# repo.py # Copyright (C) 2008, 2009 Michael Trier (mtrier@gmail.com) and contributors # # This module is part of GitPython and is released under # the BSD License: http://www.opensource.org/licenses/bsd-license.php from collections import namedtuple import logging import os import re import warnings from git.cmd import ( Git, handle_process_output ) from git.compat import ( text_type, defenc, PY3, safe_decode, range, is_win, ) from git.config import GitConfigParser from git.db import GitCmdObjectDB from git.exc import InvalidGitRepositoryError, NoSuchPathError, GitCommandError from git.index import IndexFile from git.objects import Submodule, RootModule, Commit from git.refs import HEAD, Head, Reference, TagReference from git.remote import Remote, add_progress, to_progress_instance from git.util import Actor, finalize_process, decygpath, hex_to_bin, expand_path import os.path as osp from .fun import rev_parse, is_git_dir, find_submodule_git_dir, touch, find_worktree_git_dir import gc import gitdb try: import pathlib except ImportError: pathlib = None log = logging.getLogger(__name__) BlameEntry = namedtuple('BlameEntry', ['commit', 'linenos', 'orig_path', 'orig_linenos']) __all__ = ('Repo',) class Repo(object): """Represents a git repository and allows you to query references, gather commit information, generate diffs, create and clone repositories query the log. The following attributes are worth using: 'working_dir' is the working directory of the git command, which is the working tree directory if available or the .git directory in case of bare repositories 'working_tree_dir' is the working tree directory, but will raise AssertionError if we are a bare repository. 'git_dir' is the .git repository directory, which is always set.""" DAEMON_EXPORT_FILE = 'git-daemon-export-ok' git = None # Must exist, or __del__ will fail in case we raise on `__init__()` working_dir = None _working_tree_dir = None git_dir = None _common_dir = None # precompiled regex re_whitespace = re.compile(r'\s+') re_hexsha_only = re.compile('^[0-9A-Fa-f]{40}$') re_hexsha_shortened = re.compile('^[0-9A-Fa-f]{4,40}$') re_author_committer_start = re.compile(r'^(author|committer)') re_tab_full_line = re.compile(r'^\t(.*)$') # invariants # represents the configuration level of a configuration file config_level = ("system", "user", "global", "repository") # Subclass configuration # Subclasses may easily bring in their own custom types by placing a constructor or type here GitCommandWrapperType = Git def __init__(self, path=None, odbt=GitCmdObjectDB, search_parent_directories=False, expand_vars=True): """Create a new Repo instance :param path: the path to either the root git directory or the bare git repo:: repo = Repo("/Users/mtrier/Development/git-python") repo = Repo("/Users/mtrier/Development/git-python.git") repo = Repo("~/Development/git-python.git") repo = Repo("$REPOSITORIES/Development/git-python.git") - In *Cygwin*, path may be a `'cygdrive/...'` prefixed path. - If it evaluates to false, :envvar:`GIT_DIR` is used, and if this also evals to false, the current-directory is used. :param odbt: Object DataBase type - a type which is constructed by providing the directory containing the database objects, i.e. .git/objects. It will be used to access all object data :param search_parent_directories: if True, all parent directories will be searched for a valid repo as well. Please note that this was the default behaviour in older versions of GitPython, which is considered a bug though. :raise InvalidGitRepositoryError: :raise NoSuchPathError: :return: git.Repo """ epath = path or os.getenv('GIT_DIR') if not epath: epath = os.getcwd() if Git.is_cygwin(): epath = decygpath(epath) epath = epath or path or os.getcwd() if not isinstance(epath, str): epath = str(epath) if expand_vars and ("%" in epath or "$" in epath): warnings.warn("The use of environment variables in paths is deprecated" + "\nfor security reasons and may be removed in the future!!") epath = expand_path(epath, expand_vars) if not os.path.exists(epath): raise NoSuchPathError(epath) ## Walk up the path to find the `.git` dir. # curpath = epath while curpath: # ABOUT osp.NORMPATH # It's important to normalize the paths, as submodules will otherwise initialize their # repo instances with paths that depend on path-portions that will not exist after being # removed. It's just cleaner. if is_git_dir(curpath): self.git_dir = curpath self._working_tree_dir = os.getenv('GIT_WORK_TREE', os.path.dirname(self.git_dir)) break dotgit = osp.join(curpath, '.git') sm_gitpath = find_submodule_git_dir(dotgit) if sm_gitpath is not None: self.git_dir = osp.normpath(sm_gitpath) sm_gitpath = find_submodule_git_dir(dotgit) if sm_gitpath is None: sm_gitpath = find_worktree_git_dir(dotgit) if sm_gitpath is not None: self.git_dir = expand_path(sm_gitpath, expand_vars) self._working_tree_dir = curpath break if not search_parent_directories: break curpath, tail = osp.split(curpath) if not tail: break # END while curpath if self.git_dir is None: raise InvalidGitRepositoryError(epath) self._bare = False try: self._bare = self.config_reader("repository").getboolean('core', 'bare') except Exception: # lets not assume the option exists, although it should pass try: common_dir = open(osp.join(self.git_dir, 'commondir'), 'rt').readlines()[0].strip() self._common_dir = osp.join(self.git_dir, common_dir) except (OSError, IOError): self._common_dir = None # adjust the wd in case we are actually bare - we didn't know that # in the first place if self._bare: self._working_tree_dir = None # END working dir handling self.working_dir = self._working_tree_dir or self.common_dir self.git = self.GitCommandWrapperType(self.working_dir) # special handling, in special times args = [osp.join(self.common_dir, 'objects')] if issubclass(odbt, GitCmdObjectDB): args.append(self.git) self.odb = odbt(*args) def __enter__(self): return self def __exit__(self, exc_type, exc_value, traceback): self.close() def __del__(self): try: self.close() except Exception: pass def close(self): if self.git: self.git.clear_cache() # Tempfiles objects on Windows are holding references to # open files until they are collected by the garbage # collector, thus preventing deletion. # TODO: Find these references and ensure they are closed # and deleted synchronously rather than forcing a gc # collection. if is_win: gc.collect() gitdb.util.mman.collect() if is_win: gc.collect() def __eq__(self, rhs): if isinstance(rhs, Repo): return self.git_dir == rhs.git_dir return False def __ne__(self, rhs): return not self.__eq__(rhs) def __hash__(self): return hash(self.git_dir) # Description property def _get_description(self): filename = osp.join(self.git_dir, 'description') with open(filename, 'rb') as fp: return fp.read().rstrip().decode(defenc) def _set_description(self, descr): filename = osp.join(self.git_dir, 'description') with open(filename, 'wb') as fp: fp.write((descr + '\n').encode(defenc)) description = property(_get_description, _set_description, doc="the project's description") del _get_description del _set_description @property def working_tree_dir(self): """:return: The working tree directory of our git repository. If this is a bare repository, None is returned. """ return self._working_tree_dir @property def common_dir(self): """:return: The git dir that holds everything except possibly HEAD, FETCH_HEAD, ORIG_HEAD, COMMIT_EDITMSG, index, and logs/ . """ return self._common_dir or self.git_dir @property def bare(self): """:return: True if the repository is bare""" return self._bare @property def heads(self): """A list of ``Head`` objects representing the branch heads in this repo :return: ``git.IterableList(Head, ...)``""" return Head.list_items(self) @property def references(self): """A list of Reference objects representing tags, heads and remote references. :return: IterableList(Reference, ...)""" return Reference.list_items(self) # alias for references refs = references # alias for heads branches = heads @property def index(self): """:return: IndexFile representing this repository's index. :note: This property can be expensive, as the returned ``IndexFile`` will be reinitialized. It's recommended to re-use the object.""" return IndexFile(self) @property def head(self): """:return: HEAD Object pointing to the current head reference""" return HEAD(self, 'HEAD') @property def remotes(self): """A list of Remote objects allowing to access and manipulate remotes :return: ``git.IterableList(Remote, ...)``""" return Remote.list_items(self) def remote(self, name='origin'): """:return: Remote with the specified name :raise ValueError: if no remote with such a name exists""" r = Remote(self, name) if not r.exists(): raise ValueError("Remote named '%s' didn't exist" % name) return r #{ Submodules @property def submodules(self): """ :return: git.IterableList(Submodule, ...) of direct submodules available from the current head""" return Submodule.list_items(self) def submodule(self, name): """ :return: Submodule with the given name :raise ValueError: If no such submodule exists""" try: return self.submodules[name] except IndexError: raise ValueError("Didn't find submodule named %r" % name) # END exception handling def create_submodule(self, *args, **kwargs): """Create a new submodule :note: See the documentation of Submodule.add for a description of the applicable parameters :return: created submodules""" return Submodule.add(self, *args, **kwargs) def iter_submodules(self, *args, **kwargs): """An iterator yielding Submodule instances, see Traversable interface for a description of args and kwargs :return: Iterator""" return RootModule(self).traverse(*args, **kwargs) def submodule_update(self, *args, **kwargs): """Update the submodules, keeping the repository consistent as it will take the previous state into consideration. For more information, please see the documentation of RootModule.update""" return RootModule(self).update(*args, **kwargs) #}END submodules @property def tags(self): """A list of ``Tag`` objects that are available in this repo :return: ``git.IterableList(TagReference, ...)`` """ return TagReference.list_items(self) def tag(self, path): """:return: TagReference Object, reference pointing to a Commit or Tag :param path: path to the tag reference, i.e. 0.1.5 or tags/0.1.5 """ return TagReference(self, path) def create_head(self, path, commit='HEAD', force=False, logmsg=None): """Create a new head within the repository. For more documentation, please see the Head.create method. :return: newly created Head Reference""" return Head.create(self, path, commit, force, logmsg) def delete_head(self, *heads, **kwargs): """Delete the given heads :param kwargs: Additional keyword arguments to be passed to git-branch""" return Head.delete(self, *heads, **kwargs) def create_tag(self, path, ref='HEAD', message=None, force=False, **kwargs): """Create a new tag reference. For more documentation, please see the TagReference.create method. :return: TagReference object """ return TagReference.create(self, path, ref, message, force, **kwargs) def delete_tag(self, *tags): """Delete the given tag references""" return TagReference.delete(self, *tags) def create_remote(self, name, url, **kwargs): """Create a new remote. For more information, please see the documentation of the Remote.create methods :return: Remote reference""" return Remote.create(self, name, url, **kwargs) def delete_remote(self, remote): """Delete the given remote.""" return Remote.remove(self, remote) def _get_config_path(self, config_level): # we do not support an absolute path of the gitconfig on windows , # use the global config instead if is_win and config_level == "system": config_level = "global" if config_level == "system": return "/etc/gitconfig" elif config_level == "user": config_home = os.environ.get("XDG_CONFIG_HOME") or osp.join(os.environ.get("HOME", '~'), ".config") return osp.normpath(osp.expanduser(osp.join(config_home, "git", "config"))) elif config_level == "global": return osp.normpath(osp.expanduser("~/.gitconfig")) elif config_level == "repository": return osp.normpath(osp.join(self.git_dir, "config")) raise ValueError("Invalid configuration level: %r" % config_level) def config_reader(self, config_level=None): """ :return: GitConfigParser allowing to read the full git configuration, but not to write it The configuration will include values from the system, user and repository configuration files. :param config_level: For possible values, see config_writer method If None, all applicable levels will be used. Specify a level in case you know which file you wish to read to prevent reading multiple files. :note: On windows, system configuration cannot currently be read as the path is unknown, instead the global path will be used.""" files = None if config_level is None: files = [self._get_config_path(f) for f in self.config_level] else: files = [self._get_config_path(config_level)] return GitConfigParser(files, read_only=True) def config_writer(self, config_level="repository"): """ :return: GitConfigParser allowing to write values of the specified configuration file level. Config writers should be retrieved, used to change the configuration, and written right away as they will lock the configuration file in question and prevent other's to write it. :param config_level: One of the following values system = system wide configuration file global = user level configuration file repository = configuration file for this repostory only""" return GitConfigParser(self._get_config_path(config_level), read_only=False) def commit(self, rev=None): """The Commit object for the specified revision :param rev: revision specifier, see git-rev-parse for viable options. :return: ``git.Commit``""" if rev is None: return self.head.commit else: return self.rev_parse(text_type(rev) + "^0") def iter_trees(self, *args, **kwargs): """:return: Iterator yielding Tree objects :note: Takes all arguments known to iter_commits method""" return (c.tree for c in self.iter_commits(*args, **kwargs)) def tree(self, rev=None): """The Tree object for the given treeish revision Examples:: repo.tree(repo.heads[0]) :param rev: is a revision pointing to a Treeish ( being a commit or tree ) :return: ``git.Tree`` :note: If you need a non-root level tree, find it by iterating the root tree. Otherwise it cannot know about its path relative to the repository root and subsequent operations might have unexpected results.""" if rev is None: return self.head.commit.tree else: return self.rev_parse(text_type(rev) + "^{tree}") def iter_commits(self, rev=None, paths='', **kwargs): """A list of Commit objects representing the history of a given ref/commit :param rev: revision specifier, see git-rev-parse for viable options. If None, the active branch will be used. :param paths: is an optional path or a list of paths to limit the returned commits to Commits that do not contain that path or the paths will not be returned. :param kwargs: Arguments to be passed to git-rev-list - common ones are max_count and skip :note: to receive only commits between two named revisions, use the "revA...revB" revision specifier :return: ``git.Commit[]``""" if rev is None: rev = self.head.commit return Commit.iter_items(self, rev, paths, **kwargs) def merge_base(self, *rev, **kwargs): """Find the closest common ancestor for the given revision (e.g. Commits, Tags, References, etc) :param rev: At least two revs to find the common ancestor for. :param kwargs: Additional arguments to be passed to the repo.git.merge_base() command which does all the work. :return: A list of Commit objects. If --all was not specified as kwarg, the list will have at max one Commit, or is empty if no common merge base exists. :raises ValueError: If not at least two revs are provided """ if len(rev) < 2: raise ValueError("Please specify at least two revs, got only %i" % len(rev)) # end handle input res = [] try: lines = self.git.merge_base(*rev, **kwargs).splitlines() except GitCommandError as err: if err.status == 128: raise # end handle invalid rev # Status code 1 is returned if there is no merge-base # (see https://github.com/git/git/blob/master/builtin/merge-base.c#L16) return res # end exception handling for line in lines: res.append(self.commit(line)) # end for each merge-base return res def is_ancestor(self, ancestor_rev, rev): """Check if a commit is an ancestor of another :param ancestor_rev: Rev which should be an ancestor :param rev: Rev to test against ancestor_rev :return: ``True``, ancestor_rev is an accestor to rev. """ try: self.git.merge_base(ancestor_rev, rev, is_ancestor=True) except GitCommandError as err: if err.status == 1: return False raise return True def _get_daemon_export(self): filename = osp.join(self.git_dir, self.DAEMON_EXPORT_FILE) return osp.exists(filename) def _set_daemon_export(self, value): filename = osp.join(self.git_dir, self.DAEMON_EXPORT_FILE) fileexists = osp.exists(filename) if value and not fileexists: touch(filename) elif not value and fileexists: os.unlink(filename) daemon_export = property(_get_daemon_export, _set_daemon_export, doc="If True, git-daemon may export this repository") del _get_daemon_export del _set_daemon_export def _get_alternates(self): """The list of alternates for this repo from which objects can be retrieved :return: list of strings being pathnames of alternates""" alternates_path = osp.join(self.git_dir, 'objects', 'info', 'alternates') if osp.exists(alternates_path): with open(alternates_path, 'rb') as f: alts = f.read().decode(defenc) return alts.strip().splitlines() else: return [] def _set_alternates(self, alts): """Sets the alternates :param alts: is the array of string paths representing the alternates at which git should look for objects, i.e. /home/user/repo/.git/objects :raise NoSuchPathError: :note: The method does not check for the existence of the paths in alts as the caller is responsible.""" alternates_path = osp.join(self.common_dir, 'objects', 'info', 'alternates') if not alts: if osp.isfile(alternates_path): os.remove(alternates_path) else: with open(alternates_path, 'wb') as f: f.write("\n".join(alts).encode(defenc)) alternates = property(_get_alternates, _set_alternates, doc="Retrieve a list of alternates paths or set a list paths to be used as alternates") def is_dirty(self, index=True, working_tree=True, untracked_files=False, submodules=True, path=None): """ :return: ``True``, the repository is considered dirty. By default it will react like a git-status without untracked files, hence it is dirty if the index or the working copy have changes.""" if self._bare: # Bare repositories with no associated working directory are # always consired to be clean. return False # start from the one which is fastest to evaluate default_args = ['--abbrev=40', '--full-index', '--raw'] if not submodules: default_args.append('--ignore-submodules') if path: default_args.append(path) if index: # diff index against HEAD if osp.isfile(self.index.path) and \ len(self.git.diff('--cached', *default_args)): return True # END index handling if working_tree: # diff index against working tree if len(self.git.diff(*default_args)): return True # END working tree handling if untracked_files: if len(self._get_untracked_files(path, ignore_submodules=not submodules)): return True # END untracked files return False @property def untracked_files(self): """ :return: list(str,...) Files currently untracked as they have not been staged yet. Paths are relative to the current working directory of the git command. :note: ignored files will not appear here, i.e. files mentioned in .gitignore :note: This property is expensive, as no cache is involved. To process the result, please consider caching it yourself.""" return self._get_untracked_files() def _get_untracked_files(self, *args, **kwargs): # make sure we get all files, not only untracked directories proc = self.git.status(*args, porcelain=True, untracked_files=True, as_process=True, **kwargs) # Untracked files preffix in porcelain mode prefix = "?? " untracked_files = [] for line in proc.stdout: line = line.decode(defenc) if not line.startswith(prefix): continue filename = line[len(prefix):].rstrip('\n') # Special characters are escaped if filename[0] == filename[-1] == '"': filename = filename[1:-1] if PY3: # WHATEVER ... it's a mess, but works for me filename = filename.encode('ascii').decode('unicode_escape').encode('latin1').decode(defenc) else: filename = filename.decode('string_escape').decode(defenc) untracked_files.append(filename) finalize_process(proc) return untracked_files @property def active_branch(self): """The name of the currently active branch. :return: Head to the active branch""" return self.head.reference def blame_incremental(self, rev, file, **kwargs): """Iterator for blame information for the given file at the given revision. Unlike .blame(), this does not return the actual file's contents, only a stream of BlameEntry tuples. :param rev: revision specifier, see git-rev-parse for viable options. :return: lazy iterator of BlameEntry tuples, where the commit indicates the commit to blame for the line, and range indicates a span of line numbers in the resulting file. If you combine all line number ranges outputted by this command, you should get a continuous range spanning all line numbers in the file. """ data = self.git.blame(rev, '--', file, p=True, incremental=True, stdout_as_string=False, **kwargs) commits = {} stream = (line for line in data.split(b'\n') if line) while True: line = next(stream) # when exhausted, causes a StopIteration, terminating this function hexsha, orig_lineno, lineno, num_lines = line.split() lineno = int(lineno) num_lines = int(num_lines) orig_lineno = int(orig_lineno) if hexsha not in commits: # Now read the next few lines and build up a dict of properties # for this commit props = {} while True: line = next(stream) if line == b'boundary': # "boundary" indicates a root commit and occurs # instead of the "previous" tag continue tag, value = line.split(b' ', 1) props[tag] = value if tag == b'filename': # "filename" formally terminates the entry for --incremental orig_filename = value break c = Commit(self, hex_to_bin(hexsha), author=Actor(safe_decode(props[b'author']), safe_decode(props[b'author-mail'].lstrip(b'<').rstrip(b'>'))), authored_date=int(props[b'author-time']), committer=Actor(safe_decode(props[b'committer']), safe_decode(props[b'committer-mail'].lstrip(b'<').rstrip(b'>'))), committed_date=int(props[b'committer-time'])) commits[hexsha] = c else: # Discard all lines until we find "filename" which is # guaranteed to be the last line while True: line = next(stream) # will fail if we reach the EOF unexpectedly tag, value = line.split(b' ', 1) if tag == b'filename': orig_filename = value break yield BlameEntry(commits[hexsha], range(lineno, lineno + num_lines), safe_decode(orig_filename), range(orig_lineno, orig_lineno + num_lines)) def blame(self, rev, file, incremental=False, **kwargs): """The blame information for the given file at the given revision. :param rev: revision specifier, see git-rev-parse for viable options. :return: list: [git.Commit, list: []] A list of tuples associating a Commit object with a list of lines that changed within the given commit. The Commit objects will be given in order of appearance.""" if incremental: return self.blame_incremental(rev, file, **kwargs) data = self.git.blame(rev, '--', file, p=True, stdout_as_string=False, **kwargs) commits = {} blames = [] info = None keepends = True for line in data.splitlines(keepends): try: line = line.rstrip().decode(defenc) except UnicodeDecodeError: firstpart = '' is_binary = True else: # As we don't have an idea when the binary data ends, as it could contain multiple newlines # in the process. So we rely on being able to decode to tell us what is is. # This can absolutely fail even on text files, but even if it does, we should be fine treating it # as binary instead parts = self.re_whitespace.split(line, 1) firstpart = parts[0] is_binary = False # end handle decode of line if self.re_hexsha_only.search(firstpart): # handles # 634396b2f541a9f2d58b00be1a07f0c358b999b3 1 1 7 - indicates blame-data start # 634396b2f541a9f2d58b00be1a07f0c358b999b3 2 2 - indicates # another line of blame with the same data digits = parts[-1].split(" ") if len(digits) == 3: info = {'id': firstpart} blames.append([None, []]) elif info['id'] != firstpart: info = {'id': firstpart} blames.append([commits.get(firstpart), []]) # END blame data initialization else: m = self.re_author_committer_start.search(firstpart) if m: # handles: # author Tom Preston-Werner # author-mail # author-time 1192271832 # author-tz -0700 # committer Tom Preston-Werner # committer-mail # committer-time 1192271832 # committer-tz -0700 - IGNORED BY US role = m.group(0) if firstpart.endswith('-mail'): info["%s_email" % role] = parts[-1] elif firstpart.endswith('-time'): info["%s_date" % role] = int(parts[-1]) elif role == firstpart: info[role] = parts[-1] # END distinguish mail,time,name else: # handle # filename lib/grit.rb # summary add Blob # if firstpart.startswith('filename'): info['filename'] = parts[-1] elif firstpart.startswith('summary'): info['summary'] = parts[-1] elif firstpart == '': if info: sha = info['id'] c = commits.get(sha) if c is None: c = Commit(self, hex_to_bin(sha), author=Actor._from_string(info['author'] + ' ' + info['author_email']), authored_date=info['author_date'], committer=Actor._from_string( info['committer'] + ' ' + info['committer_email']), committed_date=info['committer_date']) commits[sha] = c # END if commit objects needs initial creation if not is_binary: if line and line[0] == '\t': line = line[1:] else: # NOTE: We are actually parsing lines out of binary data, which can lead to the # binary being split up along the newline separator. We will append this to the blame # we are currently looking at, even though it should be concatenated with the last line # we have seen. pass # end handle line contents blames[-1][0] = c blames[-1][1].append(line) info = {'id': sha} # END if we collected commit info # END distinguish filename,summary,rest # END distinguish author|committer vs filename,summary,rest # END distinguish hexsha vs other information return blames @classmethod def init(cls, path=None, mkdir=True, odbt=GitCmdObjectDB, expand_vars=True, **kwargs): """Initialize a git repository at the given path if specified :param path: is the full path to the repo (traditionally ends with /.git) or None in which case the repository will be created in the current working directory :param mkdir: if specified will create the repository directory if it doesn't already exists. Creates the directory with a mode=0755. Only effective if a path is explicitly given :param odbt: Object DataBase type - a type which is constructed by providing the directory containing the database objects, i.e. .git/objects. It will be used to access all object data :param expand_vars: if specified, environment variables will not be escaped. This can lead to information disclosure, allowing attackers to access the contents of environment variables :param kwargs: keyword arguments serving as additional options to the git-init command :return: ``git.Repo`` (the newly created repo)""" if path: path = expand_path(path, expand_vars) if mkdir and path and not osp.exists(path): os.makedirs(path, 0o755) # git command automatically chdir into the directory git = Git(path) git.init(**kwargs) return cls(path, odbt=odbt) @classmethod def _clone(cls, git, url, path, odb_default_type, progress, **kwargs): if progress is not None: progress = to_progress_instance(progress) odbt = kwargs.pop('odbt', odb_default_type) # when pathlib.Path or other classbased path is passed if not isinstance(path, str): path = str(path) ## A bug win cygwin's Git, when `--bare` or `--separate-git-dir` # it prepends the cwd or(?) the `url` into the `path, so:: # git clone --bare /cygwin/d/foo.git C:\\Work # becomes:: # git clone --bare /cygwin/d/foo.git /cygwin/d/C:\\Work # clone_path = (Git.polish_url(path) if Git.is_cygwin() and 'bare' in kwargs else path) sep_dir = kwargs.get('separate_git_dir') if sep_dir: kwargs['separate_git_dir'] = Git.polish_url(sep_dir) proc = git.clone(Git.polish_url(url), clone_path, with_extended_output=True, as_process=True, v=True, universal_newlines=True, **add_progress(kwargs, git, progress)) if progress: handle_process_output(proc, None, progress.new_message_handler(), finalize_process, decode_streams=False) else: (stdout, stderr) = proc.communicate() log.debug("Cmd(%s)'s unused stdout: %s", getattr(proc, 'args', ''), stdout) finalize_process(proc, stderr=stderr) # our git command could have a different working dir than our actual # environment, hence we prepend its working dir if required if not osp.isabs(path) and git.working_dir: path = osp.join(git._working_dir, path) repo = cls(path, odbt=odbt) # retain env values that were passed to _clone() repo.git.update_environment(**git.environment()) # adjust remotes - there may be operating systems which use backslashes, # These might be given as initial paths, but when handling the config file # that contains the remote from which we were clones, git stops liking it # as it will escape the backslashes. Hence we undo the escaping just to be # sure if repo.remotes: with repo.remotes[0].config_writer as writer: writer.set_value('url', Git.polish_url(repo.remotes[0].url)) # END handle remote repo return repo def clone(self, path, progress=None, **kwargs): """Create a clone from this repository. :param path: is the full path of the new repo (traditionally ends with ./.git). :param progress: See 'git.remote.Remote.push'. :param kwargs: * odbt = ObjectDatabase Type, allowing to determine the object database implementation used by the returned Repo instance * All remaining keyword arguments are given to the git-clone command :return: ``git.Repo`` (the newly cloned repo)""" return self._clone(self.git, self.common_dir, path, type(self.odb), progress, **kwargs) @classmethod def clone_from(cls, url, to_path, progress=None, env=None, **kwargs): """Create a clone from the given URL :param url: valid git url, see http://www.kernel.org/pub/software/scm/git/docs/git-clone.html#URLS :param to_path: Path to which the repository should be cloned to :param progress: See 'git.remote.Remote.push'. :param env: Optional dictionary containing the desired environment variables. :param kwargs: see the ``clone`` method :return: Repo instance pointing to the cloned directory""" git = Git(os.getcwd()) if env is not None: git.update_environment(**env) return cls._clone(git, url, to_path, GitCmdObjectDB, progress, **kwargs) def archive(self, ostream, treeish=None, prefix=None, **kwargs): """Archive the tree at the given revision. :param ostream: file compatible stream object to which the archive will be written as bytes :param treeish: is the treeish name/id, defaults to active branch :param prefix: is the optional prefix to prepend to each filename in the archive :param kwargs: Additional arguments passed to git-archive * Use the 'format' argument to define the kind of format. Use specialized ostreams to write any format supported by python. * You may specify the special **path** keyword, which may either be a repository-relative path to a directory or file to place into the archive, or a list or tuple of multiple paths. :raise GitCommandError: in case something went wrong :return: self""" if treeish is None: treeish = self.head.commit if prefix and 'prefix' not in kwargs: kwargs['prefix'] = prefix kwargs['output_stream'] = ostream path = kwargs.pop('path', []) if not isinstance(path, (tuple, list)): path = [path] # end assure paths is list self.git.archive(treeish, *path, **kwargs) return self def has_separate_working_tree(self): """ :return: True if our git_dir is not at the root of our working_tree_dir, but a .git file with a platform agnositic symbolic link. Our git_dir will be wherever the .git file points to :note: bare repositories will always return False here """ if self.bare: return False return osp.isfile(osp.join(self.working_tree_dir, '.git')) rev_parse = rev_parse def __repr__(self): return '' % self.git_dir