"""Package with general repository related functions""" import os import stat from string import digits from git.compat import xrange from git.exc import WorkTreeRepositoryUnsupported from git.objects import Object from git.refs import SymbolicReference from git.util import hex_to_bin, bin_to_hex, decygpath from gitdb.exc import ( BadObject, BadName, ) import os.path as osp from git.cmd import Git __all__ = ('rev_parse', 'is_git_dir', 'touch', 'find_submodule_git_dir', 'name_to_object', 'short_to_long', 'deref_tag', 'to_commit', 'find_worktree_git_dir') def touch(filename): with open(filename, "ab"): pass return filename def is_git_dir(d): """ This is taken from the git setup.c:is_git_directory function. @throws WorkTreeRepositoryUnsupported if it sees a worktree directory. It's quite hacky to do that here, but at least clearly indicates that we don't support it. There is the unlikely danger to throw if we see directories which just look like a worktree dir, but are none.""" if osp.isdir(d): if osp.isdir(osp.join(d, 'objects')) and osp.isdir(osp.join(d, 'refs')): headref = osp.join(d, 'HEAD') return osp.isfile(headref) or \ (osp.islink(headref) and os.readlink(headref).startswith('refs')) elif (osp.isfile(osp.join(d, 'gitdir')) and osp.isfile(osp.join(d, 'commondir')) and osp.isfile(osp.join(d, 'gitfile'))): raise WorkTreeRepositoryUnsupported(d) return False def find_worktree_git_dir(dotgit): """Search for a gitdir for this worktree.""" try: statbuf = os.stat(dotgit) except OSError: return None if not stat.S_ISREG(statbuf.st_mode): return None try: lines = open(dotgit, 'r').readlines() for key, value in [line.strip().split(': ') for line in lines]: if key == 'gitdir': return value except ValueError: pass return None def find_submodule_git_dir(d): """Search for a submodule repo.""" if is_git_dir(d): return d try: with open(d) as fp: content = fp.read().rstrip() except (IOError, OSError): # it's probably not a file pass else: if content.startswith('gitdir: '): path = content[8:] if Git.is_cygwin(): ## Cygwin creates submodules prefixed with `/cygdrive/...` suffixes. path = decygpath(path) if not osp.isabs(path): path = osp.join(osp.dirname(d), path) return find_submodule_git_dir(path) # end handle exception return None def short_to_long(odb, hexsha): """:return: long hexadecimal sha1 from the given less-than-40 byte hexsha or None if no candidate could be found. :param hexsha: hexsha with less than 40 byte""" try: return bin_to_hex(odb.partial_to_complete_sha_hex(hexsha)) except BadObject: return None # END exception handling def name_to_object(repo, name, return_ref=False): """ :return: object specified by the given name, hexshas ( short and long ) as well as references are supported :param return_ref: if name specifies a reference, we will return the reference instead of the object. Otherwise it will raise BadObject or BadName """ hexsha = None # is it a hexsha ? Try the most common ones, which is 7 to 40 if repo.re_hexsha_shortened.match(name): if len(name) != 40: # find long sha for short sha hexsha = short_to_long(repo.odb, name) else: hexsha = name # END handle short shas # END find sha if it matches # if we couldn't find an object for what seemed to be a short hexsha # try to find it as reference anyway, it could be named 'aaa' for instance if hexsha is None: for base in ('%s', 'refs/%s', 'refs/tags/%s', 'refs/heads/%s', 'refs/remotes/%s', 'refs/remotes/%s/HEAD'): try: hexsha = SymbolicReference.dereference_recursive(repo, base % name) if return_ref: return SymbolicReference(repo, base % name) # END handle symbolic ref break except ValueError: pass # END for each base # END handle hexsha # didn't find any ref, this is an error if return_ref: raise BadObject("Couldn't find reference named %r" % name) # END handle return ref # tried everything ? fail if hexsha is None: raise BadName(name) # END assert hexsha was found return Object.new_from_sha(repo, hex_to_bin(hexsha)) def deref_tag(tag): """Recursively dereference a tag and return the resulting object""" while True: try: tag = tag.object except AttributeError: break # END dereference tag return tag def to_commit(obj): """Convert the given object to a commit if possible and return it""" if obj.type == 'tag': obj = deref_tag(obj) if obj.type != "commit": raise ValueError("Cannot convert object %r to type commit" % obj) # END verify type return obj def rev_parse(repo, rev): """ :return: Object at the given revision, either Commit, Tag, Tree or Blob :param rev: git-rev-parse compatible revision specification as string, please see http://www.kernel.org/pub/software/scm/git/docs/git-rev-parse.html for details :raise BadObject: if the given revision could not be found :raise ValueError: If rev couldn't be parsed :raise IndexError: If invalid reflog index is specified""" # colon search mode ? if rev.startswith(':/'): # colon search mode raise NotImplementedError("commit by message search ( regex )") # END handle search obj = None ref = None output_type = "commit" start = 0 parsed_to = 0 lr = len(rev) while start < lr: if rev[start] not in "^~:@": start += 1 continue # END handle start token = rev[start] if obj is None: # token is a rev name if start == 0: ref = repo.head.ref else: if token == '@': ref = name_to_object(repo, rev[:start], return_ref=True) else: obj = name_to_object(repo, rev[:start]) # END handle token # END handle refname if ref is not None: obj = ref.commit # END handle ref # END initialize obj on first token start += 1 # try to parse {type} if start < lr and rev[start] == '{': end = rev.find('}', start) if end == -1: raise ValueError("Missing closing brace to define type in %s" % rev) output_type = rev[start + 1:end] # exclude brace # handle type if output_type == 'commit': pass # default elif output_type == 'tree': try: obj = to_commit(obj).tree except (AttributeError, ValueError): pass # error raised later # END exception handling elif output_type in ('', 'blob'): if obj.type == 'tag': obj = deref_tag(obj) else: # cannot do anything for non-tags pass # END handle tag elif token == '@': # try single int assert ref is not None, "Requre Reference to access reflog" revlog_index = None try: # transform reversed index into the format of our revlog revlog_index = -(int(output_type) + 1) except ValueError: # TODO: Try to parse the other date options, using parse_date # maybe raise NotImplementedError("Support for additional @{...} modes not implemented") # END handle revlog index try: entry = ref.log_entry(revlog_index) except IndexError: raise IndexError("Invalid revlog index: %i" % revlog_index) # END handle index out of bound obj = Object.new_from_sha(repo, hex_to_bin(entry.newhexsha)) # make it pass the following checks output_type = None else: raise ValueError("Invalid output type: %s ( in %s )" % (output_type, rev)) # END handle output type # empty output types don't require any specific type, its just about dereferencing tags if output_type and obj.type != output_type: raise ValueError("Could not accommodate requested object type %r, got %s" % (output_type, obj.type)) # END verify output type start = end + 1 # skip brace parsed_to = start continue # END parse type # try to parse a number num = 0 if token != ":": found_digit = False while start < lr: if rev[start] in digits: num = num * 10 + int(rev[start]) start += 1 found_digit = True else: break # END handle number # END number parse loop # no explicit number given, 1 is the default # It could be 0 though if not found_digit: num = 1 # END set default num # END number parsing only if non-blob mode parsed_to = start # handle hierarchy walk try: if token == "~": obj = to_commit(obj) for _ in xrange(num): obj = obj.parents[0] # END for each history item to walk elif token == "^": obj = to_commit(obj) # must be n'th parent if num: obj = obj.parents[num - 1] elif token == ":": if obj.type != "tree": obj = obj.tree # END get tree type obj = obj[rev[start:]] parsed_to = lr else: raise ValueError("Invalid token: %r" % token) # END end handle tag except (IndexError, AttributeError): raise BadName("Invalid revision spec '%s' - not enough parent commits to reach '%s%i'" % (rev, token, num)) # END exception handling # END parse loop # still no obj ? Its probably a simple name if obj is None: obj = name_to_object(repo, rev) parsed_to = lr # END handle simple name if obj is None: raise ValueError("Revision specifier could not be parsed: %s" % rev) if parsed_to != lr: raise ValueError("Didn't consume complete rev spec %s, consumed part: %s" % (rev, rev[:parsed_to])) return obj