pax_global_header00006660000000000000000000000064141310700500014501gustar00rootroot0000000000000052 comment=796240c5ddbd024a417aebbe809dec849b195563 AnnexRemote-1.6.0/000077500000000000000000000000001413107005000137325ustar00rootroot00000000000000AnnexRemote-1.6.0/.gitattributes000066400000000000000000000000451413107005000166240ustar00rootroot00000000000000annexremote/_version.py export-subst AnnexRemote-1.6.0/.gitignore000066400000000000000000000000221413107005000157140ustar00rootroot00000000000000*.pyc __pycache__ AnnexRemote-1.6.0/CHANGELOG.md000066400000000000000000000005671413107005000155530ustar00rootroot00000000000000# Changelog All notable changes to this project will be documented in this file. The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/), and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html). ## [Unreleased] ## [1.6.0] - 2021-10-11 ### Added * Logging handler * CHANGELOG.md ### Removed * Support for Python 2.7 AnnexRemote-1.6.0/LICENSE000066400000000000000000001045131413107005000147430ustar00rootroot00000000000000 GNU GENERAL PUBLIC LICENSE Version 3, 29 June 2007 Copyright (C) 2007 Free Software Foundation, Inc. Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. Preamble The GNU General Public License is a free, copyleft license for software and other kinds of works. The licenses for most software and other practical works are designed to take away your freedom to share and change the works. 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AnnexRemote-1.6.0/MANIFEST.in000066400000000000000000000001111413107005000154610ustar00rootroot00000000000000include versioneer.py include annexremote/_version.py include tests/*.py AnnexRemote-1.6.0/README.md000066400000000000000000000120751413107005000152160ustar00rootroot00000000000000# AnnexRemote Helper module to easily develop special remotes for [git annex](https://git-annex.branchable.com). AnnexRemote handles all the protocol stuff for you, so you can focus on the remote itself. It implements the complete [external special remote protocol](https://git-annex.branchable.com/design/external_special_remote_protocol) and fulfils all specifications regarding whitespaces etc. This is ensured by an excessive test suite. Extensions to the protocol are normally added within hours after they've been published. [Documentation](https://lykos153.github.io/AnnexRemote/annexremote/) (Also have a look at the [examples](examples) and [git-annex-remote-googledrive](https://github.com/Lykos153/git-annex-remote-googledrive) which is based on AnnexRemote.) ## Getting started ### Prerequisites You need python3 installed on your system. ### Installing `pip3 install annexremote` ### Running the tests If you want to run the tests, copy the content of the `tests` folder to the same location as `annexremote.py`. Then use a test discovery like [nose](http://nose.readthedocs.io) to run them. ### Usage Import the necessary classes ``` from annexremote import Master from annexremote import SpecialRemote from annexremote import RemoteError ``` Now create your special remote class. It must subtype ``SpecialRemote`` and implement at least the 6 basic methods: ``` class MyRemote(SpecialRemote): def initremote(self): # initialize the remote, eg. create the folders # raise RemoteError if the remote couldn't be initialized def prepare(self): # prepare to be used, eg. open TCP connection, authenticate with the server etc. # raise RemoteError if not ready to use def transfer_store(self, key, filename): # store the file in `filename` to a unique location derived from `key` # raise RemoteError if the file couldn't be stored def transfer_retrieve(self, key, filename): # get the file identified by `key` and store it to `filename` # raise RemoteError if the file couldn't be retrieved def checkpresent(self, key): # return True if the key is present in the remote # return False if the key is not present # raise RemoteError if the presence of the key couldn't be determined, eg. in case of connection error def remove(self, key): # remove the key from the remote # raise RemoteError if it couldn't be removed # note that removing a not existing key isn't considered an error ``` In your ``main`` function, link your remote to the master class and initialize the protocol: ``` def main(): master = Master() remote = MyRemote(master) master.LinkRemote(remote) master.Listen() if __name__ == "__main__": main() ``` Now save your program as ``git-annex-remote-$something`` and make it executable. ``chmod +x git-annex-remote-$something`` (You'll need the sheebang line ``#!/usr/bin/env python3``) That's it. Now you've created your special remote. #### Export remotes Import and subtype `ExportRemote` instead of `SpecialRemote`: ``` # ... from annexremote import ExportRemote class MyRemote(ExportRemote): # implement the remote methods just like in the above example and then additionally: def transferexport_store(self, key, local_file, remote_file): # store the file located at `local_file` to `remote_file` on the remote # raise RemoteError if the file couldn't be stored def transferexport_retrieve(self, key, local_file, remote_file): # get the file located at `remote_file` from the remote and store it to `local_file` # raise RemoteError if the file couldn't be retrieved def checkpresentexport(self, key, remote_file): # return True if the file `remote_file` is present in the remote # return False if not # raise RemoteError if the presence of the file couldn't be determined, eg. in case of connection error def removeexport(self, key, remote_file): # remove the file in `remote_file` from the remote # raise RemoteError if it couldn't be removed # note that removing a not existing key isn't considered an error def removeexportdirectory(self, remote_directory): # remove the directory `remote_directory` from the remote # raise RemoteError if it couldn't be removed # note that removing a not existing directory isn't considered an error def renameexport(self, key, filename, new_filename): # move the remote file in `name` to `new_name` # raise RemoteError if it couldn't be moved ``` #### Logging This module includes a StreamHandler to send log records to git annex via the special remote protocol (using DEBUG). You can use it like this: ``` ... import logging ... def main(): master = Master() remote = MyRemote(master) master.LinkRemote(remote) logger = logging.getLogger() logger.addHandler(master.LoggingHandler()) master.Listen() if __name__ == "__main__": main() ``` ## License This project is licensed under GPLv3 - see the [LICENSE](LICENSE) file for details AnnexRemote-1.6.0/annexremote/000077500000000000000000000000001413107005000162575ustar00rootroot00000000000000AnnexRemote-1.6.0/annexremote/__init__.py000066400000000000000000000001701413107005000203660ustar00rootroot00000000000000from ._version import get_versions __version__ = get_versions()['version'] del get_versions from .annexremote import * AnnexRemote-1.6.0/annexremote/_version.py000066400000000000000000000441221413107005000204600ustar00rootroot00000000000000 # This file helps to compute a version number in source trees obtained from # git-archive tarball (such as those provided by githubs download-from-tag # feature). Distribution tarballs (built by setup.py sdist) and build # directories (produced by setup.py build) will contain a much shorter file # that just contains the computed version number. # This file is released into the public domain. Generated by # versioneer-0.18 (https://github.com/warner/python-versioneer) """Git implementation of _version.py.""" import errno import os import re import subprocess import sys def get_keywords(): """Get the keywords needed to look up the version information.""" # these strings will be replaced by git during git-archive. # setup.py/versioneer.py will grep for the variable names, so they must # each be defined on a line of their own. _version.py will just call # get_keywords(). git_refnames = " (HEAD -> master, tag: v1.6.0)" git_full = "796240c5ddbd024a417aebbe809dec849b195563" git_date = "2021-10-11 19:11:04 +0200" keywords = {"refnames": git_refnames, "full": git_full, "date": git_date} return keywords class VersioneerConfig: """Container for Versioneer configuration parameters.""" def get_config(): """Create, populate and return the VersioneerConfig() object.""" # these strings are filled in when 'setup.py versioneer' creates # _version.py cfg = VersioneerConfig() cfg.VCS = "git" cfg.style = "pep440" cfg.tag_prefix = "v" cfg.parentdir_prefix = "None" cfg.versionfile_source = "annexremote/_version.py" cfg.verbose = False return cfg class NotThisMethod(Exception): """Exception raised if a method is not valid for the current scenario.""" LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator """Decorator to mark a method as the handler for a particular VCS.""" def decorate(f): """Store f in HANDLERS[vcs][method].""" if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None): """Call the given command(s).""" assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, env=env, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %s" % dispcmd) print(e) return None, None else: if verbose: print("unable to find command, tried %s" % (commands,)) return None, None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %s (error)" % dispcmd) print("stdout was %s" % stdout) return None, p.returncode return stdout, p.returncode def versions_from_parentdir(parentdir_prefix, root, verbose): """Try to determine the version from the parent directory name. Source tarballs conventionally unpack into a directory that includes both the project name and a version string. We will also support searching up two directory levels for an appropriately named parent directory """ rootdirs = [] for i in range(3): dirname = os.path.basename(root) if dirname.startswith(parentdir_prefix): return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None, "date": None} else: rootdirs.append(root) root = os.path.dirname(root) # up a level if verbose: print("Tried directories %s but none started with prefix %s" % (str(rootdirs), parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): """Extract version information from the given file.""" # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) if line.strip().startswith("git_date ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["date"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): """Get version information from git keywords.""" if not keywords: raise NotThisMethod("no keywords at all, weird") date = keywords.get("date") if date is not None: # git-2.2.0 added "%cI", which expands to an ISO-8601 -compliant # datestamp. However we prefer "%ci" (which expands to an "ISO-8601 # -like" string, which we must then edit to make compliant), because # it's been around since git-1.5.3, and it's too difficult to # discover which version we're using, or to work around using an # older one. date = date.strip().replace(" ", "T", 1).replace(" ", "", 1) refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%s', no digits" % ",".join(refs - tags)) if verbose: print("likely tags: %s" % ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %s" % r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None, "date": date} # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags", "date": None} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): """Get version from 'git describe' in the root of the source tree. This only gets called if the git-archive 'subst' keywords were *not* expanded, and _version.py hasn't already been rewritten with a short version string, meaning we're inside a checked out source tree. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] out, rc = run_command(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True) if rc != 0: if verbose: print("Directory %s not under git control" % root) raise NotThisMethod("'git rev-parse --git-dir' returned error") # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty] # if there isn't one, this yields HEX[-dirty] (no NUM) describe_out, rc = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long", "--match", "%s*" % tag_prefix], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out, rc = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%s'" % describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%s' doesn't start with prefix '%s'" print(fmt % (full_tag, tag_prefix)) pieces["error"] = ("tag '%s' doesn't start with prefix '%s'" % (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out, rc = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits # commit date: see ISO-8601 comment in git_versions_from_keywords() date = run_command(GITS, ["show", "-s", "--format=%ci", "HEAD"], cwd=root)[0].strip() pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1) return pieces def plus_or_dot(pieces): """Return a + if we don't already have one, else return a .""" if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): """Build up version string, with post-release "local version identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty Exceptions: 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): """TAG[.post.devDISTANCE] -- No -dirty. Exceptions: 1: no tags. 0.post.devDISTANCE """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%d" % pieces["distance"] else: # exception #1 rendered = "0.post.dev%d" % pieces["distance"] return rendered def render_pep440_post(pieces): """TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that .dev0 sorts backwards (a dirty tree will appear "older" than the corresponding clean one), but you shouldn't be releasing software with -dirty anyways. Exceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%s" % pieces["short"] else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%s" % pieces["short"] return rendered def render_pep440_old(pieces): """TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. Eexceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): """TAG[-DISTANCE-gHEX][-dirty]. Like 'git describe --tags --dirty --always'. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): """TAG-DISTANCE-gHEX[-dirty]. Like 'git describe --tags --dirty --always -long'. The distance/hash is unconditional. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): """Render the given version pieces into the requested style.""" if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"], "date": None} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%s'" % style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None, "date": pieces.get("date")} def get_versions(): """Get version information or return default if unable to do so.""" # I am in _version.py, which lives at ROOT/VERSIONFILE_SOURCE. If we have # __file__, we can work backwards from there to the root. Some # py2exe/bbfreeze/non-CPython implementations don't do __file__, in which # case we can only use expanded keywords. cfg = get_config() verbose = cfg.verbose try: return git_versions_from_keywords(get_keywords(), cfg.tag_prefix, verbose) except NotThisMethod: pass try: root = os.path.realpath(__file__) # versionfile_source is the relative path from the top of the source # tree (where the .git directory might live) to this file. Invert # this to find the root from __file__. for i in cfg.versionfile_source.split('/'): root = os.path.dirname(root) except NameError: return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to find root of source tree", "date": None} try: pieces = git_pieces_from_vcs(cfg.tag_prefix, root, verbose) return render(pieces, cfg.style) except NotThisMethod: pass try: if cfg.parentdir_prefix: return versions_from_parentdir(cfg.parentdir_prefix, root, verbose) except NotThisMethod: pass return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version", "date": None} AnnexRemote-1.6.0/annexremote/annexremote.py000066400000000000000000001270741413107005000211710ustar00rootroot00000000000000# AnnexRemote - Helper module to easily develop git-annex remotes # # Copyright (C) 2017 Silvio Ankermann # # This program is free software: you can redistribute it and/or modify it under the terms of version 3 of the GNU # General Public License as published by the Free Software Foundation. # # This program is distributed in the hope that it will be uselful, but WITHOUT ANY WARRANTY; without even the implied # warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. # import logging from abc import ABCMeta, abstractmethod import sys, traceback # Exceptions class AnnexError(Exception): """ Common base class for all annexremote exceptions. """ class ProtocolError(AnnexError): """ Base class for protocol errors """ class UnsupportedRequest(ProtocolError): """ Must be raised when an optional request is not supported by the remote. """ class UnexpectedMessage(ProtocolError): """ Raised when git-annex sends a message which is not expected at the moment """ class RemoteError(AnnexError): """ Must be raised by the remote when a request did not succeed. """ class NotLinkedError(AnnexError): """ Will be raised when a Master instance is accessed without being linked to a SpecialRemote instance """ class AnnexLoggingHandler(logging.StreamHandler): """ Stream Handler that sends log records to git annex via the special remote protocol """ def __init__(self, annex): super().__init__() self.annex = annex self.setFormatter(logging.Formatter('%(name)s - %(levelname)s - %(message)s')) def emit(self, record: logging.LogRecord): log_entry = self.format(record) for line in log_entry.splitlines(): self.annex.debug(line) class SpecialRemote(metaclass=ABCMeta): """ Metaclass for non-export remotes. ... Attributes ---------- annex : Master The Master object to which this remote is linked. Master acts as an abstraction layer for git-annex. info : dict Contains information describing the configuration of the remote, for display by `git annex info` in the form of {'Name': 'Value', ...} where both can be anything you want to be displayed to the user. Note: Both Name and Value *can* contain spaces. configs : dict Contains the settings which the remote uses (with getconfig() and setconfig()) in the form of {'Name': 'Description', ...} Note: Name *must not* contain spaces. Description should be reasonably short. Example: {'directory': "store data here"} Providing them makes `git annex initremote` work better, because it can check the user's input, and can also display a list of settings with descriptions. Note that the user is not required to provided all the settings listed here. """ def __init__(self, annex): self.annex = annex self.info = {} self.configs = {} @abstractmethod def initremote(self): """ Gets called when `git annex initremote` or `git annex enableremote` are run. This is where any one-time setup tasks can be done, for example creating the remote folder. Note: This may be run repeatedly over time, as a remote is initialized in different repositories, or as the configuration of a remote is changed. So any one-time setup tasks should be done idempotently. Raises ------ RemoteError If the remote could not be initialized. """ @abstractmethod def prepare(self): """ Tells the remote that it's time to prepare itself to be used. Gets called whenever git annex is about to access any of the below methods, so it shouldn't be too expensive. Otherwise it will slow down operations like `git annex whereis` or `git annex info`. Internet connection *can* be established here, though it's recommended to defer this until it's actually needed. Raises ------ RemoteError If the remote could not be prepared. """ @abstractmethod def transfer_store(self, key, local_file): """ Store the file in `local_file` to a unique location derived from `key`. It's important that, while a Key is being stored, checkpresent(key) not indicate it's present until all the data has been transferred. While the transfer is running, the remote can repeatedly call annex.progress(size) to indicate the number of bytes already stored. This will influence the progress shown to the user. Parameters ---------- key : str The Key to be stored in the remote. In most cases, this is going to be the remote file name. It should be at least be unambigiously derived from it. local_file: str Path to the file to upload. Note that in some cases, local_file may contain whitespace. Note that local_file should not influence the filename used on the remote. Raises ------ RemoteError If the file could not be stored to the remote. """ @abstractmethod def transfer_retrieve(self, key, local_file): """ Get the file identified by `key` from the remote and store it in `local_file`. While the transfer is running, the remote can repeatedly call annex.progress(size) to indicate the number of bytes already stored. This will influence the progress shown to the user. Parameters ---------- key : str The Key to get from the remote. local_file: str Path where to store the file. Note that in some cases, local_file may contain whitespace. Raises ------ RemoteError If the file could not be received from the remote. """ @abstractmethod def checkpresent(self, key): """ Requests the remote to check if a key is present in it. Parameters ---------- key : str Returns ------- bool True if the key is present in the remote. False if the key is not present. Raises ------ RemoteError If the presence of the key couldn't be determined, eg. in case of connection error. """ @abstractmethod def remove(self, key): """ Requests the remote to remove a key's contents. Parameters ---------- key : str Raises ------ RemoteError If the key couldn't be deleted from the remote. """ # Optional requests def listconfigs(self): #TODO (v2.0) remove return self.configs def getcost(self): """ Requests the remote to return a use cost. Higher costs are more expensive. cheapRemoteCost = 100 nearlyCheapRemoteCost = 110 semiExpensiveRemoteCost = 175 expensiveRemoteCost = 200 veryExpensiveRemoteCost = 1000 (taken from Config/Cost.hs) Returns ------- int Indicates the cost of the remote. """ raise UnsupportedRequest() def getavailability(self): """ Asks the remote if it is locally or globally available. (Ie stored in the cloud vs on a local disk.) Returns ------- str Allowed values are "global" or "local". """ raise UnsupportedRequest() def claimurl(self, url): """ Asks the remote if it wishes to claim responsibility for downloading an url. Parameters ---------- url : str Returns ------- bool True if it wants to claim this url. False if it doesn't. """ raise UnsupportedRequest() def checkurl(self, url): """ Asks the remote to check if the url's content can currently be downloaded (without downloading it). The remote can optionally provide additional information about the file. Parameters ---------- url : str Returns ------- Union(bool, List(Dict)) True if the url's content can currently be downloaded and no additional information can be provided. False if it can't currently be downloaded. In order to provide additional information, a list of dictionaries can be returned. The dictionaries can have 3 keys: {'url': str, 'size': int, 'filename': str}. All of them are optional. If there is only one file to be downloaded, we could return: [{'size': 512, 'filename':'example_file.txt'}] Other examples: {'url':"https://example.com", 'size':512, 'filename':"example_file.txt"} [{'url':"Url1", 'size':512, 'filename':"Filename1"}, {'url':"Url2", 'filename':"Filename2"}] """ raise UnsupportedRequest() def whereis(self, key): """ Asks the remote to provide additional information about ways to access the content of a key stored in it, such as eg, public urls. This will be displayed to the user by eg, git annex whereis. Note that users expect git annex whereis to run fast, without eg, network access. Parameters ---------- key : str Returns ------- str Information about the location of the key, eg. public urls. """ raise UnsupportedRequest() def error(self, error_msg): """ Generic error. Can be sent at any time if things get too messed up to continue. If the program receives an error() from git-annex, it can exit with its own error(). Eg.: self.annex.error("Error received. Exiting.") raise SystemExit Parameters ---------- error_msg : str The error message received from git-annex """ self.annex.error("Error received. Exiting.") raise SystemExit # Export methods def exportsupported(self): return False def transferexport_store(self, key, local_file, remote_file): raise UnsupportedRequest() def transferexport_retrieve(self, key, local_file, remote_file): raise UnsupportedRequest() def checkpresentexport(self, key, remote_file): raise UnsupportedRequest() def removeexport(self, key, remote_file): raise UnsupportedRequest() def removeexportdirectory(self, remote_directory): raise UnsupportedRequest() def renameexport(self, key, filename, new_filename): raise UnsupportedRequest() # Setup function to be run before initremote to handle things like authentication interactively def setup(self): print("Nothing to do. Just run 'git annex initremote' with your desired parameters") class ExportRemote(SpecialRemote): """ Metaclass for remotes that support non-export *and* export behaviour. ... Attributes ---------- annex : Master The Master object to which this remote is linked. Master acts as an abstraction layer for git-annex. info : dict Contains information describing the configuration of the remote, for display by `git annex info` in the form of {'Name': 'Value', ...} where both can be anything you want to be displayed to the user. Note: Both Name and Value *can* contain spaces. configs : dict Contains the settings which the remote uses (with getconfig() and setconfig()) in the form of {'Name': 'Description', ...} Note: Name *must not* contain spaces. Description should be reasonably short. Example: {'directory': "store data here"} Providing them makes `git annex initremote` work better, because it can check the user's input, and can also display a list of settings with descriptions. Note that the user is not required to provided all the settings listed here. """ def exportsupported(self): return True @abstractmethod def transferexport_store(self, key, local_file, remote_file): """ Requests the transfer of a file on local disk to the special remote. Note that it's important that, while a file is being stored, checkpresentexport() not indicate it's present until all the data has been transferred. While the transfer is running, the remote can send any number of progess(size) messages. Parameters ---------- key : str The Key to be stored in the remote. local_file: str Path to the file to upload. Note that in some cases, local_file may contain whitespace. remote_file : str The path to the location to which the file will be uploaded. It will be in the form of a relative path, and may contain path separators, whitespace, and other special characters. Raises ------ RemoteError If the key couldn't be stored on the remote. """ @abstractmethod def transferexport_retrieve(self, key, local_file, remote_file): """ Requests the transfer of a file from the special remote to the local disk. Note that it's important that, while a file is being stored, checkpresentexport() not indicate it's present until all the data has been transferred. While the transfer is running, the remote can send any number of progess(size) messages. Parameters ---------- key : str The Key to get from the remote. local_file: str Path where to store the file. Note that in some cases, local_file may contain whitespace. remote_file : str The remote path of the file to download. It will be in the form of a relative path, and may contain path separators, whitespace, and other special characters. Raises ------ RemoteError If the key couldn't be stored on the remote. """ @abstractmethod def checkpresentexport(self, key, remote_file): """ Requests the remote to check if the file is present in it. Parameters ---------- key : str The key of the file to check. remote_file : str The remote path of the file to check. Returns ------- bool True if the file is present in the remote. False if the file is not present in the remote Raises ------ RemoteError If the the presence of the key couldn't be determined. """ @abstractmethod def removeexport(self, key, remote_file): """ Requests the remote to remove content stored by transferexportstore(). Parameters ---------- key : str The key of the file to check. remote_file : str The remote path of the file to delete. Raises ------ RemoteError If the the remote file couldn't be deleted. """ def removeexportdirectory(self, remote_directory): """ Requests the remote to remove an exported directory. If the remote does not use directories, or removeexport() cleans up directories that are empty, this does not need to be implemented. Parameters ---------- remote_directory : str The remote path to the directory to delete. The directory will be in the form of a relative path, and may contain path separators, whitespace, and other special characters. Typically the directory will be empty, but it could possibly contain files or other directories, and it's ok to remove those, but not required to do so. Raises ------ RemoteError If the the remote directory couldn't be deleted. """ raise UnsupportedRequest() def renameexport(self, key, filename, new_filename): """ Requests the remote rename a file stored on it from `filename` to `new_filename`. Remotes that support exports but not renaming do not need to implement this. Parameters ---------- key : str The key of the file to rename filename : str The old path to the file. new_filename : str The new path to the file. Raises ------ RemoteError If the the remote directory couldn't be deleted. """ raise UnsupportedRequest() class Protocol(object): """ Helper class handling the receiving part of the protocol (git-annex to remote) It parses the requests coming from git-annex and calls the respective method of the remote object. It is not further documented as it was never intended to be part of the public API. """ def __init__(self, remote): self.remote = remote self.version = "VERSION 1" self.exporting = False self.extensions = list() def command(self, line): line = line.strip() parts = line.split(" ", 1) if not parts: raise ProtocolError("Got empty line") method = self.lookupMethod(parts[0]) or self.do_UNKNOWN try: if len(parts) == 1: reply = method() else: reply = method(parts[1]) except TypeError as e: raise SyntaxError(e) else: if method != self.do_EXPORT: self.exporting = False return reply def lookupMethod(self, command): return getattr(self, 'do_' + command.upper(), None) def check_key(self, key): if len(key.split()) != 1: raise ValueError("Invalid key. Key contains whitespace character") def do_UNKNOWN(self, *arg): raise UnsupportedRequest() def do_INITREMOTE(self): try: self.remote.initremote() except RemoteError as e: return "INITREMOTE-FAILURE {e}".format(e=e) else: return "INITREMOTE-SUCCESS" def do_EXTENSIONS(self, param): self.extensions = param.split(" ") return "EXTENSIONS" def do_PREPARE(self): try: self.remote.prepare() except RemoteError as e: return "PREPARE-FAILURE {e}".format(e=e) else: return "PREPARE-SUCCESS" def do_TRANSFER(self, param): try: (method, key, file_) = param.split(" ", 2) except ValueError: raise SyntaxError("Expected Key File") if not (method == "STORE" or method == "RETRIEVE"): return self.do_UNKNOWN() func = getattr(self.remote, "transfer_{}".format(method.lower()), None) try: func(key, file_) except RemoteError as e: return "TRANSFER-FAILURE {method} {key} {e}".format(method=method, key=key, e=e) else: return "TRANSFER-SUCCESS {method} {key}".format(method=method, key=key) def do_CHECKPRESENT(self, key): self.check_key(key) try: if self.remote.checkpresent(key): return "CHECKPRESENT-SUCCESS {key}".format(key=key) else: return "CHECKPRESENT-FAILURE {key}".format(key=key) except RemoteError as e: return "CHECKPRESENT-UNKNOWN {key} {e}".format(key=key, e=e) def do_REMOVE(self, key): self.check_key(key) try: self.remote.remove(key) except RemoteError as e: return "REMOVE-FAILURE {key} {e}".format(key=key, e=e) else: return "REMOVE-SUCCESS {key}".format(key=key) def do_LISTCONFIGS(self): reply = [] for name, description in sorted(self.remote.listconfigs().items()): if " " in name: raise ValueError("Name must not contain space characters: {}".format(name)) reply.append("CONFIG {} {}".format(name, description)) reply.append("CONFIGEND") return '\n'.join(reply) def do_GETCOST(self): cost = self.remote.getcost() try: cost = int(cost) except ValueError: raise ValueError("Cost must be an integer") return "COST {cost}".format(cost=cost) def do_GETAVAILABILITY(self): reply = self.remote.getavailability() if reply == "global": return "AVAILABILITY GLOBAL" elif reply == "local": return "AVAILABILITY LOCAL" else: raise ValueError("Availability must be either 'global' or 'local'") def do_CLAIMURL(self, url): if self.remote.claimurl(url): return "CLAIMURL-SUCCESS" else: return "CLAIMURL-FAILURE" def do_CHECKURL(self, url): try: reply = self.remote.checkurl(url) except RemoteError: return "CHECKURL-FAILURE" if not reply: return "CHECKURL-FAILURE" elif reply is True: return "CHECKURL-CONTENTS UNKNOWN" if len(reply)==1 and 'url' not in reply[0]: entry = reply[0] size = entry.get("size", "UNKNOWN") returnvalue = " ".join(("CHECKURL-CONTENTS", str(size))) if 'filename' in entry and entry['filename']: returnvalue = " ".join((returnvalue, entry['filename'])) return returnvalue returnvalue = "CHECKURL-MULTI" for entry in reply: if 'url' not in entry: raise ValueError("Url must be present when specifying multiple values.") if " " in entry['url']: raise ValueError("Url must not contain spaces.") size = entry.get("size", "UNKNOWN") filename = entry.get("filename", "") if " " in filename: raise ValueError("Filename must not contain spaces.") returnvalue = " ".join((returnvalue, entry['url'], str(size), filename)) return returnvalue def do_WHEREIS(self, key): self.check_key(key) reply = self.remote.whereis(key) if reply: return "WHEREIS-SUCCESS {reply}".format(reply=reply) else: return "WHEREIS-FAILURE" def do_GETINFO(self): info = self.remote.info reply = [] for field in sorted(info): reply.append("INFOFIELD {}".format(field)) reply.append("INFOVALUE {}".format(info[field])) reply.append("INFOEND") return '\n'.join(reply) def do_ERROR(self, message): self.remote.error(message) def do_EXPORTSUPPORTED(self): if self.remote.exportsupported(): return "EXPORTSUPPORTED-SUCCESS" else: return "EXPORTSUPPORTED-FAILURE" def do_EXPORT(self, name): self.exporting = name def do_TRANSFEREXPORT(self, param): if not self.exporting: raise ProtocolError("Export request without prior EXPORT") try: (method, key, file_) = param.split(" ", 2) except ValueError: raise SyntaxError("Expected Key File") if not (method == "STORE" or method == "RETRIEVE"): return self.do_UNKNOWN() func = getattr(self.remote, "transferexport_{}".format(method.lower()), None) try: func(key, file_, self.exporting) except RemoteError as e: return "TRANSFER-FAILURE {method} {key} {e}".format(method=method, key=key, e=e) else: return "TRANSFER-SUCCESS {method} {key}".format(method=method, key=key) def do_CHECKPRESENTEXPORT(self, key): if not self.exporting: raise ProtocolError("Export request without prior EXPORT") self.check_key(key) try: if self.remote.checkpresentexport(key, self.exporting): return "CHECKPRESENT-SUCCESS {key}".format(key=key) else: return "CHECKPRESENT-FAILURE {key}".format(key=key) except RemoteError as e: return "CHECKPRESENT-UNKNOWN {key} {e}".format(key=key, e=e) def do_REMOVEEXPORT(self, key): if not self.exporting: raise ProtocolError("Export request without prior EXPORT") self.check_key(key) try: self.remote.removeexport(key, self.exporting) except RemoteError as e: return "REMOVE-FAILURE {key} {e}".format(key=key, e=e) else: return "REMOVE-SUCCESS {key}".format(key=key) def do_REMOVEEXPORTDIRECTORY(self, name): try: self.remote.removeexportdirectory(name) except RemoteError: return "REMOVEEXPORTDIRECTORY-FAILURE" else: return "REMOVEEXPORTDIRECTORY-SUCCESS" def do_RENAMEEXPORT(self, param): if not self.exporting: raise ProtocolError("Export request without prior EXPORT") try: (key, new_name) = param.split(None, 1) except ValueError: raise SyntaxError("Expected TRANSFER STORE Key File") try: self.remote.renameexport(key, self.exporting, new_name) except RemoteError: return "RENAMEEXPORT-FAILURE {key}".format(key=key) else: return "RENAMEEXPORT-SUCCESS {key}".format(key=key) class Master(object): """ Metaclass for non-export remotes. ... Attributes ---------- input : io.TextIOBase Where to listen for git-annex request messages. Default: sys.stdin output : io.TextIOBase Where to send replies and special remote messages Default: sys.stdout remote : SpecialRemote A class implementing either the SpecialRemote or the ExternalSpecialRemote interface to which this master is linked. """ def __init__(self, output=sys.stdout): """ Initialize the Master with an ouput. Parameters ---------- output : io.TextIOBase Where to send replies and special remote messages Default: sys.stdout """ self.output = output def LinkRemote(self, remote): """ Link the Master to a remote. This must be done before calling Listen() Parameters ---------- remote : SpecialRemote A class implementing either the SpecialRemote or the ExternalSpecialRemote interface to which this master will be linked. """ self.remote = remote self.protocol = Protocol(remote) def LoggingHandler(self): """ Gets an instance of AnnexLoggingHandler Returns ------- AnnexLoggingHandler """ return AnnexLoggingHandler(self) def Listen(self, input=sys.stdin): """ Listen on `input` for messages from git annex. Parameters ---------- input : io.TextIOBase Where to listen for git-annex request messages. Default: sys.stdin Raises ---------- NotLinkedError If there is no remote linked to this master. """ if not (hasattr(self, 'remote') and hasattr(self, 'protocol')): raise NotLinkedError("Please execute LinkRemote(remote) first.") self.input = input self._send(self.protocol.version) while True: # due to a bug in python 2 we can't use an iterator here: https://bugs.python.org/issue1633941 line = self.input.readline() if not line: break line = line.rstrip() try: reply = self.protocol.command(line) if reply: self._send(reply) except UnsupportedRequest: self._send ("UNSUPPORTED-REQUEST") except Exception as e: for line in traceback.format_exc().splitlines(): self.debug(line) self.error(e) raise SystemExit def _ask(self, request, reply_keyword, reply_count): self._send(request) line = self.input.readline().rstrip().split(" ", reply_count) if line and line[0] == reply_keyword: line.extend([""] * (reply_count+1-len(line))) return line[1:] else: raise UnexpectedMessage("Expected {reply_keyword} and {reply_count} values. Got {line}".format(reply_keyword=reply_keyword, reply_count=reply_count, line=line)) def _askvalues(self, request): self._send(request) reply = [] while True: # due to a bug in python 2 we can't use an iterator here: https://bugs.python.org/issue1633941 line = self.input.readline() line = line.rstrip() line = line.split(" ", 1) if len(line) == 2 and line[0] == "VALUE": reply.append(line[1]) elif len(line) == 1 and line[0] == "VALUE": return reply else: raise UnexpectedMessage("Expected VALUE {value}") def _askvalue(self, request): (reply,) = self._ask(request, "VALUE", 1) return reply def getconfig(self, setting): """ Gets one of the special remote's configuration settings, which can have been passed by the user when running `git annex initremote`, `git annex enableremote` or can have been set by a previous setconfig(). Can be run at any time. It's recommended that special remotes that use this implement listconfigs(). Parameters ---------- setting : str Which setting to get Returns ------- str The requested setting. If the setting is not set, the value will an empty string. Raises ---------- UnexpectedMessage If git-annex does not respond correctly to this request, which is very unlikely. """ return self._askvalue("GETCONFIG {}".format(setting)) def setconfig(self, setting, value): """ Sets one of the special remote's configuration settings. Normally this is sent during initremote(), which allows these settings to be stored in the git-annex branch, so will be available if the same special remote is used elsewhere. (If sent after initremote(), the changed configuration will only be available while the remote is running.) Parameters ---------- setting : str The name of the setting value : str The value of the setting """ self._send("SETCONFIG {} {}".format(setting, value)) def getstate(self, key): """ Gets any state that has been stored for the key via setstate(). Parameters ---------- key : str The key for which to get the state Returns ------- str The requested state. If the state is not set, the value will an empty string. Raises ---------- UnexpectedMessage If git-annex does not respond correctly to this request, which is very unlikely. """ return self._askvalue("GETSTATE {key}".format(key=key)) def setstate(self, key, value): """ Can be used to store some form of state for a Key. The state stored can be anything this remote needs to store, in any format. It is stored in the git-annex branch. Note that this means that if multiple repositories are using the same special remote, and store different state, whichever one stored the state last will win. Also, it's best to avoid storing much state, since this will bloat the git-annex branch. Most remotes will not need to store any state. Parameters ---------- key : str The key for which to store the state value : str The state for the key to store """ self._send("SETSTATE {key} {value}".format(key=key, value=value)) def debug(self, *args): """ Tells git-annex to display the message if --debug is enabled. Parameters ---------- message : str The message to be displayed to the user """ self._send("DEBUG", *args) def error(self, *args): """ Generic error. Can be sent at any time if things get too messed up to continue. When possible, raise a RemoteError inside the respective functions. The special remote program should exit after sending this, as git-annex will not talk to it any further. Parameters ---------- error_msg : str The error message to be sent to git-annex """ self._send("ERROR", *args) def progress(self, progress): """ Indicates the current progress of the transfer (in bytes). May be repeated any number of times during the transfer process, but it's wasteful to update the progress until at least another 1% of the file has been sent. This is highly recommended for *_store(). (It is optional but good for *_retrieve().) Parameters ---------- progress : int The current progress of the transfer in bytes. """ self._send("PROGRESS {progress}".format(progress=int(progress))) def dirhash(self, key): """ Gets a two level hash associated with a Key. Something like "aB/Cd". This is always the same for any given Key, so can be used for eg, creating hash directory structures to store Keys in. This is the same directory hash that git-annex uses inside .git/annex/objects/ Parameters ---------- key : str The key for which to get the hash Returns ------- str The two level hash. (eg. "aB/Cd") Raises ---------- UnexpectedMessage If git-annex does not respond correctly to this request, which is very unlikely. """ return self._askvalue("DIRHASH {key}".format(key=key)) def dirhash_lower(self, key): """ Gets a two level hash associated with a Key, using only lower-case. Something like "abc/def". This is always the same for any given Key, so can be used for eg, creating hash directory structures to store Keys in. This is the same directory hash that is used by eg, the directory special remote. Parameters ---------- key : str The key for which to get the hash Returns ------- str The two level hash. (eg. "abc/def") Raises ---------- UnexpectedMessage If git-annex does not respond correctly to this request, which is very unlikely. """ return self._askvalue("DIRHASH-LOWER {key}".format(key=key)) def setcreds(self, setting, user, password): """ When some form of user and password is needed to access a special remote, this can be used to securely store them for later use. (Like setconfig(), this is normally sent only during initremote().) Note that creds are normally only stored in the remote's configuration when it's surely safe to do so; when gpg encryption is used, in which case the creds will be encrypted using it. If creds are not stored in the configuration, they'll only be stored in a local file. (embedcreds can be set to yes by the user or by setconfig() to force the creds to be stored in the remote's configuration). Parameters ---------- setting : str Indicates which value in a remote's configuration can be used to store the creds. user : str The username to be stored password : str The password to be stored """ self._send("SETCREDS", setting, user, password) def getcreds(self, setting): """ Gets any creds that were previously stored in the remote's configuration or a file. Parameters ---------- setting : str Indicates which value in a remote's configuration where the credentials are stored. Returns ---------- dict of str : str A dict containing username of password in the form: {'user': "username", 'password': "password"} If there are no credentials found, both 'user' and 'password' are empty. Note: In version 2.0, a named tuple will be used instead of a dict. Raises ---------- UnexpectedMessage If git-annex does not respond correctly to this request, which is very unlikely. """ (user, password) = self._ask("GETCREDS {setting}".format(setting=setting), "CREDS", 2) #TODO: (v2.0) use namedtuple instead of dict return {'user': user, 'password': password} def getuuid(self): """ Queries for the UUID of the special remote being used. Returns ---------- str The UUID of the special remote """ return self._askvalue("GETUUID") def getgitdir(self): """ Queries for the path to the git directory of the repository that is using the external special remote. Returns ---------- str The (relative) path to the git directory """ return self._askvalue("GETGITDIR") def setwanted(self, prefcontent): """ Can be used to set the preferred content of a repository. Normally this is not configured by a special remote, but it may make sense in some situations to hint at the kind of content that should be stored in the special remote. Note that if an unparsable expression is set, git-annex will ignore it. Parameters ---------- prefcontent : str The PreferredContentExpression, see https://git-annex.branchable.com/git-annex-preferred-content/ """ self._send("SETWANTED", prefcontent) def getwanted(self): """ Gets the current preferred content setting of the repository. Returns ---------- str The PreferredContentExpression, see https://git-annex.branchable.com/git-annex-preferred-content/ Raises ---------- UnexpectedMessage If git-annex does not respond correctly to this request, which is very unlikely. """ return self._askvalue("GETWANTED") def seturlpresent(self, key, url): """ Records a URL where the Key can be downloaded from. Note that this does not make git-annex think that the url is present on the web special remote. Keep in mind that this stores the url in the git-annex branch. This can result in bloat to the branch if the url is large and/or does not delta pack well with other information (such as the names of keys) already stored in the branch. Parameters ---------- key : str The key for which to record a URL url : str The URL from which the key can be downloaded """ self._send("SETURLPRESENT", key, url) def seturlmissing(self, key, url): """ Records that the key can no longer be downloaded from the specified URL. Parameters ---------- key : str The key for which to delete the URL url : str The URL which is no longer accessible """ self._send("SETURLMISSING", key, url) def seturipresent(self, key, uri): """ Records a URI where the Key can be downloaded from. For example, "ipfs:ADDRESS" is used for the ipfs special remote; its CLAIMURL handler checks for such URIS and claims them. Parameters ---------- key : str The key for which to record a URI uri : str The URI from which the key can be downloaded """ self._send("SETURIPRESENT", key, uri) def seturimissing(self, key, uri): """ Records that the key can no longer be downloaded from the specified URI. Parameters ---------- key : str The key for which to delete the URI uri : str The URI which is no longer accessible """ self._send("SETURIMISSING", key, uri) def geturls(self, key, prefix): """ Gets the recorded URLs where a key can be downloaded from. Parameters ---------- key : str The key for which to get the URLs prefix : str Only urls that start with the prefix will be returned. The Prefix may be empty to get all urls. Returns ---------- list of str The URLs from which the key can be downloaded Raises ---------- UnexpectedMessage If git-annex does not respond correctly to this request, which is very unlikely. """ return self._askvalues("GETURLS {key} {prefix}".format(key=key, prefix=prefix)) def info(self, message): """ Tells git-annex to display the message to the user. When git-annex is in --json mode, the message will be emitted immediately in its own json object, with an "info" field. Important: This is a protocol extension and may raise a ProtocolError if the particular version of git-annex does not support it. Remotes using info() should always prepare to handle the exception. Parameters ---------- message : str The message to be displayed to the user Raises ---------- ProtocolError If INFO is not available in this version of git-annex. """ if "INFO" in self.protocol.extensions: self._send("INFO", message) else: raise ProtocolError("INFO not available") def getgitremotename(self): """ Gets the name of the git remote that represents this special remote. This can be used, for example, to look up git configuration belonging to that git remote. This name will often be the same as what is passed to git-annex initremote and enableremote, but it is possible for git remotes to be renamed, and this will provide the remote's current name. Important: This is a protocol extension and may raise a ProtocolError if the particular version of git-annex does not support it. Remotes using getgetremotename() should always prepare to handle the exception. Returns ---------- str The name of the git remote that represents this special remote Raises ---------- ProtocolError If GETGITREMOTENAME is not available in this version of git-annex. """ if "GETGITREMOTENAME" in self.protocol.extensions: return self._askvalue("GETGITREMOTENAME") else: raise ProtocolError("GETGITREMOTENAME not available") def _send(self, *args, **kwargs): print(*args, file=self.output, **kwargs) self.output.flush() AnnexRemote-1.6.0/docs/000077500000000000000000000000001413107005000146625ustar00rootroot00000000000000AnnexRemote-1.6.0/docs/annexremote/000077500000000000000000000000001413107005000172075ustar00rootroot00000000000000AnnexRemote-1.6.0/docs/annexremote/annexremote.html000066400000000000000000002250311413107005000224250ustar00rootroot00000000000000 annexremote.annexremote API documentation

Module annexremote.annexremote

Classes

class AnnexError (*args, **kwargs)

Common base class for all annexremote exceptions.

Ancestors

  • builtins.Exception
  • builtins.BaseException

Subclasses

class ProtocolError (*args, **kwargs)

Base class for protocol errors

Ancestors

  • AnnexError
  • builtins.Exception
  • builtins.BaseException

Subclasses

class UnsupportedRequest (*args, **kwargs)

Must be raised when an optional request is not supported by the remote.

Ancestors

class UnexpectedMessage (*args, **kwargs)

Raised when git-annex sends a message which is not expected at the moment

Ancestors

class RemoteError (*args, **kwargs)

Must be raised by the remote when a request did not succeed.

Ancestors

  • AnnexError
  • builtins.Exception
  • builtins.BaseException
class NotLinkedError (*args, **kwargs)

Will be raised when a Master instance is accessed without being linked to a SpecialRemote instance

Ancestors

  • AnnexError
  • builtins.Exception
  • builtins.BaseException
class AnnexLoggingHandler (annex)

Stream Handler that sends log records to git annex via the special remote protocol

Initialize the handler.

If stream is not specified, sys.stderr is used.

Ancestors

  • logging.StreamHandler
  • logging.Handler
  • logging.Filterer

Methods

def emit(self, record)

Emit a record.

If a formatter is specified, it is used to format the record. The record is then written to the stream with a trailing newline. If exception information is present, it is formatted using traceback.print_exception and appended to the stream. If the stream has an 'encoding' attribute, it is used to determine how to do the output to the stream.

class SpecialRemote (annex)

Metaclass for non-export remotes.

Attributes

annex : Master
The Master object to which this remote is linked. Master acts as an abstraction layer for git-annex.
info : dict
Contains information describing the configuration of the remote, for display by git annex info in the form of {'Name': 'Value', …} where both can be anything you want to be displayed to the user. Note: Both Name and Value can contain spaces.
configs : dict
Contains the settings which the remote uses (with getconfig() and setconfig()) in the form of {'Name': 'Description', …} Note: Name must not contain spaces. Description should be reasonably short. Example: {'directory': "store data here"} Providing them makes git annex initremote work better, because it can check the user's input, and can also display a list of settings with descriptions. Note that the user is not required to provided all the settings listed here.

Subclasses

Methods

def initremote(self)

Gets called when git annex initremote or git annex enableremote are run. This is where any one-time setup tasks can be done, for example creating the remote folder. Note: This may be run repeatedly over time, as a remote is initialized in different repositories, or as the configuration of a remote is changed. So any one-time setup tasks should be done idempotently.

Raises

RemoteError
If the remote could not be initialized.
def prepare(self)

Tells the remote that it's time to prepare itself to be used. Gets called whenever git annex is about to access any of the below methods, so it shouldn't be too expensive. Otherwise it will slow down operations like git annex whereis or git annex info.

Internet connection can be established here, though it's recommended to defer this until it's actually needed.

Raises

RemoteError
If the remote could not be prepared.
def transfer_store(self, key, local_file)

Store the file in local_file to a unique location derived from key.

It's important that, while a Key is being stored, checkpresent(key) not indicate it's present until all the data has been transferred. While the transfer is running, the remote can repeatedly call annex.progress(size) to indicate the number of bytes already stored. This will influence the progress shown to the user.

Parameters

key : str
The Key to be stored in the remote. In most cases, this is going to be the remote file name. It should be at least be unambigiously derived from it.
local_file : str
Path to the file to upload. Note that in some cases, local_file may contain whitespace. Note that local_file should not influence the filename used on the remote.

Raises

RemoteError
If the file could not be stored to the remote.
def transfer_retrieve(self, key, local_file)

Get the file identified by key from the remote and store it in local_file.

While the transfer is running, the remote can repeatedly call annex.progress(size) to indicate the number of bytes already stored. This will influence the progress shown to the user.

Parameters

key : str
The Key to get from the remote.
local_file : str
Path where to store the file. Note that in some cases, local_file may contain whitespace.

Raises

RemoteError
If the file could not be received from the remote.
def checkpresent(self, key)

Requests the remote to check if a key is present in it.

Parameters

key : str
 

Returns

bool
True if the key is present in the remote. False if the key is not present.

Raises

RemoteError
If the presence of the key couldn't be determined, eg. in case of connection error.
def remove(self, key)

Requests the remote to remove a key's contents.

Parameters

key : str
 

Raises

RemoteError
If the key couldn't be deleted from the remote.
def listconfigs(self)
def getcost(self)

Requests the remote to return a use cost. Higher costs are more expensive.

cheapRemoteCost = 100 nearlyCheapRemoteCost = 110 semiExpensiveRemoteCost = 175 expensiveRemoteCost = 200 veryExpensiveRemoteCost = 1000 (taken from Config/Cost.hs)

Returns

int
Indicates the cost of the remote.
def getavailability(self)

Asks the remote if it is locally or globally available. (Ie stored in the cloud vs on a local disk.)

Returns

str
Allowed values are "global" or "local".
def claimurl(self, url)

Asks the remote if it wishes to claim responsibility for downloading an url.

Parameters

url : str
 

Returns

bool
True if it wants to claim this url. False if it doesn't.
def checkurl(self, url)

Asks the remote to check if the url's content can currently be downloaded (without downloading it). The remote can optionally provide additional information about the file.

Parameters

url : str
 

Returns

Union(bool, List(Dict))

True if the url's content can currently be downloaded and no additional information can be provided. False if it can't currently be downloaded.

In order to provide additional information, a list of dictionaries can be returned. The dictionaries can have 3 keys: {'url': str, 'size': int, 'filename': str}. All of them are optional.

If there is only one file to be downloaded, we could return: [{'size': 512, 'filename':'example_file.txt'}]

Other examples: {'url':"https://example.com", 'size':512, 'filename':"example_file.txt"} [{'url':"Url1", 'size':512, 'filename':"Filename1"}, {'url':"Url2", 'filename':"Filename2"}]

def whereis(self, key)

Asks the remote to provide additional information about ways to access the content of a key stored in it, such as eg, public urls. This will be displayed to the user by eg, git annex whereis. Note that users expect git annex whereis to run fast, without eg, network access.

Parameters

key : str
 

Returns

str
Information about the location of the key, eg. public urls.
def error(self, error_msg)

Generic error. Can be sent at any time if things get too messed up to continue. If the program receives an error() from git-annex, it can exit with its own error(). Eg.: self.annex.error("Error received. Exiting.") raise SystemExit

Parameters

error_msg : str
The error message received from git-annex
def exportsupported(self)
def transferexport_store(self, key, local_file, remote_file)
def transferexport_retrieve(self, key, local_file, remote_file)
def checkpresentexport(self, key, remote_file)
def removeexport(self, key, remote_file)
def removeexportdirectory(self, remote_directory)
def renameexport(self, key, filename, new_filename)
def setup(self)
class ExportRemote (annex)

Metaclass for remotes that support non-export and export behaviour.

Attributes

annex : Master
The Master object to which this remote is linked. Master acts as an abstraction layer for git-annex.
info : dict
Contains information describing the configuration of the remote, for display by git annex info in the form of {'Name': 'Value', …} where both can be anything you want to be displayed to the user. Note: Both Name and Value can contain spaces.
configs : dict
Contains the settings which the remote uses (with getconfig() and setconfig()) in the form of {'Name': 'Description', …} Note: Name must not contain spaces. Description should be reasonably short. Example: {'directory': "store data here"} Providing them makes git annex initremote work better, because it can check the user's input, and can also display a list of settings with descriptions. Note that the user is not required to provided all the settings listed here.

Ancestors

Methods

def exportsupported(self)
def transferexport_store(self, key, local_file, remote_file)

Requests the transfer of a file on local disk to the special remote. Note that it's important that, while a file is being stored, checkpresentexport() not indicate it's present until all the data has been transferred. While the transfer is running, the remote can send any number of progess(size) messages.

Parameters

key : str
The Key to be stored in the remote.
local_file : str
Path to the file to upload. Note that in some cases, local_file may contain whitespace.
remote_file : str
The path to the location to which the file will be uploaded. It will be in the form of a relative path, and may contain path separators, whitespace, and other special characters.

Raises

RemoteError
If the key couldn't be stored on the remote.
def transferexport_retrieve(self, key, local_file, remote_file)

Requests the transfer of a file from the special remote to the local disk. Note that it's important that, while a file is being stored, checkpresentexport() not indicate it's present until all the data has been transferred. While the transfer is running, the remote can send any number of progess(size) messages.

Parameters

key : str
The Key to get from the remote.
local_file : str
Path where to store the file. Note that in some cases, local_file may contain whitespace.
remote_file : str
The remote path of the file to download. It will be in the form of a relative path, and may contain path separators, whitespace, and other special characters.

Raises

RemoteError
If the key couldn't be stored on the remote.
def checkpresentexport(self, key, remote_file)

Requests the remote to check if the file is present in it.

Parameters

key : str
The key of the file to check.
remote_file : str
The remote path of the file to check.

Returns

bool
True if the file is present in the remote. False if the file is not present in the remote

Raises

RemoteError
If the the presence of the key couldn't be determined.
def removeexport(self, key, remote_file)

Requests the remote to remove content stored by transferexportstore().

Parameters

key : str
The key of the file to check.
remote_file : str
The remote path of the file to delete.

Raises

RemoteError
If the the remote file couldn't be deleted.
def removeexportdirectory(self, remote_directory)

Requests the remote to remove an exported directory. If the remote does not use directories, or removeexport() cleans up directories that are empty, this does not need to be implemented.

Parameters

remote_directory : str
The remote path to the directory to delete. The directory will be in the form of a relative path, and may contain path separators, whitespace, and other special characters. Typically the directory will be empty, but it could possibly contain files or other directories, and it's ok to remove those, but not required to do so.

Raises

RemoteError
If the the remote directory couldn't be deleted.
def renameexport(self, key, filename, new_filename)

Requests the remote rename a file stored on it from filename to new_filename. Remotes that support exports but not renaming do not need to implement this.

Parameters

key : str
The key of the file to rename
filename : str
The old path to the file.
new_filename : str
The new path to the file.

Raises

RemoteError
If the the remote directory couldn't be deleted.

Inherited members

class Protocol (remote)

Helper class handling the receiving part of the protocol (git-annex to remote) It parses the requests coming from git-annex and calls the respective method of the remote object.

It is not further documented as it was never intended to be part of the public API.

Methods

def command(self, line)
def lookupMethod(self, command)
def check_key(self, key)
def do_UNKNOWN(self, *arg)
def do_INITREMOTE(self)
def do_EXTENSIONS(self, param)
def do_PREPARE(self)
def do_TRANSFER(self, param)
def do_CHECKPRESENT(self, key)
def do_REMOVE(self, key)
def do_LISTCONFIGS(self)
def do_GETCOST(self)
def do_GETAVAILABILITY(self)
def do_CLAIMURL(self, url)
def do_CHECKURL(self, url)
def do_WHEREIS(self, key)
def do_GETINFO(self)
def do_ERROR(self, message)
def do_EXPORTSUPPORTED(self)
def do_EXPORT(self, name)
def do_TRANSFEREXPORT(self, param)
def do_CHECKPRESENTEXPORT(self, key)
def do_REMOVEEXPORT(self, key)
def do_REMOVEEXPORTDIRECTORY(self, name)
def do_RENAMEEXPORT(self, param)
class Master (output=sys.stdout)

Metaclass for non-export remotes.

Attributes

input : io.TextIOBase
Where to listen for git-annex request messages. Default: sys.stdin
output : io.TextIOBase
Where to send replies and special remote messages Default: sys.stdout
remote : SpecialRemote
A class implementing either the SpecialRemote or the ExternalSpecialRemote interface to which this master is linked.

Initialize the Master with an ouput.

Parameters

output : io.TextIOBase
Where to send replies and special remote messages Default: sys.stdout

Methods

def LinkRemote(self, remote)

Link the Master to a remote. This must be done before calling Listen()

Parameters

remote : SpecialRemote
A class implementing either the SpecialRemote or the ExternalSpecialRemote interface to which this master will be linked.
def LoggingHandler(self)

Gets an instance of AnnexLoggingHandler

Returns

AnnexLoggingHandler
 
def Listen(self, input=sys.stdin)

Listen on input for messages from git annex.

Parameters

input : io.TextIOBase
Where to listen for git-annex request messages. Default: sys.stdin

Raises

NotLinkedError
If there is no remote linked to this master.
def getconfig(self, setting)

Gets one of the special remote's configuration settings, which can have been passed by the user when running git annex initremote, git annex enableremote or can have been set by a previous setconfig(). Can be run at any time. It's recommended that special remotes that use this implement listconfigs().

Parameters

setting : str
Which setting to get

Returns

str
The requested setting. If the setting is not set, the value will an empty string.

Raises

UnexpectedMessage
If git-annex does not respond correctly to this request, which is very unlikely.
def setconfig(self, setting, value)

Sets one of the special remote's configuration settings. Normally this is sent during initremote(), which allows these settings to be stored in the git-annex branch, so will be available if the same special remote is used elsewhere. (If sent after initremote(), the changed configuration will only be available while the remote is running.)

Parameters

setting : str
The name of the setting
value : str
The value of the setting
def getstate(self, key)

Gets any state that has been stored for the key via setstate().

Parameters

key : str
The key for which to get the state

Returns

str
The requested state. If the state is not set, the value will an empty string.

Raises

UnexpectedMessage
If git-annex does not respond correctly to this request, which is very unlikely.
def setstate(self, key, value)

Can be used to store some form of state for a Key. The state stored can be anything this remote needs to store, in any format. It is stored in the git-annex branch. Note that this means that if multiple repositories are using the same special remote, and store different state, whichever one stored the state last will win. Also, it's best to avoid storing much state, since this will bloat the git-annex branch. Most remotes will not need to store any state.

Parameters

key : str
The key for which to store the state
value : str
The state for the key to store
def debug(self, *args)

Tells git-annex to display the message if –debug is enabled.

Parameters

message : str
The message to be displayed to the user
def error(self, *args)

Generic error. Can be sent at any time if things get too messed up to continue. When possible, raise a RemoteError inside the respective functions. The special remote program should exit after sending this, as git-annex will not talk to it any further.

Parameters

error_msg : str
The error message to be sent to git-annex
def progress(self, progress)

Indicates the current progress of the transfer (in bytes). May be repeated any number of times during the transfer process, but it's wasteful to update the progress until at least another 1% of the file has been sent. This is highly recommended for _store(). (It is optional but good for _retrieve().)

Parameters

progress : int
The current progress of the transfer in bytes.
def dirhash(self, key)

Gets a two level hash associated with a Key. Something like "aB/Cd". This is always the same for any given Key, so can be used for eg, creating hash directory structures to store Keys in. This is the same directory hash that git-annex uses inside .git/annex/objects/

Parameters

key : str
The key for which to get the hash

Returns

str
The two level hash. (eg. "aB/Cd")

Raises

UnexpectedMessage
If git-annex does not respond correctly to this request, which is very unlikely.
def dirhash_lower(self, key)

Gets a two level hash associated with a Key, using only lower-case. Something like "abc/def". This is always the same for any given Key, so can be used for eg, creating hash directory structures to store Keys in. This is the same directory hash that is used by eg, the directory special remote.

Parameters

key : str
The key for which to get the hash

Returns

str
The two level hash. (eg. "abc/def")

Raises

UnexpectedMessage
If git-annex does not respond correctly to this request, which is very unlikely.
def setcreds(self, setting, user, password)

When some form of user and password is needed to access a special remote, this can be used to securely store them for later use. (Like setconfig(), this is normally sent only during initremote().) Note that creds are normally only stored in the remote's configuration when it's surely safe to do so; when gpg encryption is used, in which case the creds will be encrypted using it. If creds are not stored in the configuration, they'll only be stored in a local file. (embedcreds can be set to yes by the user or by setconfig() to force the creds to be stored in the remote's configuration).

Parameters

setting : str
Indicates which value in a remote's configuration can be used to store the creds.
user : str
The username to be stored
password : str
The password to be stored
def getcreds(self, setting)

Gets any creds that were previously stored in the remote's configuration or a file.

Parameters

setting : str
Indicates which value in a remote's configuration where the credentials are stored.

Returns

dict of str : str
A dict containing username of password in the form: {'user': "username", 'password': "password"} If there are no credentials found, both 'user' and 'password' are empty. Note: In version 2.0, a named tuple will be used instead of a dict.

Raises

UnexpectedMessage
If git-annex does not respond correctly to this request, which is very unlikely.
def getuuid(self)

Queries for the UUID of the special remote being used.

Returns

str
The UUID of the special remote
def getgitdir(self)

Queries for the path to the git directory of the repository that is using the external special remote.

Returns

str
The (relative) path to the git directory
def setwanted(self, prefcontent)

Can be used to set the preferred content of a repository. Normally this is not configured by a special remote, but it may make sense in some situations to hint at the kind of content that should be stored in the special remote. Note that if an unparsable expression is set, git-annex will ignore it.

Parameters

prefcontent : str
The PreferredContentExpression, see https://git-annex.branchable.com/git-annex-preferred-content/
def getwanted(self)

Gets the current preferred content setting of the repository.

Returns

str
The PreferredContentExpression, see https://git-annex.branchable.com/git-annex-preferred-content/

Raises

UnexpectedMessage
If git-annex does not respond correctly to this request, which is very unlikely.
def seturlpresent(self, key, url)

Records a URL where the Key can be downloaded from. Note that this does not make git-annex think that the url is present on the web special remote. Keep in mind that this stores the url in the git-annex branch. This can result in bloat to the branch if the url is large and/or does not delta pack well with other information (such as the names of keys) already stored in the branch.

Parameters

key : str
The key for which to record a URL
url : str
The URL from which the key can be downloaded
def seturlmissing(self, key, url)

Records that the key can no longer be downloaded from the specified URL.

Parameters

key : str
The key for which to delete the URL
url : str
The URL which is no longer accessible
def seturipresent(self, key, uri)

Records a URI where the Key can be downloaded from. For example, "ipfs:ADDRESS" is used for the ipfs special remote; its CLAIMURL handler checks for such URIS and claims them.

Parameters

key : str
The key for which to record a URI
uri : str
The URI from which the key can be downloaded
def seturimissing(self, key, uri)

Records that the key can no longer be downloaded from the specified URI.

Parameters

key : str
The key for which to delete the URI
uri : str
The URI which is no longer accessible
def geturls(self, key, prefix)

Gets the recorded URLs where a key can be downloaded from.

Parameters

key : str
The key for which to get the URLs
prefix : str
Only urls that start with the prefix will be returned. The Prefix may be empty to get all urls.

Returns

list of str
The URLs from which the key can be downloaded

Raises

UnexpectedMessage
If git-annex does not respond correctly to this request, which is very unlikely.
def info(self, message)

Tells git-annex to display the message to the user. When git-annex is in –json mode, the message will be emitted immediately in its own json object, with an "info" field.

Important: This is a protocol extension and may raise a ProtocolError if the particular version of git-annex does not support it. Remotes using info() should always prepare to handle the exception.

Parameters

message : str
The message to be displayed to the user

Raises

ProtocolError
If INFO is not available in this version of git-annex.
def getgitremotename(self)

Gets the name of the git remote that represents this special remote. This can be used, for example, to look up git configuration belonging to that git remote. This name will often be the same as what is passed to git-annex initremote and enableremote, but it is possible for git remotes to be renamed, and this will provide the remote's current name.

Important: This is a protocol extension and may raise a ProtocolError if the particular version of git-annex does not support it. Remotes using getgetremotename() should always prepare to handle the exception.

Returns

str
The name of the git remote that represents this special remote

Raises

ProtocolError
If GETGITREMOTENAME is not available in this version of git-annex.
AnnexRemote-1.6.0/docs/annexremote/index.html000066400000000000000000000143251413107005000212110ustar00rootroot00000000000000 annexremote API documentation
AnnexRemote-1.6.0/docs/config.mako000066400000000000000000000040611413107005000170010ustar00rootroot00000000000000<%! # Template configuration. Copy over in your template directory # (used with --template-dir) and adapt as required. html_lang = 'en' show_inherited_members = False extract_module_toc_into_sidebar = True list_class_variables_in_index = True sort_identifiers = False show_type_annotations = False # Show collapsed source code block next to each item. # Disabling this can improve rendering speed of large modules. show_source_code = False # If set, format links to objects in online source code repository # according to this template. Supported keywords for interpolation # are: commit, path, start_line, end_line. #git_link_template = 'https://github.com/USER/PROJECT/blob/{commit}/{path}#L{start_line}-L{end_line}' #git_link_template = 'https://gitlab.com/USER/PROJECT/blob/{commit}/{path}#L{start_line}-L{end_line}' #git_link_template = 'https://bitbucket.org/USER/PROJECT/src/{commit}/{path}#lines-{start_line}:{end_line}' #git_link_template = 'https://CGIT_HOSTNAME/PROJECT/tree/{path}?id={commit}#n{start-line}' git_link_template = None # A prefix to use for every HTML hyperlink in the generated documentation. # No prefix results in all links being relative. link_prefix = '' # Enable syntax highlighting for code/source blocks by including Highlight.js syntax_highlighting = True # Set the style keyword such as 'atom-one-light' or 'github-gist' # Options: https://github.com/highlightjs/highlight.js/tree/master/src/styles # Demo: https://highlightjs.org/static/demo/ hljs_style = 'github' # If set, insert Google Analytics tracking code. Value is GA # tracking id (UA-XXXXXX-Y). google_analytics = '' # If set, render LaTeX math syntax within \(...\) (inline equations), # or within \[...\] or $$...$$ or `.. math::` (block equations) # as nicely-formatted math formulas using MathJax. # Note: in Python docstrings, either all backslashes need to be escaped (\\) # or you need to use raw r-strings. latex_math = False %> AnnexRemote-1.6.0/docs/index.html000066400000000000000000000002561413107005000166620ustar00rootroot00000000000000 Redirecting to annexremote ... AnnexRemote-1.6.0/examples/000077500000000000000000000000001413107005000155505ustar00rootroot00000000000000AnnexRemote-1.6.0/examples/git-annex-remote-directory000077500000000000000000000117201413107005000226640ustar00rootroot00000000000000#!/usr/bin/env python # git-annex external special remote program # # This is basically the same as git-annex's built-in directory special remote. # # Install in PATH as git-annex-remote-directory # # Copyright 2018 Silvio Ankermann; licenced under the GNU GPL version 3 import sys, os, errno from shutil import copyfile from annexremote import Master from annexremote import ExportRemote from annexremote import RemoteError, ProtocolError class DirectoryRemote(ExportRemote): def initremote(self): self.directory = self.annex.getconfig('directory') if not self.directory: raise RemoteError("You need to set directory=") self._mkdir(self.directory) def prepare(self): self.directory = self.annex.getconfig('directory') self.info = {'directory': self.directory} if not os.path.exists(self.directory): raise RemoteError("{} not found".format(self.directory)) def transfer_store(self, key, filename): location = self._calclocation(key) self._do_store(key, filename, location) def transfer_retrieve(self, key, filename): location = self._calclocation(key) self._do_retrieve(key, location, filename) def checkpresent(self, key): location = self._calclocation(key) return self._do_checkpresent(key, location) def remove(self, key): location = self._calclocation(key) self._do_remove(key, location) ## Export methods def transferexport_store(self, key, local_file, remote_file): location = '/'.join((self.directory, remote_file)) self._do_store(key, local_file, location) def transferexport_retrieve(self, key, local_file, remote_file): location = '/'.join((self.directory, remote_file)) self._do_retrieve(key, location, local_file) def checkpresentexport(self, key, remote_file): location = '/'.join((self.directory, remote_file)) return self._do_checkpresent(key, location) def removeexport(self, key, remote_file): location = '/'.join((self.directory, remote_file)) self._do_remove(key, location) def removeexportdirectory(self, remote_directory): location = '/'.join((self.directory, remote_directory)) try: os.rmdir(location) except OSError as e: if e.errno != errno.ENOENT: raise RemoteError(e) def renameexport(self, key, filename, new_filename): oldlocation = '/'.join((self.directory, filename)) newlocation = '/'.join((self.directory, new_filename)) try: os.rename(oldlocation, newlocation) except OSError as e: raise RemoteError(e) def _mkdir(self, directory): try: os.makedirs(directory) except OSError as e: if e.errno != errno.EEXIST: raise RemoteError("Failed to write to {}".format(directory)) def _calclocation(self, key): return "{dir}/{hash}{key}".format( dir=self.directory, hash=self.annex.dirhash(key), key=key) def _info(self, message): try: self.annex.info(message) except ProtocolError: print(message) def _do_store(self, key, filename, location): self._mkdir(os.path.dirname(location)) templocation = '/'.join((self.directory, 'tmp', key)) self._mkdir(os.path.dirname(templocation)) try: copyfile(filename, templocation) os.rename(templocation, location) except OSError as e: raise RemoteError(e) try: os.rmdir(os.path.dirname(templocation)) except OSError: self._info("Could not remove tempdir (Not empty)") def _do_retrieve(self, key, location, filename): try: copyfile(location, filename) except OSError as e: raise RemoteError(e) def _do_checkpresent(self, key, location): if not os.path.exists(self.directory): raise RemoteError("this remote is not currently available") return os.path.isfile(location) def _do_remove(self, key, location): if not os.path.exists(self.directory): raise RemoteError("this remote is not currently available") try: os.remove(location) except OSError as e: # It's not a failure to remove a file that is not present. if e.errno != errno.ENOENT: raise RemoteError(e) def main(): # Redirect output to stderr to avoid messing up the protocol output = sys.stdout sys.stdout = sys.stderr master = Master(output) remote = DirectoryRemote(master) master.LinkRemote(remote) master.Listen() if __name__ == "__main__": main() AnnexRemote-1.6.0/examples/git-annex-remote-example000066400000000000000000000026541413107005000223160ustar00rootroot00000000000000#!/usr/bin/env python3 from annexremote import Master from annexremote import SpecialRemote from annexremote import RemoteError class MyRemote(SpecialRemote): def initremote(self): # initialize the remote, eg. create the folders # raise RemoteError if the remote couldn't be initialized def prepare(self): # prepare to be used, eg. open TCP connection, authenticate with the server etc. # raise RemoteError if not ready to use def transfer_store(self, key, filename): # store the file in `filename` to a unique location derived from `key` # raise RemoteError if the file couldn't be stored def transfer_retrieve(self, key, filename): # get the file identified by `key` and store it to `filename` # raise RemoteError if the file couldn't be retrieved def checkpresent(self, key): # return True if the key is present in the remote # return False if the key is not present # raise RemoteError if the presence of the key couldn't be determined, eg. in case of connection error def remove(self, key): # remove the key from the remote # raise RemoteError if it couldn't be removed # note that removing a not existing key isn't considered an error def main(): master = RemoteMaster() remote = MyRemote(master) master.LinkRemote(remote) master.Listen() if __name__ == "__main__": main() AnnexRemote-1.6.0/setup.cfg000066400000000000000000000002171413107005000155530ustar00rootroot00000000000000[versioneer] VCS = git style = pep440 versionfile_source = annexremote/_version.py versionfile_build = annexremote/_version.py tag_prefix = v AnnexRemote-1.6.0/setup.py000066400000000000000000000034421413107005000154470ustar00rootroot00000000000000#!/usr/bin/env python # annexremote Setup # Copyright (C) 2017 Silvio Ankermann # # This program is free software: you can redistribute it and/or modify # it under the terms of version 3 of the GNU General Public License as published by # the Free Software Foundation # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . from setuptools import setup, find_packages from codecs import open import versioneer def readme(): with open('README.md') as f: return f.read() setup( name='annexremote', version=versioneer.get_version(), cmdclass=versioneer.get_cmdclass(), description='git annex special remotes made easy', long_description=readme(), long_description_content_type='text/markdown', url='https://github.com/Lykos153/AnnexRemote', author='Silvio Ankermann', author_email='silvio@booq.org', license='GPLv3', classifiers=[ 'Development Status :: 5 - Production/Stable', 'Intended Audience :: Developers', 'Topic :: Software Development :: Libraries :: Python Modules', 'License :: OSI Approved :: GNU General Public License v3 (GPLv3)', 'Programming Language :: Python :: 3.6', 'Programming Language :: Python :: 3.7', 'Programming Language :: Python :: 3.8', 'Programming Language :: Python :: 3.9', ], keywords='git-annex remote', packages=['annexremote'], install_requires=[], extras_require={ 'test': ['coverage', 'nose'], }, ) AnnexRemote-1.6.0/tests/000077500000000000000000000000001413107005000150745ustar00rootroot00000000000000AnnexRemote-1.6.0/tests/annexremote.py000077700000000000000000000000001413107005000254252../annexremote/annexremote.pyustar00rootroot00000000000000AnnexRemote-1.6.0/tests/test_AnnexRemoteSetup.py000066400000000000000000000006521413107005000217560ustar00rootroot00000000000000# -*- coding: utf-8 -*- import io import unittest import annexremote class SetupTestCase(unittest.TestCase): def setUp(self): super().setUp() self.output = io.StringIO() self.input = io.StringIO() def TestListenNotLinked(self): annex = annexremote.Master(self.output) with self.assertRaises(annexremote.NotLinkedError): annex.Listen(io.StringIO("INITREMOTE")) AnnexRemote-1.6.0/tests/test_GitAnnexRequestMessages.py000066400000000000000000000665001413107005000232720ustar00rootroot00000000000000# -*- coding: utf-8 -*- import io import logging import utils RemoteError = utils.annexremote.RemoteError ProtocolError = utils.annexremote.ProtocolError UnsupportedReqeust = utils.annexremote.UnsupportedRequest class TestGitAnnexRequestMessages(utils.GitAnnexTestCase): def TestInitremoteSuccess(self): self.annex.Listen(io.StringIO("INITREMOTE")) self.remote.initremote.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "INITREMOTE-SUCCESS") def TestInitremoteFailure(self): self.remote.initremote.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("INITREMOTE")) self.remote.initremote.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "INITREMOTE-FAILURE ErrorMsg") def TestExtensions(self): self.annex.Listen(io.StringIO("EXTENSIONS Annex1 Annex2")) self.assertEqual(utils.second_buffer_line(self.output), "EXTENSIONS") def TestPrepareSuccess(self): self.annex.Listen(io.StringIO("PREPARE")) self.remote.prepare.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "PREPARE-SUCCESS") def TestPrepareFailure(self): self.remote.prepare.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("PREPARE")) self.remote.prepare.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "PREPARE-FAILURE ErrorMsg") def TestTransferStoreSuccess(self): self.annex.Listen(io.StringIO("TRANSFER STORE Key File")) self.remote.transfer_store.assert_called_once_with("Key", "File") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-SUCCESS STORE Key") def TestTransferStoreFailure(self): self.remote.transfer_store.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("TRANSFER STORE Key File")) self.remote.transfer_store.assert_called_once_with("Key", "File") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-FAILURE STORE Key ErrorMsg") def TestTransferStoreMissingFilename(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("TRANSFER STORE Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Expected Key File") def TestTransferStore_SpaceInFilename(self): self.annex.Listen(io.StringIO("TRANSFER STORE Key File with spaces")) self.remote.transfer_store.assert_called_once_with("Key", "File with spaces") def TestTransferRetrieveSuccess(self): self.annex.Listen(io.StringIO("TRANSFER RETRIEVE Key File")) self.remote.transfer_retrieve.assert_called_once_with("Key", "File") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-SUCCESS RETRIEVE Key") def TestTransferRetrieveFailure(self): self.remote.transfer_retrieve.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("TRANSFER RETRIEVE Key File")) self.remote.transfer_retrieve.assert_called_once_with("Key", "File") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-FAILURE RETRIEVE Key ErrorMsg") def TestTransferRetrieve_MissingFilename(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("TRANSFER RETRIEVE Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Expected Key File") def TestTransferRetrieve_SpaceInFilename(self): self.annex.Listen(io.StringIO("TRANSFER RETRIEVE Key File with spaces")) self.remote.transfer_retrieve.assert_called_once_with("Key", "File with spaces") def TestCheckpresentSuccess(self): self.remote.checkpresent.return_value = True self.annex.Listen(io.StringIO("CHECKPRESENT Key")) self.remote.checkpresent.assert_called_once_with("Key") self.assertEqual(utils.second_buffer_line(self.output), "CHECKPRESENT-SUCCESS Key") def TestCheckpresentFailure(self): self.remote.checkpresent.return_value = False self.annex.Listen(io.StringIO("CHECKPRESENT Key")) self.remote.checkpresent.assert_called_once_with("Key") self.assertEqual(utils.second_buffer_line(self.output), "CHECKPRESENT-FAILURE Key") def TestCheckpresentUnknown(self): self.remote.checkpresent.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("CHECKPRESENT Key")) self.remote.checkpresent.assert_called_once_with("Key") self.assertEqual(utils.second_buffer_line(self.output), "CHECKPRESENT-UNKNOWN Key ErrorMsg") def TestRemoveSuccess(self): self.annex.Listen(io.StringIO("REMOVE Key")) self.remote.remove.assert_called_once_with("Key") self.assertEqual(utils.second_buffer_line(self.output), "REMOVE-SUCCESS Key") def TestRemoveFailure(self): self.remote.remove.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("REMOVE Key")) self.remote.remove.assert_called_once_with("Key") self.assertEqual(utils.second_buffer_line(self.output), "REMOVE-FAILURE Key ErrorMsg") def TestListconfigs(self): self.remote.listconfigs.return_value = {'Name': 'Description', 'con1': "necessary configuration", 'opt': "optional configuration"} self.annex.Listen(io.StringIO("LISTCONFIGS")) self.assertEqual(self.remote.listconfigs.call_count, 1) self.assertEqual(utils.buffer_lines(self.output)[1:], ['CONFIG Name Description', 'CONFIG con1 necessary configuration', 'CONFIG opt optional configuration', 'CONFIGEND']) def TestListconfigsSpaceInName(self): self.remote.listconfigs.return_value = {'Name with space': 'Description'} with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("LISTCONFIGS")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Name must not contain space characters: Name with space") def TestGetcost(self): self.remote.getcost.return_value = 5 self.annex.Listen(io.StringIO("GETCOST")) self.remote.getcost.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "COST 5") def TestGetcostInvalid(self): self.remote.getcost.return_value = "not a number" with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("GETCOST")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Cost must be an integer") def TestGetavailabilityGlobal(self): self.remote.getavailability.return_value = "global" self.annex.Listen(io.StringIO("GETAVAILABILITY")) self.remote.getavailability.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "AVAILABILITY GLOBAL") def TestGetavailabilityLocal(self): self.remote.getavailability.return_value = "local" self.annex.Listen(io.StringIO("GETAVAILABILITY")) self.remote.getavailability.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "AVAILABILITY LOCAL") def TestGetavailabilityInvalid(self): self.remote.getavailability.return_value = "something else" with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("GETAVAILABILITY")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Availability must be either 'global' or 'local'") def TestClaimurlSuccess(self): self.remote.claimurl.return_value = True self.annex.Listen(io.StringIO("CLAIMURL Url")) self.remote.claimurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CLAIMURL-SUCCESS") def TestClaimurlFailure(self): self.remote.claimurl.return_value = False self.annex.Listen(io.StringIO("CLAIMURL Url")) self.assertEqual(utils.second_buffer_line(self.output), "CLAIMURL-FAILURE") def TestCheckurlContentsTrue(self): self.remote.checkurl.return_value = True self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-CONTENTS UNKNOWN") def TestCheckurlContents(self): self.remote.checkurl.return_value = [{'size':512,'filename':"Filename"}] self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-CONTENTS 512 Filename") def TestCheckurlContentsUnknownSize(self): self.remote.checkurl.return_value = [{'filename':"Filename"}] self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-CONTENTS UNKNOWN Filename") def TestCheckurlContentsWithoutFilename(self): self.remote.checkurl.return_value = [{'size':512}] self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-CONTENTS 512") def TestCheckurlContentsWithoutSizeAndFilename(self): self.remote.checkurl.return_value = True self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-CONTENTS UNKNOWN") def TestCheckurlMultiOneItemWithUrl(self): self.remote.checkurl.return_value = [{'url':"Url_exact", 'size':512,'filename':"Filename"}] self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-MULTI Url_exact 512 Filename") def TestCheckurlMultiTwoUrls(self): urllist = [{'url':"Url1", 'size':512, 'filename':"Filename1"}, {'url':"Url2", 'filename':"Filename2"}] self.remote.checkurl.return_value = urllist self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-MULTI Url1 512 Filename1 Url2 UNKNOWN Filename2") def TestCheckurlMultiFiveUrls(self): urllist = [{'url':"Url1", 'size':512, 'filename':"Filename1"}, {'url':"Url2", 'filename':"Filename2"}, {'url':"Url3", 'size':1024}, {'url':"Url4", 'size':134789,'filename':"Filename4"}, {'url':"Url5", 'filename':"Filename5"}] self.remote.checkurl.return_value = urllist self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-MULTI Url1 512 Filename1 Url2 UNKNOWN Filename2 Url3 1024 Url4 134789 Filename4 Url5 UNKNOWN Filename5") def TestCheckurlMultiSpaceInUrl(self): urllist = [{'url':"Url with spaces", 'size':512, 'filename':"Filename1"}, {'url':"Url2",'filename':"Filename2"}] self.remote.checkurl.return_value = urllist with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("CHECKURL Url")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Url must not contain spaces.") def TestCheckurlMultiSpaceInFilename(self): urllist = [{'url':"Url1", 'size':512, 'filename':"Filename with spaces"}, {'url':"Url2", 'filename':"Filename2"}] self.remote.checkurl.return_value = urllist with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("CHECKURL Url")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Filename must not contain spaces.") def TestCheckurlMultiTabInUrlAndFilename(self): urllist = [{'url':"Url\twith\ttabs", 'size':512, 'filename':"Filename1"}, {'url':"Url2",'filename':"Filename\twith\ttabs"}] self.remote.checkurl.return_value = urllist self.annex.Listen(io.StringIO("CHECKURL Url")) result = "CHECKURL-MULTI Url\twith\ttabs 512 Filename1 Url2 UNKNOWN Filename\twith\ttabs" self.assertEqual(utils.second_buffer_line(self.output), result) def TestCheckurlFailure(self): self.remote.checkurl.side_effect = RemoteError() self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-FAILURE") def TestCheckurlFailureByException(self): self.remote.checkurl.return_value = False self.annex.Listen(io.StringIO("CHECKURL Url")) self.remote.checkurl.assert_called_once_with("Url") self.assertEqual(utils.second_buffer_line(self.output), "CHECKURL-FAILURE") def TestWhereisSuccess(self): self.remote.whereis.return_value = "String" self.annex.Listen(io.StringIO("WHEREIS Key")) self.remote.whereis.assert_called_once_with("Key") self.assertEqual(utils.second_buffer_line(self.output), "WHEREIS-SUCCESS String") def TestWhereisFailure(self): self.remote.whereis.return_value = False self.annex.Listen(io.StringIO("WHEREIS Key")) self.remote.whereis.assert_called_once_with("Key") self.assertEqual(utils.second_buffer_line(self.output), "WHEREIS-FAILURE") def TestGetinfo(self): self.remote.info = {'info field 1': 'infovalue', 'info field 2':'infovalue 2'} self.annex.Listen(io.StringIO("GETINFO")) self.assertEqual(utils.buffer_lines(self.output)[1:], ['INFOFIELD info field 1', 'INFOVALUE infovalue', 'INFOFIELD info field 2', 'INFOVALUE infovalue 2', 'INFOEND'] ) def TestGetinfoNone(self): self.remote.info = {} self.annex.Listen(io.StringIO("GETINFO")) self.assertEqual(utils.buffer_lines(self.output)[1:], ["INFOEND"]) def TestError(self): self.annex.Listen(io.StringIO("ERROR ErrorMsg")) self.remote.error.assert_called_once_with("ErrorMsg") class TestGitAnnexRequestMessagesExporttree(utils.GitAnnexTestCase): def TestExportsupportedSuccess(self): self.annex.Listen(io.StringIO("EXPORTSUPPORTED")) self.remote.exportsupported.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "EXPORTSUPPORTED-SUCCESS") def TestExportsupportedFailure(self): self.remote.exportsupported.return_value = False self.annex.Listen(io.StringIO("EXPORTSUPPORTED")) self.remote.exportsupported.call_count == 1 self.assertEqual(utils.second_buffer_line(self.output), "EXPORTSUPPORTED-FAILURE") def TestExport_MissingName(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("EXPORT")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR do_EXPORT() missing 1 required positional argument: 'name'") def TestExport_SpaceInName(self): # testing this only with TRANSFEREXPORT self.annex.Listen(io.StringIO("EXPORT Name with spaces\nTRANSFEREXPORT STORE Key File")) self.remote.transferexport_store.assert_called_once_with("Key", "File", "Name with spaces") def TestTransferexportStoreSuccess(self): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT STORE Key File")) self.remote.transferexport_store.assert_called_once_with("Key", "File", "Name") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-SUCCESS STORE Key") def TestTransferexportStoreFailure(self): self.remote.transferexport_store.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT STORE Key File")) self.remote.transferexport_store.assert_called_once_with("Key", "File", "Name") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-FAILURE STORE Key ErrorMsg") def TestTransferexportStore_WithoutExport(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("TRANSFEREXPORT STORE Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Export request without prior EXPORT") def TestTransferexportStore_MissingFilename(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT STORE Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Expected Key File") def TestTransferexportStore_SpaceInFilename(self): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT STORE Key File with spaces")) self.remote.transferexport_store.assert_called_once_with("Key", "File with spaces", "Name") def TestTransferexportStore_SpecialCharacterInName(self): self.annex.Listen(io.StringIO("EXPORT Näme\nTRANSFEREXPORT STORE Key File with spaces")) self.remote.transferexport_store.assert_called_once_with("Key", "File with spaces", "Näme") def TestTransferexportStore_UnicodeCharacterInName(self): self.annex.Listen(io.StringIO("EXPORT Name 😀\nTRANSFEREXPORT STORE Key File with spaces")) self.remote.transferexport_store.assert_called_once_with("Key", "File with spaces", "Name 😀") def TestTransferexportRetrieveSuccess(self): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT RETRIEVE Key File")) self.remote.transferexport_retrieve.assert_called_once_with("Key", "File", "Name") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-SUCCESS RETRIEVE Key") def TestTransferexportRetrieveFailure(self): self.remote.transferexport_retrieve.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT RETRIEVE Key File")) self.remote.transferexport_retrieve.assert_called_once_with("Key", "File", "Name") self.assertEqual(utils.second_buffer_line(self.output), "TRANSFER-FAILURE RETRIEVE Key ErrorMsg") def TestTransferexportRetrieve_WithoutExport(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("TRANSFEREXPORT RETRIEVE Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Export request without prior EXPORT") def TestTransferexportRetrieve_MissingFilename(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT RETRIEVE Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Expected Key File") def TestTransferexportRetrieve_SpaceInFilename(self): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT RETRIEVE Key File with spaces")) self.remote.transferexport_retrieve.assert_called_once_with("Key", "File with spaces", "Name") def TestCheckpresentexportSuccess(self): self.remote.checkpresentexport.return_value = True self.annex.Listen(io.StringIO("EXPORT Name\nCHECKPRESENTEXPORT Key")) self.remote.checkpresentexport.assert_called_once_with("Key", "Name") self.assertEqual(utils.second_buffer_line(self.output), "CHECKPRESENT-SUCCESS Key") def TestCheckpresentexportFailure(self): self.remote.checkpresentexport.return_value = False self.annex.Listen(io.StringIO("EXPORT Name\nCHECKPRESENTEXPORT Key")) self.remote.checkpresentexport.assert_called_once_with("Key", "Name") self.assertEqual(utils.second_buffer_line(self.output), "CHECKPRESENT-FAILURE Key") def TestCheckpresentexportUnknown(self): self.remote.checkpresentexport.side_effect=RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("EXPORT Name\nCHECKPRESENTEXPORT Key")) self.remote.checkpresentexport.assert_called_once_with("Key", "Name") self.assertEqual(utils.second_buffer_line(self.output), "CHECKPRESENT-UNKNOWN Key ErrorMsg") def TestCheckpresentexport_WithoutExport(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("CHECKPRESENTEXPORT Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Export request without prior EXPORT") def TestRemoveexportSuccess(self): self.annex.Listen(io.StringIO("EXPORT Name\nREMOVEEXPORT Key")) self.remote.removeexport.assert_called_once_with("Key", "Name") self.assertEqual(utils.second_buffer_line(self.output), "REMOVE-SUCCESS Key") def TestRemoveexportFailure(self): self.remote.removeexport.side_effect = RemoteError("ErrorMsg") self.annex.Listen(io.StringIO("EXPORT Name\nREMOVEEXPORT Key")) self.remote.removeexport.assert_called_once_with("Key", "Name") self.assertEqual(utils.second_buffer_line(self.output), "REMOVE-FAILURE Key ErrorMsg") def TestRemoveexport_WithoutExport(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("REMOVEEXPORT Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Export request without prior EXPORT") def TestRemoveexportdirectorySuccess(self): self.annex.Listen(io.StringIO("REMOVEEXPORTDIRECTORY Directory")) self.remote.removeexportdirectory.assert_called_once_with("Directory") self.assertEqual(utils.second_buffer_line(self.output), "REMOVEEXPORTDIRECTORY-SUCCESS") def TestRemoveexportdirectoryFailure(self): self.remote.removeexportdirectory.side_effect = RemoteError() self.annex.Listen(io.StringIO("REMOVEEXPORTDIRECTORY Directory")) self.remote.removeexportdirectory.assert_called_once_with("Directory") self.assertEqual(utils.second_buffer_line(self.output), "REMOVEEXPORTDIRECTORY-FAILURE") def TestRemoveexportdirectory_MissingDirectory(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("REMOVEEXPORTDIRECTORY")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR do_REMOVEEXPORTDIRECTORY() missing 1 required positional argument: 'name'") def TestRemoveexportdirectory_SpaceInFilename(self): self.annex.Listen(io.StringIO("REMOVEEXPORTDIRECTORY Directory with spaces")) self.remote.removeexportdirectory.assert_called_once_with("Directory with spaces") def TestRenameexportSuccess(self): self.annex.Listen(io.StringIO("EXPORT Name\nRENAMEEXPORT Key NewName")) self.remote.renameexport.assert_called_once_with("Key", "Name", "NewName") self.assertEqual(utils.second_buffer_line(self.output), "RENAMEEXPORT-SUCCESS Key") def TestRenameexportFailure(self): self.remote.renameexport.side_effect = RemoteError() self.annex.Listen(io.StringIO("EXPORT Name\nRENAMEEXPORT Key NewName")) self.remote.renameexport.assert_called_once_with("Key", "Name", "NewName") self.assertEqual(utils.second_buffer_line(self.output), "RENAMEEXPORT-FAILURE Key") def TestRenameexport_WithoutExport(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("RENAMEEXPORT Key NewName")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Export request without prior EXPORT") def TestRenameexport_MissingNewName(self): with self.assertRaises(SystemExit): self.annex.Listen(io.StringIO("EXPORT Name\nRENAMEEXPORT Key")) self.assertEqual(utils.last_buffer_line(self.output), "ERROR Expected TRANSFER STORE Key File") def TestRenameexport_SpaceInNewName(self): self.annex.Listen(io.StringIO("EXPORT Name\nRENAMEEXPORT Key NewName with spaces")) self.remote.renameexport.assert_called_once_with("Key", "Name", "NewName with spaces") class TestUnsupportedRequests(utils.MinimalTestCase): def TestUnsupportedRequest(self): self.annex.Listen(io.StringIO("Not a request")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestGetcostUnsupportedRequest(self): self.annex.Listen(io.StringIO("GETCOST")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestGetavailabilityUnsupportedRequest(self): self.annex.Listen(io.StringIO("GETAVAILABILITY")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestClaimurlUnsupportedRequest(self): self.annex.Listen(io.StringIO("CLAIMURL Url")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestCheckurlUnsupportedRequest(self): self.annex.Listen(io.StringIO("CHECKURL Url")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestWhereisUnsupportedRequest(self): self.annex.Listen(io.StringIO("WHEREIS Key")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestTransferexportStoreUnsupportedRequest(self): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT STORE Key File")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestTransferexportRetrieveUnsupportedRequest(self): self.annex.Listen(io.StringIO("EXPORT Name\nTRANSFEREXPORT RETRIEVE Key File")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestCheckpresentexportUnsupportedRequest(self): self.annex.Listen(io.StringIO("EXPORT Name\nCHECKPRESENTEXPORT Key")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestRemoveexportUnsupportedRequest(self): self.annex.Listen(io.StringIO("EXPORT Name\nREMOVEEXPORT Key")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestRemoveexportdirectoryUnsupportedRequest(self): self.annex.Listen(io.StringIO("REMOVEEXPORTDIRECTORY Directory")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestRenameexportUnsupportedRequest(self): self.annex.Listen(io.StringIO("EXPORT Name\nRENAMEEXPORT Key NewName")) self.assertEqual(utils.second_buffer_line(self.output), "UNSUPPORTED-REQUEST") def TestListconfigsEmpty(self): self.annex.Listen(io.StringIO("LISTCONFIGS")) self.assertEqual(utils.second_buffer_line(self.output), "CONFIGEND") class LoggingRemote(utils.MinimalRemote): def __init__(self, annex): super().__init__(annex) self.logger = logging.getLogger() self.logger.addHandler(self.annex.LoggingHandler()) def prepare(self): self.logger.warning("test\nthis is a new line") class TestLogging(utils.GitAnnexTestCase): def setUp(self): super().setUp() self.remote = LoggingRemote(self.annex) self.annex.LinkRemote(self.remote) def TestLogging(self): self.annex.Listen(io.StringIO("PREPARE")) buffer_lines = utils.buffer_lines(self.output) self.assertEqual(buffer_lines[1], "DEBUG root - WARNING - test") self.assertEqual(buffer_lines[2], "DEBUG this is a new line") AnnexRemote-1.6.0/tests/test_SpecialRemoteMessages.py000066400000000000000000000367031413107005000227420ustar00rootroot00000000000000import io import utils ProtocolError = utils.annexremote.ProtocolError class TestSpecialRemoteMessages(utils.GitAnnexTestCase): """ * Each protocol line starts with a command, which is followed by the command's parameters (a fixed number per command), each separated by a single space. * The last parameter may contain spaces. * Parameters may be empty, but the separating spaces are still required in that case. (from https://git-annex.branchable.com/design/external_special_remote_protocol) """ def _perform_test(self, function_to_call, function_parameters, expected_output, annex_reply=None, function_result=None, skip_assertion=False): self.annex.input = io.StringIO(annex_reply) result = function_to_call(*function_parameters) self.assertEqual(result, function_result) if not skip_assertion: self.assertEqual(utils.first_buffer_line(self.output).rstrip(), expected_output) def TestVersion(self): self.annex.Listen(self.input) self.assertEqual(self.output.getvalue(), "VERSION 1\n") def TestProgress(self): function_to_call = self.annex.progress function_parameters = (2048,) expected_output = "PROGRESS 2048" self._perform_test(function_to_call, function_parameters, expected_output) def TestProgressNotANumber(self): function_to_call = self.annex.progress function_parameters = ("NaN",) with self.assertRaises(ValueError): self._perform_test(function_to_call, function_parameters, "") def TestDirhash(self): function_to_call = self.annex.dirhash function_parameters = ("Key",) expected_output = "DIRHASH Key" annex_reply = "VALUE aB/Cd" function_result = "aB/Cd" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestDirhashLower(self): function_to_call = self.annex.dirhash_lower function_parameters = ("Key",) expected_output = "DIRHASH-LOWER Key" annex_reply = "VALUE abc/def" function_result = "abc/def" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestSetconfig(self): function_to_call = self.annex.setconfig function_parameters = ("Setting", "Value") expected_output = "SETCONFIG Setting Value" self._perform_test(function_to_call, function_parameters, expected_output) def TestSetconfig_SpaceInValue(self): """ The last parameter may contain spaces. """ function_to_call = self.annex.setconfig function_parameters = ("Setting", "Value with spaces") expected_output = "SETCONFIG Setting Value with spaces" self._perform_test(function_to_call, function_parameters, expected_output) def TestGetconfig(self): function_to_call = self.annex.getconfig function_parameters = ("Setting",) expected_output = "GETCONFIG Setting" annex_reply = "VALUE Value" function_result = "Value" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetconfig_SpaceInValue(self): function_to_call = self.annex.getconfig function_parameters = ("Setting",) expected_output = "GETCONFIG Setting" annex_reply = "VALUE Value with spaces" function_result = "Value with spaces" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestSetcreds(self): function_to_call = self.annex.setcreds function_parameters = ("Setting", "User", "Password") expected_output = "SETCREDS Setting User Password" self._perform_test(function_to_call, function_parameters, expected_output) def TestSetcreds_SpaceInPassword(self): function_to_call = self.annex.setcreds function_parameters = ("Setting", "User", "Password with spaces") expected_output = "SETCREDS Setting User Password with spaces" self._perform_test(function_to_call, function_parameters, expected_output) def TestSetcreds_NoPassword(self): function_to_call = self.annex.setcreds function_parameters = ("Setting", "User", "") expected_output = "SETCREDS Setting User" self._perform_test(function_to_call, function_parameters, expected_output) def TestSetcreds_NoUser(self): """ Parameters may be empty, but the separating spaces are still required in that case. """ function_to_call = self.annex.setcreds function_parameters = ("Setting", "", "Password") expected_output = "SETCREDS Setting Password" self._perform_test(function_to_call, function_parameters, expected_output) def TestGetcreds(self): function_to_call = self.annex.getcreds function_parameters = ("Setting",) expected_output = "GETCREDS Setting" annex_reply = "CREDS User Password" function_result = {'user': "User", 'password': "Password"} self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetcreds_SpaceInPassword(self): function_to_call = self.annex.getcreds function_parameters = ("Setting",) expected_output = "GETCREDS Setting" annex_reply = "CREDS User Password with spaces" function_result = {'user': "User", 'password': "Password with spaces"} self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetcreds_NoPassword(self): function_to_call = self.annex.getcreds function_parameters = ("Setting",) expected_output = "GETCREDS Setting" annex_reply = "CREDS User" function_result = {'user': "User", 'password': ""} self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetcreds_NoUser(self): function_to_call = self.annex.getcreds function_parameters = ("Setting",) expected_output = "GETCREDS Setting" annex_reply = "CREDS Password" function_result = {'user': "", 'password': "Password"} self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetuuid(self): function_to_call = self.annex.getuuid function_parameters = () expected_output = "GETUUID" annex_reply = "VALUE uuid" function_result = "uuid" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetgitdir(self): function_to_call = self.annex.getgitdir function_parameters = () expected_output = "GETGITDIR" annex_reply = "VALUE /path/to/gitdir" function_result = "/path/to/gitdir" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetgitdir_SpaceInPath(self): function_to_call = self.annex.getgitdir function_parameters = () expected_output = "GETGITDIR" annex_reply = "VALUE /path/to/gitdir with spaces/" function_result = "/path/to/gitdir with spaces/" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestSetwanted(self): function_to_call = self.annex.setwanted function_parameters = ("Preferred Content Expression",) expected_output = "SETWANTED Preferred Content Expression" self._perform_test(function_to_call, function_parameters, expected_output) def TestGetwanted(self): function_to_call = self.annex.getwanted function_parameters = () expected_output = "GETWANTED" annex_reply = "VALUE Preferred Content Expression" function_result = "Preferred Content Expression" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestSetstate(self): function_to_call = self.annex.setstate function_parameters = ("Key", "Value") expected_output = "SETSTATE Key Value" self._perform_test(function_to_call, function_parameters, expected_output) def TestSetstate_SpaceInValue(self): function_to_call = self.annex.setstate function_parameters = ("Key", "Value with spaces") expected_output = "SETSTATE Key Value with spaces" self._perform_test(function_to_call, function_parameters, expected_output) def TestSetstate_NoValue(self): function_to_call = self.annex.setstate function_parameters = ("Key", "") expected_output = "SETSTATE Key" self._perform_test(function_to_call, function_parameters, expected_output) def TestGetstate(self): function_to_call = self.annex.getstate function_parameters = ("Key",) expected_output = "GETSTATE Key" annex_reply = "VALUE State" function_result = "State" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetstate_SpaceInValue(self): function_to_call = self.annex.getstate function_parameters = ("Key",) expected_output = "GETSTATE Key" annex_reply = "VALUE State with spaces" function_result = "State with spaces" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetstate_NoValue(self): function_to_call = self.annex.getstate function_parameters = ("Key",) expected_output = "GETSTATE Key" annex_reply = "VALUE" function_result = "" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestSeturlpresent(self): function_to_call = self.annex.seturlpresent function_parameters = ("Key", "Url") expected_output = "SETURLPRESENT Key Url" self._perform_test(function_to_call, function_parameters, expected_output) def TestSeturlmissing(self): function_to_call = self.annex.seturlmissing function_parameters = ("Key", "Url") expected_output = "SETURLMISSING Key Url" self._perform_test(function_to_call, function_parameters, expected_output) def TestSeturipresent(self): function_to_call = self.annex.seturipresent function_parameters = ("Key", "Uri") expected_output = "SETURIPRESENT Key Uri" self._perform_test(function_to_call, function_parameters, expected_output) def TestSeturimissing(self): function_to_call = self.annex.seturimissing function_parameters = ("Key", "Uri") expected_output = "SETURIMISSING Key Uri" self._perform_test(function_to_call, function_parameters, expected_output) def TestGeturls_0(self): function_to_call = self.annex.geturls function_parameters = ("Key", "Prefix") expected_output = "GETURLS Key Prefix" annex_reply = "VALUE" function_result = [] self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGeturls_1(self): function_to_call = self.annex.geturls function_parameters = ("Key", "Prefix") expected_output = "GETURLS Key Prefix" annex_reply = "VALUE State1\nVALUE" function_result = ["State1"] self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGeturls_2(self): function_to_call = self.annex.geturls function_parameters = ("Key", "Prefix") expected_output = "GETURLS Key Prefix" annex_reply = "VALUE State1\nVALUE State2\nVALUE" function_result = ["State1", "State2"] self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGeturls_2_empty_prefix(self): function_to_call = self.annex.geturls function_parameters = ("Key", "") expected_output = "GETURLS Key" annex_reply = "VALUE State1\nVALUE State2\nVALUE" function_result = ["State1", "State2"] self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestDebug(self): function_to_call = self.annex.debug function_parameters = ("message",) expected_output = "DEBUG message" self._perform_test(function_to_call, function_parameters, expected_output) def TestError(self): function_to_call = self.annex.error function_parameters = ("ErrorMsg",) expected_output = "ERROR ErrorMsg" self._perform_test(function_to_call, function_parameters, expected_output) class TestSpecialRemoteMessages_Extensions(utils.GitAnnexTestCase): def _perform_test(self, function_to_call, function_parameters, expected_output, annex_reply=None, function_result=None): self.annex.input = io.StringIO(annex_reply) result = function_to_call(*function_parameters) self.assertEqual(result, function_result) self.assertEqual(utils.buffer_lines(self.output)[1].rstrip(), "EXTENSIONS") self.assertEqual(utils.buffer_lines(self.output)[2].rstrip(), expected_output) def TestInfo(self): self.annex.Listen(io.StringIO("EXTENSIONS INFO")) function_to_call = self.annex.info function_parameters = ("message",) expected_output = "INFO message" self._perform_test(function_to_call, function_parameters, expected_output) def TestInfo_Unannounced(self): function_to_call = self.annex.info function_parameters = ("message",) with self.assertRaises(ProtocolError): self._perform_test(function_to_call, function_parameters, "") def TestGetgitremotename(self): self.annex.Listen(io.StringIO("EXTENSIONS GETGITREMOTENAME")) function_to_call = self.annex.getgitremotename function_parameters = () expected_output = "GETGITREMOTENAME" annex_reply = "VALUE nameofremote" function_result = "nameofremote" self._perform_test(function_to_call, function_parameters, expected_output, annex_reply, function_result) def TestGetgitremotename_Unannounced(self): function_to_call = self.annex.getgitremotename function_parameters = () with self.assertRaises(ProtocolError): self._perform_test(function_to_call, function_parameters, "") AnnexRemote-1.6.0/tests/utils.py000066400000000000000000000046711413107005000166160ustar00rootroot00000000000000import unittest from unittest import mock import io import os, sys sys.path.insert(0, os.path.abspath(os.path.join(os.path.dirname(__file__), '..'))) import annexremote class GitAnnexTestCase(unittest.TestCase): def setUp(self): super().setUp() self.output = io.StringIO() self.input = io.StringIO() self.annex = annexremote.Master(self.output) self.remote = mock.MagicMock(wraps=DummyRemote(self.annex)) self.annex.LinkRemote(self.remote) class MinimalTestCase(unittest.TestCase): def setUp(self): super().setUp() self.output = io.StringIO() self.input = io.StringIO() self.annex = annexremote.Master(self.output) self.remote = MinimalRemote(self.annex) self.annex.LinkRemote(self.remote) def first_buffer_line(buf): return buffer_lines(buf)[0] def second_buffer_line(buf): return buffer_lines(buf)[1] def last_buffer_line(buf): return buffer_lines(buf)[-1] def buffer_lines(buf): current_position = buf.tell() buf.seek(0) lines = list() for line in buf: lines.append(line.rstrip("\n")) buf.seek(current_position) return lines class MinimalRemote(annexremote.SpecialRemote): def initremote(self): pass def prepare(self): pass def transfer_store(self, key, file_): pass def transfer_retrieve(self, key, file_): pass def checkpresent(self, key): pass def remove(self, key): pass class DummyRemote(annexremote.ExportRemote): def initremote(self): pass def prepare(self): pass def transfer_store(self, key, file_): pass def transfer_retrieve(self, key, file_): pass def checkpresent(self, key): pass def remove(self, key): pass def getcost(self): pass def getavailability(self): pass def claimurl(self, url): pass def checkurl(self, url): pass def whereis(self, whereis): pass def error(self, msg): pass # Export methods def transferexport_store(self, key, file_, name): pass def transferexport_retrieve(self, key, file_, name): pass def checkpresentexport(self, key, name): pass def removeexport(self, key, name): pass def removeexportdirectory(self, directory): pass def renameexport(self, key, name, new_name): pass AnnexRemote-1.6.0/versioneer.py000066400000000000000000002060031413107005000164660ustar00rootroot00000000000000 # Version: 0.18 """The Versioneer - like a rocketeer, but for versions. The Versioneer ============== * like a rocketeer, but for versions! * https://github.com/warner/python-versioneer * Brian Warner * License: Public Domain * Compatible With: python2.6, 2.7, 3.2, 3.3, 3.4, 3.5, 3.6, and pypy * [![Latest Version] (https://pypip.in/version/versioneer/badge.svg?style=flat) ](https://pypi.python.org/pypi/versioneer/) * [![Build Status] (https://travis-ci.org/warner/python-versioneer.png?branch=master) ](https://travis-ci.org/warner/python-versioneer) This is a tool for managing a recorded version number in distutils-based python projects. The goal is to remove the tedious and error-prone "update the embedded version string" step from your release process. Making a new release should be as easy as recording a new tag in your version-control system, and maybe making new tarballs. ## Quick Install * `pip install versioneer` to somewhere to your $PATH * add a `[versioneer]` section to your setup.cfg (see below) * run `versioneer install` in your source tree, commit the results ## Version Identifiers Source trees come from a variety of places: * a version-control system checkout (mostly used by developers) * a nightly tarball, produced by build automation * a snapshot tarball, produced by a web-based VCS browser, like github's "tarball from tag" feature * a release tarball, produced by "setup.py sdist", distributed through PyPI Within each source tree, the version identifier (either a string or a number, this tool is format-agnostic) can come from a variety of places: * ask the VCS tool itself, e.g. "git describe" (for checkouts), which knows about recent "tags" and an absolute revision-id * the name of the directory into which the tarball was unpacked * an expanded VCS keyword ($Id$, etc) * a `_version.py` created by some earlier build step For released software, the version identifier is closely related to a VCS tag. Some projects use tag names that include more than just the version string (e.g. "myproject-1.2" instead of just "1.2"), in which case the tool needs to strip the tag prefix to extract the version identifier. For unreleased software (between tags), the version identifier should provide enough information to help developers recreate the same tree, while also giving them an idea of roughly how old the tree is (after version 1.2, before version 1.3). Many VCS systems can report a description that captures this, for example `git describe --tags --dirty --always` reports things like "0.7-1-g574ab98-dirty" to indicate that the checkout is one revision past the 0.7 tag, has a unique revision id of "574ab98", and is "dirty" (it has uncommitted changes. The version identifier is used for multiple purposes: * to allow the module to self-identify its version: `myproject.__version__` * to choose a name and prefix for a 'setup.py sdist' tarball ## Theory of Operation Versioneer works by adding a special `_version.py` file into your source tree, where your `__init__.py` can import it. This `_version.py` knows how to dynamically ask the VCS tool for version information at import time. `_version.py` also contains `$Revision$` markers, and the installation process marks `_version.py` to have this marker rewritten with a tag name during the `git archive` command. As a result, generated tarballs will contain enough information to get the proper version. To allow `setup.py` to compute a version too, a `versioneer.py` is added to the top level of your source tree, next to `setup.py` and the `setup.cfg` that configures it. This overrides several distutils/setuptools commands to compute the version when invoked, and changes `setup.py build` and `setup.py sdist` to replace `_version.py` with a small static file that contains just the generated version data. ## Installation See [INSTALL.md](./INSTALL.md) for detailed installation instructions. ## Version-String Flavors Code which uses Versioneer can learn about its version string at runtime by importing `_version` from your main `__init__.py` file and running the `get_versions()` function. From the "outside" (e.g. in `setup.py`), you can import the top-level `versioneer.py` and run `get_versions()`. Both functions return a dictionary with different flavors of version information: * `['version']`: A condensed version string, rendered using the selected style. This is the most commonly used value for the project's version string. The default "pep440" style yields strings like `0.11`, `0.11+2.g1076c97`, or `0.11+2.g1076c97.dirty`. See the "Styles" section below for alternative styles. * `['full-revisionid']`: detailed revision identifier. For Git, this is the full SHA1 commit id, e.g. "1076c978a8d3cfc70f408fe5974aa6c092c949ac". * `['date']`: Date and time of the latest `HEAD` commit. For Git, it is the commit date in ISO 8601 format. This will be None if the date is not available. * `['dirty']`: a boolean, True if the tree has uncommitted changes. Note that this is only accurate if run in a VCS checkout, otherwise it is likely to be False or None * `['error']`: if the version string could not be computed, this will be set to a string describing the problem, otherwise it will be None. It may be useful to throw an exception in setup.py if this is set, to avoid e.g. creating tarballs with a version string of "unknown". Some variants are more useful than others. Including `full-revisionid` in a bug report should allow developers to reconstruct the exact code being tested (or indicate the presence of local changes that should be shared with the developers). `version` is suitable for display in an "about" box or a CLI `--version` output: it can be easily compared against release notes and lists of bugs fixed in various releases. The installer adds the following text to your `__init__.py` to place a basic version in `YOURPROJECT.__version__`: from ._version import get_versions __version__ = get_versions()['version'] del get_versions ## Styles The setup.cfg `style=` configuration controls how the VCS information is rendered into a version string. The default style, "pep440", produces a PEP440-compliant string, equal to the un-prefixed tag name for actual releases, and containing an additional "local version" section with more detail for in-between builds. For Git, this is TAG[+DISTANCE.gHEX[.dirty]] , using information from `git describe --tags --dirty --always`. For example "0.11+2.g1076c97.dirty" indicates that the tree is like the "1076c97" commit but has uncommitted changes (".dirty"), and that this commit is two revisions ("+2") beyond the "0.11" tag. For released software (exactly equal to a known tag), the identifier will only contain the stripped tag, e.g. "0.11". Other styles are available. See [details.md](details.md) in the Versioneer source tree for descriptions. ## Debugging Versioneer tries to avoid fatal errors: if something goes wrong, it will tend to return a version of "0+unknown". To investigate the problem, run `setup.py version`, which will run the version-lookup code in a verbose mode, and will display the full contents of `get_versions()` (including the `error` string, which may help identify what went wrong). ## Known Limitations Some situations are known to cause problems for Versioneer. This details the most significant ones. More can be found on Github [issues page](https://github.com/warner/python-versioneer/issues). ### Subprojects Versioneer has limited support for source trees in which `setup.py` is not in the root directory (e.g. `setup.py` and `.git/` are *not* siblings). The are two common reasons why `setup.py` might not be in the root: * Source trees which contain multiple subprojects, such as [Buildbot](https://github.com/buildbot/buildbot), which contains both "master" and "slave" subprojects, each with their own `setup.py`, `setup.cfg`, and `tox.ini`. Projects like these produce multiple PyPI distributions (and upload multiple independently-installable tarballs). * Source trees whose main purpose is to contain a C library, but which also provide bindings to Python (and perhaps other langauges) in subdirectories. Versioneer will look for `.git` in parent directories, and most operations should get the right version string. However `pip` and `setuptools` have bugs and implementation details which frequently cause `pip install .` from a subproject directory to fail to find a correct version string (so it usually defaults to `0+unknown`). `pip install --editable .` should work correctly. `setup.py install` might work too. Pip-8.1.1 is known to have this problem, but hopefully it will get fixed in some later version. [Bug #38](https://github.com/warner/python-versioneer/issues/38) is tracking this issue. The discussion in [PR #61](https://github.com/warner/python-versioneer/pull/61) describes the issue from the Versioneer side in more detail. [pip PR#3176](https://github.com/pypa/pip/pull/3176) and [pip PR#3615](https://github.com/pypa/pip/pull/3615) contain work to improve pip to let Versioneer work correctly. Versioneer-0.16 and earlier only looked for a `.git` directory next to the `setup.cfg`, so subprojects were completely unsupported with those releases. ### Editable installs with setuptools <= 18.5 `setup.py develop` and `pip install --editable .` allow you to install a project into a virtualenv once, then continue editing the source code (and test) without re-installing after every change. "Entry-point scripts" (`setup(entry_points={"console_scripts": ..})`) are a convenient way to specify executable scripts that should be installed along with the python package. These both work as expected when using modern setuptools. When using setuptools-18.5 or earlier, however, certain operations will cause `pkg_resources.DistributionNotFound` errors when running the entrypoint script, which must be resolved by re-installing the package. This happens when the install happens with one version, then the egg_info data is regenerated while a different version is checked out. Many setup.py commands cause egg_info to be rebuilt (including `sdist`, `wheel`, and installing into a different virtualenv), so this can be surprising. [Bug #83](https://github.com/warner/python-versioneer/issues/83) describes this one, but upgrading to a newer version of setuptools should probably resolve it. ### Unicode version strings While Versioneer works (and is continually tested) with both Python 2 and Python 3, it is not entirely consistent with bytes-vs-unicode distinctions. Newer releases probably generate unicode version strings on py2. It's not clear that this is wrong, but it may be surprising for applications when then write these strings to a network connection or include them in bytes-oriented APIs like cryptographic checksums. [Bug #71](https://github.com/warner/python-versioneer/issues/71) investigates this question. ## Updating Versioneer To upgrade your project to a new release of Versioneer, do the following: * install the new Versioneer (`pip install -U versioneer` or equivalent) * edit `setup.cfg`, if necessary, to include any new configuration settings indicated by the release notes. See [UPGRADING](./UPGRADING.md) for details. * re-run `versioneer install` in your source tree, to replace `SRC/_version.py` * commit any changed files ## Future Directions This tool is designed to make it easily extended to other version-control systems: all VCS-specific components are in separate directories like src/git/ . The top-level `versioneer.py` script is assembled from these components by running make-versioneer.py . In the future, make-versioneer.py will take a VCS name as an argument, and will construct a version of `versioneer.py` that is specific to the given VCS. It might also take the configuration arguments that are currently provided manually during installation by editing setup.py . Alternatively, it might go the other direction and include code from all supported VCS systems, reducing the number of intermediate scripts. ## License To make Versioneer easier to embed, all its code is dedicated to the public domain. The `_version.py` that it creates is also in the public domain. Specifically, both are released under the Creative Commons "Public Domain Dedication" license (CC0-1.0), as described in https://creativecommons.org/publicdomain/zero/1.0/ . """ from __future__ import print_function try: import configparser except ImportError: import ConfigParser as configparser import errno import json import os import re import subprocess import sys class VersioneerConfig: """Container for Versioneer configuration parameters.""" def get_root(): """Get the project root directory. We require that all commands are run from the project root, i.e. the directory that contains setup.py, setup.cfg, and versioneer.py . """ root = os.path.realpath(os.path.abspath(os.getcwd())) setup_py = os.path.join(root, "setup.py") versioneer_py = os.path.join(root, "versioneer.py") if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)): # allow 'python path/to/setup.py COMMAND' root = os.path.dirname(os.path.realpath(os.path.abspath(sys.argv[0]))) setup_py = os.path.join(root, "setup.py") versioneer_py = os.path.join(root, "versioneer.py") if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)): err = ("Versioneer was unable to run the project root directory. " "Versioneer requires setup.py to be executed from " "its immediate directory (like 'python setup.py COMMAND'), " "or in a way that lets it use sys.argv[0] to find the root " "(like 'python path/to/setup.py COMMAND').") raise VersioneerBadRootError(err) try: # Certain runtime workflows (setup.py install/develop in a setuptools # tree) execute all dependencies in a single python process, so # "versioneer" may be imported multiple times, and python's shared # module-import table will cache the first one. So we can't use # os.path.dirname(__file__), as that will find whichever # versioneer.py was first imported, even in later projects. me = os.path.realpath(os.path.abspath(__file__)) me_dir = os.path.normcase(os.path.splitext(me)[0]) vsr_dir = os.path.normcase(os.path.splitext(versioneer_py)[0]) if me_dir != vsr_dir: print("Warning: build in %s is using versioneer.py from %s" % (os.path.dirname(me), versioneer_py)) except NameError: pass return root def get_config_from_root(root): """Read the project setup.cfg file to determine Versioneer config.""" # This might raise EnvironmentError (if setup.cfg is missing), or # configparser.NoSectionError (if it lacks a [versioneer] section), or # configparser.NoOptionError (if it lacks "VCS="). See the docstring at # the top of versioneer.py for instructions on writing your setup.cfg . setup_cfg = os.path.join(root, "setup.cfg") parser = configparser.SafeConfigParser() with open(setup_cfg, "r") as f: parser.readfp(f) VCS = parser.get("versioneer", "VCS") # mandatory def get(parser, name): if parser.has_option("versioneer", name): return parser.get("versioneer", name) return None cfg = VersioneerConfig() cfg.VCS = VCS cfg.style = get(parser, "style") or "" cfg.versionfile_source = get(parser, "versionfile_source") cfg.versionfile_build = get(parser, "versionfile_build") cfg.tag_prefix = get(parser, "tag_prefix") if cfg.tag_prefix in ("''", '""'): cfg.tag_prefix = "" cfg.parentdir_prefix = get(parser, "parentdir_prefix") cfg.verbose = get(parser, "verbose") return cfg class NotThisMethod(Exception): """Exception raised if a method is not valid for the current scenario.""" # these dictionaries contain VCS-specific tools LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator """Decorator to mark a method as the handler for a particular VCS.""" def decorate(f): """Store f in HANDLERS[vcs][method].""" if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None): """Call the given command(s).""" assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, env=env, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %s" % dispcmd) print(e) return None, None else: if verbose: print("unable to find command, tried %s" % (commands,)) return None, None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %s (error)" % dispcmd) print("stdout was %s" % stdout) return None, p.returncode return stdout, p.returncode LONG_VERSION_PY['git'] = ''' # This file helps to compute a version number in source trees obtained from # git-archive tarball (such as those provided by githubs download-from-tag # feature). Distribution tarballs (built by setup.py sdist) and build # directories (produced by setup.py build) will contain a much shorter file # that just contains the computed version number. # This file is released into the public domain. Generated by # versioneer-0.18 (https://github.com/warner/python-versioneer) """Git implementation of _version.py.""" import errno import os import re import subprocess import sys def get_keywords(): """Get the keywords needed to look up the version information.""" # these strings will be replaced by git during git-archive. # setup.py/versioneer.py will grep for the variable names, so they must # each be defined on a line of their own. _version.py will just call # get_keywords(). git_refnames = "%(DOLLAR)sFormat:%%d%(DOLLAR)s" git_full = "%(DOLLAR)sFormat:%%H%(DOLLAR)s" git_date = "%(DOLLAR)sFormat:%%ci%(DOLLAR)s" keywords = {"refnames": git_refnames, "full": git_full, "date": git_date} return keywords class VersioneerConfig: """Container for Versioneer configuration parameters.""" def get_config(): """Create, populate and return the VersioneerConfig() object.""" # these strings are filled in when 'setup.py versioneer' creates # _version.py cfg = VersioneerConfig() cfg.VCS = "git" cfg.style = "%(STYLE)s" cfg.tag_prefix = "%(TAG_PREFIX)s" cfg.parentdir_prefix = "%(PARENTDIR_PREFIX)s" cfg.versionfile_source = "%(VERSIONFILE_SOURCE)s" cfg.verbose = False return cfg class NotThisMethod(Exception): """Exception raised if a method is not valid for the current scenario.""" LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator """Decorator to mark a method as the handler for a particular VCS.""" def decorate(f): """Store f in HANDLERS[vcs][method].""" if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None): """Call the given command(s).""" assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, env=env, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %%s" %% dispcmd) print(e) return None, None else: if verbose: print("unable to find command, tried %%s" %% (commands,)) return None, None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %%s (error)" %% dispcmd) print("stdout was %%s" %% stdout) return None, p.returncode return stdout, p.returncode def versions_from_parentdir(parentdir_prefix, root, verbose): """Try to determine the version from the parent directory name. Source tarballs conventionally unpack into a directory that includes both the project name and a version string. We will also support searching up two directory levels for an appropriately named parent directory """ rootdirs = [] for i in range(3): dirname = os.path.basename(root) if dirname.startswith(parentdir_prefix): return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None, "date": None} else: rootdirs.append(root) root = os.path.dirname(root) # up a level if verbose: print("Tried directories %%s but none started with prefix %%s" %% (str(rootdirs), parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): """Extract version information from the given file.""" # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) if line.strip().startswith("git_date ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["date"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): """Get version information from git keywords.""" if not keywords: raise NotThisMethod("no keywords at all, weird") date = keywords.get("date") if date is not None: # git-2.2.0 added "%%cI", which expands to an ISO-8601 -compliant # datestamp. However we prefer "%%ci" (which expands to an "ISO-8601 # -like" string, which we must then edit to make compliant), because # it's been around since git-1.5.3, and it's too difficult to # discover which version we're using, or to work around using an # older one. date = date.strip().replace(" ", "T", 1).replace(" ", "", 1) refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %%d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%%s', no digits" %% ",".join(refs - tags)) if verbose: print("likely tags: %%s" %% ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %%s" %% r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None, "date": date} # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags", "date": None} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): """Get version from 'git describe' in the root of the source tree. This only gets called if the git-archive 'subst' keywords were *not* expanded, and _version.py hasn't already been rewritten with a short version string, meaning we're inside a checked out source tree. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] out, rc = run_command(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True) if rc != 0: if verbose: print("Directory %%s not under git control" %% root) raise NotThisMethod("'git rev-parse --git-dir' returned error") # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty] # if there isn't one, this yields HEX[-dirty] (no NUM) describe_out, rc = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long", "--match", "%%s*" %% tag_prefix], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out, rc = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%%s'" %% describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%%s' doesn't start with prefix '%%s'" print(fmt %% (full_tag, tag_prefix)) pieces["error"] = ("tag '%%s' doesn't start with prefix '%%s'" %% (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out, rc = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits # commit date: see ISO-8601 comment in git_versions_from_keywords() date = run_command(GITS, ["show", "-s", "--format=%%ci", "HEAD"], cwd=root)[0].strip() pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1) return pieces def plus_or_dot(pieces): """Return a + if we don't already have one, else return a .""" if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): """Build up version string, with post-release "local version identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty Exceptions: 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%%d.g%%s" %% (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%%d.g%%s" %% (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): """TAG[.post.devDISTANCE] -- No -dirty. Exceptions: 1: no tags. 0.post.devDISTANCE """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%%d" %% pieces["distance"] else: # exception #1 rendered = "0.post.dev%%d" %% pieces["distance"] return rendered def render_pep440_post(pieces): """TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that .dev0 sorts backwards (a dirty tree will appear "older" than the corresponding clean one), but you shouldn't be releasing software with -dirty anyways. Exceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%%s" %% pieces["short"] else: # exception #1 rendered = "0.post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%%s" %% pieces["short"] return rendered def render_pep440_old(pieces): """TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. Eexceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): """TAG[-DISTANCE-gHEX][-dirty]. Like 'git describe --tags --dirty --always'. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): """TAG-DISTANCE-gHEX[-dirty]. Like 'git describe --tags --dirty --always -long'. The distance/hash is unconditional. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): """Render the given version pieces into the requested style.""" if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"], "date": None} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%%s'" %% style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None, "date": pieces.get("date")} def get_versions(): """Get version information or return default if unable to do so.""" # I am in _version.py, which lives at ROOT/VERSIONFILE_SOURCE. If we have # __file__, we can work backwards from there to the root. Some # py2exe/bbfreeze/non-CPython implementations don't do __file__, in which # case we can only use expanded keywords. cfg = get_config() verbose = cfg.verbose try: return git_versions_from_keywords(get_keywords(), cfg.tag_prefix, verbose) except NotThisMethod: pass try: root = os.path.realpath(__file__) # versionfile_source is the relative path from the top of the source # tree (where the .git directory might live) to this file. Invert # this to find the root from __file__. for i in cfg.versionfile_source.split('/'): root = os.path.dirname(root) except NameError: return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to find root of source tree", "date": None} try: pieces = git_pieces_from_vcs(cfg.tag_prefix, root, verbose) return render(pieces, cfg.style) except NotThisMethod: pass try: if cfg.parentdir_prefix: return versions_from_parentdir(cfg.parentdir_prefix, root, verbose) except NotThisMethod: pass return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version", "date": None} ''' @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): """Extract version information from the given file.""" # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) if line.strip().startswith("git_date ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["date"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): """Get version information from git keywords.""" if not keywords: raise NotThisMethod("no keywords at all, weird") date = keywords.get("date") if date is not None: # git-2.2.0 added "%cI", which expands to an ISO-8601 -compliant # datestamp. However we prefer "%ci" (which expands to an "ISO-8601 # -like" string, which we must then edit to make compliant), because # it's been around since git-1.5.3, and it's too difficult to # discover which version we're using, or to work around using an # older one. date = date.strip().replace(" ", "T", 1).replace(" ", "", 1) refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%s', no digits" % ",".join(refs - tags)) if verbose: print("likely tags: %s" % ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %s" % r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None, "date": date} # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags", "date": None} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): """Get version from 'git describe' in the root of the source tree. This only gets called if the git-archive 'subst' keywords were *not* expanded, and _version.py hasn't already been rewritten with a short version string, meaning we're inside a checked out source tree. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] out, rc = run_command(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True) if rc != 0: if verbose: print("Directory %s not under git control" % root) raise NotThisMethod("'git rev-parse --git-dir' returned error") # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty] # if there isn't one, this yields HEX[-dirty] (no NUM) describe_out, rc = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long", "--match", "%s*" % tag_prefix], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out, rc = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%s'" % describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%s' doesn't start with prefix '%s'" print(fmt % (full_tag, tag_prefix)) pieces["error"] = ("tag '%s' doesn't start with prefix '%s'" % (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out, rc = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits # commit date: see ISO-8601 comment in git_versions_from_keywords() date = run_command(GITS, ["show", "-s", "--format=%ci", "HEAD"], cwd=root)[0].strip() pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1) return pieces def do_vcs_install(manifest_in, versionfile_source, ipy): """Git-specific installation logic for Versioneer. For Git, this means creating/changing .gitattributes to mark _version.py for export-subst keyword substitution. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] files = [manifest_in, versionfile_source] if ipy: files.append(ipy) try: me = __file__ if me.endswith(".pyc") or me.endswith(".pyo"): me = os.path.splitext(me)[0] + ".py" versioneer_file = os.path.relpath(me) except NameError: versioneer_file = "versioneer.py" files.append(versioneer_file) present = False try: f = open(".gitattributes", "r") for line in f.readlines(): if line.strip().startswith(versionfile_source): if "export-subst" in line.strip().split()[1:]: present = True f.close() except EnvironmentError: pass if not present: f = open(".gitattributes", "a+") f.write("%s export-subst\n" % versionfile_source) f.close() files.append(".gitattributes") run_command(GITS, ["add", "--"] + files) def versions_from_parentdir(parentdir_prefix, root, verbose): """Try to determine the version from the parent directory name. Source tarballs conventionally unpack into a directory that includes both the project name and a version string. We will also support searching up two directory levels for an appropriately named parent directory """ rootdirs = [] for i in range(3): dirname = os.path.basename(root) if dirname.startswith(parentdir_prefix): return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None, "date": None} else: rootdirs.append(root) root = os.path.dirname(root) # up a level if verbose: print("Tried directories %s but none started with prefix %s" % (str(rootdirs), parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") SHORT_VERSION_PY = """ # This file was generated by 'versioneer.py' (0.18) from # revision-control system data, or from the parent directory name of an # unpacked source archive. Distribution tarballs contain a pre-generated copy # of this file. import json version_json = ''' %s ''' # END VERSION_JSON def get_versions(): return json.loads(version_json) """ def versions_from_file(filename): """Try to determine the version from _version.py if present.""" try: with open(filename) as f: contents = f.read() except EnvironmentError: raise NotThisMethod("unable to read _version.py") mo = re.search(r"version_json = '''\n(.*)''' # END VERSION_JSON", contents, re.M | re.S) if not mo: mo = re.search(r"version_json = '''\r\n(.*)''' # END VERSION_JSON", contents, re.M | re.S) if not mo: raise NotThisMethod("no version_json in _version.py") return json.loads(mo.group(1)) def write_to_version_file(filename, versions): """Write the given version number to the given _version.py file.""" os.unlink(filename) contents = json.dumps(versions, sort_keys=True, indent=1, separators=(",", ": ")) with open(filename, "w") as f: f.write(SHORT_VERSION_PY % contents) print("set %s to '%s'" % (filename, versions["version"])) def plus_or_dot(pieces): """Return a + if we don't already have one, else return a .""" if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): """Build up version string, with post-release "local version identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty Exceptions: 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): """TAG[.post.devDISTANCE] -- No -dirty. Exceptions: 1: no tags. 0.post.devDISTANCE """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%d" % pieces["distance"] else: # exception #1 rendered = "0.post.dev%d" % pieces["distance"] return rendered def render_pep440_post(pieces): """TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that .dev0 sorts backwards (a dirty tree will appear "older" than the corresponding clean one), but you shouldn't be releasing software with -dirty anyways. Exceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%s" % pieces["short"] else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%s" % pieces["short"] return rendered def render_pep440_old(pieces): """TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. Eexceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): """TAG[-DISTANCE-gHEX][-dirty]. Like 'git describe --tags --dirty --always'. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): """TAG-DISTANCE-gHEX[-dirty]. Like 'git describe --tags --dirty --always -long'. The distance/hash is unconditional. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): """Render the given version pieces into the requested style.""" if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"], "date": None} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%s'" % style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None, "date": pieces.get("date")} class VersioneerBadRootError(Exception): """The project root directory is unknown or missing key files.""" def get_versions(verbose=False): """Get the project version from whatever source is available. Returns dict with two keys: 'version' and 'full'. """ if "versioneer" in sys.modules: # see the discussion in cmdclass.py:get_cmdclass() del sys.modules["versioneer"] root = get_root() cfg = get_config_from_root(root) assert cfg.VCS is not None, "please set [versioneer]VCS= in setup.cfg" handlers = HANDLERS.get(cfg.VCS) assert handlers, "unrecognized VCS '%s'" % cfg.VCS verbose = verbose or cfg.verbose assert cfg.versionfile_source is not None, \ "please set versioneer.versionfile_source" assert cfg.tag_prefix is not None, "please set versioneer.tag_prefix" versionfile_abs = os.path.join(root, cfg.versionfile_source) # extract version from first of: _version.py, VCS command (e.g. 'git # describe'), parentdir. This is meant to work for developers using a # source checkout, for users of a tarball created by 'setup.py sdist', # and for users of a tarball/zipball created by 'git archive' or github's # download-from-tag feature or the equivalent in other VCSes. get_keywords_f = handlers.get("get_keywords") from_keywords_f = handlers.get("keywords") if get_keywords_f and from_keywords_f: try: keywords = get_keywords_f(versionfile_abs) ver = from_keywords_f(keywords, cfg.tag_prefix, verbose) if verbose: print("got version from expanded keyword %s" % ver) return ver except NotThisMethod: pass try: ver = versions_from_file(versionfile_abs) if verbose: print("got version from file %s %s" % (versionfile_abs, ver)) return ver except NotThisMethod: pass from_vcs_f = handlers.get("pieces_from_vcs") if from_vcs_f: try: pieces = from_vcs_f(cfg.tag_prefix, root, verbose) ver = render(pieces, cfg.style) if verbose: print("got version from VCS %s" % ver) return ver except NotThisMethod: pass try: if cfg.parentdir_prefix: ver = versions_from_parentdir(cfg.parentdir_prefix, root, verbose) if verbose: print("got version from parentdir %s" % ver) return ver except NotThisMethod: pass if verbose: print("unable to compute version") return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version", "date": None} def get_version(): """Get the short version string for this project.""" return get_versions()["version"] def get_cmdclass(): """Get the custom setuptools/distutils subclasses used by Versioneer.""" if "versioneer" in sys.modules: del sys.modules["versioneer"] # this fixes the "python setup.py develop" case (also 'install' and # 'easy_install .'), in which subdependencies of the main project are # built (using setup.py bdist_egg) in the same python process. Assume # a main project A and a dependency B, which use different versions # of Versioneer. A's setup.py imports A's Versioneer, leaving it in # sys.modules by the time B's setup.py is executed, causing B to run # with the wrong versioneer. Setuptools wraps the sub-dep builds in a # sandbox that restores sys.modules to it's pre-build state, so the # parent is protected against the child's "import versioneer". By # removing ourselves from sys.modules here, before the child build # happens, we protect the child from the parent's versioneer too. # Also see https://github.com/warner/python-versioneer/issues/52 cmds = {} # we add "version" to both distutils and setuptools from distutils.core import Command class cmd_version(Command): description = "report generated version string" user_options = [] boolean_options = [] def initialize_options(self): pass def finalize_options(self): pass def run(self): vers = get_versions(verbose=True) print("Version: %s" % vers["version"]) print(" full-revisionid: %s" % vers.get("full-revisionid")) print(" dirty: %s" % vers.get("dirty")) print(" date: %s" % vers.get("date")) if vers["error"]: print(" error: %s" % vers["error"]) cmds["version"] = cmd_version # we override "build_py" in both distutils and setuptools # # most invocation pathways end up running build_py: # distutils/build -> build_py # distutils/install -> distutils/build ->.. # setuptools/bdist_wheel -> distutils/install ->.. # setuptools/bdist_egg -> distutils/install_lib -> build_py # setuptools/install -> bdist_egg ->.. # setuptools/develop -> ? # pip install: # copies source tree to a tempdir before running egg_info/etc # if .git isn't copied too, 'git describe' will fail # then does setup.py bdist_wheel, or sometimes setup.py install # setup.py egg_info -> ? # we override different "build_py" commands for both environments if "setuptools" in sys.modules: from setuptools.command.build_py import build_py as _build_py else: from distutils.command.build_py import build_py as _build_py class cmd_build_py(_build_py): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() _build_py.run(self) # now locate _version.py in the new build/ directory and replace # it with an updated value if cfg.versionfile_build: target_versionfile = os.path.join(self.build_lib, cfg.versionfile_build) print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) cmds["build_py"] = cmd_build_py if "cx_Freeze" in sys.modules: # cx_freeze enabled? from cx_Freeze.dist import build_exe as _build_exe # nczeczulin reports that py2exe won't like the pep440-style string # as FILEVERSION, but it can be used for PRODUCTVERSION, e.g. # setup(console=[{ # "version": versioneer.get_version().split("+", 1)[0], # FILEVERSION # "product_version": versioneer.get_version(), # ... class cmd_build_exe(_build_exe): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() target_versionfile = cfg.versionfile_source print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) _build_exe.run(self) os.unlink(target_versionfile) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) cmds["build_exe"] = cmd_build_exe del cmds["build_py"] if 'py2exe' in sys.modules: # py2exe enabled? try: from py2exe.distutils_buildexe import py2exe as _py2exe # py3 except ImportError: from py2exe.build_exe import py2exe as _py2exe # py2 class cmd_py2exe(_py2exe): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() target_versionfile = cfg.versionfile_source print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) _py2exe.run(self) os.unlink(target_versionfile) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) cmds["py2exe"] = cmd_py2exe # we override different "sdist" commands for both environments if "setuptools" in sys.modules: from setuptools.command.sdist import sdist as _sdist else: from distutils.command.sdist import sdist as _sdist class cmd_sdist(_sdist): def run(self): versions = get_versions() self._versioneer_generated_versions = versions # unless we update this, the command will keep using the old # version self.distribution.metadata.version = versions["version"] return _sdist.run(self) def make_release_tree(self, base_dir, files): root = get_root() cfg = get_config_from_root(root) _sdist.make_release_tree(self, base_dir, files) # now locate _version.py in the new base_dir directory # (remembering that it may be a hardlink) and replace it with an # updated value target_versionfile = os.path.join(base_dir, cfg.versionfile_source) print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, self._versioneer_generated_versions) cmds["sdist"] = cmd_sdist return cmds CONFIG_ERROR = """ setup.cfg is missing the necessary Versioneer configuration. You need a section like: [versioneer] VCS = git style = pep440 versionfile_source = src/myproject/_version.py versionfile_build = myproject/_version.py tag_prefix = parentdir_prefix = myproject- You will also need to edit your setup.py to use the results: import versioneer setup(version=versioneer.get_version(), cmdclass=versioneer.get_cmdclass(), ...) Please read the docstring in ./versioneer.py for configuration instructions, edit setup.cfg, and re-run the installer or 'python versioneer.py setup'. """ SAMPLE_CONFIG = """ # See the docstring in versioneer.py for instructions. Note that you must # re-run 'versioneer.py setup' after changing this section, and commit the # resulting files. [versioneer] #VCS = git #style = pep440 #versionfile_source = #versionfile_build = #tag_prefix = #parentdir_prefix = """ INIT_PY_SNIPPET = """ from ._version import get_versions __version__ = get_versions()['version'] del get_versions """ def do_setup(): """Main VCS-independent setup function for installing Versioneer.""" root = get_root() try: cfg = get_config_from_root(root) except (EnvironmentError, configparser.NoSectionError, configparser.NoOptionError) as e: if isinstance(e, (EnvironmentError, configparser.NoSectionError)): print("Adding sample versioneer config to setup.cfg", file=sys.stderr) with open(os.path.join(root, "setup.cfg"), "a") as f: f.write(SAMPLE_CONFIG) print(CONFIG_ERROR, file=sys.stderr) return 1 print(" creating %s" % cfg.versionfile_source) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) ipy = os.path.join(os.path.dirname(cfg.versionfile_source), "__init__.py") if os.path.exists(ipy): try: with open(ipy, "r") as f: old = f.read() except EnvironmentError: old = "" if INIT_PY_SNIPPET not in old: print(" appending to %s" % ipy) with open(ipy, "a") as f: f.write(INIT_PY_SNIPPET) else: print(" %s unmodified" % ipy) else: print(" %s doesn't exist, ok" % ipy) ipy = None # Make sure both the top-level "versioneer.py" and versionfile_source # (PKG/_version.py, used by runtime code) are in MANIFEST.in, so # they'll be copied into source distributions. Pip won't be able to # install the package without this. manifest_in = os.path.join(root, "MANIFEST.in") simple_includes = set() try: with open(manifest_in, "r") as f: for line in f: if line.startswith("include "): for include in line.split()[1:]: simple_includes.add(include) except EnvironmentError: pass # That doesn't cover everything MANIFEST.in can do # (http://docs.python.org/2/distutils/sourcedist.html#commands), so # it might give some false negatives. Appending redundant 'include' # lines is safe, though. if "versioneer.py" not in simple_includes: print(" appending 'versioneer.py' to MANIFEST.in") with open(manifest_in, "a") as f: f.write("include versioneer.py\n") else: print(" 'versioneer.py' already in MANIFEST.in") if cfg.versionfile_source not in simple_includes: print(" appending versionfile_source ('%s') to MANIFEST.in" % cfg.versionfile_source) with open(manifest_in, "a") as f: f.write("include %s\n" % cfg.versionfile_source) else: print(" versionfile_source already in MANIFEST.in") # Make VCS-specific changes. For git, this means creating/changing # .gitattributes to mark _version.py for export-subst keyword # substitution. do_vcs_install(manifest_in, cfg.versionfile_source, ipy) return 0 def scan_setup_py(): """Validate the contents of setup.py against Versioneer's expectations.""" found = set() setters = False errors = 0 with open("setup.py", "r") as f: for line in f.readlines(): if "import versioneer" in line: found.add("import") if "versioneer.get_cmdclass()" in line: found.add("cmdclass") if "versioneer.get_version()" in line: found.add("get_version") if "versioneer.VCS" in line: setters = True if "versioneer.versionfile_source" in line: setters = True if len(found) != 3: print("") print("Your setup.py appears to be missing some important items") print("(but I might be wrong). Please make sure it has something") print("roughly like the following:") print("") print(" import versioneer") print(" setup( version=versioneer.get_version(),") print(" cmdclass=versioneer.get_cmdclass(), ...)") print("") errors += 1 if setters: print("You should remove lines like 'versioneer.VCS = ' and") print("'versioneer.versionfile_source = ' . This configuration") print("now lives in setup.cfg, and should be removed from setup.py") print("") errors += 1 return errors if __name__ == "__main__": cmd = sys.argv[1] if cmd == "setup": errors = do_setup() errors += scan_setup_py() if errors: sys.exit(1)