pax_global_header00006660000000000000000000000064135605372240014521gustar00rootroot0000000000000052 comment=7e3b8ebe12519ad5cc20a9654a7c070b2ecf3cd8 configshell-fb-1.1.27/000077500000000000000000000000001356053722400144735ustar00rootroot00000000000000configshell-fb-1.1.27/.gitignore000066400000000000000000000006751356053722400164730ustar00rootroot00000000000000debian/changelog dpkg-buildpackage.log dpkg-buildpackage.version *.swp *.swo build-stamp build/* debian/files debian/python-configshell.debhelper.log debian/python-configshell.substvars debian/python-configshell/ debian/configshell-doc.debhelper.log debian/configshell-doc.substvars debian/configshell-doc/ debian/tmp/ dist/* doc/* *.pyc debian/python-configshell.substvars debian/configshell-doc.debhelper.log debian/tmp/ *.spec *.pyc rtslib-* configshell-fb-1.1.27/COPYING000066400000000000000000000236371356053722400155410ustar00rootroot00000000000000 Apache License Version 2.0, January 2004 http://www.apache.org/licenses/ TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION 1. 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You are solely responsible for determining the appropriateness of using or redistributing the Work and assume any risks associated with Your exercise of permissions under this License. 8. Limitation of Liability. In no event and under no legal theory, whether in tort (including negligence), contract, or otherwise, unless required by applicable law (such as deliberate and grossly negligent acts) or agreed to in writing, shall any Contributor be liable to You for damages, including any direct, indirect, special, incidental, or consequential damages of any character arising as a result of this License or out of the use or inability to use the Work (including but not limited to damages for loss of goodwill, work stoppage, computer failure or malfunction, or any and all other commercial damages or losses), even if such Contributor has been advised of the possibility of such damages. 9. Accepting Warranty or Additional Liability. While redistributing the Work or Derivative Works thereof, You may choose to offer, and charge a fee for, acceptance of support, warranty, indemnity, or other liability obligations and/or rights consistent with this License. However, in accepting such obligations, You may act only on Your own behalf and on Your sole responsibility, not on behalf of any other Contributor, and only if You agree to indemnify, defend, and hold each Contributor harmless for any liability incurred by, or claims asserted against, such Contributor by reason of your accepting any such warranty or additional liability. configshell-fb-1.1.27/Makefile000066400000000000000000000031141356053722400161320ustar00rootroot00000000000000PKGNAME = configshell-fb NAME = configshell GIT_BRANCH = $$(git branch | grep \* | tr -d \*) VERSION = $$(basename $$(git describe --tags | tr - . | sed 's/^v//')) all: @echo "Usage:" @echo @echo " make release - Generates the release tarball." @echo @echo " make clean - Cleanup the local repository build files." @echo " make cleanall - Also remove dist/*" clean: @rm -fv ${NAME}/*.pyc ${NAME}/*.html @rm -frv doc @rm -frv ${NAME}.egg-info MANIFEST build @rm -frv results @rm -frv ${PKGNAME}-* @echo "Finished cleanup." cleanall: clean @rm -frv dist release: build/release-stamp build/release-stamp: @mkdir -p build @echo "Exporting the repository files..." @git archive ${GIT_BRANCH} --prefix ${PKGNAME}-${VERSION}/ \ | (cd build; tar xfp -) @echo "Cleaning up the target tree..." @rm -f build/${PKGNAME}-${VERSION}/Makefile @rm -f build/${PKGNAME}-${VERSION}/.gitignore @echo "Fixing version string..." @sed -i "s/__version__ = .*/__version__ = '${VERSION}'/g" \ build/${PKGNAME}-${VERSION}/${NAME}/__init__.py @find build/${PKGNAME}-${VERSION}/ -exec \ touch -t $$(date -d @$$(git show -s --format="format:%at") \ +"%Y%m%d%H%M.%S") {} \; @mkdir -p dist @cd build; tar -c --owner=0 --group=0 --numeric-owner \ --format=gnu -b20 --quoting-style=escape \ -f ../dist/${PKGNAME}-${VERSION}.tar \ $$(find ${PKGNAME}-${VERSION} -type f | sort)\ $$(find ${PKGNAME}-${VERSION} -type l | sort) @gzip -6 -n dist/${PKGNAME}-${VERSION}.tar @echo "Generated release tarball:" @echo " $$(ls dist/${PKGNAME}-${VERSION}.tar.gz)" @touch build/release-stamp configshell-fb-1.1.27/README.md000066400000000000000000000032301356053722400157500ustar00rootroot00000000000000configshell-fb ============== A Python library for building configuration shells -------------------------------------------------- configshell-fb is a Python library that provides a framework for building simple but nice CLI-based applications. This runs with Python 2 and 2to3 is run by setup.py to run on Python 3. configshell-fb development -------------------------- configshell-fb is licensed under the Apache 2.0 license. Contributions are welcome. Since configshell-fb is used most often with targetcli-fb, the targetcli-fb mailing should be used for configshell-fb discussion. * Mailing list: [targetcli-fb-devel](https://lists.fedorahosted.org/mailman/listinfo/targetcli-fb-devel) * Source repo: [GitHub](https://github.com/open-iscsi/configshell-fb) * Bugs: [GitHub](https://github.com/open-iscsi/configshell-fb/issues) or [Trac](https://fedorahosted.org/targetcli-fb/) * Tarballs: [fedorahosted](https://fedorahosted.org/releases/t/a/targetcli-fb/) Packages -------- configshell-fb is packaged for a number of Linux distributions including RHEL, [Fedora](https://apps.fedoraproject.org/packages/python-configshell), openSUSE, Arch Linux, [Gentoo](https://packages.gentoo.org/packages/dev-python/configshell-fb), and [Debian](https://tracker.debian.org/pkg/python-configshell-fb). "fb" -- "free branch" --------------------- configshell-fb is a fork of the "configshell" code written by RisingTide Systems. The "-fb" differentiates between the original and this version. Please ensure to use either all "fb" versions of the targetcli components -- targetcli, rtslib, and configshell, or stick with all non-fb versions, since they are no longer strictly compatible. configshell-fb-1.1.27/configshell/000077500000000000000000000000001356053722400167705ustar00rootroot00000000000000configshell-fb-1.1.27/configshell/__init__.py000066400000000000000000000021751356053722400211060ustar00rootroot00000000000000''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' if __name__ == 'configshell-fb': from warnings import warn warn("'configshell' package name for configshell-fb is deprecated, please" + " instead import 'configshell_fb'", UserWarning, stacklevel=2) from .console import Console from .log import Log from .node import ConfigNode, ExecutionError from .prefs import Prefs from .shell import ConfigShell __version__ = '1.1.27' __url__ = 'http://github.com/open-iscsi/configshell-fb' __description__ = 'A framework to implement simple but nice CLIs.' __license__ = 'Apache 2.0' configshell-fb-1.1.27/configshell/console.py000066400000000000000000000364731356053722400210210ustar00rootroot00000000000000''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' from fcntl import ioctl import re import six import struct import sys from termios import TIOCGWINSZ, TCSADRAIN, tcsetattr, tcgetattr import textwrap import tty from .prefs import Prefs # avoid requiring epydoc at runtime try: import epydoc.markup.epytext except ImportError: pass class Console(object): ''' Implements various utility methods providing a console UI support toolkit, most notably an epytext-to-console text renderer using ANSI escape sequences. It uses the Borg pattern to share state between instances. ''' _max_width = 132 _escape = '\033[' _ansi_format = _escape + '%dm%s' _ansi_reset = _escape + '0m' _re_ansi_seq = re.compile('(\033\[..?m)') _ansi_styles = {'bold': 1, 'underline': 4, 'blink': 5, 'reverse': 7, 'concealed': 8} colors = ['black', 'red', 'green', 'yellow', 'blue', 'magenta', 'cyan', 'white'] _ansi_fgcolors = dict(zip(colors, range(30, 38))) _ansi_bgcolors = dict(zip(colors, range(40, 48))) __borg_state = {} def __init__(self, stdin=sys.stdin, stdout=sys.stdout, stderr=sys.stderr): ''' Initializes a Console instance. @param stdin: The console standard input. @type stdin: file object @param stdout: The console standard output. @type stdout: file object ''' self.__dict__ = self.__borg_state self._stdout = stdout self._stdin = stdin self._stderr = stderr self.prefs = Prefs() # Public methods def escape(self, sequence, reply_terminator=None): ''' Sends an escape sequence to the console, and reads the reply terminated by reply_terminator. If reply_terminator is not specified, the reply will not be read. @type sequence: str @param reply_terminator: The expected end-of-reply marker. @type reply_terminator: str ''' attributes = tcgetattr(self._stdin) tty.setraw(self._stdin) try: self.raw_write(self._escape + sequence) if reply_terminator is not None: reply = '' while reply[-len(reply_terminator):] != reply_terminator: reply += self._stdin.read(1) finally: tcsetattr(self._stdin, TCSADRAIN, attributes) if reply_terminator is not None: reply = reply[:-len(reply_terminator)] reply = reply.replace(self._escape, '').split(';') return reply def get_width(self): ''' Returns the console width, or maximum width if we are not a terminal device. ''' try: winsize = struct.pack("HHHH", 0, 0, 0, 0) winsize = ioctl(self._stdout.fileno(), TIOCGWINSZ, winsize) width = struct.unpack("HHHH", winsize)[1] except IOError: width = self._max_width else: if width > self._max_width: width = self._max_width return width def get_cursor_xy(self): ''' Get the current text cursor x, y coordinates. ''' coords = [int(coord) for coord in self.escape("6n", "R")] coords.reverse() return coords def set_cursor_xy(self, xpos, ypos): ''' Set the cursor x, y coordinates. @param xpos: The x coordinate of the cursor. @type xpos: int @param ypos: The y coordinate of the cursor. @type ypos: int ''' self.escape("%d;%dH" % (ypos, xpos)) def raw_write(self, text, output=sys.stdout): ''' Raw console printing function. @param text: The text to print. @type text: str ''' output.write(text) output.flush() def display(self, text, no_lf=False, error=False): ''' Display a text with a default style. @param text: Text to display @type text: str @param no_lf: Do not display a line feed. @type no_lf: bool ''' text = self.render_text(text) if error: output = self._stderr else: output = self._stdout self.raw_write(text, output=output) if not no_lf: self.raw_write('\n', output=output) def epy_write(self, text): ''' Renders and print and epytext-formatted text on the console. ''' text = self.dedent(text) try: dom_tree = epydoc.markup.epytext.parse(text, None) except NameError: # epydoc not installed, strip markup dom_tree = text dom_tree = dom_tree.replace("B{", "") dom_tree = dom_tree.replace("I{", "") dom_tree = dom_tree.replace("C{", "") dom_tree = dom_tree.replace("}", "") dom_tree += "\n" except: self.display(text) raise text = self.render_domtree(dom_tree) # We need to remove the last line feed, but there might be # escape characters after it... clean_text = '' for index in range(1, len(text)): if text[-index] == '\n': clean_text = text[:-index] if index != 1: clean_text += text[-index+1:] break else: clean_text = text self.raw_write(clean_text) def indent(self, text, margin=2): ''' Indents text by margin space. @param text: The text to be indented. @type text: str ''' output = '' for line in text.split('\n'): output += margin * ' ' + line + '\n' return output def dedent(self, text): ''' A convenience function to easily write multiline text blocks that will be later assembled in to a unique epytext string. It removes heading newline chars and common indentation. ''' for i in range(len(text)): if text[i] != '\n': break text = text[i:] text = textwrap.dedent(text) text = '\n' * i + text return text def render_text(self, text, fgcolor=None, bgcolor=None, styles=None, open_end=False, todefault=False): ''' Renders some text with ANSI console colors and attributes. @param fgcolor: ANSI color to use for text: black, red, green, yellow, blue, magenta. cyan. white @type fgcolor: str @param bgcolor: ANSI color to use for background: black, red, green, yellow, blue, magenta. cyan. white @type bgcolor: str @param styles: List of ANSI styles to use: bold, underline, blink, reverse, concealed @type styles: list of str @param open_end: Do not reset text style at the end ot the output. @type open_end: bool @param todefault: Instead of resetting style at the end of the output, reset to default color. Only if not open_end. @type todefault: bool ''' if self.prefs['color_mode'] and self._stdout.isatty(): if fgcolor is None: if self.prefs['color_default']: fgcolor = self.prefs['color_default'] if fgcolor is not None: text = self._ansi_format % (self._ansi_fgcolors[fgcolor], text) if bgcolor is not None: text = self._ansi_format % (self._ansi_bgcolors[bgcolor], text) if styles is not None: for style in styles: text = self._ansi_format % (self._ansi_styles[style], text) if not open_end: text += self._ansi_reset if todefault and fgcolor is not None: if self.prefs['color_default']: text += self._ansi_format \ % (self._ansi_fgcolors[ self.prefs['color_default']], '') return text def wordwrap(self, text, indent=0, startindex=0, splitchars=''): ''' Word-wrap the given string. I.e., add newlines to the string such that any lines that are longer than terminal width or max_width are broken into shorter lines (at the first whitespace sequence that occurs before the limit. If the given string contains newlines, they will I{not} be removed. Any lines that begin with whitespace will not be wordwrapped. This version takes into account ANSI escape characters: - stop escape sequence styling at the end of a split line - start it again on the next line if needed after the indent - do not account for the length of the escape sequences when wrapping @param indent: If specified, then indent each line by this number of spaces. @type indent: C{int} @param startindex: If specified, then assume that the first line is already preceeded by C{startindex} characters. @type startindex: C{int} @param splitchars: A list of non-whitespace characters which can be used to split a line. (E.g., use '/\\' to allow path names to be split over multiple lines.) @rtype: C{str} ''' right = self.get_width() if splitchars: chunks = re.split(r'( +|\n|[^ \n%s]*[%s])' % (re.escape(splitchars), re.escape(splitchars)), text.expandtabs()) else: chunks = re.split(r'( +|\n)', text.expandtabs()) result = [' '*(indent-startindex)] charindex = max(indent, startindex) current_style = '' for chunknum, chunk in enumerate(chunks): chunk_groups = re.split(self._re_ansi_seq, chunk) chunk_text = '' next_style = current_style for group in chunk_groups: if re.match(self._re_ansi_seq, group) is None: chunk_text += group else: next_style += group chunk_len = len(chunk_text) if (charindex + chunk_len > right and charindex > 0) \ or chunk == '\n': result[-1] = result[-1].rstrip() result.append(self.render_text( '\n' + ' '*indent + current_style, open_end=True)) charindex = indent if chunk[:1] not in ('\n', ' '): result.append(chunk) charindex += chunk_len else: result.append(chunk) charindex += chunk_len current_style = next_style.split(self._ansi_reset)[-1] return ''.join(result).rstrip()+'\n' def render_domtree(self, tree, indent=0, seclevel=0): ''' Convert a DOM document encoding epytext to an 8-bits ascii string with ANSI formating for simpler styles. @param tree: A DOM document encoding of an epytext string. @type tree: C{Element} @param indent: The indentation for the string representation of C{tree}. Each line of the returned string will begin with C{indent} space characters. @type indent: C{int} @param seclevel: The section level that C{tree} appears at. This is used to generate section headings. @type seclevel: C{int} @return: The formated string. @rtype: C{string} ''' if isinstance(tree, six.string_types): return tree if tree.tag == 'section': seclevel += 1 # Figure out the child indent level. if tree.tag == 'epytext': cindent = indent elif tree.tag == 'li' and tree.attribs.get('bullet'): cindent = indent + 1 + len(tree.attribs.get('bullet')) else: cindent = indent + 2 variables = [self.render_domtree(c, cindent, seclevel) for c in tree.children] childstr = ''.join(variables) if tree.tag == 'para': text = self.render_text(childstr) text = self.wordwrap(text, indent)+'\n' elif tree.tag == 'li': # We should be able to use getAttribute here; but there's no # convenient way to test if an element has an attribute.. bullet = tree.attribs.get('bullet') or '-' text = indent*' ' + bullet + ' ' + childstr.lstrip() elif tree.tag == 'heading': text = ((indent-2)*' ' + self.render_text( childstr, styles=['bold'], todefault=True) \ + '\n') elif tree.tag == 'doctestblock': lines = [(indent+2)*' '+line for line in childstr.split('\n')] text = '\n'.join(lines) + '\n\n' elif tree.tag == 'literalblock': lines = [(indent+1)*' '+ self.render_text( line, todefault=True) for line in childstr.split('\n')] text = '\n'.join(lines) + '\n\n' elif tree.tag == 'fieldlist': text = childstr elif tree.tag == 'field': numargs = 0 while tree.children[numargs+1].tag == 'arg': numargs += 1 args = variables[1:1+numargs] body = variables[1+numargs:] text = (indent)*' '+'@'+variables[0] if args: text += '(' + ', '.join(args) + ')' text = text + ':\n' + ''.join(body) elif tree.tag == 'uri': if len(variables) != 2: raise ValueError('Bad URI ') elif variables[0] == variables[1]: text = self.render_text( '%s' % variables[1], 'blue', styles=['underline'], todefault=True) else: text = '%r<%s>' % (variables[0], variables[1]) elif tree.tag == 'link': if len(variables) != 2: raise ValueError('Bad Link') text = '%s' % variables[0] elif tree.tag in ('olist', 'ulist'): text = childstr.replace('\n\n', '\n')+'\n' elif tree.tag == 'bold': text = self.render_text( childstr, styles=['bold'], todefault=True) elif tree.tag == 'italic': text = self.render_text( childstr, styles=['underline'], todefault=True) elif tree.tag == 'symbol': text = '%s' \ % epydoc.markup.epytext.SYMBOL_TO_PLAINTEXT.get( childstr, childstr) elif tree.tag == 'graph': text = '<<%s graph: %s>>' \ % (variables[0], ', '.join(variables[1:])) else: # Assume that anything else can be passed through. text = self.render_text(childstr) return text configshell-fb-1.1.27/configshell/log.py000066400000000000000000000125721356053722400201320ustar00rootroot00000000000000''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' import inspect import os import time import traceback from .console import Console from .prefs import Prefs class Log(object): ''' Implements a file and console logger using python's logging facility. Log levels are, in raising criticality: - debug - verbose - info - warning - error - critical It uses configshell's Prefs() backend for storing some of its parameters, who can then be read/changed by other objects using Prefs() ''' __borg_state = {} levels = ['critical', 'error', 'warning', 'info', 'verbose', 'debug'] colors = {'critical': 'red', 'error': 'red', 'warning': 'yellow', 'info': 'green', 'verbose': 'blue', 'debug': 'blue'} def __init__(self, console_level=None, logfile=None, file_level=None): ''' This class implements the Borg pattern. @param console_level: Console log level, defaults to 'info' @type console_level: str @param logfile: Optional logfile. @type logfile: str @param file_level: File log level, defaults to 'debug'. @type file_level: str ''' self.__dict__ = self.__borg_state self.con = Console() self.prefs = Prefs() if console_level: self.prefs['loglevel_console'] = console_level elif not self.prefs['loglevel_console']: self.prefs['loglevel_console'] = 'info' if file_level: self.prefs['loglevel_file'] = file_level elif not self.prefs['loglevel_file']: self.prefs['loglevel_file'] = 'debug' if logfile: self.prefs['logfile'] = logfile # Private methods def _append(self, msg, level): ''' Just appends the message to the logfile if it exists, prefixing it with the current time and level. @param msg: The message to log @type msg: str @param level: The debug level to prefix the message with. @type level: str ''' date_fields = time.localtime() date = "%d-%02d-%02d %02d:%02d:%02d" \ % (date_fields[0], date_fields[1], date_fields[2], date_fields[3], date_fields[4], date_fields[5]) if self.prefs['logfile']: path = os.path.expanduser(self.prefs['logfile']) handle = open(path, 'a') try: handle.write("[%s] %s %s\n" % (level, date, msg)) finally: handle.close() def _log(self, level, msg): ''' Do the actual logging. @param level: The log level of the message. @type level: str @param msg: The message to log. @type msg: str ''' if self.levels.index(self.prefs['loglevel_file']) \ >= self.levels.index(level): self._append(msg, level.upper()) if self.levels.index(self.prefs['loglevel_console']) \ >= self.levels.index(level): if self.prefs["color_mode"]: msg = self.con.render_text(msg, self.colors[level]) else: msg = "%s: %s" % (level.capitalize(), msg) error = False if self.levels.index(level) <= self.levels.index('error'): error = True self.con.display(msg, error=error) # Public methods def debug(self, msg): ''' Logs a debug message. @param msg: The message to log. @type msg: str ''' caller = inspect.stack()[1] msg = "%s:%d %s() %s" % (caller[1], caller[2], caller[3], msg) self._log('debug', msg) def exception(self, msg=None): ''' Logs an error message and dumps a full stack trace. @param msg: The message to log. @type msg: str ''' trace = traceback.format_exc().rstrip() if msg: trace += '\n%s' % msg self._log('error', trace) def verbose(self, msg): ''' Logs a verbose message. @param msg: The message to log. @type msg: str ''' self._log('verbose', msg) def info(self, msg): ''' Logs an info message. @param msg: The message to log. @type msg: str ''' self._log('info', msg) def warning(self, msg): ''' Logs a warning message. @param msg: The message to log. @type msg: str ''' self._log('warning', msg) def error(self, msg): ''' Logs an error message. @param msg: The message to log. @type msg: str ''' self._log('error', msg) def critical(self, msg): ''' Logs a critical message. @param msg: The message to log. @type msg: str ''' self._log('critical', msg) configshell-fb-1.1.27/configshell/node.py000066400000000000000000002107531356053722400202770ustar00rootroot00000000000000''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' import inspect import re import six class ExecutionError(Exception): pass class ConfigNode(object): ''' The ConfigNode class defines a common skeleton to be used by specific implementation. It is "purely virtual" (sorry for using non-pythonic vocabulary there ;-) ). ''' _path_separator = '/' _path_current = '.' _path_previous = '..' ui_type_method_prefix = "ui_type_" ui_command_method_prefix = "ui_command_" ui_complete_method_prefix = "ui_complete_" ui_setgroup_method_prefix = "ui_setgroup_" ui_getgroup_method_prefix = "ui_getgroup_" help_intro = ''' GENERALITIES ============ This is a shell in which you can create, delete and configure configuration objects. The available commands depend on the current path or target path you want to run a command in: different path have different sets of available commands, i.e. a path pointing at an iscsi target will not have the same availaible commands as, say, a path pointing at a storage object. The prompt that starts each command line indicates your current path. Alternatively (useful if the prompt displays an abbreviated path to save space), you can run the B{pwd} command to display the complete current path. Navigating the tree is done using the B{cd} command. Without any argument, B{cd} will present you with the full objects tree. Just use arrows to select the destination path, and enter will get you there. Please try B{help cd} for navigation tips. COMMAND SYNTAX ============== Commands are built using the following syntax: [I{TARGET_PATH}] B{COMMAND_NAME} [I{OPTIONS}] The I{TARGET_PATH} indicates the path to run the command from. If ommited, the command will be run from your current path. The I{OPTIONS} depend on the command. Please use B{help COMMAND} to get more information. ''' def __init__(self, name, parent=None, shell=None): ''' @param parent: The parent ConfigNode of the new object. If None, then the ConfigNode will be a root node. @type parent: ConfigNode or None @param shell: The shell to attach a root node to. @type shell: ConfigShell ''' self._name = name self._children = set([]) if parent is None: if shell is None: raise ValueError("A root ConfigNode must have a shell.") else: self._parent = None self._shell = shell shell.attach_root_node(self) else: if shell is None: self._parent = parent self._shell = None else: raise ValueError("A non-root ConfigNode can't have a shell.") if self._parent is not None: for sibling in self._parent._children: if sibling.name == name: raise ValueError("Name '%s' already used by a sibling." % self._name) self._parent._children.add(self) self._configuration_groups = {} self.define_config_group_param( 'global', 'tree_round_nodes', 'bool', 'Tree node display style.') self.define_config_group_param( 'global', 'tree_status_mode', 'bool', 'Whether or not to display status in tree.') self.define_config_group_param( 'global', 'tree_max_depth', 'number', 'Maximum depth of displayed node tree.') self.define_config_group_param( 'global', 'tree_show_root', 'bool', 'Whether or not to display tree root.') self.define_config_group_param( 'global', 'color_mode', 'bool', 'Console color display mode.') self.define_config_group_param( 'global', 'loglevel_console', 'loglevel', 'Log level for messages going to the console.') self.define_config_group_param( 'global', 'loglevel_file', 'loglevel', 'Log level for messages going to the log file.') self.define_config_group_param( 'global', 'logfile', 'string', 'Logfile to use.') self.define_config_group_param( 'global', 'color_default', 'colordefault', 'Default text display color.') self.define_config_group_param( 'global', 'color_path', 'color', 'Color to use for path completions') self.define_config_group_param( 'global', 'color_command', 'color', 'Color to use for command completions.') self.define_config_group_param( 'global', 'color_parameter', 'color', 'Color to use for parameter completions.') self.define_config_group_param( 'global', 'color_keyword', 'color', 'Color to use for keyword completions.') self.define_config_group_param( 'global', 'prompt_length', 'number', 'Max length of the shell prompt path, 0 for infinite.') if self.shell.prefs['bookmarks'] is None: self.shell.prefs['bookmarks'] = {} # User interface types def ui_type_number(self, value=None, enum=False, reverse=False): ''' UI parameter type helper for number parameter type. @param value: Value to check against the type. @type value: anything @param enum: Has a meaning only if value is omitted. If set, returns a list of the possible values for the type, or [] if this is not possible. If not set, returns a text description of the type format. @type enum: bool @param reverse: If set, translates an internal value to its UI string representation. @type reverse: bool @return: c.f. parameter enum description. @rtype: str|list|None @raise ValueError: If the value does not check ok against the type. ''' if reverse: if value is not None: return str(value) else: return 'n/a' type_enum = [] syntax = "NUMBER" if value is None: if enum: return type_enum else: return syntax elif not value: return None else: try: value = int(value) except ValueError: raise ValueError("Syntax error, '%s' is not a %s." % (value, syntax)) else: return value def ui_type_string(self, value=None, enum=False, reverse=False): ''' UI parameter type helper for string parameter type. @param value: Value to check against the type. @type value: anything @param enum: Has a meaning only if value is omitted. If set, returns a list of the possible values for the type, or [] if this is not possible. If not set, returns a text description of the type format. @type enum: bool @param reverse: If set, translates an internal value to its UI string representation. @type reverse: bool @return: c.f. parameter enum description. @rtype: str|list|None @raise ValueError: If the value does not check ok against the type. ''' if reverse: if value is not None: return value else: return 'n/a' type_enum = [] syntax = "STRING_OF_TEXT" if value is None: if enum: return type_enum else: return syntax elif not value: return None else: try: value = str(value) except ValueError: raise ValueError("Syntax error, '%s' is not a %s." % (value, syntax)) else: return value def ui_type_bool(self, value=None, enum=False, reverse=False): ''' UI parameter type helper for boolean parameter type. Valid values are either 'true' or 'false'. @param value: Value to check against the type. @type value: anything @param enum: Has a meaning only if value is omitted. If set, returns a list of the possible values for the type, or None if this is not possible. If not set, returns a text description of the type format. @type enum: bool @param reverse: If set, translates an internal value to its UI string representation. @type reverse: bool @return: c.f. parameter enum description. @rtype: str|list|None @raise ValueError: If the value does not check ok againts the type. ''' if reverse: if value: return 'true' else: return 'false' type_enum = ['true', 'false'] syntax = '|'.join(type_enum) if value is None: if enum: return type_enum else: return syntax elif value.lower() == 'true': return True elif value.lower() == 'false': return False else: raise ValueError("Syntax error, '%s' is not %s." % (value, syntax)) def ui_type_loglevel(self, value=None, enum=False, reverse=False): ''' UI parameter type helper for log level parameter type. @param value: Value to check against the type. @type value: anything @param enum: Has a meaning only if value is omitted. If set, returns a list of the possible values for the type, or None if this is not possible. If not set, returns a text description of the type format. @type enum: bool @param reverse: If set, translates an internal value to its UI string representation. @type reverse: bool @return: c.f. parameter enum description. @rtype: str|list|None @raise ValueError: If the value does not check ok againts the type. ''' if reverse: if value is not None: return value else: return 'n/a' type_enum = self.shell.log.levels syntax = '|'.join(type_enum) if value is None: if enum: return type_enum else: return syntax elif value in type_enum: return value else: raise ValueError("Syntax error, '%s' is not %s" % (value, syntax)) def ui_type_color(self, value=None, enum=False, reverse=False): ''' UI parameter type helper for color parameter type. @param value: Value to check against the type. @type value: anything @param enum: Has a meaning only if value is omitted. If set, returns a list of the possible values for the type, or None if this is not possible. If not set, returns a text description of the type format. @type enum: bool @param reverse: If set, translates an internal value to its UI string representation. @type reverse: bool @return: c.f. parameter enum description. @rtype: str|list|None @raise ValueError: If the value does not check ok againts the type. ''' if reverse: if value is not None: return value else: return 'default' type_enum = self.shell.con.colors + ['default'] syntax = '|'.join(type_enum) if value is None: if enum: return type_enum else: return syntax elif not value or value == 'default': return None elif value in type_enum: return value else: raise ValueError("Syntax error, '%s' is not %s" % (value, syntax)) def ui_type_colordefault(self, value=None, enum=False, reverse=False): ''' UI parameter type helper for default color parameter type. @param value: Value to check against the type. @type value: anything @param enum: Has a meaning only if value is omitted. If set, returns a list of the possible values for the type, or None if this is not possible. If not set, returns a text description of the type format. @type enum: bool @param reverse: If set, translates an internal value to its UI string representation. @type reverse: bool @return: c.f. parameter enum description. @rtype: str|list|None @raise ValueError: If the value does not check ok againts the type. ''' if reverse: if value is not None: return value else: return 'none' type_enum = self.shell.con.colors + ['none'] syntax = '|'.join(type_enum) if value is None: if enum: return type_enum else: return syntax elif not value or value == 'none': return None elif value in type_enum: return value else: raise ValueError("Syntax error, '%s' is not %s" % (value, syntax)) # User interface get/set methods def ui_setgroup_global(self, parameter, value): ''' This is the backend method for setting parameters in configuration group 'global'. It simply uses the Prefs() backend to store the global preferences for the shell. Some of these group parameters are shared using the same Prefs() object by the Log() and Console() classes, so this backend should not be changed without taking this into consideration. The parameters getting to us have already been type-checked and casted by the type-check methods registered in the config group via the ui set command, and their existence in the group has also been checked. Thus our job is minimal here. Also, it means that overhead when called with generated arguments (as opposed to user-supplied) gets minimal overhead, and allows setting new parameters without error. @param parameter: The parameter to set. @type parameter: str @param value: The value @type value: arbitrary ''' self.shell.prefs[parameter] = value def ui_getgroup_global(self, parameter): ''' This is the backend method for getting configuration parameters out of the B{global} configuration group. It gets the values from the Prefs() backend. Eventual casting to str for UI display is handled by the ui get command, for symmetry with the pendant ui_setgroup method. Existence of the parameter in the group should have already been checked by the ui get command, so we go blindly about this. This might allow internal client code to get a None value if the parameter does not exist, as supported by Prefs(). @param parameter: The parameter to get the value of. @type parameter: str @return: The parameter's value @rtype: arbitrary ''' return self.shell.prefs[parameter] def ui_eval_param(self, ui_value, type, default): ''' Evaluates a user-provided parameter value using a given type helper. If the parameter value is None, the default will be returned. If the ui_value does not check out with the type helper, and execution error will be raised. @param ui_value: The user provided parameter value. @type ui_value: str @param type: The ui_type to be used @type type: str @param default: The default value to return. @type default: any @return: The evaluated parameter value. @rtype: depends on type @raise ExecutionError: If evaluation fails. ''' type_method = self.get_type_method(type) if ui_value is None: return default else: try: value = type_method(ui_value) except ValueError as msg: raise ExecutionError(msg) else: return value def get_type_method(self, type): ''' Returns the type helper method matching the type name. ''' return getattr(self, "%s%s" % (self.ui_type_method_prefix, type)) # User interface commands def ui_command_set(self, group=None, **parameter): ''' Sets one or more configuration parameters in the given group. The B{global} group contains all global CLI preferences. Other groups are specific to the current path. Run with no parameter nor group to list all available groups, or with just a group name to list all available parameters within that group. Example: B{set global color_mode=true loglevel_console=info} SEE ALSO ======== get ''' if group is None: self.shell.con.epy_write(''' AVAILABLE CONFIGURATION GROUPS ============================== %s ''' % ' '.join(self.list_config_groups())) elif not parameter: if group not in self.list_config_groups(): raise ExecutionError("Unknown configuration group: %s" % group) section = "%s CONFIG GROUP" % group.upper() underline1 = ''.ljust(len(section), '=') parameters = '' for p_name in self.list_group_params(group, writable=True): p_def = self.get_group_param(group, p_name) type_method = self.get_type_method(p_def['type']) p_name = "%s=I{%s}" % (p_def['name'], p_def['type']) underline2 = ''.ljust(len(p_name), '-') parameters += '%s\n%s\n%s\n\n' \ % (p_name, underline2, p_def['description']) self.shell.con.epy_write('''%s\n%s\n%s\n''' % (section, underline1, parameters)) elif group not in self.list_config_groups(): raise ExecutionError("Unknown configuration group: %s" % group) for param, value in six.iteritems(parameter): if param not in self.list_group_params(group): raise ExecutionError("Unknown parameter %s in group '%s'." % (param, group)) p_def = self.get_group_param(group, param) type_method = self.get_type_method(p_def['type']) if not p_def['writable']: raise ExecutionError("Parameter %s is read-only." % param) try: value = type_method(value) except ValueError as msg: raise ExecutionError("Not setting %s! %s" % (param, msg)) group_setter = self.get_group_setter(group) group_setter(param, value) group_getter = self.get_group_getter(group) value = group_getter(param) value = type_method(value, reverse=True) self.shell.con.display("Parameter %s is now '%s'." % (param, value)) def ui_complete_set(self, parameters, text, current_param): ''' Parameter auto-completion method for user command set. @param parameters: Parameters on the command line. @type parameters: dict @param text: Current text of parameter being typed by the user. @type text: str @param current_param: Name of parameter to complete. @type current_param: str @return: Possible completions @rtype: list of str ''' completions = [] self.shell.log.debug("Called with params=%s, text='%s', current='%s'" % (str(parameters), text, current_param)) if current_param == 'group': completions = [group for group in self.list_config_groups() if group.startswith(text)] elif 'group' in parameters: group = parameters['group'] if group in self.list_config_groups(): group_params = self.list_group_params(group, writable=True) if current_param in group_params: p_def = self.get_group_param(group, current_param) type_method = self.get_type_method(p_def['type']) type_enum = type_method(enum=True) if type_enum is not None: type_enum = [item for item in type_enum if item.startswith(text)] completions.extend(type_enum) else: group_params = ([param + '=' for param in group_params if param.startswith(text) if param not in parameters]) if group_params: completions.extend(group_params) if len(completions) == 1 and not completions[0].endswith('='): completions = [completions[0] + ' '] self.shell.log.debug("Returning completions %s." % str(completions)) return completions def ui_command_get(self, group=None, *parameter): ''' Gets the value of one or more configuration parameters in the given group. Run with no parameter nor group to list all available groups, or with just a group name to list all available parameters within that group. Example: B{get global color_mode loglevel_console} SEE ALSO ======== set ''' if group is None: self.shell.con.epy_write(''' AVAILABLE CONFIGURATION GROUPS ============================== %s ''' % ' '.join(self.list_config_groups())) elif not parameter: if group not in self.list_config_groups(): raise ExecutionError("Unknown configuration group: %s" % group) section = "%s CONFIG GROUP" % group.upper() underline1 = ''.ljust(len(section), '=') parameters = '' params = [self.get_group_param(group, p_name) for p_name in self.list_group_params(group)] for p_def in params: group_getter = self.get_group_getter(group) value = group_getter(p_def['name']) type_method = self.get_type_method(p_def['type']) value = type_method(value, reverse=True) param = "%s=%s" % (p_def['name'], value) if p_def['writable'] is False: param += " [ro]" underline2 = ''.ljust(len(param), '-') parameters += '%s\n%s\n%s\n\n' \ % (param, underline2, p_def['description']) self.shell.con.epy_write('''%s\n%s\n%s\n''' % (section, underline1, parameters)) elif group not in self.list_config_groups(): raise ExecutionError("Unknown configuration group: %s" % group) for param in parameter: if param not in self.list_group_params(group): raise ExecutionError("No parameter '%s' in group '%s'." % (param, group)) self.shell.log.debug("About to get the parameter's value.") group_getter = self.get_group_getter(group) value = group_getter(param) p_def = self.get_group_param(group, param) type_method = self.get_type_method(p_def['type']) value = type_method(value, reverse=True) if p_def['writable']: writable = "" else: writable = "[ro]" self.shell.con.display("%s=%s %s" % (param, value, writable)) def ui_complete_get(self, parameters, text, current_param): ''' Parameter auto-completion method for user command get. @param parameters: Parameters on the command line. @type parameters: dict @param text: Current text of parameter being typed by the user. @type text: str @param current_param: Name of parameter to complete. @type current_param: str @return: Possible completions @rtype: list of str ''' completions = [] self.shell.log.debug("Called with params=%s, text='%s', current='%s'" % (str(parameters), text, current_param)) if current_param == 'group': completions = [group for group in self.list_config_groups() if group.startswith(text)] elif 'group' in parameters: group = parameters['group'] if group in self.list_config_groups(): group_params = ([param for param in self.list_group_params(group) if param.startswith(text) if param not in parameters]) if group_params: completions.extend(group_params) if len(completions) == 1 and not completions[0].endswith('='): completions = [completions[0] + ' '] self.shell.log.debug("Returning completions %s." % str(completions)) return completions def ui_command_ls(self, path=None, depth=None): ''' Display either the nodes tree relative to path or to the current node. PARAMETERS ========== I{path} ------- The I{path} to display the nodes tree of. Can be an absolute path, a relative path or a bookmark. I{depth} -------- The I{depth} parameter limits the maximum depth of the tree to display. If set to 0, then the complete tree will be displayed (the default). SEE ALSO ======== cd bookmarks ''' try: target = self.get_node(path) except ValueError as msg: raise ExecutionError(str(msg)) if depth is None: depth = self.shell.prefs['tree_max_depth'] try: depth = int(depth) except ValueError: raise ExecutionError('The tree depth must be a number.') if depth == 0: depth = None tree = self._render_tree(target, depth=depth) self.shell.con.display(tree) def _render_tree(self, root, margin=None, depth=None, do_list=False): ''' Renders an ascii representation of a tree of ConfigNodes. @param root: The root node of the tree @type root: ConfigNode @param margin: Format of the left margin to use for children. True results in a pipe, and False results in no pipe. Used for recursion only. @type margin: list @param depth: The maximum depth of nodes to display, None means infinite. @type depth: None or int @param do_list: Return two lists, one with each line text representation, the other with the corresponding paths. @type do_list: bool @return: An ascii tree representation or (lines, paths). @rtype: str ''' lines = [] paths = [] node_length = 2 node_shift = 2 level = root.path.rstrip('/').count('/') if margin is None: margin = [0] root_call = True else: root_call = False if do_list: color = None elif not level % 3: color = None elif not (level - 1) % 3: color = 'blue' else: color = 'magenta' if do_list: styles = None elif root_call: styles = ['bold', 'underline'] else: styles = ['bold'] if do_list: name = root.name else: name = self.shell.con.render_text(root.name, color, styles=styles) name_len = len(root.name) (description, is_healthy) = root.summary() if not description: if is_healthy is True: description = "OK" elif is_healthy is False: description = "ERROR" else: description = "..." description_len = len(description) + 3 if do_list: summary = '[' else: summary = self.shell.con.render_text(' [', styles=['bold']) if is_healthy is True: if do_list: summary += description else: summary += self.shell.con.render_text(description, 'green') elif is_healthy is False: if do_list: summary += description else: summary += self.shell.con.render_text(description, 'red', styles=['bold']) else: summary += description if do_list: summary += ']' else: summary += self.shell.con.render_text(']', styles=['bold']) def sorting_keys(s): m = re.search(r'(.*?)(\d+$)', str(s)) if m: return (m.group(1), int(m.group(2))) else: return (str(s), 0) # Sort ending numbers numerically, so we get e.g. "lun1, lun2, lun10" # instead of "lun1, lun10, lun2". children = sorted(root.children, key=sorting_keys) line = "" for pipe in margin[:-1]: if pipe: line = line + "|".ljust(node_shift) else: line = line + ''.ljust(node_shift) if self.shell.prefs['tree_round_nodes']: node_char = 'o' else: node_char = '+' line += node_char.ljust(node_length, '-') line += ' ' margin_len = len(line) pad = (self.shell.con.get_width() - 1 - description_len - margin_len - name_len) * '.' if not do_list: pad = self.shell.con.render_text(pad, color) line += name if self.shell.prefs['tree_status_mode']: line += ' %s%s' % (pad, summary) lines.append(line) paths.append(root.path) if root_call \ and not self.shell.prefs['tree_show_root'] \ and not do_list: tree = '' for child in children: tree = tree + self._render_tree(child, [False], depth) else: tree = line + '\n' if depth is None or depth > 0: if depth is not None: depth = depth - 1 for i in range(len(children)): margin.append(i}: - B{cd <} takes you back one step in the path history - B{cd >} takes you one step forward in the path history SEE ALSO ======== ls cd ''' self.shell.log.debug("Changing current node to '%s'." % path) if self.shell.prefs['path_history'] is None: self.shell.prefs['path_history'] = [self.path] self.shell.prefs['path_history_index'] = 0 # Go back in history to the last existing path if path == '<': if self.shell.prefs['path_history_index'] == 0: self.shell.log.info("Reached begining of path history.") return self exists = False while not exists: if self.shell.prefs['path_history_index'] > 0: self.shell.prefs['path_history_index'] = \ self.shell.prefs['path_history_index'] - 1 index = self.shell.prefs['path_history_index'] path = self.shell.prefs['path_history'][index] try: target_node = self.get_node(path) except ValueError: pass else: exists = True else: path = '/' self.shell.prefs['path_history_index'] = 0 self.shell.prefs['path_history'][0] = '/' exists = True self.shell.log.info('Taking you back to %s.' % path) return self.get_node(path) # Go forward in history if path == '>': if self.shell.prefs['path_history_index'] == \ len(self.shell.prefs['path_history']) - 1: self.shell.log.info("Reached the end of path history.") return self exists = False while not exists: if self.shell.prefs['path_history_index'] \ < len(self.shell.prefs['path_history']) - 1: self.shell.prefs['path_history_index'] = \ self.shell.prefs['path_history_index'] + 1 index = self.shell.prefs['path_history_index'] path = self.shell.prefs['path_history'][index] try: target_node = self.get_node(path) except ValueError: pass else: exists = True else: path = self.path self.shell.prefs['path_history_index'] \ = len(self.shell.prefs['path_history']) self.shell.prefs['path_history'].append(path) exists = True self.shell.log.info('Taking you back to %s.' % path) return self.get_node(path) # Use an urwid walker to select the path if path is None: lines, paths = self._render_tree(self.get_root(), do_list=True) start_pos = paths.index(self.path) selected = self._lines_walker(lines, start_pos=start_pos) path = paths[selected] # Normal path try: target_node = self.get_node(path) except ValueError as msg: raise ExecutionError(str(msg)) index = self.shell.prefs['path_history_index'] if target_node.path != self.shell.prefs['path_history'][index]: # Truncate the hostory to retain current path as last one self.shell.prefs['path_history'] = \ self.shell.prefs['path_history'][:index+1] # Append the new path and update the index self.shell.prefs['path_history'].append(target_node.path) self.shell.prefs['path_history_index'] = index + 1 self.shell.log.debug("After cd, path history is: %s, index is %d" % (str(self.shell.prefs['path_history']), self.shell.prefs['path_history_index'])) return target_node def _lines_walker(self, lines, start_pos): ''' Using the curses urwid library, displays all lines passed as argument, and after allowing selection of one line using up, down and enter keys, returns its index. @param lines: The lines to display and select from. @type lines: list of str @param start_pos: The index of the line to select initially. @type start_pos: int @return: the index of the selected line. @rtype: int ''' import urwid palette = [('header', 'white', 'black'), ('reveal focus', 'black', 'yellow', 'standout')] content = urwid.SimpleListWalker( [urwid.AttrMap(w, None, 'reveal focus') for w in [urwid.Text(line) for line in lines]]) listbox = urwid.ListBox(content) frame = urwid.Frame(listbox) def handle_input(input, raw): for key in input: widget, pos = content.get_focus() if key == 'up': if pos > 0: content.set_focus(pos-1) elif key == 'down': try: content.set_focus(pos+1) except IndexError: pass elif key == 'enter': raise urwid.ExitMainLoop() content.set_focus(start_pos) loop = urwid.MainLoop(frame, palette, input_filter=handle_input) loop.run() return listbox.focus_position def ui_complete_cd(self, parameters, text, current_param): ''' Parameter auto-completion method for user command cd. @param parameters: Parameters on the command line. @type parameters: dict @param text: Current text of parameter being typed by the user. @type text: str @param current_param: Name of parameter to complete. @type current_param: str @return: Possible completions @rtype: list of str ''' if current_param == 'path': completions = self.ui_complete_ls(parameters, text, current_param) completions.extend([nav for nav in ['<', '>'] if nav.startswith(text)]) return completions def ui_command_help(self, topic=None): ''' Displays the manual page for a topic, or list available topics. ''' commands = self.list_commands() if topic is None: msg = self.shell.con.dedent(self.help_intro) msg += self.shell.con.dedent(''' AVAILABLE COMMANDS ================== The following commands are available in the current path: ''') for command in commands: msg += " - %s\n" % self.get_command_syntax(command)[0] self.shell.con.epy_write(msg) return if topic not in commands: raise ExecutionError("Cannot find help topic %s." % topic) syntax, comments, defaults = self.get_command_syntax(topic) msg = self.shell.con.dedent(''' SYNTAX ====== %s ''' % syntax) for comment in comments: msg += comment + '\n' if defaults: msg += self.shell.con.dedent(''' DEFAULT VALUES ============== %s ''' % defaults) msg += self.shell.con.dedent(''' DESCRIPTION =========== ''') msg += self.get_command_description(topic) msg += "\n" self.shell.con.epy_write(msg) def ui_complete_help(self, parameters, text, current_param): ''' Parameter auto-completion method for user command help. @param parameters: Parameters on the command line. @type parameters: dict @param text: Current text of parameter being typed by the user. @type text: str @param current_param: Name of parameter to complete. @type current_param: str @return: Possible completions @rtype: list of str ''' if current_param == 'topic': # TODO Add other types of topics topics = self.list_commands() completions = [topic for topic in topics if topic.startswith(text)] else: completions = [] if len(completions) == 1: return [completions[0] + ' '] else: return completions def ui_command_exit(self): ''' Exits the command line interface. ''' return 'EXIT' def ui_command_bookmarks(self, action, bookmark=None): ''' Manage your bookmarks. Note that you can also access your bookmarks with the B{cd} command. For instance, the following commands are equivalent: - B{cd mybookmark} - C{bookmarks go mybookmark} You can also use bookmarks anywhere where you would use a normal path: - B{@mybookmark ls} would perform the B{ls} command in the bookmarked path. - B{ls @mybookmark} would show you the objects tree from the bookmarked path. PARAMETERS ========== I{action} --------- The I{action} is one of: - B{add} adds the current path to your bookmarks. - B{del} deletes a bookmark. - B{go} takes you to a bookmarked path. - B{show} shows you all your bookmarks. I{bookmark} ----------- This is the name of the bookmark. SEE ALSO ======== ls cd ''' if action == 'add' and bookmark: if bookmark in self.shell.prefs['bookmarks']: raise ExecutionError("Bookmark %s already exists." % bookmark) self.shell.prefs['bookmarks'][bookmark] = self.path # No way Prefs is going to account for that :-( self.shell.prefs.save() self.shell.log.info("Bookmarked %s as %s." % (self.path, bookmark)) elif action == 'del' and bookmark: if bookmark not in self.shell.prefs['bookmarks']: raise ExecutionError("No such bookmark %s." % bookmark) del self.shell.prefs['bookmarks'][bookmark] # No way Prefs is going to account for that deletion self.shell.prefs.save() self.shell.log.info("Deleted bookmark %s." % bookmark) elif action == 'go' and bookmark: if bookmark not in self.shell.prefs['bookmarks']: raise ExecutionError("No such bookmark %s." % bookmark) return self.ui_command_cd( self.shell.prefs['bookmarks'][bookmark]) elif action == 'show': bookmarks = self.shell.con.dedent(''' BOOKMARKS ========= ''') if not self.shell.prefs['bookmarks']: bookmarks += "No bookmarks yet.\n" else: for (bookmark, path) \ in six.iteritems(self.shell.prefs['bookmarks']): if len(bookmark) == 1: bookmark += '\0' underline = ''.ljust(len(bookmark), '-') bookmarks += "%s\n%s\n%s\n\n" % (bookmark, underline, path) self.shell.con.epy_write(bookmarks) else: raise ExecutionError("Syntax error, see 'help bookmarks'.") def ui_complete_bookmarks(self, parameters, text, current_param): ''' Parameter auto-completion method for user command bookmarks. @param parameters: Parameters on the command line. @type parameters: dict @param text: Current text of parameter being typed by the user. @type text: str @param current_param: Name of parameter to complete. @type current_param: str @return: Possible completions @rtype: list of str ''' if current_param == 'action': completions = [action for action in ['add', 'del', 'go', 'show'] if action.startswith(text)] elif current_param == 'bookmark': if 'action' in parameters: if parameters['action'] not in ['show', 'add']: completions = [mark for mark in self.shell.prefs['bookmarks'] if mark.startswith(text)] else: completions = [] if len(completions) == 1: return [completions[0] + ' '] else: return completions def ui_command_pwd(self): ''' Displays the current path. SEE ALSO ======== ls cd ''' self.shell.con.display(self.path) # Private methods def __str__(self): if self.is_root(): return '/' else: return self.name def _get_parent(self): ''' Get this node's parent. @return: The node's parent. @rtype: ConfigNode ''' return self._parent def _get_name(self): ''' @return: The node's name. @rtype: str ''' return self._name def _set_name(self, name): ''' Sets the node's name. ''' self._name = name def _get_path(self): ''' @returns: The absolute path for this node. @rtype: str ''' subpath = self._path_separator + self.name if self.is_root(): return self._path_separator elif self._parent.is_root(): return subpath else: return self._parent.path + subpath def _list_children(self): ''' Lists the children of this node. @return: The set of children nodes. @rtype: set of ConfigNode ''' return self._children def _get_shell(self): ''' Gets the shell attached to ConfigNode tree. ''' if self.is_root(): return self._shell else: return self.get_root().shell # Public methods def summary(self): ''' Returns a tuple with a status/description string for this node and a health flag, to be displayed along the node's name in object trees, etc. @returns: (description, is_healthy) @rtype: (str, bool or None) ''' return ('', None) def execute_command(self, command, pparams=[], kparams={}): ''' Execute a user command on the node. This works by finding out which is the support command method, using ConfigNode naming convention: The support method's name is 'PREFIX_COMMAND', where PREFIX is defined by ConfigNode.ui_command_method_prefix and COMMAND is the commands's name as seen by the user. @param command: Name of the command. @type command: str @param pparams: The positional parameters to use. @type pparams: list @param kparams: The keyword=value parameters to use. @type kparams: dict @return: The support method's return value. See ConfigShell._execute_command() for expected return values and how they are interpreted by ConfigShell. @rtype: str or ConfigNode or None ''' self.shell.log.debug("Executing command %s " % command + "with pparams %s " % pparams + "and kparams %s." % kparams) if command in self.list_commands(): method = self.get_command_method(command) else: raise ExecutionError("Command not found %s" % command) self.assert_params(method, pparams, kparams) return method(*pparams, **kparams) def assert_params(self, method, pparams, kparams): ''' Checks that positional and keyword parameters match a method definition, or raise an ExecutionError. @param method: The method to check call signature against. @type method: method @param pparams: The positional parameters. @type pparams: list @param kparams: The keyword parameters. @type kparams: dict @raise ExecutionError: When the check fails. ''' spec = inspect.getargspec(method) args = spec.args[1:] pp = spec.varargs kw = spec.keywords if spec.defaults is None: nb_opt_params = 0 else: nb_opt_params = len(spec.defaults) nb_max_params = len(args) nb_min_params = nb_max_params - nb_opt_params req_params = args[:nb_min_params] opt_params = args[nb_min_params:] unexpected_keywords = sorted(set(kparams) - set(args)) missing_params = sorted(set(args[len(pparams):]) - set(opt_params) - set(kparams.keys())) nb_params = len(pparams) + len(kparams) nb_standard_params = len(pparams) \ + len([param for param in kparams if param in args]) nb_extended_params = nb_params - nb_standard_params self.shell.log.debug("Min params: %d" % nb_min_params) self.shell.log.debug("Max params: %d" % nb_max_params) self.shell.log.debug("Required params: %s" % ", ".join(req_params)) self.shell.log.debug("Optional params: %s" % ", ".join(opt_params)) self.shell.log.debug("Got %s standard params." % nb_standard_params) self.shell.log.debug("Got %s extended params." % nb_extended_params) self.shell.log.debug("Variable positional params: %s" % pp) self.shell.log.debug("Variable keyword params: %s" % kw) if len(missing_params) == 1: raise ExecutionError( "Missing required parameter %s" % missing_params[0]) elif missing_params: raise ExecutionError( "Missing required parameters %s" % ", ".join("'%s'" % missing for missing in missing_params)) if spec.keywords is None: if len(unexpected_keywords) == 1: raise ExecutionError( "Unexpected keyword parameter '%s'." % unexpected_keywords[0]) elif unexpected_keywords: raise ExecutionError( "Unexpected keyword parameters %s." % ", ".join("'%s'" % kw for kw in unexpected_keywords)) all_params = args[:len(pparams)] all_params.extend(kparams.keys()) for param in all_params: if all_params.count(param) > 1: raise ExecutionError( "Duplicate parameter %s." % param) if nb_opt_params == 0 \ and nb_standard_params != nb_min_params \ and pp is None: raise ExecutionError( "Got %d positionnal parameters, expected exactly %d." % (nb_standard_params, nb_min_params)) if nb_standard_params > nb_max_params and pp is None: raise ExecutionError( "Got %d positionnal parameters, expected at most %d." % (nb_standard_params, nb_max_params)) def list_commands(self): ''' @return: The list of user commands available for this node. @rtype: list of str ''' prefix = self.ui_command_method_prefix prefix_len = len(prefix) return tuple([name[prefix_len:] for name in dir(self) if name.startswith(prefix) and name != prefix and inspect.ismethod(getattr(self, name))]) def get_group_getter(self, group): ''' @param group: A valid configuration group @type group: str @return: The getter method for the configuration group. @rtype: method object ''' prefix = self.ui_getgroup_method_prefix return getattr(self, '%s%s' % (prefix, group)) def get_group_setter(self, group): ''' @param group: A valid configuration group @type group: str @return: The setter method for the configuration group. @rtype: method object ''' prefix = self.ui_setgroup_method_prefix return getattr(self, '%s%s' % (prefix, group)) def get_command_method(self, command): ''' @param command: The command to get the method for. @type command: str @return: The user command support method. @rtype: method @raise ValueError: If the command is not found. ''' prefix = self.ui_command_method_prefix if command in self.list_commands(): return getattr(self, '%s%s' % (prefix, command)) else: self.shell.log.debug('No command named %s in %s (%s)' % (command, self.name, self.path)) raise ValueError('No command named "%s".' % command) def get_completion_method(self, command): ''' @return: A user command's completion method or None. @rtype: method or None @param command: The command to get the completion method for. @type command: str ''' prefix = self.ui_complete_method_prefix try: method = getattr(self, '%s%s' % (prefix, command)) except AttributeError: return None else: return method def get_command_description(self, command): ''' @return: An description string for a user command. @rtype: str @param command: The command to describe. @type command: str ''' doc = self.get_command_method(command).__doc__ if not doc: doc = "No description available." return self.shell.con.dedent(doc) def get_command_syntax(self, command): ''' @return: A list of formatted syntax descriptions for the command: - (syntax, comments, default_values) - syntax is the syntax definition line. - comments is a list of additionnal comments about the syntax. - default_values is a string with the default parameters values. @rtype: (str, [str...], str) @param command: The command to document. @type command: str ''' method = self.get_command_method(command) parameters, args, kwargs, default = inspect.getargspec(method) parameters = parameters[1:] if default is None: num_defaults = 0 else: num_defaults = len(default) if num_defaults != 0: required_parameters = parameters[:-num_defaults] optional_parameters = parameters[-num_defaults:] else: required_parameters = parameters optional_parameters = [] self.shell.log.debug("Required: %s" % str(required_parameters)) self.shell.log.debug("Optional: %s" % str(optional_parameters)) syntax = "B{%s} " % command required_parameters_str = '' for param in required_parameters: required_parameters_str += "I{%s} " % param syntax += required_parameters_str optional_parameters_str = '' for param in optional_parameters: optional_parameters_str += "[I{%s}] " % param syntax += optional_parameters_str comments = [] #if optional_parameters: # comments.append(self.shell.con.dedent( # ''' # %s - These are optional parameters that can either be # specified in the above order as positional parameters, or in # any order at the end of the line as keyword=value parameters. # ''' % optional_parameters_str[:-1])) if args is not None: syntax += "[I{%s}...] " % args # comments.append(self.shell.con.dedent( # ''' # [I{%s}...] - This command accepts an arbitrary number of # parameters before any keyword=value parameter. In order to use # them, you must fill in all previous positional parameters if # any. See B{DESCRIPTION} below. # ''' % args)) if kwargs is not None: syntax += "[I{%s=value}...] " % (kwargs) # comments.append(self.shell.con.dedent( # ''' # This command also accepts an arbitrary number of # keyword=value parameters. See B{DESCRIPTION} below. # ''')) default_values = '' if num_defaults > 0: for index, param in enumerate(optional_parameters): if default[index] is not None: default_values += "%s=%s " % (param, str(default[index])) return syntax, comments, default_values def get_command_signature(self, command): ''' Get a command's signature. @param command: The command to get the signature of. @type command: str @return: (parameters, free_pparams, free_kparams) where parameters is a list of all the command's parameters and free_pparams and free_kparams booleans set to True is the command accepts an arbitrary number of, respectively, pparams and kparams. @rtype: ([str...], bool, bool) ''' method = self.get_command_method(command) parameters, args, kwargs, default = inspect.getargspec(method) parameters = parameters[1:] if args is not None: free_pparams = args else: free_pparams = False if kwargs is not None: free_kparams = kwargs else: free_kparams = False self.shell.log.debug("Signature is %s, %s, %s." % (str(parameters), str(free_pparams), str(free_kparams))) return parameters, free_pparams, free_kparams def get_root(self): ''' @return: The root node of the nodes tree. @rtype: ConfigNode ''' if self.is_root(): return self else: return self.parent.get_root() def define_config_group_param(self, group, param, type, description=None, writable=True): ''' Helper to define configuration group parameters. @param group: The configuration group to add the parameter to. @type group: str @param param: The new parameter name. @type param: str @param description: Optional description string. @type description: str @param writable: Whether or not this would be a rw or ro parameter. @type writable: bool ''' if group not in self._configuration_groups: self._configuration_groups[group] = {} if description is None: description = "The %s %s parameter." % (param, group) # Fail early if the type and set/get helpers don't exist self.get_type_method(type) self.get_group_getter(group) if writable: self.get_group_setter(group) self._configuration_groups[group][param] = \ [type, description, writable] def list_config_groups(self): ''' Lists the configuration group names. ''' return self._configuration_groups.keys() def list_group_params(self, group, writable=None): ''' Lists the parameters from group matching the optional param, writable and type supplied (if none is supplied, returns all group parameters. @param group: The group to list parameters of. @type group: str @param writable: Optional writable flag filter. @type writable: bool ''' if group not in self.list_config_groups(): return [] else: params = [] for p_name, p_def in six.iteritems(self._configuration_groups[group]): (p_type, p_description, p_writable) = p_def if writable is not None and p_writable != writable: continue params.append(p_name) params.sort() return params def get_group_param(self, group, param): ''' @param group: The configuration group to retreive the parameter from. @type group: str @param param: The parameter name. @type param: str @return: A dictionnary for the requested group parameter, with name, writable, description, group and type fields. @rtype: dict @raise ValueError: If the parameter or group does not exist. ''' if group not in self.list_config_groups(): raise ValueError("Not such configuration group %s" % group) if param not in self.list_group_params(group): raise ValueError("Not such parameter %s in configuration group %s" % (param, group)) (p_type, p_description, p_writable) = \ self._configuration_groups[group][param] return dict(name=param, group=group, type=p_type, description=p_description, writable=p_writable) shell = property(_get_shell, doc="Gets the shell attached to ConfigNode tree.") name = property(_get_name, _set_name, doc="Gets or sets the node's name.") path = property(_get_path, doc="Gets the node's path.") children = property(_list_children, doc="Lists the node's children.") parent = property(_get_parent, doc="Gets the node's parent.") def is_root(self): ''' @return: Wether or not we are a root node. @rtype: bool ''' if self._parent is None: return True else: return False def get_child(self, name): ''' @param name: The child's name. @type name: str @return: Our child named by name. @rtype: ConfigNode @raise ValueError: If there is no child named by name. ''' for child in self._children: if child.name == name: return child else: raise ValueError("No such path %s/%s" % (self.path.rstrip('/'), name)) def remove_child(self, child): ''' Removes a child from our children's list. @param child: The child to remove. @type child: ConfigNode ''' self._children.remove(child) def get_node(self, path): ''' Looks up a node by path in the nodes tree. @param path: The node's path. @type path: str @return: The node that has the given path. @rtype: ConfigNode @raise ValueError: If there is no node with that path. ''' def adjacent_node(name): ''' Returns an adjacent node or ourself. ''' if name == self._path_current: return self elif name == self._path_previous: if self._parent is not None: return self._parent else: return self else: return self.get_child(name) # Cleanup the path if path is None or path == '': path = '.' # Is it a bookmark ? if path.startswith('@'): bookmark = path.lstrip('@').strip() if bookmark in self.shell.prefs['bookmarks']: path = self.shell.prefs['bookmarks'][bookmark] else: raise ValueError("No such bookmark %s" % bookmark) # More cleanup path = re.sub('%s+' % self._path_separator, self._path_separator, path) if len(path) > 1: path = path.rstrip(self._path_separator) self.shell.log.debug("Looking for path '%s'" % path) # Absolute path - make relative and pass on to root node if path.startswith(self._path_separator): next_node = self.get_root() next_path = path.lstrip(self._path_separator) if next_path: return next_node.get_node(next_path) else: return next_node # Relative path if self._path_separator in path: next_node_name, next_path = path.split(self._path_separator, 1) next_node = adjacent_node(next_node_name) return next_node.get_node(next_path) # Path is just one of our children return adjacent_node(path) configshell-fb-1.1.27/configshell/prefs.py000066400000000000000000000106471356053722400204710ustar00rootroot00000000000000''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' import six import fcntl class Prefs(object): ''' This is a preferences backend object used to: - Hold the ConfigShell preferences - Handle persistent storage and retrieval of these preferences - Share the preferences between the ConfigShell and ConfigNode objects As it is inherently destined to be shared between objects, this is a Borg. ''' _prefs = {} filename = None autosave = False __borg_state = {} def __init__(self, filename=None): ''' Instanciates the ConfigShell preferences object. @param filename: File to store the preferencces to. @type filename: str ''' self.__dict__ = self.__borg_state if filename is not None: self.filename = filename def __getitem__(self, key): ''' Proxies dict-like references to prefs. One specific behavior, though, is that if the key does not exists, we will return None instead of raising an exception. @param key: The preferences dictionnary key to get. @type key: any valid dict key @return: The key value @rtype: n/a ''' if key in self._prefs: return self._prefs[key] else: return None def __setitem__(self, key, value): ''' Proxies dict-like references to prefs. @param key: The preferences dictionnary key to set. @type key: any valid dict key ''' self._prefs[key] = value if self.autosave: self.save() def __contains__(self, key): ''' Do the preferences contain key ? @param key: The preferences dictionnary key to check. @type key: any valid dict key ''' if key in self._prefs: return True else: return False def __delitem__(self, key): ''' Deletes a preference key. @param key: The preference to delete. @type key: any valid dict key ''' del self._prefs[key] if self.autosave: self.save() def __iter__(self): ''' Generic iterator for the preferences. ''' return self._prefs.__iter__() # Public methods def keys(self): ''' @return: Returns the list of keys in preferences. @rtype: list ''' return self._prefs.keys() def items(self): ''' @return: Returns the list of items in preferences. @rtype: list of (key, value) tuples ''' return self._prefs.items() def iteritems(self): ''' @return: Iterates on the items in preferences. @rtype: yields items that are (key, value) pairs ''' return six.iteritems(self._prefs) def save(self, filename=None): ''' Saves the preferences to disk. If filename is not specified, use the default one if it is set, else do nothing. @param filename: Optional alternate file to use. @type filename: str ''' if filename is None: filename = self.filename if filename is not None: fsock = open(filename, 'wb') fcntl.lockf(fsock, fcntl.LOCK_UN) try: six.moves.cPickle.dump(self._prefs, fsock, 2) finally: fsock.close() def load(self, filename=None): ''' Loads the preferences from file. Use either the supplied filename, or the default one if set. Else, do nothing. ''' if filename is None: filename = self.filename if filename is not None: fsock = open(filename, 'rb') fcntl.lockf(fsock, fcntl.LOCK_SH) try: self._prefs = six.moves.cPickle.load(fsock) finally: fsock.close() configshell-fb-1.1.27/configshell/shell.py000066400000000000000000001060051356053722400204530ustar00rootroot00000000000000''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' import os import six import sys from pyparsing import (alphanums, Empty, Group, locatedExpr, OneOrMore, Optional, ParseResults, Regex, Suppress, Word) from . import console from . import log from . import prefs from .node import ConfigNode, ExecutionError # A fix for frozen packages import signal def handle_sigint(signum, frame): ''' Raise KeyboardInterrupt when we get a SIGINT. This is normally done by python, but even after patching pyinstaller 1.4 to ignore SIGINT in the C wrapper code, we still have to do the translation ourselves. ''' raise KeyboardInterrupt try: signal.signal(signal.SIGINT, handle_sigint) except Exception: # In a thread, this fails pass if sys.stdout.isatty(): import readline tty=True else: tty=False # remember the original setting oldTerm = os.environ.get('TERM') os.environ['TERM'] = '' import readline # restore the orignal TERM setting if oldTerm != None: os.environ['TERM'] = oldTerm del oldTerm class ConfigShell(object): ''' This is a simple CLI command interpreter that can be used both in interactive or non-interactive modes. It is based on a tree of ConfigNode objects, which can be navigated. The ConfigShell object itself provides global navigation commands. It also handles the parsing of local commands (specific to a certain ConfigNode) according to the ConfigNode commands definitions. If the ConfigNode provides hooks for possible parameter values in a given context, then the ConfigShell will also provide command-line completion using the TAB key. If no completion hooks are available from the ConfigNode, the completion function will still be able to display some help and general syntax advice (as much as the ConfigNode will provide). Interactive sessions can be saved/loaded automatically by ConfigShell is a writable session directory is supplied. This includes command-line history, current node and global parameters. ''' default_prefs = {'color_path': 'magenta', 'color_command': 'cyan', 'color_parameter': 'magenta', 'color_keyword': 'cyan', 'logfile': None, 'loglevel_console': 'info', 'loglevel_file': 'debug9', 'color_mode': True, 'prompt_length': 30, 'tree_max_depth': 0, 'tree_status_mode': True, 'tree_round_nodes': True, 'tree_show_root': True } _completion_help_topic = '' _current_parameter = '' _current_token = '' _current_completions = [] def __init__(self, preferences_dir=None): ''' Creates a new ConfigShell. @param preferences_dir: Directory to load/save preferences from/to @type preferences_dir: str ''' self._current_node = None self._root_node = None self._exit = False # Grammar of the command line command = locatedExpr(Word(alphanums + '_'))('command') var = Word(alphanums + '?;&*$!#,=_\+/.<>()~@:-%[]') value = var keyword = Word(alphanums + '_\-') kparam = locatedExpr(keyword + Suppress('=') + Optional(value, default=''))('kparams*') pparam = locatedExpr(var)('pparams*') parameter = kparam | pparam parameters = OneOrMore(parameter) bookmark = Regex('@([A-Za-z0-9:_.]|-)+') pathstd = Regex('([A-Za-z0-9:_.\[\]]|-)*' + '/' + '([A-Za-z0-9:_.\[\]/]|-)*') \ | '..' | '.' path = locatedExpr(bookmark | pathstd | '*')('path') parser = Optional(path) + Optional(command) + Optional(parameters) self._parser = parser if tty: readline.set_completer_delims('\t\n ~!#$^&(){}\|;\'",?') readline.set_completion_display_matches_hook( self._display_completions) self.log = log.Log() if preferences_dir is not None: preferences_dir = os.path.expanduser(preferences_dir) if not os.path.exists(preferences_dir): os.makedirs(preferences_dir) self._prefs_file = preferences_dir + '/prefs.bin' self.prefs = prefs.Prefs(self._prefs_file) self._cmd_history = preferences_dir + '/history.txt' self._save_history = True if not os.path.isfile(self._cmd_history): try: open(self._cmd_history, 'w').close() except: self.log.warning("Cannot create history file %s, " % self._cmd_history + "command history will not be saved.") self._save_history = False if os.path.isfile(self._cmd_history) and tty: try: readline.read_history_file(self._cmd_history) except IOError: self.log.warning("Cannot read command history file %s." % self._cmd_history) if self.prefs['logfile'] is None: self.prefs['logfile'] = preferences_dir + '/' + 'log.txt' self.prefs.autosave = True else: self.prefs = prefs.Prefs() self._save_history = False try: self.prefs.load() except IOError: self.log.warning("Could not load preferences file %s." % self._prefs_file) for pref, value in six.iteritems(self.default_prefs): if pref not in self.prefs: self.prefs[pref] = value self.con = console.Console() # Private methods def _display_completions(self, substitution, matches, max_length): ''' Display the completions. Invoked by readline. @param substitution: string to complete @param matches: list of possible matches @param max_length: length of the longest matching item ''' x_orig = self.con.get_cursor_xy()[0] width = self.con.get_width() max_length += 2 def just(text): ''' Justifies the text to the max match length. ''' return text.ljust(max_length, " ") # Sort and colorize the matches if self._current_parameter: keywords = [] values = [] for match in matches: if match.endswith('='): keywords.append( self.con.render_text( just(match), self.prefs['color_keyword'])) elif '=' in match: _, _, value = match.partition('=') values.append( self.con.render_text( just(value), self.prefs['color_parameter'])) else: values.append( self.con.render_text( just(match), self.prefs['color_parameter'])) matches = values + keywords else: paths = [] commands = [] for match in matches: if '/' in match or match.startswith('@') or '*' in match: paths.append( self.con.render_text( just(match), self.prefs['color_path'])) else: commands.append( self.con.render_text( just(match), self.prefs['color_command'])) matches = paths + commands # Display the possible completions in columns self.con.raw_write("\n") if matches: if max_length < width: nr_cols = width // max_length else: nr_cols = 1 for i in six.moves.range(0, len(matches), nr_cols): self.con.raw_write(''.join(matches[i:i+nr_cols])) self.con.raw_write('\n') # Display the prompt and the command line line = "%s%s" % (self._get_prompt(), readline.get_line_buffer()) self.con.raw_write("%s" % line) # Move the cursor where it should be y_pos = self.con.get_cursor_xy()[1] self.con.set_cursor_xy(x_orig, y_pos) def _complete_token_command(self, text, path, command): ''' Completes a partial command token, which could also be the beginning of a path. @param path: Path of the target ConfigNode. @type path: str @param command: The command (if any) found by the parser. @type command: str @param text: Current text being typed by the user. @type text: str @return: Possible completions for the token. @rtype: list of str ''' completions = [] target = self._current_node.get_node(path) commands = target.list_commands() self.log.debug("Completing command token among %s" % str(commands)) # Start with the possible commands for command in commands: if command.startswith(text): completions.append(command) if len(completions) == 1: completions[0] = completions[0] + ' ' # No identified path yet on the command line, this might be it if not path: path_completions = [child.name + '/' for child in self._current_node.children if child.name.startswith(text)] if not text: path_completions.append('/') if len(self._current_node.children) > 1: path_completions.append('* ') if path_completions: if completions: self._current_token = \ self.con.render_text( 'path', self.prefs['color_path']) \ + '|' \ + self.con.render_text( 'command', self.prefs['color_command']) else: self._current_token = \ self.con.render_text( 'path', self.prefs['color_path']) else: self._current_token = \ self.con.render_text( 'command', self.prefs['color_command']) if len(path_completions) == 1 and \ not path_completions[0][-1] in [' ', '*'] and \ not self._current_node.get_node(path_completions[0]).children: path_completions[0] = path_completions[0] + ' ' completions.extend(path_completions) else: self._current_token = \ self.con.render_text( 'command', self.prefs['color_command']) # Even a bookmark bookmarks = ['@' + bookmark for bookmark in self.prefs['bookmarks'] if bookmark.startswith("%s" % text.lstrip('@'))] self.log.debug("Found bookmarks %s." % str(bookmarks)) if bookmarks: completions.extend(bookmarks) # We are done return completions def _complete_token_path(self, text): ''' Completes a partial path token. @param text: Current text being typed by the user. @type text: str @return: Possible completions for the token. @rtype: list of str ''' completions = [] if text.endswith('.'): text = text + '/' (basedir, slash, partial_name) = text.rpartition('/') self.log.debug("Got basedir=%s, partial_name=%s" % (basedir, partial_name)) basedir = basedir + slash target = self._current_node.get_node(basedir) names = [child.name for child in target.children] # Iterall path completion if names and partial_name in ['', '*']: # Not suggesting iterall to end a path that has only one # child allows for fast TAB action to add the only child's # name. if len(names) > 1: completions.append("%s* " % basedir) for name in names: num_matches = 0 if name.startswith(partial_name): num_matches += 1 if num_matches == 1: completions.append("%s%s/" % (basedir, name)) else: completions.append("%s%s" % (basedir, name)) # Bookmarks bookmarks = ['@' + bookmark for bookmark in self.prefs['bookmarks'] if bookmark.startswith("%s" % text.lstrip('@'))] self.log.debug("Found bookmarks %s." % str(bookmarks)) if bookmarks: completions.extend(bookmarks) if len(completions) == 1: self.log.debug("One completion left.") if not completions[0].endswith("* "): if not self._current_node.get_node(completions[0]).children: completions[0] = completions[0].rstrip('/') + ' ' self._current_token = \ self.con.render_text( 'path', self.prefs['color_path']) return completions def _complete_token_pparam(self, text, path, command, pparams, kparams): ''' Completes a positional parameter token, which can also be the keywork part of a kparam token, as before the '=' sign is on the line, the parser cannot know better. @param path: Path of the target ConfigNode. @type path: str @param command: The command (if any) found by the parser. @type command: str @param pparams: Positional parameters from commandline. @type pparams: list of str @param kparams: Keyword parameters from commandline. @type kparams: dict of str:str @param text: Current text being typed by the user. @type text: str @return: Possible completions for the token. @rtype: list of str ''' completions = [] target = self._current_node.get_node(path) cmd_params, free_pparams, free_kparams = \ target.get_command_signature(command) current_parameters = {} for index in range(len(pparams)): if index < len(cmd_params): current_parameters[cmd_params[index]] = pparams[index] for key, value in six.iteritems(kparams): current_parameters[key] = value self._completion_help_topic = command completion_method = target.get_completion_method(command) self.log.debug("Command %s accepts parameters %s." % (command, cmd_params)) # Do we still accept positional params ? pparam_ok = True for index in range(len(cmd_params)): param = cmd_params[index] if param in kparams: if index <= len(pparams): pparam_ok = False self.log.debug( "No more possible pparams (because of kparams).") break elif (text.strip() == '' and len(pparams) == len(cmd_params)) \ or (len(pparams) > len(cmd_params)): pparam_ok = False self.log.debug("No more possible pparams.") break else: if len(cmd_params) == 0: pparam_ok = False self.log.debug("No more possible pparams (none exists)") # If we do, find out which one we are completing if pparam_ok: if not text: pparam_index = len(pparams) else: pparam_index = len(pparams) - 1 self._current_parameter = cmd_params[pparam_index] self.log.debug("Completing pparam %s." % self._current_parameter) if completion_method: pparam_completions = completion_method( current_parameters, text, self._current_parameter) if pparam_completions is not None: completions.extend(pparam_completions) # Add the keywords for parameters not already on the line if text: offset = 1 else: offset = 0 keyword_completions = [param + '=' \ for param in cmd_params[len(pparams)-offset:] \ if param not in kparams \ if param.startswith(text)] self.log.debug("Possible pparam values are %s." % str(completions)) self.log.debug("Possible kparam keywords are %s." % str(keyword_completions)) if keyword_completions: if self._current_parameter: self._current_token = \ self.con.render_text( self._current_parameter, \ self.prefs['color_parameter']) \ + '|' \ + self.con.render_text( 'keyword=', self.prefs['color_keyword']) else: self._current_token = \ self.con.render_text( 'keyword=', self.prefs['color_keyword']) else: if self._current_parameter: self._current_token = \ self.con.render_text( self._current_parameter, self.prefs['color_parameter']) else: self._current_token = '' completions.extend(keyword_completions) if free_kparams or free_pparams: self.log.debug("Command has free [kp]params.") if completion_method: self.log.debug("Calling completion method for free params.") free_completions = completion_method( current_parameters, text, '*') do_free_pparams = False do_free_kparams = False for free_completion in free_completions: if free_completion.endswith("="): do_free_kparams = True else: do_free_pparams = True if do_free_pparams: self._current_token = \ self.con.render_text( free_pparams, self.prefs['color_parameter']) \ + '|' + self._current_token self._current_token = self._current_token.rstrip('|') if not self._current_parameter: self._current_parameter = 'free_parameter' if do_free_kparams: if not 'keyword=' in self._current_token: self._current_token = \ self.con.render_text( 'keyword=', self.prefs['color_keyword']) \ + '|' + self._current_token self._current_token = self._current_token.rstrip('|') if not self._current_parameter: self._current_parameter = 'free_parameter' completions.extend(free_completions) self.log.debug("Found completions %s." % str(completions)) return completions def _complete_token_kparam(self, text, path, command, pparams, kparams): ''' Completes a keyword=value parameter token. @param path: Path of the target ConfigNode. @type path: str @param command: The command (if any) found by the parser. @type command: str @param pparams: Positional parameters from commandline. @type pparams: list of str @param kparams: Keyword parameters from commandline. @type kparams: dict of str:str @param text: Current text being typed by the user. @type text: str @return: Possible completions for the token. @rtype: list of str ''' self.log.debug("Called for text='%s'" % text) target = self._current_node.get_node(path) cmd_params = target.get_command_signature(command)[0] self.log.debug("Command %s accepts parameters %s." % (command, cmd_params)) (keyword, sep, current_value) = text.partition('=') self.log.debug("Completing '%s' for kparam %s" % (current_value, keyword)) self._current_parameter = keyword current_parameters = {} for index in range(len(pparams)): current_parameters[cmd_params[index]] = pparams[index] for key, value in six.iteritems(kparams): current_parameters[key] = value completion_method = target.get_completion_method(command) if completion_method: completions = completion_method( current_parameters, current_value, keyword) if completions is None: completions = [] self._current_token = \ self.con.render_text( self._current_parameter, self.prefs['color_parameter']) self.log.debug("Found completions %s." % str(completions)) return ["%s=%s" % (keyword, completion) for completion in completions] def _complete(self, text, state): ''' Text completion method, directly called by readline. Finds out what token the user wants completion for, and calls the _dispatch_completion() to get the possible completions. Then implements the state system needed by readline to return those possible completions to readline. @param text: The text to complete. @type text: str @returns: The next possible completion for text. @rtype: str ''' if state == 0: cmdline = readline.get_line_buffer() self._current_completions = [] self._completion_help_topic = '' self._current_parameter = '' (parse_results, path, command, pparams, kparams) = \ self._parse_cmdline(cmdline) beg = readline.get_begidx() end = readline.get_endidx() current_token = None if beg == end: # No text under the cursor, fake it so that the parser # result_trees gives us a token name on a second parser call self.log.debug("Faking text entry on commandline.") parse_results = self._parse_cmdline(cmdline + 'x')[0] if parse_results.command.value == 'x': current_token = 'command' elif 'x' in [x.value for x in parse_results.pparams]: current_token = 'pparam' elif 'x' in [x.value for x in parse_results.kparams]: current_token = 'kparam' elif path and beg == parse_results.path.locn_start: current_token = 'path' elif command and beg == parse_results.command.locn_start: current_token = 'command' elif pparams and beg in [p.locn_start for p in parse_results.pparams]: current_token = 'pparam' elif kparams and beg in [k.locn_start for k in parse_results.kparams]: current_token = 'kparam' self._current_completions = \ self._dispatch_completion(path, command, pparams, kparams, text, current_token) self.log.debug("Returning completions %s to readline." % str(self._current_completions)) if state < len(self._current_completions): return self._current_completions[state] else: return None def _dispatch_completion(self, path, command, pparams, kparams, text, current_token): ''' This method takes care of dispatching the current completion request from readline (via the _complete() method) to the relevant token completion methods. It has to cope with the fact that the commandline being incomplete yet, Of course, as the command line is still unfinished, the parser can only do so much of a job. For instance, until the '=' sign is on the command line, there is no way to distinguish a positional parameter from the begining of a keyword=value parameter. @param path: Path of the target ConfigNode. @type path: str @param command: The command (if any) found by the parser. @type command: str @param pparams: Positional parameters from commandline. @type pparams: list of str @param kparams: Keyword parameters from commandline. @type kparams: dict of str:str @param text: Current text being typed by the user. @type text: str @param current_token: Name of token to complete. @type current_token: str @return: Possible completions for the token. @rtype: list of str ''' completions = [] self.log.debug("Dispatching completion for %s token. " % current_token + "text='%s', path='%s', command='%s', " % (text, path, command) + "pparams=%s, kparams=%s" % (str(pparams), str(kparams))) (path, iterall) = path.partition('*')[:2] if iterall: try: target = self._current_node.get_node(path) except ValueError: cpl_path = path else: children = target.children if children: cpl_path = children[0].path else: cpl_path = path if current_token == 'command': completions = self._complete_token_command(text, cpl_path, command) elif current_token == 'path': completions = self._complete_token_path(text) elif current_token == 'pparam': completions = \ self._complete_token_pparam(text, cpl_path, command, pparams, kparams) elif current_token == 'kparam': completions = \ self._complete_token_kparam(text, cpl_path, command, pparams, kparams) else: self.log.debug("Cannot complete unknown token %s." % current_token) return completions def _get_prompt(self): ''' Returns the command prompt string. ''' prompt_path = self._current_node.path prompt_length = self.prefs['prompt_length'] if prompt_length and prompt_length < len(prompt_path): half = (prompt_length - 3) // 2 prompt_path = "%s...%s" \ % (prompt_path[:half], prompt_path[-half:]) if 'prompt_msg' in dir(self._current_node): return "%s%s> " % (self._current_node.prompt_msg(), prompt_path) else: return "%s> " % prompt_path def _cli_loop(self): ''' Starts the configuration shell interactive loop, that: - Goes to the last current path - Displays the prompt - Waits for user input - Runs user command ''' while not self._exit: try: readline.parse_and_bind("tab: complete") readline.set_completer(self._complete) cmdline = six.moves.input(self._get_prompt()).strip() except EOFError: self.con.raw_write('exit\n') cmdline = "exit" self.run_cmdline(cmdline) if self._save_history: try: readline.write_history_file(self._cmd_history) except IOError: self.log.warning( "Cannot write to command history file %s." \ % self._cmd_history) self.log.warning( "Saving command history has been disabled!") self._save_history = False def _parse_cmdline(self, line): ''' Parses the command line entered by the user. This is a wrapper around the actual pyparsing parser that pre-chews the result trees to cleanly extract the tokens we care for (parameters, path, command). @param line: The command line to parse. @type line: str @return: (result_trees, path, command, pparams, kparams), pparams being positional parameters and kparams the keyword=value. @rtype: (pyparsing.ParseResults, str, str, list, dict) ''' self.log.debug("Parsing commandline.") path = '' command = '' pparams = [] kparams = {} parse_results = self._parser.parseString(line) if isinstance(parse_results.path, ParseResults): path = parse_results.path.value if isinstance(parse_results.command, ParseResults): command = parse_results.command.value if isinstance(parse_results.pparams, ParseResults): pparams = [pparam.value for pparam in parse_results.pparams] if isinstance(parse_results.kparams, ParseResults): kparams = dict([kparam.value for kparam in parse_results.kparams]) self.log.debug("Parse gave path='%s' command='%s' " % (path, command) + "pparams=%s " % str(pparams) + "kparams=%s" % str(kparams)) return (parse_results, path, command, pparams, kparams) def _execute_command(self, path, command, pparams, kparams): ''' Calls the target node to execute a command. Behavior depends on the target node command's result: - An 'EXIT' string will trigger shell exit. - None will do nothing. - A ConfigNode object will trigger a current_node change. @param path: Path of the target node. @type path: str @param command: The command to call. @type command: str @param pparams: The positional parameters to use. @type pparams: list @param kparams: The keyword=value parameters to use. @type kparams: dict ''' if path.endswith('*'): path = path.rstrip('*') iterall = True else: iterall = False if not path: path = '.' if not command: if iterall: command = 'ls' else: command = 'cd' pparams = ['.'] try: target = self._current_node.get_node(path) except ValueError as msg: raise ExecutionError(str(msg)) result = None if not iterall: targets = [target] else: targets = target.children for target in targets: if iterall: self.con.display("[%s]" % target.path) result = target.execute_command(command, pparams, kparams) self.log.debug("Command execution returned %r" % result) if isinstance(result, ConfigNode): self._current_node = result elif result == 'EXIT': self._exit = True elif result is not None: raise ExecutionError("Unexpected result: %r" % result) # Public methods def run_cmdline(self, cmdline): ''' Runs the specified command. Global commands are checked first, then local commands from the current node. Command syntax is: [PATH] COMMAND [POSITIONAL_PARAMETER]+ [PARAMETER=VALUE]+ @param cmdline: The command line to run @type cmdline: str ''' if cmdline: self.log.verbose("Running command line '%s'." % cmdline) path, command, pparams, kparams = self._parse_cmdline(cmdline)[1:] self._execute_command(path, command, pparams, kparams) def run_script(self, script_path, exit_on_error=True): ''' Runs the script located at script_path. Script runs always start from the root context. @param script_path: File path of the script to run @type script_path: str @param exit_on_error: If True, stops the run if an error occurs @type exit_on_error: bool ''' try: script_fd = open(script_path, 'r') self.run_stdin(script_fd, exit_on_error) except IOError as msg: raise IOError(msg) finally: script_fd.close() def run_stdin(self, file_descriptor=sys.stdin, exit_on_error=True): ''' Reads commands to be run from a file descriptor, stdin by default. The run always starts from the root context. @param file_descriptor: The file descriptor to read commands from @type file_descriptor: file object @param exit_on_error: If True, stops the run if an error occurs @type exit_on_error: bool ''' self._current_node = self._root_node for cmdline in file_descriptor: try: self.run_cmdline(cmdline.strip()) except Exception as msg: self.log.error(msg) if exit_on_error is True: raise ExecutionError("Aborting run on error.") self.log.exception("Keep running after an error.") def run_interactive(self): ''' Starts interactive CLI mode. ''' history = self.prefs['path_history'] index = self.prefs['path_history_index'] if history and index: if index < len(history): try: target = self._root_node.get_node(history[index]) except ValueError: self._current_node = self._root_node else: self._current_node = target while True: try: old_completer = readline.get_completer() self._cli_loop() break except KeyboardInterrupt: self.con.raw_write('\n') finally: readline.set_completer(old_completer) def attach_root_node(self, root_node): ''' @param root_node: The root ConfigNode object @type root_node: ConfigNode ''' self._current_node = root_node self._root_node = root_node configshell-fb-1.1.27/configshell_fb000077700000000000000000000000001356053722400215752configshellustar00rootroot00000000000000configshell-fb-1.1.27/examples/000077500000000000000000000000001356053722400163115ustar00rootroot00000000000000configshell-fb-1.1.27/examples/myshell000077500000000000000000000106241356053722400177170ustar00rootroot00000000000000#!/usr/bin/env python ''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' import os import configshell_fb as configshell class MySystemRoot(configshell.node.ConfigNode): def __init__(self, shell): configshell.node.ConfigNode.__init__(self, '/', shell=shell) Interpreters(self) System(self) for level in range(1,20): configshell.node.ConfigNode("level%d" % level, self) class Interpreters(configshell.node.ConfigNode): def __init__(self, parent): configshell.node.ConfigNode.__init__(self, 'interpreters', parent) def ui_command_python(self): ''' python - an interpreted object-oriented programming language ''' os.system("python") def ui_command_ipython(self): ''' ipython - An Enhanced Interactive Python ''' os.system("ipython") def ui_command_bash(self): ''' bash - GNU Bourne-Again SHell ''' os.system("bash") class System(configshell.node.ConfigNode): def __init__(self, parent): configshell.node.ConfigNode.__init__(self, 'system', parent) Processes(self) Storage(self) def ui_command_uname(self): ''' Displays the system uname information. ''' os.system("uname -a") def ui_command_lsmod(self): ''' lsmod - program to show the status of modules in the Linux Kernel ''' os.system("lsmod") def ui_command_lspci(self): ''' lspci - list all PCI devices ''' os.system("lspci") def ui_command_lsusb(self): ''' lsusb - list USB devices ''' os.system("lsusb") def ui_command_lscpu(self): ''' lscpu - CPU architecture information helper ''' os.system("lscpu") def ui_command_uptime(self): ''' uptime - Tell how long the system has been running. ''' os.system("uptime") class Storage(configshell.node.ConfigNode): def __init__(self, parent): configshell.node.ConfigNode.__init__(self, 'storage', parent) def ui_command_lsscsi(self): ''' lsscsi - list SCSI devices (or hosts) and their attributes ''' os.system("lsscsi") def ui_command_du(self): ''' du - estimate file space usage ''' os.system("du -hs /") def ui_command_df(self): ''' df - report file system disk space usage ''' os.system("df -h") def ui_command_uuidgen(self): ''' uuidgen - command-line utility to create a new UUID value. ''' os.system("uuidgen") class Processes(configshell.node.ConfigNode): def __init__(self, parent): configshell.node.ConfigNode.__init__(self, 'processes', parent) def ui_command_top(self): ''' top - display Linux tasks ''' os.system("top") def ui_command_ps(self): ''' ps - report a snapshot of the current processes. ''' os.system("ps aux") def ui_command_pstree(self): ''' pstree - display a tree of processes ''' os.system("pstree") class Users(configshell.node.ConfigNode): def __init__(self, parent): configshell.node.ConfigNode.__init__(self, 'users', parent) def ui_command_who(self): ''' who - show who is logged on ''' os.system("who") def ui_command_whoami(self): ''' whoami - print effective userid ''' os.system("whoami") def ui_command_users(self): ''' users - print the user names of users currently logged in. ''' os.system("users") def main(): shell = configshell.shell.ConfigShell('~/.myshell') root_node = MySystemRoot(shell) shell.run_interactive() if __name__ == "__main__": main() configshell-fb-1.1.27/setup.py000077500000000000000000000032101356053722400162040ustar00rootroot00000000000000#! /usr/bin/env python ''' This file is part of ConfigShell. Copyright (c) 2011-2013 by Datera, Inc Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' import os import re from setuptools import setup # Get version without importing. init_file_path = os.path.join(os.path.dirname(__file__), 'configshell/__init__.py') with open(init_file_path) as f: for line in f: match = re.match(r"__version__.*'([0-9.]+)'", line) if match: version = match.group(1) break else: raise Exception("Couldn't find version in setup.py") setup( name = 'configshell-fb', version = '1.1.25', description = 'A framework to implement simple but nice CLIs.', license = 'Apache 2.0', maintainer = 'Andy Grover', maintainer_email = 'agrover@redhat.com', url = 'http://github.com/open-iscsi/configshell-fb', packages = ['configshell', 'configshell_fb'], install_requires = [ 'pyparsing >= 2.0.2', 'six', 'urwid', ], classifiers = [ "Programming Language :: Python", "Programming Language :: Python :: 3", "License :: OSI Approved :: Apache Software License", ], )