eof) = 1; } /** Removes and deletes the top of the stack, if present. * The next element becomes the new top. * */ void yypop_buffer_state (void) { if (!YY_CURRENT_BUFFER) return; yy_delete_buffer(YY_CURRENT_BUFFER ); YY_CURRENT_BUFFER_LVALUE = NULL; if ((yy_buffer_stack_top) > 0) --(yy_buffer_stack_top); if (YY_CURRENT_BUFFER) { yy_load_buffer_state( ); (yy_did_buffer_switch_on_eof) = 1; } } /* Allocates the stack if it does not exist. * Guarantees space for at least one push. */ static void yyensure_buffer_stack (void) { int num_to_alloc; if (!(yy_buffer_stack)) { /* First allocation is just for 2 elements, since we don't know if this * scanner will even need a stack. We use 2 instead of 1 to avoid an * immediate realloc on the next call. */ num_to_alloc = 1; (yy_buffer_stack) = (struct yy_buffer_state**)yyalloc (num_to_alloc * sizeof(struct yy_buffer_state*) ); if ( ! (yy_buffer_stack) ) YY_FATAL_ERROR( "out of dynamic memory in yyensure_buffer_stack()" ); memset((yy_buffer_stack), 0, num_to_alloc * sizeof(struct yy_buffer_state*)); (yy_buffer_stack_max) = num_to_alloc; (yy_buffer_stack_top) = 0; return; } if ((yy_buffer_stack_top) >= ((yy_buffer_stack_max)) - 1){ /* Increase the buffer to prepare for a possible push. */ int grow_size = 8 /* arbitrary grow size */; num_to_alloc = (yy_buffer_stack_max) + grow_size; (yy_buffer_stack) = (struct yy_buffer_state**)yyrealloc ((yy_buffer_stack), num_to_alloc * sizeof(struct yy_buffer_state*) ); if ( ! (yy_buffer_stack) ) YY_FATAL_ERROR( "out of dynamic memory in yyensure_buffer_stack()" ); /* zero only the new slots.*/ memset((yy_buffer_stack) + (yy_buffer_stack_max), 0, grow_size * sizeof(struct yy_buffer_state*)); (yy_buffer_stack_max) = num_to_alloc; } } /** Setup the input buffer state to scan directly from a user-specified character buffer. * @param base the character buffer * @param size the size in bytes of the character buffer * * @return the newly allocated buffer state object. */ YY_BUFFER_STATE yy_scan_buffer (char * base, yy_size_t size ) { YY_BUFFER_STATE b; if ( size < 2 || base[size-2] != YY_END_OF_BUFFER_CHAR || base[size-1] != YY_END_OF_BUFFER_CHAR ) /* They forgot to leave room for the EOB's. */ return 0; b = (YY_BUFFER_STATE) yyalloc(sizeof( struct yy_buffer_state ) ); if ( ! b ) YY_FATAL_ERROR( "out of dynamic memory in yy_scan_buffer()" ); b->yy_buf_size = size - 2; /* "- 2" to take care of EOB's */ b->yy_buf_pos = b->yy_ch_buf = base; b->yy_is_our_buffer = 0; b->yy_input_file = 0; b->yy_n_chars = b->yy_buf_size; b->yy_is_interactive = 0; b->yy_at_bol = 1; b->yy_fill_buffer = 0; b->yy_buffer_status = YY_BUFFER_NEW; yy_switch_to_buffer(b ); return b; } /** Setup the input buffer state to scan a string. The next call to yylex() will * scan from a @e copy of @a str. * @param yystr a NUL-terminated string to scan * * @return the newly allocated buffer state object. * @note If you want to scan bytes that may contain NUL values, then use * yy_scan_bytes() instead. */ YY_BUFFER_STATE yy_scan_string (yyconst char * yystr ) { return yy_scan_bytes(yystr,strlen(yystr) ); } /** Setup the input buffer state to scan the given bytes. The next call to yylex() will * scan from a @e copy of @a bytes. * @param yybytes the byte buffer to scan * @param _yybytes_len the number of bytes in the buffer pointed to by @a bytes. * * @return the newly allocated buffer state object. */ YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, int _yybytes_len ) { YY_BUFFER_STATE b; char *buf; yy_size_t n; int i; /* Get memory for full buffer, including space for trailing EOB's. */ n = _yybytes_len + 2; buf = (char *) yyalloc(n ); if ( ! buf ) YY_FATAL_ERROR( "out of dynamic memory in yy_scan_bytes()" ); for ( i = 0; i < _yybytes_len; ++i ) buf[i] = yybytes[i]; buf[_yybytes_len] = buf[_yybytes_len+1] = YY_END_OF_BUFFER_CHAR; b = yy_scan_buffer(buf,n ); if ( ! b ) YY_FATAL_ERROR( "bad buffer in yy_scan_bytes()" ); /* It's okay to grow etc. this buffer, and we should throw it * away when we're done. */ b->yy_is_our_buffer = 1; return b; } #ifndef YY_EXIT_FAILURE #define YY_EXIT_FAILURE 2 #endif static void yy_fatal_error (yyconst char* msg ) { (void) fprintf( stderr, "%s\n", msg ); exit( YY_EXIT_FAILURE ); } /* Redefine yyless() so it works in section 3 code. */ #undef yyless #define yyless(n) \ do \ { \ /* Undo effects of setting up yytext. */ \ int yyless_macro_arg = (n); \ YY_LESS_LINENO(yyless_macro_arg);\ yytext[yyleng] = (yy_hold_char); \ (yy_c_buf_p) = yytext + yyless_macro_arg; \ (yy_hold_char) = *(yy_c_buf_p); \ *(yy_c_buf_p) = '\0'; \ yyleng = yyless_macro_arg; \ } \ while ( 0 ) /* Accessor methods (get/set functions) to struct members. */ /** Get the current line number. * */ int yyget_lineno (void) { return yylineno; } /** Get the input stream. * */ FILE *yyget_in (void) { return yyin; } /** Get the output stream. * */ FILE *yyget_out (void) { return yyout; } /** Get the length of the current token. * */ int yyget_leng (void) { return yyleng; } /** Get the current token. * */ char *yyget_text (void) { return yytext; } /** Set the current line number. * @param line_number * */ void yyset_lineno (int line_number ) { yylineno = line_number; } /** Set the input stream. This does not discard the current * input buffer. * @param in_str A readable stream. * * @see yy_switch_to_buffer */ void yyset_in (FILE * in_str ) { yyin = in_str ; } void yyset_out (FILE * out_str ) { yyout = out_str ; } int yyget_debug (void) { return yy_flex_debug; } void yyset_debug (int bdebug ) { yy_flex_debug = bdebug ; } static int yy_init_globals (void) { /* Initialization is the same as for the non-reentrant scanner. * This function is called from yylex_destroy(), so don't allocate here. */ (yy_buffer_stack) = 0; (yy_buffer_stack_top) = 0; (yy_buffer_stack_max) = 0; (yy_c_buf_p) = (char *) 0; (yy_init) = 0; (yy_start) = 0; /* Defined in main.c */ #ifdef YY_STDINIT yyin = stdin; yyout = stdout; #else yyin = (FILE *) 0; yyout = (FILE *) 0; #endif /* For future reference: Set errno on error, since we are called by * yylex_init() */ return 0; } /* yylex_destroy is for both reentrant and non-reentrant scanners. */ int yylex_destroy (void) { /* Pop the buffer stack, destroying each element. */ while(YY_CURRENT_BUFFER){ yy_delete_buffer(YY_CURRENT_BUFFER ); YY_CURRENT_BUFFER_LVALUE = NULL; yypop_buffer_state(); } /* Destroy the stack itself. */ yyfree((yy_buffer_stack) ); (yy_buffer_stack) = NULL; /* Reset the globals. This is important in a non-reentrant scanner so the next time * yylex() is called, initialization will occur. */ yy_init_globals( ); return 0; } /* * Internal utility routines. */ #ifndef yytext_ptr static void yy_flex_strncpy (char* s1, yyconst char * s2, int n ) { register int i; for ( i = 0; i < n; ++i ) s1[i] = s2[i]; } #endif #ifdef YY_NEED_STRLEN static int yy_flex_strlen (yyconst char * s ) { register int n; for ( n = 0; s[n]; ++n ) ; return n; } #endif void *yyalloc (yy_size_t size ) { return (void *) malloc( size ); } void *yyrealloc (void * ptr, yy_size_t size ) { /* The cast to (char *) in the following accommodates both * implementations that use char* generic pointers, and those * that use void* generic pointers. It works with the latter * because both ANSI C and C++ allow castless assignment from * any pointer type to void*, and deal with argument conversions * as though doing an assignment. */ return (void *) realloc( (char *) ptr, size ); } void yyfree (void * ptr ) { free( (char *) ptr ); /* see yyrealloc() for (char *) cast */ } #define YYTABLES_NAME "yytables" #line 93 "prom_lex.l" open-iscsi-2.0.874/utils/fwparam_ibft/prom_lex.l000066400000000000000000000054051277325716400215720ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /* definitions */ %option array %{ #include "prom_parse.h" #undef LEXDEBUG #ifdef LEXDEBUG #define dbg(a) dbgprint((a)) #else #define dbg(a) do {} while (0) #endif /* LEXDEBUG */ #define upval(d) \ dbg(#d); \ yylval.str[0] = 0; \ strcat(yylval.str, yytext); \ yylloc.first_column = yylloc.last_column; \ yylloc.last_column += yyleng; \ return d void dbgprint(const char *item) { fprintf(stderr, "%s: \"%s\" len=%d ", item, yytext, yyleng);} %} %option noyywrap %option never-interactive %option nounput %option noinput VDEVICE vdevice VDEVINST gscsi VDEVDEV dev VDEVRAW rawio /* CHOSEN uses only boot related paths. */ CHOSEN bootpath|bootargs|iscsi-bootargs|nas-bootdevice BUSNAME ata|i2c|ide|pci|sata|scsi|usb|lhea BOOTDEV cdrom|disk|ethernet|iscsi-(disk[0-9]|toe)|sd HEX4 [[:xdigit:]]{1,4} HEX16 [[:xdigit:]]{5,16} IPV4 [0-9]{1,3}(\.[0-9]{1,3}){3} IQN iqn\.[-[:alnum:]:.]{1,219} OBPQUAL bootp|ipv6|iscsi|dhcpv6 OBPPARM blksize|bootp-retries|chapid|chappw|ciaddr|dhcp|filename|giaddr|ichapid|ichappw|ilun|iname|iport|isid|isns|itname|siaddr|slp|subnet-mask|tftp-retries FILENAME \\[-[:alnum:]\\\.]{1,} %% /* rules */ {CHOSEN} { upval(CHOSEN); } {VDEVICE} { upval(VDEVICE); } {VDEVINST} { upval(VDEVINST); } {VDEVDEV} { upval(VDEVDEV); } {VDEVRAW} { upval(VDEVRAW); } {OBPQUAL} { upval(OBPQUAL); } {BUSNAME} { upval(BUSNAME); } {IPV4} { upval(IPV4); } {IQN} { upval(IQN); } {BOOTDEV} { upval(BOOTDEV); } {OBPPARM} { upval(OBPPARM); } {HEX4} { upval(HEX4); } {HEX16} { upval(HEX16); } {FILENAME} { upval(FILENAME); } [ \t\n]+ { /* eat all whitespace. */ yylloc.first_column = yylloc.last_column; yylloc.last_column += yyleng; } . { /* any other single char. */ dbg("??"); yylloc.first_column = yylloc.last_column; yylloc.last_column += yyleng; return *yytext; } <> yyterminate(); %% /* user code */ open-iscsi-2.0.874/utils/fwparam_ibft/prom_parse.h000066400000000000000000000022141277325716400221030ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef PROM_PARSE_H_ #define PROM_PARSE_H_ #include #include #include "iscsi_obp.h" struct ofw_dev; void yyerror(struct ofw_dev *ofwdev, const char *msg); extern int yyleng; extern int yydebug; #include extern FILE *yyin; extern char yytext[]; int yylex(void); #define YY_NO_UNPUT 1 /* match this with %option never-interactive. */ #include "prom_parse.tab.h" #endif /* PROM_PARSE_H_ */ open-iscsi-2.0.874/utils/fwparam_ibft/prom_parse.tab.c000066400000000000000000001612651277325716400226570ustar00rootroot00000000000000/* A Bison parser, made by GNU Bison 2.3. */ /* Skeleton implementation for Bison's Yacc-like parsers in C Copyright (C) 1984, 1989, 1990, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* As a special exception, you may create a larger work that contains part or all of the Bison parser skeleton and distribute that work under terms of your choice, so long as that work isn't itself a parser generator using the skeleton or a modified version thereof as a parser skeleton. Alternatively, if you modify or redistribute the parser skeleton itself, you may (at your option) remove this special exception, which will cause the skeleton and the resulting Bison output files to be licensed under the GNU General Public License without this special exception. This special exception was added by the Free Software Foundation in version 2.2 of Bison. */ /* C LALR(1) parser skeleton written by Richard Stallman, by simplifying the original so-called "semantic" parser. */ /* All symbols defined below should begin with yy or YY, to avoid infringing on user name space. This should be done even for local variables, as they might otherwise be expanded by user macros. There are some unavoidable exceptions within include files to define necessary library symbols; they are noted "INFRINGES ON USER NAME SPACE" below. */ /* Identify Bison output. */ #define YYBISON 1 /* Bison version. */ #define YYBISON_VERSION "2.3" /* Skeleton name. */ #define YYSKELETON_NAME "yacc.c" /* Pure parsers. */ #define YYPURE 0 /* Using locations. */ #define YYLSP_NEEDED 1 /* Tokens. */ #ifndef YYTOKENTYPE # define YYTOKENTYPE /* Put the tokens into the symbol table, so that GDB and other debuggers know about them. */ enum yytokentype { BUSNAME = 258, BOOTDEV = 259, IPV4 = 260, IQN = 261, OBPPARM = 262, OBPQUAL = 263, HEX4 = 264, HEX16 = 265, VDEVICE = 266, VDEVINST = 267, VDEVDEV = 268, VDEVRAW = 269, CHOSEN = 270, FILENAME = 271 }; #endif /* Tokens. */ #define BUSNAME 258 #define BOOTDEV 259 #define IPV4 260 #define IQN 261 #define OBPPARM 262 #define OBPQUAL 263 #define HEX4 264 #define HEX16 265 #define VDEVICE 266 #define VDEVINST 267 #define VDEVDEV 268 #define VDEVRAW 269 #define CHOSEN 270 #define FILENAME 271 /* Copy the first part of user declarations. */ #line 21 "prom_parse.y" /* literal block. include lines, decls, defns. */ //#define YYDEBUG 1 #if YYDEBUG #define DPRINT(fmt,...) printf(fmt,__VA_ARGS__) #else #define DPRINT(fmt,...) do {} while(0) #endif #include "prom_parse.h" #include "iscsi_obp.h" /* Enabling traces. */ #ifndef YYDEBUG # define YYDEBUG 0 #endif /* Enabling verbose error messages. */ #ifdef YYERROR_VERBOSE # undef YYERROR_VERBOSE # define YYERROR_VERBOSE 1 #else # define YYERROR_VERBOSE 0 #endif /* Enabling the token table. */ #ifndef YYTOKEN_TABLE # define YYTOKEN_TABLE 0 #endif #if ! defined YYSTYPE && ! defined YYSTYPE_IS_DECLARED typedef union YYSTYPE #line 33 "prom_parse.y" { char str[256]; } /* Line 187 of yacc.c. */ #line 145 "prom_parse.tab.c" YYSTYPE; # define yystype YYSTYPE /* obsolescent; will be withdrawn */ # define YYSTYPE_IS_DECLARED 1 # define YYSTYPE_IS_TRIVIAL 1 #endif #if ! defined YYLTYPE && ! defined YYLTYPE_IS_DECLARED typedef struct YYLTYPE { int first_line; int first_column; int last_line; int last_column; } YYLTYPE; # define yyltype YYLTYPE /* obsolescent; will be withdrawn */ # define YYLTYPE_IS_DECLARED 1 # define YYLTYPE_IS_TRIVIAL 1 #endif /* Copy the second part of user declarations. */ /* Line 216 of yacc.c. */ #line 170 "prom_parse.tab.c" #ifdef short # undef short #endif #ifdef YYTYPE_UINT8 typedef YYTYPE_UINT8 yytype_uint8; #else typedef unsigned char yytype_uint8; #endif #ifdef YYTYPE_INT8 typedef YYTYPE_INT8 yytype_int8; #elif (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) typedef signed char yytype_int8; #else typedef short int yytype_int8; #endif #ifdef YYTYPE_UINT16 typedef YYTYPE_UINT16 yytype_uint16; #else typedef unsigned short int yytype_uint16; #endif #ifdef YYTYPE_INT16 typedef YYTYPE_INT16 yytype_int16; #else typedef short int yytype_int16; #endif #ifndef YYSIZE_T # ifdef __SIZE_TYPE__ # define YYSIZE_T __SIZE_TYPE__ # elif defined size_t # define YYSIZE_T size_t # elif ! defined YYSIZE_T && (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) # include /* INFRINGES ON USER NAME SPACE */ # define YYSIZE_T size_t # else # define YYSIZE_T unsigned int # endif #endif #define YYSIZE_MAXIMUM ((YYSIZE_T) -1) #ifndef YY_ # if YYENABLE_NLS # if ENABLE_NLS # include /* INFRINGES ON USER NAME SPACE */ # define YY_(msgid) dgettext ("bison-runtime", msgid) # endif # endif # ifndef YY_ # define YY_(msgid) msgid # endif #endif /* Suppress unused-variable warnings by "using" E. */ #if ! defined lint || defined __GNUC__ # define YYUSE(e) ((void) (e)) #else # define YYUSE(e) /* empty */ #endif /* Identity function, used to suppress warnings about constant conditions. */ #ifndef lint # define YYID(n) (n) #else #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static int YYID (int i) #else static int YYID (i) int i; #endif { return i; } #endif #if ! defined yyoverflow || YYERROR_VERBOSE /* The parser invokes alloca or malloc; define the necessary symbols. */ # ifdef YYSTACK_USE_ALLOCA # if YYSTACK_USE_ALLOCA # ifdef __GNUC__ # define YYSTACK_ALLOC __builtin_alloca # elif defined __BUILTIN_VA_ARG_INCR # include /* INFRINGES ON USER NAME SPACE */ # elif defined _AIX # define YYSTACK_ALLOC __alloca # elif defined _MSC_VER # include /* INFRINGES ON USER NAME SPACE */ # define alloca _alloca # else # define YYSTACK_ALLOC alloca # if ! defined _ALLOCA_H && ! defined _STDLIB_H && (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) # include /* INFRINGES ON USER NAME SPACE */ # ifndef _STDLIB_H # define _STDLIB_H 1 # endif # endif # endif # endif # endif # ifdef YYSTACK_ALLOC /* Pacify GCC's `empty if-body' warning. */ # define YYSTACK_FREE(Ptr) do { /* empty */; } while (YYID (0)) # ifndef YYSTACK_ALLOC_MAXIMUM /* The OS might guarantee only one guard page at the bottom of the stack, and a page size can be as small as 4096 bytes. So we cannot safely invoke alloca (N) if N exceeds 4096. Use a slightly smaller number to allow for a few compiler-allocated temporary stack slots. */ # define YYSTACK_ALLOC_MAXIMUM 4032 /* reasonable circa 2006 */ # endif # else # define YYSTACK_ALLOC YYMALLOC # define YYSTACK_FREE YYFREE # ifndef YYSTACK_ALLOC_MAXIMUM # define YYSTACK_ALLOC_MAXIMUM YYSIZE_MAXIMUM # endif # if (defined __cplusplus && ! defined _STDLIB_H \ && ! ((defined YYMALLOC || defined malloc) \ && (defined YYFREE || defined free))) # include /* INFRINGES ON USER NAME SPACE */ # ifndef _STDLIB_H # define _STDLIB_H 1 # endif # endif # ifndef YYMALLOC # define YYMALLOC malloc # if ! defined malloc && ! defined _STDLIB_H && (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) void *malloc (YYSIZE_T); /* INFRINGES ON USER NAME SPACE */ # endif # endif # ifndef YYFREE # define YYFREE free # if ! defined free && ! defined _STDLIB_H && (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) void free (void *); /* INFRINGES ON USER NAME SPACE */ # endif # endif # endif #endif /* ! defined yyoverflow || YYERROR_VERBOSE */ #if (! defined yyoverflow \ && (! defined __cplusplus \ || (defined YYLTYPE_IS_TRIVIAL && YYLTYPE_IS_TRIVIAL \ && defined YYSTYPE_IS_TRIVIAL && YYSTYPE_IS_TRIVIAL))) /* A type that is properly aligned for any stack member. */ union yyalloc { yytype_int16 yyss; YYSTYPE yyvs; YYLTYPE yyls; }; /* The size of the maximum gap between one aligned stack and the next. */ # define YYSTACK_GAP_MAXIMUM (sizeof (union yyalloc) - 1) /* The size of an array large to enough to hold all stacks, each with N elements. */ # define YYSTACK_BYTES(N) \ ((N) * (sizeof (yytype_int16) + sizeof (YYSTYPE) + sizeof (YYLTYPE)) \ + 2 * YYSTACK_GAP_MAXIMUM) /* Copy COUNT objects from FROM to TO. The source and destination do not overlap. */ # ifndef YYCOPY # if defined __GNUC__ && 1 < __GNUC__ # define YYCOPY(To, From, Count) \ __builtin_memcpy (To, From, (Count) * sizeof (*(From))) # else # define YYCOPY(To, From, Count) \ do \ { \ YYSIZE_T yyi; \ for (yyi = 0; yyi < (Count); yyi++) \ (To)[yyi] = (From)[yyi]; \ } \ while (YYID (0)) # endif # endif /* Relocate STACK from its old location to the new one. The local variables YYSIZE and YYSTACKSIZE give the old and new number of elements in the stack, and YYPTR gives the new location of the stack. Advance YYPTR to a properly aligned location for the next stack. */ # define YYSTACK_RELOCATE(Stack) \ do \ { \ YYSIZE_T yynewbytes; \ YYCOPY (&yyptr->Stack, Stack, yysize); \ Stack = &yyptr->Stack; \ yynewbytes = yystacksize * sizeof (*Stack) + YYSTACK_GAP_MAXIMUM; \ yyptr += yynewbytes / sizeof (*yyptr); \ } \ while (YYID (0)) #endif /* YYFINAL -- State number of the termination state. */ #define YYFINAL 8 /* YYLAST -- Last index in YYTABLE. */ #define YYLAST 103 /* YYNTOKENS -- Number of terminals. */ #define YYNTOKENS 24 /* YYNNTS -- Number of nonterminals. */ #define YYNNTS 19 /* YYNRULES -- Number of rules. */ #define YYNRULES 51 /* YYNRULES -- Number of states. */ #define YYNSTATES 93 /* YYTRANSLATE(YYLEX) -- Bison symbol number corresponding to YYLEX. */ #define YYUNDEFTOK 2 #define YYMAXUTOK 273 #define YYTRANSLATE(YYX) \ ((unsigned int) (YYX) <= YYMAXUTOK ? yytranslate[YYX] : YYUNDEFTOK) /* YYTRANSLATE[YYLEX] -- Bison symbol number corresponding to YYLEX. */ static const yytype_uint8 yytranslate[] = { 0, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 19, 2, 2, 17, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 20, 2, 2, 21, 2, 2, 18, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 22, 23 }; #if YYDEBUG /* YYPRHS[YYN] -- Index of the first RHS symbol of rule number YYN in YYRHS. */ static const yytype_uint8 yyprhs[] = { 0, 0, 3, 5, 9, 14, 20, 27, 35, 37, 41, 43, 47, 53, 57, 63, 67, 73, 81, 85, 88, 92, 96, 100, 103, 107, 111, 113, 117, 121, 125, 129, 133, 135, 139, 141, 143, 145, 147, 149, 151, 155, 157, 160, 164, 167, 169, 173, 175, 178, 184, 187 }; /* YYRHS -- A `-1'-separated list of the rules' RHS. */ static const yytype_int8 yyrhs[] = { 25, 0, -1, 17, -1, 17, 26, 28, -1, 17, 26, 28, 41, -1, 17, 26, 28, 34, 32, -1, 17, 26, 28, 34, 32, 41, -1, 17, 29, 28, 30, 34, 32, 41, -1, 27, -1, 26, 17, 27, -1, 3, -1, 3, 18, 9, -1, 3, 18, 9, 19, 9, -1, 3, 18, 10, -1, 3, 19, 9, 18, 10, -1, 17, 4, 20, -1, 17, 4, 18, 9, 20, -1, 17, 4, 18, 9, 19, 9, 20, -1, 11, 17, 12, -1, 20, 31, -1, 30, 19, 31, -1, 30, 19, 14, -1, 13, 21, 15, -1, 19, 33, -1, 32, 19, 33, -1, 32, 19, 41, -1, 9, -1, 7, 21, 10, -1, 7, 21, 36, -1, 7, 21, 6, -1, 7, 21, 9, -1, 7, 21, 16, -1, 35, -1, 34, 19, 35, -1, 8, -1, 31, -1, 37, -1, 38, -1, 5, -1, 39, -1, 39, 20, 37, -1, 40, -1, 39, 22, -1, 39, 22, 40, -1, 22, 40, -1, 9, -1, 40, 23, 9, -1, 42, -1, 9, 42, -1, 18, 9, 19, 9, 42, -1, 20, 9, -1, 20, 9, 19, 16, -1 }; /* YYRLINE[YYN] -- source line where rule number YYN was defined. */ static const yytype_uint16 yyrline[] = { 0, 58, 58, 61, 64, 72, 80, 87, 94, 97, 102, 105, 108, 111, 114, 120, 123, 126, 131, 136, 139, 142, 147, 152, 155, 158, 163, 166, 171, 175, 179, 183, 189, 192, 197, 200, 205, 208, 213, 218, 221, 226, 229, 232, 235, 240, 243, 248, 251, 254, 259, 262 }; #endif #if YYDEBUG || YYERROR_VERBOSE || YYTOKEN_TABLE /* YYTNAME[SYMBOL-NUM] -- String name of the symbol SYMBOL-NUM. First, the terminals, then, starting at YYNTOKENS, nonterminals. */ static const char *const yytname[] = { "$end", "error", "$undefined", "BUSNAME", "BOOTDEV", "IPV4", "IQN", "OBPPARM", "OBPQUAL", "HEX4", "HEX16", "VDEVICE", "VDEVINST", "VDEVDEV", "VDEVRAW", "CHOSEN", "FILENAME", "'/'", "'@'", "','", "':'", "'='", "\"::\"", "\":\"", "$accept", "devpath", "busses", "bus", "bootdev", "vdevice", "vdev_parms", "vdev_parm", "obp_params", "obp_param", "obp_quals", "obp_qual", "ipaddr", "ipv4", "ipv6", "hexpart", "hexseq", "disklabel", "diskpart", 0 }; #endif # ifdef YYPRINT /* YYTOKNUM[YYLEX-NUM] -- Internal token number corresponding to token YYLEX-NUM. */ static const yytype_uint16 yytoknum[] = { 0, 256, 257, 258, 259, 260, 261, 262, 263, 264, 265, 266, 267, 268, 269, 270, 271, 47, 64, 44, 58, 61, 272, 273 }; # endif /* YYR1[YYN] -- Symbol number of symbol that rule YYN derives. */ static const yytype_uint8 yyr1[] = { 0, 24, 25, 25, 25, 25, 25, 25, 26, 26, 27, 27, 27, 27, 27, 28, 28, 28, 29, 30, 30, 30, 31, 32, 32, 32, 33, 33, 33, 33, 33, 33, 34, 34, 35, 35, 36, 36, 37, 38, 38, 39, 39, 39, 39, 40, 40, 41, 41, 41, 42, 42 }; /* YYR2[YYN] -- Number of symbols composing right hand side of rule YYN. */ static const yytype_uint8 yyr2[] = { 0, 2, 1, 3, 4, 5, 6, 7, 1, 3, 1, 3, 5, 3, 5, 3, 5, 7, 3, 2, 3, 3, 3, 2, 3, 3, 1, 3, 3, 3, 3, 3, 1, 3, 1, 1, 1, 1, 1, 1, 3, 1, 2, 3, 2, 1, 3, 1, 2, 5, 2, 4 }; /* YYDEFACT[STATE-NAME] -- Default rule to reduce with in state STATE-NUM when YYTABLE doesn't specify something else to do. Zero means the default is an error. */ static const yytype_uint8 yydefact[] = { 0, 2, 0, 10, 0, 0, 8, 0, 1, 0, 0, 0, 0, 3, 0, 0, 11, 13, 0, 18, 0, 9, 34, 0, 0, 0, 0, 35, 0, 32, 4, 47, 0, 0, 0, 0, 0, 15, 48, 0, 0, 50, 0, 5, 19, 0, 0, 12, 14, 0, 22, 0, 0, 0, 26, 23, 33, 0, 6, 21, 20, 0, 0, 16, 0, 51, 0, 26, 24, 25, 7, 0, 49, 38, 29, 30, 27, 31, 0, 28, 36, 37, 39, 41, 17, 45, 44, 0, 42, 0, 40, 43, 46 }; /* YYDEFGOTO[NTERM-NUM]. */ static const yytype_int8 yydefgoto[] = { -1, 2, 5, 6, 13, 7, 33, 27, 43, 55, 28, 29, 79, 80, 81, 82, 83, 30, 31 }; /* YYPACT[STATE-NUM] -- Index in YYTABLE of the portion describing STATE-NUM. */ #define YYPACT_NINF -73 static const yytype_int8 yypact[] = { -15, 19, 13, 20, 18, 23, -73, 25, -73, 39, 51, 50, 49, 16, 46, 43, 42, -73, 47, -73, -9, -73, -73, 44, 45, 58, 59, -73, 52, -73, -73, -73, 56, 24, 61, 62, 64, -73, -73, 60, 55, 57, 38, 8, -73, 41, 52, -73, -73, 37, -73, 68, 63, 65, -73, -73, -73, 3, -73, -73, -73, 8, 69, -73, 44, -73, -2, 44, -73, -73, -73, 67, -73, -73, -73, 36, -73, -73, 71, -73, -73, -73, 11, 66, -73, -73, 66, 76, 71, 73, -73, 66, -73 }; /* YYPGOTO[NTERM-NUM]. */ static const yytype_int8 yypgoto[] = { -73, -73, -73, 72, 78, -73, -73, -27, 48, 26, 70, 53, -73, 1, -73, -73, -72, -42, -23 }; /* YYTABLE[YYPACT[STATE-NUM]]. What to do in state STATE-NUM. If positive, shift that token. If negative, reduce the rule which number is the opposite. If zero, do what YYDEFACT says. If YYTABLE_NINF, syntax error. */ #define YYTABLE_NINF -46 static const yytype_int8 yytable[] = { 38, 58, 1, 73, 74, 44, 86, 75, 76, 36, 53, 37, 67, 8, 77, 69, 91, 23, 60, 70, 78, 25, 3, 26, 22, 23, 25, 57, 26, 24, 4, 87, 22, 88, 25, 11, 26, 24, 9, 10, 12, 72, 14, 45, 38, 53, 22, 54, 16, 17, 20, 24, 3, 20, 24, 59, 62, 63, -45, -45, 18, 34, 19, 32, 26, 35, 39, 40, 41, 24, 47, 42, 48, 49, 51, 50, 52, 64, 71, 65, 85, 73, 92, 68, 21, 15, 66, 84, 90, 89, 0, 0, 0, 0, 61, 56, 0, 0, 0, 0, 0, 0, 0, 46 }; static const yytype_int8 yycheck[] = { 23, 43, 17, 5, 6, 32, 78, 9, 10, 18, 7, 20, 9, 0, 16, 57, 88, 9, 45, 61, 22, 18, 3, 20, 8, 9, 18, 19, 20, 13, 11, 20, 8, 22, 18, 17, 20, 13, 18, 19, 17, 64, 17, 19, 67, 7, 8, 9, 9, 10, 4, 13, 3, 4, 13, 14, 19, 20, 22, 23, 9, 19, 12, 20, 20, 18, 21, 9, 9, 13, 9, 19, 10, 9, 19, 15, 19, 9, 9, 16, 9, 5, 9, 57, 12, 7, 21, 20, 87, 23, -1, -1, -1, -1, 46, 42, -1, -1, -1, -1, -1, -1, -1, 33 }; /* YYSTOS[STATE-NUM] -- The (internal number of the) accessing symbol of state STATE-NUM. */ static const yytype_uint8 yystos[] = { 0, 17, 25, 3, 11, 26, 27, 29, 0, 18, 19, 17, 17, 28, 17, 28, 9, 10, 9, 12, 4, 27, 8, 9, 13, 18, 20, 31, 34, 35, 41, 42, 20, 30, 19, 18, 18, 20, 42, 21, 9, 9, 19, 32, 31, 19, 34, 9, 10, 9, 15, 19, 19, 7, 9, 33, 35, 19, 41, 14, 31, 32, 19, 20, 9, 16, 21, 9, 33, 41, 41, 9, 42, 5, 6, 9, 10, 16, 22, 36, 37, 38, 39, 40, 20, 9, 40, 20, 22, 23, 37, 40, 9 }; #define yyerrok (yyerrstatus = 0) #define yyclearin (yychar = YYEMPTY) #define YYEMPTY (-2) #define YYEOF 0 #define YYACCEPT goto yyacceptlab #define YYABORT goto yyabortlab #define YYERROR goto yyerrorlab /* Like YYERROR except do call yyerror. This remains here temporarily to ease the transition to the new meaning of YYERROR, for GCC. Once GCC version 2 has supplanted version 1, this can go. */ #define YYFAIL goto yyerrlab #define YYRECOVERING() (!!yyerrstatus) #define YYBACKUP(Token, Value) \ do \ if (yychar == YYEMPTY && yylen == 1) \ { \ yychar = (Token); \ yylval = (Value); \ yytoken = YYTRANSLATE (yychar); \ YYPOPSTACK (1); \ goto yybackup; \ } \ else \ { \ yyerror (ofwdev, YY_("syntax error: cannot back up")); \ YYERROR; \ } \ while (YYID (0)) #define YYTERROR 1 #define YYERRCODE 256 /* YYLLOC_DEFAULT -- Set CURRENT to span from RHS[1] to RHS[N]. If N is 0, then set CURRENT to the empty location which ends the previous symbol: RHS[0] (always defined). */ #define YYRHSLOC(Rhs, K) ((Rhs)[K]) #ifndef YYLLOC_DEFAULT # define YYLLOC_DEFAULT(Current, Rhs, N) \ do \ if (YYID (N)) \ { \ (Current).first_line = YYRHSLOC (Rhs, 1).first_line; \ (Current).first_column = YYRHSLOC (Rhs, 1).first_column; \ (Current).last_line = YYRHSLOC (Rhs, N).last_line; \ (Current).last_column = YYRHSLOC (Rhs, N).last_column; \ } \ else \ { \ (Current).first_line = (Current).last_line = \ YYRHSLOC (Rhs, 0).last_line; \ (Current).first_column = (Current).last_column = \ YYRHSLOC (Rhs, 0).last_column; \ } \ while (YYID (0)) #endif /* YY_LOCATION_PRINT -- Print the location on the stream. This macro was not mandated originally: define only if we know we won't break user code: when these are the locations we know. */ #ifndef YY_LOCATION_PRINT # if YYLTYPE_IS_TRIVIAL # define YY_LOCATION_PRINT(File, Loc) \ fprintf (File, "%d.%d-%d.%d", \ (Loc).first_line, (Loc).first_column, \ (Loc).last_line, (Loc).last_column) # else # define YY_LOCATION_PRINT(File, Loc) ((void) 0) # endif #endif /* YYLEX -- calling `yylex' with the right arguments. */ #ifdef YYLEX_PARAM # define YYLEX yylex (YYLEX_PARAM) #else # define YYLEX yylex () #endif /* Enable debugging if requested. */ #if YYDEBUG # ifndef YYFPRINTF # include /* INFRINGES ON USER NAME SPACE */ # define YYFPRINTF fprintf # endif # define YYDPRINTF(Args) \ do { \ if (yydebug) \ YYFPRINTF Args; \ } while (YYID (0)) # define YY_SYMBOL_PRINT(Title, Type, Value, Location) \ do { \ if (yydebug) \ { \ YYFPRINTF (stderr, "%s ", Title); \ yy_symbol_print (stderr, \ Type, Value, Location, ofwdev); \ YYFPRINTF (stderr, "\n"); \ } \ } while (YYID (0)) /*--------------------------------. | Print this symbol on YYOUTPUT. | `--------------------------------*/ /*ARGSUSED*/ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static void yy_symbol_value_print (FILE *yyoutput, int yytype, YYSTYPE const * const yyvaluep, YYLTYPE const * const yylocationp, struct ofw_dev *ofwdev) #else static void yy_symbol_value_print (yyoutput, yytype, yyvaluep, yylocationp, ofwdev) FILE *yyoutput; int yytype; YYSTYPE const * const yyvaluep; YYLTYPE const * const yylocationp; struct ofw_dev *ofwdev; #endif { if (!yyvaluep) return; YYUSE (yylocationp); YYUSE (ofwdev); # ifdef YYPRINT if (yytype < YYNTOKENS) YYPRINT (yyoutput, yytoknum[yytype], *yyvaluep); # else YYUSE (yyoutput); # endif switch (yytype) { default: break; } } /*--------------------------------. | Print this symbol on YYOUTPUT. | `--------------------------------*/ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static void yy_symbol_print (FILE *yyoutput, int yytype, YYSTYPE const * const yyvaluep, YYLTYPE const * const yylocationp, struct ofw_dev *ofwdev) #else static void yy_symbol_print (yyoutput, yytype, yyvaluep, yylocationp, ofwdev) FILE *yyoutput; int yytype; YYSTYPE const * const yyvaluep; YYLTYPE const * const yylocationp; struct ofw_dev *ofwdev; #endif { if (yytype < YYNTOKENS) YYFPRINTF (yyoutput, "token %s (", yytname[yytype]); else YYFPRINTF (yyoutput, "nterm %s (", yytname[yytype]); YY_LOCATION_PRINT (yyoutput, *yylocationp); YYFPRINTF (yyoutput, ": "); yy_symbol_value_print (yyoutput, yytype, yyvaluep, yylocationp, ofwdev); YYFPRINTF (yyoutput, ")"); } /*------------------------------------------------------------------. | yy_stack_print -- Print the state stack from its BOTTOM up to its | | TOP (included). | `------------------------------------------------------------------*/ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static void yy_stack_print (yytype_int16 *bottom, yytype_int16 *top) #else static void yy_stack_print (bottom, top) yytype_int16 *bottom; yytype_int16 *top; #endif { YYFPRINTF (stderr, "Stack now"); for (; bottom <= top; ++bottom) YYFPRINTF (stderr, " %d", *bottom); YYFPRINTF (stderr, "\n"); } # define YY_STACK_PRINT(Bottom, Top) \ do { \ if (yydebug) \ yy_stack_print ((Bottom), (Top)); \ } while (YYID (0)) /*------------------------------------------------. | Report that the YYRULE is going to be reduced. | `------------------------------------------------*/ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static void yy_reduce_print (YYSTYPE *yyvsp, YYLTYPE *yylsp, int yyrule, struct ofw_dev *ofwdev) #else static void yy_reduce_print (yyvsp, yylsp, yyrule, ofwdev) YYSTYPE *yyvsp; YYLTYPE *yylsp; int yyrule; struct ofw_dev *ofwdev; #endif { int yynrhs = yyr2[yyrule]; int yyi; unsigned long int yylno = yyrline[yyrule]; YYFPRINTF (stderr, "Reducing stack by rule %d (line %lu):\n", yyrule - 1, yylno); /* The symbols being reduced. */ for (yyi = 0; yyi < yynrhs; yyi++) { fprintf (stderr, " $%d = ", yyi + 1); yy_symbol_print (stderr, yyrhs[yyprhs[yyrule] + yyi], &(yyvsp[(yyi + 1) - (yynrhs)]) , &(yylsp[(yyi + 1) - (yynrhs)]) , ofwdev); fprintf (stderr, "\n"); } } # define YY_REDUCE_PRINT(Rule) \ do { \ if (yydebug) \ yy_reduce_print (yyvsp, yylsp, Rule, ofwdev); \ } while (YYID (0)) /* Nonzero means print parse trace. It is left uninitialized so that multiple parsers can coexist. */ int yydebug; #else /* !YYDEBUG */ # define YYDPRINTF(Args) # define YY_SYMBOL_PRINT(Title, Type, Value, Location) # define YY_STACK_PRINT(Bottom, Top) # define YY_REDUCE_PRINT(Rule) #endif /* !YYDEBUG */ /* YYINITDEPTH -- initial size of the parser's stacks. */ #ifndef YYINITDEPTH # define YYINITDEPTH 200 #endif /* YYMAXDEPTH -- maximum size the stacks can grow to (effective only if the built-in stack extension method is used). Do not make this value too large; the results are undefined if YYSTACK_ALLOC_MAXIMUM < YYSTACK_BYTES (YYMAXDEPTH) evaluated with infinite-precision integer arithmetic. */ #ifndef YYMAXDEPTH # define YYMAXDEPTH 10000 #endif #if YYERROR_VERBOSE # ifndef yystrlen # if defined __GLIBC__ && defined _STRING_H # define yystrlen strlen # else /* Return the length of YYSTR. */ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static YYSIZE_T yystrlen (const char *yystr) #else static YYSIZE_T yystrlen (yystr) const char *yystr; #endif { YYSIZE_T yylen; for (yylen = 0; yystr[yylen]; yylen++) continue; return yylen; } # endif # endif # ifndef yystpcpy # if defined __GLIBC__ && defined _STRING_H && defined _GNU_SOURCE # define yystpcpy stpcpy # else /* Copy YYSRC to YYDEST, returning the address of the terminating '\0' in YYDEST. */ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static char * yystpcpy (char *yydest, const char *yysrc) #else static char * yystpcpy (yydest, yysrc) char *yydest; const char *yysrc; #endif { char *yyd = yydest; const char *yys = yysrc; while ((*yyd++ = *yys++) != '\0') continue; return yyd - 1; } # endif # endif # ifndef yytnamerr /* Copy to YYRES the contents of YYSTR after stripping away unnecessary quotes and backslashes, so that it's suitable for yyerror. The heuristic is that double-quoting is unnecessary unless the string contains an apostrophe, a comma, or backslash (other than backslash-backslash). YYSTR is taken from yytname. If YYRES is null, do not copy; instead, return the length of what the result would have been. */ static YYSIZE_T yytnamerr (char *yyres, const char *yystr) { if (*yystr == '"') { YYSIZE_T yyn = 0; char const *yyp = yystr; for (;;) switch (*++yyp) { case '\'': case ',': goto do_not_strip_quotes; case '\\': if (*++yyp != '\\') goto do_not_strip_quotes; /* Fall through. */ default: if (yyres) yyres[yyn] = *yyp; yyn++; break; case '"': if (yyres) yyres[yyn] = '\0'; return yyn; } do_not_strip_quotes: ; } if (! yyres) return yystrlen (yystr); return yystpcpy (yyres, yystr) - yyres; } # endif /* Copy into YYRESULT an error message about the unexpected token YYCHAR while in state YYSTATE. Return the number of bytes copied, including the terminating null byte. If YYRESULT is null, do not copy anything; just return the number of bytes that would be copied. As a special case, return 0 if an ordinary "syntax error" message will do. Return YYSIZE_MAXIMUM if overflow occurs during size calculation. */ static YYSIZE_T yysyntax_error (char *yyresult, int yystate, int yychar) { int yyn = yypact[yystate]; if (! (YYPACT_NINF < yyn && yyn <= YYLAST)) return 0; else { int yytype = YYTRANSLATE (yychar); YYSIZE_T yysize0 = yytnamerr (0, yytname[yytype]); YYSIZE_T yysize = yysize0; YYSIZE_T yysize1; int yysize_overflow = 0; enum { YYERROR_VERBOSE_ARGS_MAXIMUM = 5 }; char const *yyarg[YYERROR_VERBOSE_ARGS_MAXIMUM]; int yyx; # if 0 /* This is so xgettext sees the translatable formats that are constructed on the fly. */ YY_("syntax error, unexpected %s"); YY_("syntax error, unexpected %s, expecting %s"); YY_("syntax error, unexpected %s, expecting %s or %s"); YY_("syntax error, unexpected %s, expecting %s or %s or %s"); YY_("syntax error, unexpected %s, expecting %s or %s or %s or %s"); # endif char *yyfmt; char const *yyf; static char const yyunexpected[] = "syntax error, unexpected %s"; static char const yyexpecting[] = ", expecting %s"; static char const yyor[] = " or %s"; char yyformat[sizeof yyunexpected + sizeof yyexpecting - 1 + ((YYERROR_VERBOSE_ARGS_MAXIMUM - 2) * (sizeof yyor - 1))]; char const *yyprefix = yyexpecting; /* Start YYX at -YYN if negative to avoid negative indexes in YYCHECK. */ int yyxbegin = yyn < 0 ? -yyn : 0; /* Stay within bounds of both yycheck and yytname. */ int yychecklim = YYLAST - yyn + 1; int yyxend = yychecklim < YYNTOKENS ? yychecklim : YYNTOKENS; int yycount = 1; yyarg[0] = yytname[yytype]; yyfmt = yystpcpy (yyformat, yyunexpected); for (yyx = yyxbegin; yyx < yyxend; ++yyx) if (yycheck[yyx + yyn] == yyx && yyx != YYTERROR) { if (yycount == YYERROR_VERBOSE_ARGS_MAXIMUM) { yycount = 1; yysize = yysize0; yyformat[sizeof yyunexpected - 1] = '\0'; break; } yyarg[yycount++] = yytname[yyx]; yysize1 = yysize + yytnamerr (0, yytname[yyx]); yysize_overflow |= (yysize1 < yysize); yysize = yysize1; yyfmt = yystpcpy (yyfmt, yyprefix); yyprefix = yyor; } yyf = YY_(yyformat); yysize1 = yysize + yystrlen (yyf); yysize_overflow |= (yysize1 < yysize); yysize = yysize1; if (yysize_overflow) return YYSIZE_MAXIMUM; if (yyresult) { /* Avoid sprintf, as that infringes on the user's name space. Don't have undefined behavior even if the translation produced a string with the wrong number of "%s"s. */ char *yyp = yyresult; int yyi = 0; while ((*yyp = *yyf) != '\0') { if (*yyp == '%' && yyf[1] == 's' && yyi < yycount) { yyp += yytnamerr (yyp, yyarg[yyi++]); yyf += 2; } else { yyp++; yyf++; } } } return yysize; } } #endif /* YYERROR_VERBOSE */ /*-----------------------------------------------. | Release the memory associated to this symbol. | `-----------------------------------------------*/ /*ARGSUSED*/ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) static void yydestruct (const char *yymsg, int yytype, YYSTYPE *yyvaluep, YYLTYPE *yylocationp, struct ofw_dev *ofwdev) #else static void yydestruct (yymsg, yytype, yyvaluep, yylocationp, ofwdev) const char *yymsg; int yytype; YYSTYPE *yyvaluep; YYLTYPE *yylocationp; struct ofw_dev *ofwdev; #endif { YYUSE (yyvaluep); YYUSE (yylocationp); YYUSE (ofwdev); if (!yymsg) yymsg = "Deleting"; YY_SYMBOL_PRINT (yymsg, yytype, yyvaluep, yylocationp); switch (yytype) { default: break; } } /* Prevent warnings from -Wmissing-prototypes. */ #ifdef YYPARSE_PARAM #if defined __STDC__ || defined __cplusplus int yyparse (void *YYPARSE_PARAM); #else int yyparse (); #endif #else /* ! YYPARSE_PARAM */ #if defined __STDC__ || defined __cplusplus int yyparse (struct ofw_dev *ofwdev); #else int yyparse (); #endif #endif /* ! YYPARSE_PARAM */ /* The look-ahead symbol. */ int yychar; /* The semantic value of the look-ahead symbol. */ YYSTYPE yylval; /* Number of syntax errors so far. */ int yynerrs; /* Location data for the look-ahead symbol. */ YYLTYPE yylloc; /*----------. | yyparse. | `----------*/ #ifdef YYPARSE_PARAM #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) int yyparse (void *YYPARSE_PARAM) #else int yyparse (YYPARSE_PARAM) void *YYPARSE_PARAM; #endif #else /* ! YYPARSE_PARAM */ #if (defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER) int yyparse (struct ofw_dev *ofwdev) #else int yyparse (ofwdev) struct ofw_dev *ofwdev; #endif #endif { int yystate; int yyn; int yyresult; /* Number of tokens to shift before error messages enabled. */ int yyerrstatus; /* Look-ahead token as an internal (translated) token number. */ int yytoken = 0; #if YYERROR_VERBOSE /* Buffer for error messages, and its allocated size. */ char yymsgbuf[128]; char *yymsg = yymsgbuf; YYSIZE_T yymsg_alloc = sizeof yymsgbuf; #endif /* Three stacks and their tools: `yyss': related to states, `yyvs': related to semantic values, `yyls': related to locations. Refer to the stacks thru separate pointers, to allow yyoverflow to reallocate them elsewhere. */ /* The state stack. */ yytype_int16 yyssa[YYINITDEPTH]; yytype_int16 *yyss = yyssa; yytype_int16 *yyssp; /* The semantic value stack. */ YYSTYPE yyvsa[YYINITDEPTH]; YYSTYPE *yyvs = yyvsa; YYSTYPE *yyvsp; /* The location stack. */ YYLTYPE yylsa[YYINITDEPTH]; YYLTYPE *yyls = yylsa; YYLTYPE *yylsp; /* The locations where the error started and ended. */ YYLTYPE yyerror_range[2]; #define YYPOPSTACK(N) (yyvsp -= (N), yyssp -= (N), yylsp -= (N)) YYSIZE_T yystacksize = YYINITDEPTH; /* The variables used to return semantic value and location from the action routines. */ YYSTYPE yyval; YYLTYPE yyloc; /* The number of symbols on the RHS of the reduced rule. Keep to zero when no symbol should be popped. */ int yylen = 0; YYDPRINTF ((stderr, "Starting parse\n")); yystate = 0; yyerrstatus = 0; yynerrs = 0; yychar = YYEMPTY; /* Cause a token to be read. */ /* Initialize stack pointers. Waste one element of value and location stack so that they stay on the same level as the state stack. The wasted elements are never initialized. */ yyssp = yyss; yyvsp = yyvs; yylsp = yyls; #if YYLTYPE_IS_TRIVIAL /* Initialize the default location before parsing starts. */ yylloc.first_line = yylloc.last_line = 1; yylloc.first_column = yylloc.last_column = 0; #endif goto yysetstate; /*------------------------------------------------------------. | yynewstate -- Push a new state, which is found in yystate. | `------------------------------------------------------------*/ yynewstate: /* In all cases, when you get here, the value and location stacks have just been pushed. So pushing a state here evens the stacks. */ yyssp++; yysetstate: *yyssp = yystate; if (yyss + yystacksize - 1 <= yyssp) { /* Get the current used size of the three stacks, in elements. */ YYSIZE_T yysize = yyssp - yyss + 1; #ifdef yyoverflow { /* Give user a chance to reallocate the stack. Use copies of these so that the &'s don't force the real ones into memory. */ YYSTYPE *yyvs1 = yyvs; yytype_int16 *yyss1 = yyss; YYLTYPE *yyls1 = yyls; /* Each stack pointer address is followed by the size of the data in use in that stack, in bytes. This used to be a conditional around just the two extra args, but that might be undefined if yyoverflow is a macro. */ yyoverflow (YY_("memory exhausted"), &yyss1, yysize * sizeof (*yyssp), &yyvs1, yysize * sizeof (*yyvsp), &yyls1, yysize * sizeof (*yylsp), &yystacksize); yyls = yyls1; yyss = yyss1; yyvs = yyvs1; } #else /* no yyoverflow */ # ifndef YYSTACK_RELOCATE goto yyexhaustedlab; # else /* Extend the stack our own way. */ if (YYMAXDEPTH <= yystacksize) goto yyexhaustedlab; yystacksize *= 2; if (YYMAXDEPTH < yystacksize) yystacksize = YYMAXDEPTH; { yytype_int16 *yyss1 = yyss; union yyalloc *yyptr = (union yyalloc *) YYSTACK_ALLOC (YYSTACK_BYTES (yystacksize)); if (! yyptr) goto yyexhaustedlab; YYSTACK_RELOCATE (yyss); YYSTACK_RELOCATE (yyvs); YYSTACK_RELOCATE (yyls); # undef YYSTACK_RELOCATE if (yyss1 != yyssa) YYSTACK_FREE (yyss1); } # endif #endif /* no yyoverflow */ yyssp = yyss + yysize - 1; yyvsp = yyvs + yysize - 1; yylsp = yyls + yysize - 1; YYDPRINTF ((stderr, "Stack size increased to %lu\n", (unsigned long int) yystacksize)); if (yyss + yystacksize - 1 <= yyssp) YYABORT; } YYDPRINTF ((stderr, "Entering state %d\n", yystate)); goto yybackup; /*-----------. | yybackup. | `-----------*/ yybackup: /* Do appropriate processing given the current state. Read a look-ahead token if we need one and don't already have one. */ /* First try to decide what to do without reference to look-ahead token. */ yyn = yypact[yystate]; if (yyn == YYPACT_NINF) goto yydefault; /* Not known => get a look-ahead token if don't already have one. */ /* YYCHAR is either YYEMPTY or YYEOF or a valid look-ahead symbol. */ if (yychar == YYEMPTY) { YYDPRINTF ((stderr, "Reading a token: ")); yychar = YYLEX; } if (yychar <= YYEOF) { yychar = yytoken = YYEOF; YYDPRINTF ((stderr, "Now at end of input.\n")); } else { yytoken = YYTRANSLATE (yychar); YY_SYMBOL_PRINT ("Next token is", yytoken, &yylval, &yylloc); } /* If the proper action on seeing token YYTOKEN is to reduce or to detect an error, take that action. */ yyn += yytoken; if (yyn < 0 || YYLAST < yyn || yycheck[yyn] != yytoken) goto yydefault; yyn = yytable[yyn]; if (yyn <= 0) { if (yyn == 0 || yyn == YYTABLE_NINF) goto yyerrlab; yyn = -yyn; goto yyreduce; } if (yyn == YYFINAL) YYACCEPT; /* Count tokens shifted since error; after three, turn off error status. */ if (yyerrstatus) yyerrstatus--; /* Shift the look-ahead token. */ YY_SYMBOL_PRINT ("Shifting", yytoken, &yylval, &yylloc); /* Discard the shifted token unless it is eof. */ if (yychar != YYEOF) yychar = YYEMPTY; yystate = yyn; *++yyvsp = yylval; *++yylsp = yylloc; goto yynewstate; /*-----------------------------------------------------------. | yydefault -- do the default action for the current state. | `-----------------------------------------------------------*/ yydefault: yyn = yydefact[yystate]; if (yyn == 0) goto yyerrlab; goto yyreduce; /*-----------------------------. | yyreduce -- Do a reduction. | `-----------------------------*/ yyreduce: /* yyn is the number of a rule to reduce with. */ yylen = yyr2[yyn]; /* If YYLEN is nonzero, implement the default value of the action: `$$ = $1'. Otherwise, the following line sets YYVAL to garbage. This behavior is undocumented and Bison users should not rely upon it. Assigning to YYVAL unconditionally makes the parser a bit smaller, and it avoids a GCC warning that YYVAL may be used uninitialized. */ yyval = yyvsp[1-yylen]; /* Default location. */ YYLLOC_DEFAULT (yyloc, (yylsp - yylen), yylen); YY_REDUCE_PRINT (yyn); switch (yyn) { case 2: #line 58 "prom_parse.y" { DPRINT("****rootonly: \"%s\"\n", "/"); ;} break; case 3: #line 61 "prom_parse.y" { DPRINT("****devpath busses:\n/%s/%s\n", (yyvsp[(2) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 4: #line 64 "prom_parse.y" { ofwdev->dev_path = malloc(strlen((yyvsp[(2) - (4)].str)) + strlen((yyvsp[(3) - (4)].str)) + 3); sprintf(ofwdev->dev_path, "/%s%s", (yyvsp[(2) - (4)].str), (yyvsp[(3) - (4)].str)); DPRINT("****devpath busses bootdev " "disklabel:\n/%s/%s%s\n", (yyvsp[(2) - (4)].str), (yyvsp[(3) - (4)].str), (yyvsp[(4) - (4)].str)); ;} break; case 5: #line 72 "prom_parse.y" { ofwdev->dev_path = malloc(strlen((yyvsp[(2) - (5)].str)) + strlen((yyvsp[(3) - (5)].str)) + 3); sprintf(ofwdev->dev_path, "/%s%s", (yyvsp[(2) - (5)].str), (yyvsp[(3) - (5)].str)); DPRINT("****busses bootdev obp_quals obp_parms:\n" "/%s/%s:%s%s\n", (yyvsp[(2) - (5)].str), (yyvsp[(3) - (5)].str), (yyvsp[(4) - (5)].str), (yyvsp[(5) - (5)].str)); ;} break; case 6: #line 80 "prom_parse.y" { ofwdev->dev_path = malloc(strlen((yyvsp[(2) - (6)].str)) + strlen((yyvsp[(3) - (6)].str)) + 3); sprintf(ofwdev->dev_path, "/%s%s", (yyvsp[(2) - (6)].str), (yyvsp[(3) - (6)].str)); DPRINT("****busses bootdev obp_quals obp_parms " "disklabel:\n/%s:%s%s%s\n", (yyvsp[(2) - (6)].str), (yyvsp[(4) - (6)].str), (yyvsp[(5) - (6)].str), (yyvsp[(6) - (6)].str)); ;} break; case 7: #line 87 "prom_parse.y" { DPRINT("****vdevice bootdev obp_parms " "disklabel:\n/%s:%s%s%s%s\n", (yyvsp[(2) - (7)].str), (yyvsp[(4) - (7)].str), (yyvsp[(5) - (7)].str), (yyvsp[(6) - (7)].str), (yyvsp[(7) - (7)].str)); ;} break; case 8: #line 94 "prom_parse.y" { strcpy((yyval.str), (yyvsp[(1) - (1)].str)); ;} break; case 9: #line 97 "prom_parse.y" { sprintf((yyval.str), "%s/%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 10: #line 102 "prom_parse.y" { strcpy((yyval.str), (yyvsp[(1) - (1)].str)); ;} break; case 11: #line 105 "prom_parse.y" { sprintf((yyval.str), "%s@%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 12: #line 108 "prom_parse.y" { sprintf((yyval.str), "%s@%s,%s", (yyvsp[(1) - (5)].str), (yyvsp[(3) - (5)].str), (yyvsp[(5) - (5)].str)); ;} break; case 13: #line 111 "prom_parse.y" { sprintf((yyval.str), "%s@%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 14: #line 114 "prom_parse.y" { sprintf((yyval.str), "%s,%s@%s", (yyvsp[(1) - (5)].str), (yyvsp[(3) - (5)].str), (yyvsp[(5) - (5)].str)); ;} break; case 15: #line 120 "prom_parse.y" { sprintf((yyval.str), "/%s", (yyvsp[(2) - (3)].str)); ;} break; case 16: #line 123 "prom_parse.y" { sprintf((yyval.str), "/%s@%s", (yyvsp[(2) - (5)].str), (yyvsp[(4) - (5)].str)); ;} break; case 17: #line 126 "prom_parse.y" { sprintf((yyval.str), "/%s@%s,%s", (yyvsp[(2) - (7)].str), (yyvsp[(4) - (7)].str), (yyvsp[(6) - (7)].str)); ;} break; case 18: #line 131 "prom_parse.y" { sprintf((yyval.str), "%s/%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 19: #line 136 "prom_parse.y" { sprintf((yyval.str), ":%s", (yyvsp[(2) - (2)].str)); ;} break; case 20: #line 139 "prom_parse.y" { sprintf((yyval.str), "%s,%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 21: #line 142 "prom_parse.y" { sprintf((yyval.str), "%s,%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 22: #line 147 "prom_parse.y" { sprintf((yyval.str), "%s=%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 23: #line 152 "prom_parse.y" { sprintf((yyval.str), ",%s", (yyvsp[(2) - (2)].str)); ;} break; case 24: #line 155 "prom_parse.y" { sprintf((yyval.str), "%s,%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 25: #line 158 "prom_parse.y" { sprintf((yyval.str), "%s,%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 26: #line 163 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 27: #line 166 "prom_parse.y" { /* luns > 0 are the SAM-3+ hex representation. */ obp_parm_hexnum(ofwdev, (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); sprintf((yyval.str), "%s=%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 28: #line 171 "prom_parse.y" { obp_parm_addr(ofwdev, (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); sprintf((yyval.str), "%s=%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 29: #line 175 "prom_parse.y" { obp_parm_iqn(ofwdev, (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); sprintf((yyval.str), "%s=%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 30: #line 179 "prom_parse.y" { obp_parm_hexnum(ofwdev, (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); sprintf((yyval.str), "%s=%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 31: #line 183 "prom_parse.y" { obp_parm_str(ofwdev, (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); sprintf((yyval.str), "%s=%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 32: #line 189 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 33: #line 192 "prom_parse.y" { sprintf((yyval.str), "%s,%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 34: #line 197 "prom_parse.y" { sprintf((yyval.str), "%s", obp_qual_set(ofwdev, (yyvsp[(1) - (1)].str))); ;} break; case 35: #line 200 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 36: #line 205 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 37: #line 208 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 38: #line 213 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 39: #line 218 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 40: #line 221 "prom_parse.y" { sprintf((yyval.str), "%s:%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 41: #line 226 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 42: #line 229 "prom_parse.y" { sprintf((yyval.str), "%s::", (yyvsp[(1) - (2)].str)); ;} break; case 43: #line 232 "prom_parse.y" { sprintf((yyval.str), "%s::%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 44: #line 235 "prom_parse.y" { sprintf((yyval.str), "::%s", (yyvsp[(2) - (2)].str)); ;} break; case 45: #line 240 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 46: #line 243 "prom_parse.y" { sprintf((yyval.str), "%s:%s", (yyvsp[(1) - (3)].str), (yyvsp[(3) - (3)].str)); ;} break; case 47: #line 248 "prom_parse.y" { sprintf((yyval.str), "%s", (yyvsp[(1) - (1)].str)); ;} break; case 48: #line 251 "prom_parse.y" { sprintf((yyval.str), "%s%s", (yyvsp[(1) - (2)].str), (yyvsp[(2) - (2)].str)); ;} break; case 49: #line 254 "prom_parse.y" { sprintf((yyval.str), "@%s,%s%s", (yyvsp[(2) - (5)].str), (yyvsp[(4) - (5)].str), (yyvsp[(5) - (5)].str)); ;} break; case 50: #line 259 "prom_parse.y" { sprintf((yyval.str), ":%s", (yyvsp[(2) - (2)].str)); ;} break; case 51: #line 262 "prom_parse.y" { sprintf((yyval.str), ":%s,%s", (yyvsp[(2) - (4)].str), (yyvsp[(4) - (4)].str)); ;} break; /* Line 1267 of yacc.c. */ #line 1848 "prom_parse.tab.c" default: break; } YY_SYMBOL_PRINT ("-> $$ =", yyr1[yyn], &yyval, &yyloc); YYPOPSTACK (yylen); yylen = 0; YY_STACK_PRINT (yyss, yyssp); *++yyvsp = yyval; *++yylsp = yyloc; /* Now `shift' the result of the reduction. Determine what state that goes to, based on the state we popped back to and the rule number reduced by. */ yyn = yyr1[yyn]; yystate = yypgoto[yyn - YYNTOKENS] + *yyssp; if (0 <= yystate && yystate <= YYLAST && yycheck[yystate] == *yyssp) yystate = yytable[yystate]; else yystate = yydefgoto[yyn - YYNTOKENS]; goto yynewstate; /*------------------------------------. | yyerrlab -- here on detecting error | `------------------------------------*/ yyerrlab: /* If not already recovering from an error, report this error. */ if (!yyerrstatus) { ++yynerrs; #if ! YYERROR_VERBOSE yyerror (ofwdev, YY_("syntax error")); #else { YYSIZE_T yysize = yysyntax_error (0, yystate, yychar); if (yymsg_alloc < yysize && yymsg_alloc < YYSTACK_ALLOC_MAXIMUM) { YYSIZE_T yyalloc = 2 * yysize; if (! (yysize <= yyalloc && yyalloc <= YYSTACK_ALLOC_MAXIMUM)) yyalloc = YYSTACK_ALLOC_MAXIMUM; if (yymsg != yymsgbuf) YYSTACK_FREE (yymsg); yymsg = (char *) YYSTACK_ALLOC (yyalloc); if (yymsg) yymsg_alloc = yyalloc; else { yymsg = yymsgbuf; yymsg_alloc = sizeof yymsgbuf; } } if (0 < yysize && yysize <= yymsg_alloc) { (void) yysyntax_error (yymsg, yystate, yychar); yyerror (ofwdev, yymsg); } else { yyerror (ofwdev, YY_("syntax error")); if (yysize != 0) goto yyexhaustedlab; } } #endif } yyerror_range[0] = yylloc; if (yyerrstatus == 3) { /* If just tried and failed to reuse look-ahead token after an error, discard it. */ if (yychar <= YYEOF) { /* Return failure if at end of input. */ if (yychar == YYEOF) YYABORT; } else { yydestruct ("Error: discarding", yytoken, &yylval, &yylloc, ofwdev); yychar = YYEMPTY; } } /* Else will try to reuse look-ahead token after shifting the error token. */ goto yyerrlab1; /*---------------------------------------------------. | yyerrorlab -- error raised explicitly by YYERROR. | `---------------------------------------------------*/ yyerrorlab: /* Pacify compilers like GCC when the user code never invokes YYERROR and the label yyerrorlab therefore never appears in user code. */ if (/*CONSTCOND*/ 0) goto yyerrorlab; yyerror_range[0] = yylsp[1-yylen]; /* Do not reclaim the symbols of the rule which action triggered this YYERROR. */ YYPOPSTACK (yylen); yylen = 0; YY_STACK_PRINT (yyss, yyssp); yystate = *yyssp; goto yyerrlab1; /*-------------------------------------------------------------. | yyerrlab1 -- common code for both syntax error and YYERROR. | `-------------------------------------------------------------*/ yyerrlab1: yyerrstatus = 3; /* Each real token shifted decrements this. */ for (;;) { yyn = yypact[yystate]; if (yyn != YYPACT_NINF) { yyn += YYTERROR; if (0 <= yyn && yyn <= YYLAST && yycheck[yyn] == YYTERROR) { yyn = yytable[yyn]; if (0 < yyn) break; } } /* Pop the current state because it cannot handle the error token. */ if (yyssp == yyss) YYABORT; yyerror_range[0] = *yylsp; yydestruct ("Error: popping", yystos[yystate], yyvsp, yylsp, ofwdev); YYPOPSTACK (1); yystate = *yyssp; YY_STACK_PRINT (yyss, yyssp); } if (yyn == YYFINAL) YYACCEPT; *++yyvsp = yylval; yyerror_range[1] = yylloc; /* Using YYLLOC is tempting, but would change the location of the look-ahead. YYLOC is available though. */ YYLLOC_DEFAULT (yyloc, (yyerror_range - 1), 2); *++yylsp = yyloc; /* Shift the error token. */ YY_SYMBOL_PRINT ("Shifting", yystos[yyn], yyvsp, yylsp); yystate = yyn; goto yynewstate; /*-------------------------------------. | yyacceptlab -- YYACCEPT comes here. | `-------------------------------------*/ yyacceptlab: yyresult = 0; goto yyreturn; /*-----------------------------------. | yyabortlab -- YYABORT comes here. | `-----------------------------------*/ yyabortlab: yyresult = 1; goto yyreturn; #ifndef yyoverflow /*-------------------------------------------------. | yyexhaustedlab -- memory exhaustion comes here. | `-------------------------------------------------*/ yyexhaustedlab: yyerror (ofwdev, YY_("memory exhausted")); yyresult = 2; /* Fall through. */ #endif yyreturn: if (yychar != YYEOF && yychar != YYEMPTY) yydestruct ("Cleanup: discarding lookahead", yytoken, &yylval, &yylloc, ofwdev); /* Do not reclaim the symbols of the rule which action triggered this YYABORT or YYACCEPT. */ YYPOPSTACK (yylen); YY_STACK_PRINT (yyss, yyssp); while (yyssp != yyss) { yydestruct ("Cleanup: popping", yystos[*yyssp], yyvsp, yylsp, ofwdev); YYPOPSTACK (1); } #ifndef yyoverflow if (yyss != yyssa) YYSTACK_FREE (yyss); #endif #if YYERROR_VERBOSE if (yymsg != yymsgbuf) YYSTACK_FREE (yymsg); #endif /* Make sure YYID is used. */ return YYID (yyresult); } #line 267 "prom_parse.y" open-iscsi-2.0.874/utils/fwparam_ibft/prom_parse.tab.h000066400000000000000000000057261277325716400226630ustar00rootroot00000000000000/* A Bison parser, made by GNU Bison 2.3. */ /* Skeleton interface for Bison's Yacc-like parsers in C Copyright (C) 1984, 1989, 1990, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* As a special exception, you may create a larger work that contains part or all of the Bison parser skeleton and distribute that work under terms of your choice, so long as that work isn't itself a parser generator using the skeleton or a modified version thereof as a parser skeleton. Alternatively, if you modify or redistribute the parser skeleton itself, you may (at your option) remove this special exception, which will cause the skeleton and the resulting Bison output files to be licensed under the GNU General Public License without this special exception. This special exception was added by the Free Software Foundation in version 2.2 of Bison. */ /* Tokens. */ #ifndef YYTOKENTYPE # define YYTOKENTYPE /* Put the tokens into the symbol table, so that GDB and other debuggers know about them. */ enum yytokentype { BUSNAME = 258, BOOTDEV = 259, IPV4 = 260, IQN = 261, OBPPARM = 262, OBPQUAL = 263, HEX4 = 264, HEX16 = 265, VDEVICE = 266, VDEVINST = 267, VDEVDEV = 268, VDEVRAW = 269, CHOSEN = 270, FILENAME = 271 }; #endif /* Tokens. */ #define BUSNAME 258 #define BOOTDEV 259 #define IPV4 260 #define IQN 261 #define OBPPARM 262 #define OBPQUAL 263 #define HEX4 264 #define HEX16 265 #define VDEVICE 266 #define VDEVINST 267 #define VDEVDEV 268 #define VDEVRAW 269 #define CHOSEN 270 #define FILENAME 271 #if ! defined YYSTYPE && ! defined YYSTYPE_IS_DECLARED typedef union YYSTYPE #line 33 "prom_parse.y" { char str[256]; } /* Line 1489 of yacc.c. */ #line 85 "prom_parse.tab.h" YYSTYPE; # define yystype YYSTYPE /* obsolescent; will be withdrawn */ # define YYSTYPE_IS_DECLARED 1 # define YYSTYPE_IS_TRIVIAL 1 #endif extern YYSTYPE yylval; #if ! defined YYLTYPE && ! defined YYLTYPE_IS_DECLARED typedef struct YYLTYPE { int first_line; int first_column; int last_line; int last_column; } YYLTYPE; # define yyltype YYLTYPE /* obsolescent; will be withdrawn */ # define YYLTYPE_IS_DECLARED 1 # define YYLTYPE_IS_TRIVIAL 1 #endif extern YYLTYPE yylloc; open-iscsi-2.0.874/utils/fwparam_ibft/prom_parse.y000066400000000000000000000140561277325716400221330ustar00rootroot00000000000000/* * Copyright (C) IBM Corporation. 2007 * Author: Doug Maxey * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /* - DEFINITION section. */ %{ /* literal block. include lines, decls, defns. */ //#define YYDEBUG 1 #if YYDEBUG #define DPRINT(fmt,...) printf(fmt,__VA_ARGS__) #else #define DPRINT(fmt,...) do {} while(0) #endif #include "prom_parse.h" #include "iscsi_obp.h" %} %union { char str[256]; } /* definitions. */ %token BUSNAME BOOTDEV %token IPV4 IQN %token OBPPARM OBPQUAL %token HEX4 HEX16 %token VDEVICE VDEVINST VDEVDEV VDEVRAW %token CHOSEN %token FILENAME %type devpath busses bus bootdev %type disklabel diskpart %type vdevice vdev_parms vdev_parm %type obp_quals obp_qual obp_params obp_param %type ipaddr ipv4 ipv6 %type hexpart hexseq %locations %parse-param {struct ofw_dev *ofwdev} %% devpath: '/' { DPRINT("****rootonly: \"%s\"\n", "/"); } | '/' busses bootdev { DPRINT("****devpath busses:\n/%s/%s\n", $2, $3); } | '/' busses bootdev disklabel { ofwdev->dev_path = malloc(strlen($2) + strlen($3) + 3); sprintf(ofwdev->dev_path, "/%s%s", $2, $3); DPRINT("****devpath busses bootdev " "disklabel:\n/%s/%s%s\n", $2, $3, $4); } | '/' busses bootdev obp_quals obp_params { ofwdev->dev_path = malloc(strlen($2) + strlen($3) + 3); sprintf(ofwdev->dev_path, "/%s%s", $2, $3); DPRINT("****busses bootdev obp_quals obp_parms:\n" "/%s/%s:%s%s\n", $2, $3, $4, $5); } | '/' busses bootdev obp_quals obp_params disklabel { ofwdev->dev_path = malloc(strlen($2) + strlen($3) + 3); sprintf(ofwdev->dev_path, "/%s%s", $2, $3); DPRINT("****busses bootdev obp_quals obp_parms " "disklabel:\n/%s:%s%s%s\n", $2, $4, $5, $6); } | '/' vdevice bootdev vdev_parms obp_quals obp_params disklabel { DPRINT("****vdevice bootdev obp_parms " "disklabel:\n/%s:%s%s%s%s\n", $2, $4, $5, $6, $7); } ; busses: bus { strcpy($$, $1); } | busses '/' bus { sprintf($$, "%s/%s", $1, $3); } ; bus: BUSNAME { strcpy($$, $1); } | BUSNAME '@' HEX4 { sprintf($$, "%s@%s", $1, $3); } | BUSNAME '@' HEX4 ',' HEX4 { sprintf($$, "%s@%s,%s", $1, $3, $5); } | BUSNAME '@' HEX16 { sprintf($$, "%s@%s", $1, $3); } | BUSNAME ',' HEX4 '@' HEX16 { sprintf($$, "%s,%s@%s", $1, $3, $5); } ; bootdev: '/' BOOTDEV ':' { sprintf($$, "/%s", $2); } | '/' BOOTDEV '@' HEX4 ':' { sprintf($$, "/%s@%s", $2, $4); } | '/' BOOTDEV '@' HEX4 ',' HEX4 ':' { sprintf($$, "/%s@%s,%s", $2, $4, $6); } ; vdevice: VDEVICE '/' VDEVINST { sprintf($$, "%s/%s", $1, $3); } ; vdev_parms: ':' vdev_parm { sprintf($$, ":%s", $2); } | vdev_parms ',' vdev_parm { sprintf($$, "%s,%s", $1, $3); } | vdev_parms ',' VDEVRAW { sprintf($$, "%s,%s", $1, $3); } ; vdev_parm: VDEVDEV '=' CHOSEN { sprintf($$, "%s=%s", $1, $3); } ; obp_params: ',' obp_param { sprintf($$, ",%s", $2); } | obp_params ',' obp_param { sprintf($$, "%s,%s", $1, $3); } | obp_params ',' disklabel { sprintf($$, "%s,%s", $1, $3); } ; obp_param: HEX4 { sprintf($$, "%s", $1); } | OBPPARM '=' HEX16 { /* luns > 0 are the SAM-3+ hex representation. */ obp_parm_hexnum(ofwdev, $1, $3); sprintf($$, "%s=%s", $1, $3); } | OBPPARM '=' ipaddr { obp_parm_addr(ofwdev, $1, $3); sprintf($$, "%s=%s", $1, $3); } | OBPPARM '=' IQN { obp_parm_iqn(ofwdev, $1, $3); sprintf($$, "%s=%s", $1, $3); } | OBPPARM '=' HEX4 { obp_parm_hexnum(ofwdev, $1, $3); sprintf($$, "%s=%s", $1, $3); } | OBPPARM '=' FILENAME { obp_parm_str(ofwdev, $1, $3); sprintf($$, "%s=%s", $1, $3); } ; obp_quals: obp_qual { sprintf($$, "%s", $1); } | obp_quals ',' obp_qual { sprintf($$, "%s,%s", $1, $3); } ; obp_qual: OBPQUAL { sprintf($$, "%s", obp_qual_set(ofwdev, $1)); } | vdev_parm { sprintf($$, "%s", $1); } ; ipaddr: ipv4 { sprintf($$, "%s", $1); } | ipv6 { sprintf($$, "%s", $1); } ; ipv4: IPV4 { sprintf($$, "%s", $1); } ; ipv6: hexpart { sprintf($$, "%s", $1); } | hexpart ':' ipv4 { sprintf($$, "%s:%s", $1, $3); } ; hexpart: hexseq { sprintf($$, "%s", $1); } | hexpart "::" { sprintf($$, "%s::", $1); } | hexpart "::" hexseq { sprintf($$, "%s::%s", $1, $3); } | "::" hexseq { sprintf($$, "::%s", $2); } ; hexseq: HEX4 { sprintf($$, "%s", $1); } | hexseq ":" HEX4 { sprintf($$, "%s:%s", $1, $3); } ; disklabel: diskpart { sprintf($$, "%s", $1); } | HEX4 diskpart { sprintf($$, "%s%s", $1, $2); } | '@' HEX4 ',' HEX4 diskpart { sprintf($$, "@%s,%s%s", $2, $4, $5); } ; diskpart: ':' HEX4 { sprintf($$, ":%s", $2); } | ':' HEX4 ',' FILENAME { sprintf($$, ":%s,%s", $2, $4); } ; %% open-iscsi-2.0.874/utils/iscsi-gen-initiatorname000077500000000000000000000041421277325716400215740ustar00rootroot00000000000000#!/bin/bash # # /sbin/iscsi-gen-initiatorname # # Generate a default iSCSI Initiatorname for SUSE installations. # # Copyright (c) 2011 Hannes Reinecke, SUSE Labs # This script is licensed under the GPL. # if [ "$1" ] ; then if [ "$1" = "-f" ] ; then FORCE=1 else echo "Invalid option $1" echo "Usage: $0 [-f]" exit 1 fi fi if [ -d /sys/firmware/ibft/initiator ] ; then read iSCSI_INITIATOR_NAME < /sys/firmware/ibft/initiator/initiator-name fi if [ -f /etc/iscsi/initiatorname.iscsi -a -z "$FORCE" ] ; then if [ "$iSCSI_INITIATOR_NAME" ] ; then eval $(cat /etc/iscsi/initiatorname.iscsi | sed -e '/^#/d') if [ "$iSCSI_INITIATOR_NAME" != "$InitiatorName" ] ; then echo "iSCSI Initiatorname from iBFT is different from the current setting." echo "Please call '/sbin/iscsi-gen-initiatorname -f' to update the iSCSI Initiatorname." exit 1 fi fi fi if [ "$iSCSI_INITIATOR_NAME" ] ; then cat << EOF >> /etc/iscsi/initiatorname.iscsi ## ## /etc/iscsi/iscsi.initiatorname ## ## iSCSI Initiatorname taken from iBFT BIOS tables. ## ## DO NOT EDIT OR REMOVE THIS FILE! ## If you remove this file, the iSCSI daemon will not start. ## Any change here will not be reflected to the iBFT BIOS tables. ## If a different initiatorname is required please change the ## initiatorname in the BIOS setup and call ## /sbin/iscsi-gen-initiatorname -f ## to recreate an updated version of this file. ## InitiatorName=$iSCSI_INITIATOR_NAME EOF fi if [ ! -f /etc/iscsi/initiatorname.iscsi ] ; then cat << EOF >> /etc/iscsi/initiatorname.iscsi ## ## /etc/iscsi/iscsi.initiatorname ## ## Default iSCSI Initiatorname. ## ## DO NOT EDIT OR REMOVE THIS FILE! ## If you remove this file, the iSCSI daemon will not start. ## If you change the InitiatorName, existing access control lists ## may reject this initiator. The InitiatorName must be unique ## for each iSCSI initiator. Do NOT duplicate iSCSI InitiatorNames. EOF ISSUEDATE="1996-04" INAME=$(/sbin/iscsi-iname -p iqn.$ISSUEDATE.de.suse:01) printf "InitiatorName=$INAME\n" >>/etc/iscsi/initiatorname.iscsi chmod 0600 /etc/iscsi/initiatorname.iscsi fi open-iscsi-2.0.874/utils/iscsi-iname.c000066400000000000000000000077641277325716400175060ustar00rootroot00000000000000/* * iSCSI InitiatorName creation utility * Copyright (C) 2001 Cisco Systems, Inc. * maintained by linux-iscsi-devel@lists.sourceforge.net * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * See the file COPYING included with this distribution for more details. * * $Id: iscsi-iname.c,v 1.1.2.3 2005/03/15 06:33:44 wysochanski Exp $ * * iscsi-iname.c - Compute an iSCSI InitiatorName for this host. * Note that to ensure uniqueness, the system time is * a factor. This name must be cached and only regenerated * if there is no cached value. */ #include #include #include #include #include #include #include #include #include "md5.h" #define RANDOM_NUM_GENERATOR "/dev/urandom" int main(int argc, char *argv[]) { char iname[256]; struct timeval time; struct utsname system_info; long hostid; struct MD5Context context; unsigned char digest[16]; unsigned char *bytes = digest; unsigned char entropy[16]; int e; int fd; char *prefix; /* initialize */ memset(iname, 0, sizeof (iname)); memset(digest, 0, sizeof (digest)); memset(&context, 0, sizeof (context)); MD5Init(&context); /* take a prefix if given, otherwise use a default. */ if (argc > 1 && argv[1]) { prefix = argv[1]; if (( strcmp(prefix, "-h") == 0 ) || ( strcmp(prefix, "--help") == 0 )) { printf("\nGenerates a unique iSCSI node name " "on every invocation.\n"); exit(0); } else if ( strcmp(prefix, "-p") == 0 ) { prefix = argv[2]; } else { printf("\nUsage: iscsi-iname [-h | --help | " "-p ]\n"); exit(0); } } else { prefix = "iqn.2005-03.org.open-iscsi"; } /* try to feed some entropy from the pool to MD5 in order to get * uniqueness properties */ if ((fd = open(RANDOM_NUM_GENERATOR, O_RDONLY))) { e = read(fd, &entropy, 16); if (e >= 1) MD5Update(&context, (md5byte *)entropy, e); close(fd); } /* time the name is created is a factor in order to get * uniqueness properties */ if (gettimeofday(&time, NULL) < 0) { perror("error: gettimeofday failed"); return 1; } MD5Update(&context, (md5byte *) & time.tv_sec, sizeof (time.tv_sec)); MD5Update(&context, (md5byte *) & time.tv_usec, sizeof (time.tv_usec)); /* hostid */ hostid = gethostid(); MD5Update(&context, (md5byte *) & hostid, sizeof (hostid)); /* get the hostname and system name */ if (uname(&system_info) < 0) { perror("error: uname failed"); return 1; } MD5Update(&context, (md5byte *) system_info.sysname, sizeof (system_info.sysname)); MD5Update(&context, (md5byte *) system_info.nodename, sizeof (system_info.nodename)); MD5Update(&context, (md5byte *) system_info.release, sizeof (system_info.release)); MD5Update(&context, (md5byte *) system_info.version, sizeof (system_info.version)); MD5Update(&context, (md5byte *) system_info.machine, sizeof (system_info.machine)); /* compute the md5 hash of all the bits we just collected */ MD5Final(digest, &context); /* vary which md5 bytes we pick (though we probably don't need to do * this, since hopefully MD5 produces results such that each byte is as * good as any other). */ if ((fd = open(RANDOM_NUM_GENERATOR, O_RDONLY))) { if (read(fd, entropy, 1) == 1) bytes = &digest[(entropy[0] % (sizeof(digest) - 6))]; close(fd); } /* print the prefix followed by 6 bytes of the MD5 hash */ sprintf(iname, "%s:%x%x%x%x%x%x", prefix, bytes[0], bytes[1], bytes[2], bytes[3], bytes[4], bytes[5]); iname[sizeof (iname) - 1] = '\0'; printf("%s\n", iname); return 0; } open-iscsi-2.0.874/utils/iscsi_discovery000077500000000000000000000122451277325716400202560ustar00rootroot00000000000000#!/bin/bash # # Copyright (C) Voltaire Ltd. 2006. ALL RIGHTS RESERVED. # # This program is free software; you can redistribute it and/or modify it under # the terms of the GNU General Public License as published by the Free Software # Foundation; either version 2 of the License, or (at your option) any later # version. # # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS # FOR A PARTICULAR PURPOSE. See the GNU General Public License for more # details. # # You should have received a copy of the GNU General Public License along with # this program; if not, write to the Free Software Foundation, Inc., 59 Temple # Place, Suite 330, Boston, MA 02111-1307 USA # # Author: Dan Bar Dov # iscsi_discovery: # * does a send-targets discovery to the given IP # * set the transport type to the preferred transport (or tcp is -t flag is not used) # * tries to login # * if succeeds, # o logout, # o mark record autmatic (unless -m flag is used) # * else # o reset transport type to TCP # o try to login # o if succeeded # + logout # + mark record automatic (unless -m flag is used) # usage() { echo "Usage: $0 [-p ] [-d] [-t [-f]] [-m] [-l]" echo "Options:" echo "-p set the port number (defualt is 3260)." echo "-d print debugging information" echo "-t set transport (default is tcp)." echo "-f force specific transport -disable the fallback to tcp (default is fallback enabled)." echo " force the transport specified by the argument of the -t flag." echo "-m manual startup - will set manual startup (default is automatic startup)." echo "-l login to the new discovered nodes (defualt is false)." } dbg() { $debug && echo $@ } initialize() { trap "exit" 2 debug=false force="0" log_out="1" startup_manual="0" #set defualt transport to tcp transport=tcp #set defualt port to 3260 port=3260; } parse_cmdline() { if [ $# -lt 1 ]; then usage exit 1 fi # check if the IP address is valid ip=`echo $1 | awk -F'.' '$1 != "" && $1 <=255 && $2 != "" && $2 <= 255 && $3 != "" && $3 <= 255 && $4 != "" && $4 <= 255 {print $0}'` if [ -z "$ip" ]; then echo "$1 is not a vaild IP address!" exit 1 fi shift while getopts "dfmlt:p:" options; do case $options in d ) debug=true;; f ) force="1";; t ) transport=$OPTARG;; p ) port=$OPTARG;; m ) startup_manual="1";; l ) log_out=0;; \? ) usage exit 1;; * ) usage exit 1;; esac done } discover() { # If open-iscsi is already logged in to the portal, exit if [ $(iscsiadm -m session | grep -c ${ip}:${port}) -ne 0 ]; then echo "Please logout from all targets on ${ip}:${port} before trying to run discovery on that portal" exit 2 fi connected=0 discovered=0 dbg "starting discovery to $ip" disc="$(iscsiadm -m discovery --type sendtargets --portal ${ip}:${port})" echo "${disc}" | while read portal target do portal=${portal%,*} select_transport done discovered=$(echo "${disc}" | wc -l) if [ ${discovered} = 0 ]; then echo "failed to discover targets at ${ip}" exit 2 else echo "discovered ${discovered} targets at ${ip}" fi } try_login() { if [ "$startup_manual" != "1" ]; then iscsiadm -m node --targetname ${target} --portal ${portal} --op update -n node.conn[0].startup -v automatic fi iscsiadm -m node --targetname ${target} --portal ${portal} --login >/dev/null 2>&1 ret=$? if [ ${ret} = 0 ]; then echo "Set target ${target} to automatic login over ${transport} to portal ${portal}" ((connected++)) if [ "$log_out" = "1" ]; then iscsiadm -m node --targetname ${target} --portal ${portal} --logout fi else echo "Cannot login over ${transport} to portal ${portal}" iscsiadm -m node --targetname ${target} --portal ${portal} --op update -n node.conn[0].startup -v manual fi return ${ret} } set_transport() { transport=$1 case "$transport" in iser) # iSER does not use digest iscsiadm -m node --targetname ${target} --portal ${portal} \ --op update -n node.conn[0].iscsi.HeaderDigest -v None iscsiadm -m node --targetname ${target} --portal ${portal} \ --op update -n node.conn[0].iscsi.DataDigest -v None ;; cxgb3i) # cxgb3i supports <= 16K packet (BHS + AHS + pdu payload + digests) iscsiadm -m node --targetname ${target} --portal ${portal} \ --op update -n node.conn[0].iscsi.MaxRecvDataSegmentLength \ -v 8192 ;; esac transport_name=`iscsiadm -m node -p ${portal} -T ${target} |awk '/transport_name/ {print $1}'` iscsiadm -m node --targetname ${target} --portal ${portal} \ --op update -n ${transport_name} -v ${transport} } select_transport() { set_transport $transport dbg "Testing $transport-login to target ${target} portal ${portal}" try_login; if [ $? != 0 -a "$force" = "0" ]; then set_transport tcp dbg "starting to test tcp-login to target ${target} portal ${portal}" try_login; fi } check_iscsid() { #check if iscsid is running pidof iscsid &>/dev/null ret=$? if [ $ret -ne 0 ]; then echo "iscsid is not running" echo "Exiting..." exit 1 fi } check_iscsid initialize parse_cmdline "$@" discover open-iscsi-2.0.874/utils/iscsi_offload000077500000000000000000000223411277325716400176570ustar00rootroot00000000000000#!/bin/bash # # iscsi_offload # # Configure iSCSI offload engines for use with open-iscsi # Usage: # iscsi_offload [-d | -f | -i | -t ] # # Copyright (c) 2011 Hannes Reinecke, SUSE Labs # This script is licensed under the GPL. # # The script creates an open-iscsi interface definition # in the style -, where matches the # network interface passed on the commandline. # If '-t' (test mode) is passed as an option, the script # will not create nor modify any setting but just print # the currently active ones. # # Currently the script works with Broadcom (bnx2i) and # Chelsio T3 (cxgbi) iSCSI offload engines. # Should work with Chelsio T4, but has not been tested. # ServerEngines (be2iscsi) and QLogic (qla4xxx) can only # be configured via BIOS, open-iscsi support is still in # development. # # # Return codes: # 0: Success # 1: Invalid command line parameter # 2: iSCSI offloading not supported # 3: Error during module loading # 4: Cannot configure interface via iscsiadm, use BIOS setup # 5: internal error running iscsiadm # # Output: # [none|dhcp|ip |ibft] # where # : MAC Address of the iSCSI offload engine # none: No IP configuration set for the iSCSI offload engine # dhcp: iSCSI offload engine configured for DHCP # ip: iSCSI offload engine configured with static IP address # ibft: iSCSI offload engine configured from iBFT values # # # Figure out the MAC address of the iSCSI offload engine # corresponding to a NIC from a given PCI device. # bnx2 is using one PCI device per port for both network and iSCSI offloading # cxgb3 is using one PCI device for everything. # iscsi_macaddress_from_pcidevice() { local path=$1 local if=$2 local h local host for h in $path/host* ; do if [ -d "$h" ] ; then host=${h##*/} read netdev < /sys/class/iscsi_host/$host/netdev if [ "$netdev" = "$IFNAME" ] ; then read mac < /sys/class/iscsi_host/$host/hwaddress if [ "$mac" != "00:00:00:00:00:00" ] ; then echo "$mac" fi break; fi fi done } # # Figure out the MAC address of the iSCSI offload engine # corresponding to a NIC from a given PCI function. # It is assumed that the MAC address of the iSCSI offload # engine is equal of the MAC address of the NIC plus one. # Suitable for be2iscsi and qla4xxx # iscsi_macaddress_from_pcifn() { local path=$1 local if=$2 local h local host local ifmac ifmac=$(ip addr show dev $if | sed -n 's/ *link\/ether \(.*\) brd.*/\1/p') m5=$(( 0x${ifmac##*:} )) m5=$(( $m5 + 1 )) ifmac=$(printf "%s:%02x" ${ifmac%:*} $m5) for host in /sys/class/iscsi_host/host* ; do if [ -L "$host" ] ; then read mac < $host/hwaddress if [ "$mac" = "$ifmac" ] ; then echo "$mac" break; fi fi done } update_iface_setting() { local iface="$1" local name="$2" local value="$3" iface_value=$(iscsiadm -m iface -I $iface | sed -n "s/$name = \(.*\)/\1/p") if [ "$iface_value" = "" ] ; then iface_value= fi if [ "$iface_value" != "$value" ] ; then if ! iscsiadm -m iface -I $iface -o update -n "$name" -v "$value" ; then return 1 fi fi return 0 } while getopts di:t options ; do case $options in d ) mode=dhcp;; i ) mode=static optaddr=$OPTARG ;; f ) mode=firmware;; t ) dry_run=1;; ?) printf "Usage: %s [-d|-t|-i ipaddr|-f] ifname\n" $0 exit 1;; esac done shift $(($OPTIND - 1)) IFNAME=$1 ibft_mode="none" if [ -z "$IFNAME" ] ; then echo "No interface specified" exit 1 fi if [ "$dry_run" ] ; then if [ "$mode" = "dhcp" ] ; then echo "'-t' specified, ignoring '-d'" mode= elif [ "$mode" = "static" ] ; then echo "'-t' specified, ignoring '-s'" mode= fi fi if [ ! -L /sys/class/net/$IFNAME ] ; then echo "Interface $IFNAME not found" exit 1 fi if [ "$optaddr" ] && ! ip route get $optaddr ; then echo "Invalid IP address $optaddr" exit 1 fi if [ "$dry_run" ] ; then mode= fi ifpath=$(cd -P /sys/class/net/$IFNAME; echo $PWD) pcipath=$(cd -P $ifpath/device; echo $PWD) if [ -d $pcipath ] ; then drvlink=$(readlink $pcipath/driver) driver=${drvlink##*/} fi if [ -z "$driver" ] ; then echo "No driver found for interface $IFNAME" exit 1 fi case "$driver" in bnx2*) mod=bnx2i ;; cxgb*) mod=cxgb3i ;; be2*) mod=be2iscsi ;; qla*) mod=qla4xxx ;; esac if [ -z "$mod" ] ; then echo "iSCSI offloading not supported on interface $IFNAME" exit 2 fi # Check if the required modules are already loaded loaded=$(sed -n "/^$mod/p" /proc/modules) if [ -z "$loaded" ] ; then modprobe $mod fi loaded=$(sed -n "/^$mod/p" /proc/modules) if [ -z "$loaded" ] ; then echo "Loading of $mod.ko failed, please check dmesg" exit 3 fi # Get the correct MAC address for the various devices if [ "$mod" = "bnx2i" ] ; then mac=$(iscsi_macaddress_from_pcidevice $pcipath $IFNAME) elif [ "$mod" = "cxgb3i" ] ; then mac=$(iscsi_macaddress_from_pcidevice $pcipath $IFNAME) elif [ "$mod" = "be2iscsi" ] ; then mac=$(iscsi_macaddress_from_pcifn $pcipath $IFNAME) elif [ "$mod" = "qla4xxx" ] ; then mac=$(iscsi_macaddress_from_pcifn $pcipath $IFNAME) fi if [ -z "$mac" ] ; then echo "iSCSI offloading not supported on interface $IFNAME" exit 2 fi gen_iface="$mod.$mac" ioe_iface="${IFNAME}-${mod}" # Get existing settings if iscsiadm -m iface -I $ioe_iface > /dev/null 2>&1 ; then ioe_mac=$(iscsiadm -m iface -I $ioe_iface 2> /dev/null| sed -n "s/iface\.hwaddress = \(.*\)/\1/p") ioe_mod=$(iscsiadm -m iface -I $ioe_iface 2> /dev/null| sed -n "s/iface\.transport_name = \(.*\)/\1/p") ipaddr=$(iscsiadm -m iface -I $ioe_iface 2> /dev/null| sed -n "s/iface\.ipaddress = \(.*\)/\1/p") if [ "$ipaddr" == "" ] ; then ipaddr= fi elif [ "$mod" = "be2iscsi" ] ; then ioe_mac=$mac ioe_mod=$mod else # Create new interface iscsiadm -m iface -I $ioe_iface --op=new 2> /dev/null ioe_mac= ioe_mod= ipaddr= fi if [ -z "$dry_run" ] ; then if [ "$ioe_mac" != "$mac" ] ; then if [ -n "$ioe_mac" ] ; then echo "Warning: Updating MAC address on iface $ioe_iface" fi update_iface_setting $ioe_iface iface.hwaddress "$mac" fi if [ "$ioe_mod" != "$mod" ] ; then if [ -n "$ioe_mod" ] ; then echo "Warning: Update transport on iface $ioe_iface" fi update_iface_setting $ioe_iface iface.transport_name "$mod" fi elif [ -z "$ipaddr" ] ; then ipaddr=$(iscsiadm -m iface -I $gen_iface 2> /dev/null| sed -n "s/iface\.ipaddress = \(.*\)/\1/p") if [ "$ipaddr" = "" ] ; then ipaddr= fi elif [ "$ioe_mod" != "$mod" ] ; then echo "Warning: Transport mismatch on iface $ioe_iface: $ioe_mod should be $mod" fi # Check iBFT setting for d in /sys/firmware/* ; do [ -d $d ] || continue [ -d $d/ethernet0 ] || continue iboot_dir=$d done if [ -n "$iboot_dir" ] && [ -d "$iboot_dir" ] ; then for if in ${iboot_dir}/ethernet* ; do read ibft_mac < $if/mac [ "$ibft_mac" = "$mac" ] || continue ibft_origin=0 [ -f ${if}/origin ] && read ibft_origin < $if/origin if [ "$ibft_origin" -eq 1 ] ; then ibft_mode="static" elif [ "$ibft_origin" -eq 3 ] ; then ibft_mode="dhcp" fi [ -f $if/dhcp ] && read ibft_dhcp < $if/dhcp if [ -n "$ibft_dhcp" -a "$ibft_mode" != "dhcp" ] ; then ibft_mode=dhcp fi if [ "$ibft_mode" = "dhcp" ] ; then ibft_ipaddr="0.0.0.0" ibft_gateway= ibft_mask= break fi [ -f $if/ip-addr ] && read ibft_ipaddr < $if/ip-addr [ -f $if/gateway ] && read ibft_gateway < $if/gateway [ -f $if/subnet-mask ] && read ibft_mask < $if/subnet-mask break done fi if [ -z "$optaddr" ] && [ "$ibft_ipaddr" ] ; then optaddr=$ibft_ipaddr fi # Check if the interface needs to be configured if [ -z "$mode" ] ; then if [ "$ibft_mode" != "none" ] ; then echo "$mac ibft" mode="ibft" elif [ -z "$ipaddr" ] ; then echo "$mac none" mode="none" elif [ "$ipaddr" = "0.0.0.0" ] ; then echo "$mac dhcp" ipaddr= mode="dhcp" else echo "$mac ip $ipaddr" mode="static" fi [ "$dry_run" ] && exit 0 elif [ "$mode" = "dhcp" ] ; then if [ "$ipaddr" = "0.0.0.0" ] ; then echo "$mac dhcp" exit 0 fi optaddr="0.0.0.0" elif [ "$mode" = "static" ] && [ "$ipaddr" = "$optaddr" ] ; then echo "$mac ip $ipaddr" exit 0 fi if [ "$mod" = "be2iscsi" ] ; then exit 4 fi if ! update_iface_setting $ioe_iface iface.ipaddress "$optaddr" ; then echo "Failed to set IP address: $?" exit 1 fi if ! update_iface_setting $gen_iface iface.ipaddress "$optaddr" ; then echo "Failed to set IP address for generic interface: $?" exit 1 fi if ! update_iface_setting $ioe_iface iface.gateway "$ibft_gateway" ; then echo "Failed to set gateway address: $?" exit 1 fi if ! update_iface_setting $gen_iface iface.gateway "$ibft_gateway" ; then echo "Failed to set gateway address for generic interface: $?" exit 1 fi if ! update_iface_setting $ioe_iface iface.subnet_mask "$ibft_mask" ; then echo "Failed to set subnet mask: $?" exit 1 fi if ! update_iface_setting $gen_iface iface.subnet_mask "$ibft_mask" ; then echo "Failed to set subnet mask for generic interface: $?" exit 1 fi if [ "$mod" = "qla4xxx" ] ; then iscsiadm -m iface -H $mac -o applyall fi ip link set dev $IFNAME up exit 0 open-iscsi-2.0.874/utils/md5.c000066400000000000000000000165371277325716400157700ustar00rootroot00000000000000/* * This code implements the MD5 message-digest algorithm. * The algorithm is due to Ron Rivest. This code was * written by Colin Plumb in 1993, no copyright is claimed. * This code is in the public domain; do with it what you wish. * * Equivalent code is available from RSA Data Security, Inc. * This code has been tested against that, and is equivalent, * except that you don't need to include two pages of legalese * with every copy. * * To compute the message digest of a chunk of bytes, declare an * MD5Context structure, pass it to MD5Init, call MD5Update as * needed on buffers full of bytes, and then call MD5Final, which * will fill a supplied 16-byte array with the digest. * * Changed so as no longer to depend on Colin Plumb's `usual.h' header * definitions; now uses stuff from dpkg's config.h. * - Ian Jackson . * Still in the public domain. */ #include #include "md5.h" #if (__BYTE_ORDER == __BIG_ENDIAN) /* * we can compile this away for little endian since * it does not do anything on those archs */ void byteSwap(uint32_t * buf, unsigned words) { md5byte *p = (md5byte *) buf; do { *buf++ = (uint32_t) ((unsigned) p[3] << 8 | p[2]) << 16 | ((unsigned) p[1] << 8 | p[0]); p += 4; } while (--words); } #else #define byteSwap(buf,words) #endif /* * Start MD5 accumulation. Set bit count to 0 and buffer to mysterious * initialization constants. */ void MD5Init(struct MD5Context *ctx) { ctx->buf[0] = 0x67452301; ctx->buf[1] = 0xefcdab89; ctx->buf[2] = 0x98badcfe; ctx->buf[3] = 0x10325476; ctx->bytes[0] = 0; ctx->bytes[1] = 0; } /* * Update context to reflect the concatenation of another buffer full * of bytes. */ void MD5Update(struct MD5Context *ctx, md5byte const *buf, unsigned len) { uint32_t t; /* Update byte count */ t = ctx->bytes[0]; if ((ctx->bytes[0] = t + len) < t) ctx->bytes[1]++; /* Carry from low to high */ t = 64 - (t & 0x3f); /* Space available in ctx->in (at least 1) */ if (t > len) { memcpy((md5byte *) ctx->in + 64 - t, buf, len); return; } /* First chunk is an odd size */ memcpy((md5byte *) ctx->in + 64 - t, buf, t); byteSwap(ctx->in, 16); MD5Transform(ctx->buf, ctx->in); buf += t; len -= t; /* Process data in 64-byte chunks */ while (len >= 64) { memcpy(ctx->in, buf, 64); byteSwap(ctx->in, 16); MD5Transform(ctx->buf, ctx->in); buf += 64; len -= 64; } /* Handle any remaining bytes of data. */ memcpy(ctx->in, buf, len); } /* * Final wrapup - pad to 64-byte boundary with the bit pattern * 1 0* (64-bit count of bits processed, MSB-first) */ void MD5Final(md5byte digest[16], struct MD5Context *ctx) { int count = ctx->bytes[0] & 0x3f; /* Number of bytes in ctx->in */ md5byte *p = (md5byte *) ctx->in + count; /* Set the first char of padding to 0x80. There is always room. */ *p++ = 0x80; /* Bytes of padding needed to make 56 bytes (-8..55) */ count = 56 - 1 - count; if (count < 0) { /* Padding forces an extra block */ memset(p, 0, count + 8); byteSwap(ctx->in, 16); MD5Transform(ctx->buf, ctx->in); p = (md5byte *) ctx->in; count = 56; } memset(p, 0, count); byteSwap(ctx->in, 14); /* Append length in bits and transform */ ctx->in[14] = ctx->bytes[0] << 3; ctx->in[15] = ctx->bytes[1] << 3 | ctx->bytes[0] >> 29; MD5Transform(ctx->buf, ctx->in); byteSwap(ctx->buf, 4); memcpy(digest, ctx->buf, 16); memset(ctx, 0, sizeof (*ctx)); /* In case it's sensitive */ } #ifndef ASM_MD5 /* The four core functions - F1 is optimized somewhat */ /* #define F1(x, y, z) (x & y | ~x & z) */ #define F1(x, y, z) (z ^ (x & (y ^ z))) #define F2(x, y, z) F1(z, x, y) #define F3(x, y, z) (x ^ y ^ z) #define F4(x, y, z) (y ^ (x | ~z)) /* This is the central step in the MD5 algorithm. */ #define MD5STEP(f,w,x,y,z,in,s) \ (w += f(x,y,z) + in, w = (w<>(32-s)) + x) /* * The core of the MD5 algorithm, this alters an existing MD5 hash to * reflect the addition of 16 longwords of new data. MD5Update blocks * the data and converts bytes into longwords for this routine. */ void MD5Transform(uint32_t buf[4], uint32_t const in[16]) { register uint32_t a, b, c, d; a = buf[0]; b = buf[1]; c = buf[2]; d = buf[3]; MD5STEP(F1, a, b, c, d, in[0] + 0xd76aa478, 7); MD5STEP(F1, d, a, b, c, in[1] + 0xe8c7b756, 12); MD5STEP(F1, c, d, a, b, in[2] + 0x242070db, 17); MD5STEP(F1, b, c, d, a, in[3] + 0xc1bdceee, 22); MD5STEP(F1, a, b, c, d, in[4] + 0xf57c0faf, 7); MD5STEP(F1, d, a, b, c, in[5] + 0x4787c62a, 12); MD5STEP(F1, c, d, a, b, in[6] + 0xa8304613, 17); MD5STEP(F1, b, c, d, a, in[7] + 0xfd469501, 22); MD5STEP(F1, a, b, c, d, in[8] + 0x698098d8, 7); MD5STEP(F1, d, a, b, c, in[9] + 0x8b44f7af, 12); MD5STEP(F1, c, d, a, b, in[10] + 0xffff5bb1, 17); MD5STEP(F1, b, c, d, a, in[11] + 0x895cd7be, 22); MD5STEP(F1, a, b, c, d, in[12] + 0x6b901122, 7); MD5STEP(F1, d, a, b, c, in[13] + 0xfd987193, 12); MD5STEP(F1, c, d, a, b, in[14] + 0xa679438e, 17); MD5STEP(F1, b, c, d, a, in[15] + 0x49b40821, 22); MD5STEP(F2, a, b, c, d, in[1] + 0xf61e2562, 5); MD5STEP(F2, d, a, b, c, in[6] + 0xc040b340, 9); MD5STEP(F2, c, d, a, b, in[11] + 0x265e5a51, 14); MD5STEP(F2, b, c, d, a, in[0] + 0xe9b6c7aa, 20); MD5STEP(F2, a, b, c, d, in[5] + 0xd62f105d, 5); MD5STEP(F2, d, a, b, c, in[10] + 0x02441453, 9); MD5STEP(F2, c, d, a, b, in[15] + 0xd8a1e681, 14); MD5STEP(F2, b, c, d, a, in[4] + 0xe7d3fbc8, 20); MD5STEP(F2, a, b, c, d, in[9] + 0x21e1cde6, 5); MD5STEP(F2, d, a, b, c, in[14] + 0xc33707d6, 9); MD5STEP(F2, c, d, a, b, in[3] + 0xf4d50d87, 14); MD5STEP(F2, b, c, d, a, in[8] + 0x455a14ed, 20); MD5STEP(F2, a, b, c, d, in[13] + 0xa9e3e905, 5); MD5STEP(F2, d, a, b, c, in[2] + 0xfcefa3f8, 9); MD5STEP(F2, c, d, a, b, in[7] + 0x676f02d9, 14); MD5STEP(F2, b, c, d, a, in[12] + 0x8d2a4c8a, 20); MD5STEP(F3, a, b, c, d, in[5] + 0xfffa3942, 4); MD5STEP(F3, d, a, b, c, in[8] + 0x8771f681, 11); MD5STEP(F3, c, d, a, b, in[11] + 0x6d9d6122, 16); MD5STEP(F3, b, c, d, a, in[14] + 0xfde5380c, 23); MD5STEP(F3, a, b, c, d, in[1] + 0xa4beea44, 4); MD5STEP(F3, d, a, b, c, in[4] + 0x4bdecfa9, 11); MD5STEP(F3, c, d, a, b, in[7] + 0xf6bb4b60, 16); MD5STEP(F3, b, c, d, a, in[10] + 0xbebfbc70, 23); MD5STEP(F3, a, b, c, d, in[13] + 0x289b7ec6, 4); MD5STEP(F3, d, a, b, c, in[0] + 0xeaa127fa, 11); MD5STEP(F3, c, d, a, b, in[3] + 0xd4ef3085, 16); MD5STEP(F3, b, c, d, a, in[6] + 0x04881d05, 23); MD5STEP(F3, a, b, c, d, in[9] + 0xd9d4d039, 4); MD5STEP(F3, d, a, b, c, in[12] + 0xe6db99e5, 11); MD5STEP(F3, c, d, a, b, in[15] + 0x1fa27cf8, 16); MD5STEP(F3, b, c, d, a, in[2] + 0xc4ac5665, 23); MD5STEP(F4, a, b, c, d, in[0] + 0xf4292244, 6); MD5STEP(F4, d, a, b, c, in[7] + 0x432aff97, 10); MD5STEP(F4, c, d, a, b, in[14] + 0xab9423a7, 15); MD5STEP(F4, b, c, d, a, in[5] + 0xfc93a039, 21); MD5STEP(F4, a, b, c, d, in[12] + 0x655b59c3, 6); MD5STEP(F4, d, a, b, c, in[3] + 0x8f0ccc92, 10); MD5STEP(F4, c, d, a, b, in[10] + 0xffeff47d, 15); MD5STEP(F4, b, c, d, a, in[1] + 0x85845dd1, 21); MD5STEP(F4, a, b, c, d, in[8] + 0x6fa87e4f, 6); MD5STEP(F4, d, a, b, c, in[15] + 0xfe2ce6e0, 10); MD5STEP(F4, c, d, a, b, in[6] + 0xa3014314, 15); MD5STEP(F4, b, c, d, a, in[13] + 0x4e0811a1, 21); MD5STEP(F4, a, b, c, d, in[4] + 0xf7537e82, 6); MD5STEP(F4, d, a, b, c, in[11] + 0xbd3af235, 10); MD5STEP(F4, c, d, a, b, in[2] + 0x2ad7d2bb, 15); MD5STEP(F4, b, c, d, a, in[9] + 0xeb86d391, 21); buf[0] += a; buf[1] += b; buf[2] += c; buf[3] += d; } #endif open-iscsi-2.0.874/utils/md5.h000066400000000000000000000025021277325716400157600ustar00rootroot00000000000000/* * This is the header file for the MD5 message-digest algorithm. * The algorithm is due to Ron Rivest. This code was * written by Colin Plumb in 1993, no copyright is claimed. * This code is in the public domain; do with it what you wish. * * Equivalent code is available from RSA Data Security, Inc. * This code has been tested against that, and is equivalent, * except that you don't need to include two pages of legalese * with every copy. * * To compute the message digest of a chunk of bytes, declare an * MD5Context structure, pass it to MD5Init, call MD5Update as * needed on buffers full of bytes, and then call MD5Final, which * will fill a supplied 16-byte array with the digest. * * Changed so as no longer to depend on Colin Plumb's `usual.h' * header definitions; now uses stuff from dpkg's config.h * - Ian Jackson . * Still in the public domain. */ #ifndef MD5_H #define MD5_H #include #define md5byte unsigned char struct MD5Context { uint32_t buf[4]; uint32_t bytes[2]; uint32_t in[16]; }; void MD5Init(struct MD5Context *context); void MD5Update(struct MD5Context *context, md5byte const *buf, unsigned len); void MD5Final(unsigned char digest[16], struct MD5Context *context); void MD5Transform(uint32_t buf[4], uint32_t const in[16]); #endif /* !MD5_H */ open-iscsi-2.0.874/utils/sysdeps/000077500000000000000000000000001277325716400166155ustar00rootroot00000000000000open-iscsi-2.0.874/utils/sysdeps/Makefile000066400000000000000000000004061277325716400202550ustar00rootroot00000000000000# This Makefile will work only with GNU make. CFLAGS ?= -O2 -fno-inline -g CFLAGS += $(WARNFLAGS) -Wall -Wstrict-prototypes SYSDEPS_OBJS=sysdeps.o all: $(SYSDEPS_OBJS) clean: rm -f *.o .depend depend: gcc $(CFLAGS) -M `ls *.c` > .depend -include .depend open-iscsi-2.0.874/utils/sysdeps/sysdeps.c000066400000000000000000000031201277325716400204470ustar00rootroot00000000000000/* * Copyright (C) 2003 Greg Kroah-Hartman * Copyright (C) 2005-2006 Kay Sievers * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation version 2 of the License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #include #include #include #include #include #include #include #ifdef __GLIBC__ size_t strlcpy(char *dst, const char *src, size_t size) { size_t bytes = 0; char *q = dst; const char *p = src; char ch; while ((ch = *p++)) { if (bytes+1 < size) *q++ = ch; bytes++; } /* If size == 0 there is no space for a final null... */ if (size) *q = '\0'; return bytes; } size_t strlcat(char *dst, const char *src, size_t size) { size_t bytes = 0; char *q = dst; const char *p = src; char ch; while (bytes < size && *q) { q++; bytes++; } if (bytes == size) return (bytes + strlen(src)); while ((ch = *p++)) { if (bytes+1 < size) *q++ = ch; bytes++; } *q = '\0'; return bytes; } #endif /* __GLIBC__ */