/usr/share/pyshared/dulwich/objects.py is in python-dulwich 0.8.5-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# Copyright (C) 2007 James Westby <jw+debian@jameswestby.net>
# Copyright (C) 2008-2009 Jelmer Vernooij <jelmer@samba.org>
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; version 2
# of the License or (at your option) a later version of the License.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301, USA.
"""Access to base git objects."""
import binascii
from cStringIO import (
StringIO,
)
import os
import posixpath
import stat
import warnings
import zlib
from dulwich.errors import (
ChecksumMismatch,
NotBlobError,
NotCommitError,
NotTagError,
NotTreeError,
ObjectFormatException,
)
from dulwich.file import GitFile
from dulwich._compat import (
make_sha,
namedtuple,
)
ZERO_SHA = "0" * 40
# Header fields for commits
_TREE_HEADER = "tree"
_PARENT_HEADER = "parent"
_AUTHOR_HEADER = "author"
_COMMITTER_HEADER = "committer"
_ENCODING_HEADER = "encoding"
# Header fields for objects
_OBJECT_HEADER = "object"
_TYPE_HEADER = "type"
_TAG_HEADER = "tag"
_TAGGER_HEADER = "tagger"
S_IFGITLINK = 0160000
def S_ISGITLINK(m):
"""Check if a mode indicates a submodule.
:param m: Mode to check
:return: a ``boolean``
"""
return (stat.S_IFMT(m) == S_IFGITLINK)
def _decompress(string):
dcomp = zlib.decompressobj()
dcomped = dcomp.decompress(string)
dcomped += dcomp.flush()
return dcomped
def sha_to_hex(sha):
"""Takes a string and returns the hex of the sha within"""
hexsha = binascii.hexlify(sha)
assert len(hexsha) == 40, "Incorrect length of sha1 string: %d" % hexsha
return hexsha
def hex_to_sha(hex):
"""Takes a hex sha and returns a binary sha"""
assert len(hex) == 40, "Incorrent length of hexsha: %s" % hex
return binascii.unhexlify(hex)
def hex_to_filename(path, hex):
"""Takes a hex sha and returns its filename relative to the given path."""
dir = hex[:2]
file = hex[2:]
# Check from object dir
return os.path.join(path, dir, file)
def filename_to_hex(filename):
"""Takes an object filename and returns its corresponding hex sha."""
# grab the last (up to) two path components
names = filename.rsplit(os.path.sep, 2)[-2:]
errmsg = "Invalid object filename: %s" % filename
assert len(names) == 2, errmsg
base, rest = names
assert len(base) == 2 and len(rest) == 38, errmsg
hex = base + rest
hex_to_sha(hex)
return hex
def object_header(num_type, length):
"""Return an object header for the given numeric type and text length."""
return "%s %d\0" % (object_class(num_type).type_name, length)
def serializable_property(name, docstring=None):
"""A property that helps tracking whether serialization is necessary.
"""
def set(obj, value):
obj._ensure_parsed()
setattr(obj, "_"+name, value)
obj._needs_serialization = True
def get(obj):
obj._ensure_parsed()
return getattr(obj, "_"+name)
return property(get, set, doc=docstring)
def object_class(type):
"""Get the object class corresponding to the given type.
:param type: Either a type name string or a numeric type.
:return: The ShaFile subclass corresponding to the given type, or None if
type is not a valid type name/number.
"""
return _TYPE_MAP.get(type, None)
def check_hexsha(hex, error_msg):
"""Check if a string is a valid hex sha string.
:param hex: Hex string to check
:param error_msg: Error message to use in exception
:raise ObjectFormatException: Raised when the string is not valid
"""
try:
hex_to_sha(hex)
except (TypeError, AssertionError):
raise ObjectFormatException("%s %s" % (error_msg, hex))
def check_identity(identity, error_msg):
"""Check if the specified identity is valid.
This will raise an exception if the identity is not valid.
:param identity: Identity string
:param error_msg: Error message to use in exception
"""
email_start = identity.find("<")
email_end = identity.find(">")
if (email_start < 0 or email_end < 0 or email_end <= email_start
or identity.find("<", email_start + 1) >= 0
or identity.find(">", email_end + 1) >= 0
or not identity.endswith(">")):
raise ObjectFormatException(error_msg)
class FixedSha(object):
"""SHA object that behaves like hashlib's but is given a fixed value."""
__slots__ = ('_hexsha', '_sha')
def __init__(self, hexsha):
self._hexsha = hexsha
self._sha = hex_to_sha(hexsha)
def digest(self):
"""Return the raw SHA digest."""
return self._sha
def hexdigest(self):
"""Return the hex SHA digest."""
return self._hexsha
class ShaFile(object):
"""A git SHA file."""
__slots__ = ('_needs_parsing', '_chunked_text', '_file', '_path',
'_sha', '_needs_serialization', '_magic')
@staticmethod
def _parse_legacy_object_header(magic, f):
"""Parse a legacy object, creating it but not reading the file."""
bufsize = 1024
decomp = zlib.decompressobj()
header = decomp.decompress(magic)
start = 0
end = -1
while end < 0:
extra = f.read(bufsize)
header += decomp.decompress(extra)
magic += extra
end = header.find("\0", start)
start = len(header)
header = header[:end]
type_name, size = header.split(" ", 1)
size = int(size) # sanity check
obj_class = object_class(type_name)
if not obj_class:
raise ObjectFormatException("Not a known type: %s" % type_name)
ret = obj_class()
ret._magic = magic
return ret
def _parse_legacy_object(self, map):
"""Parse a legacy object, setting the raw string."""
text = _decompress(map)
header_end = text.find('\0')
if header_end < 0:
raise ObjectFormatException("Invalid object header, no \\0")
self.set_raw_string(text[header_end+1:])
def as_legacy_object_chunks(self):
"""Return chunks representing the object in the experimental format.
:return: List of strings
"""
compobj = zlib.compressobj()
yield compobj.compress(self._header())
for chunk in self.as_raw_chunks():
yield compobj.compress(chunk)
yield compobj.flush()
def as_legacy_object(self):
"""Return string representing the object in the experimental format.
"""
return "".join(self.as_legacy_object_chunks())
def as_raw_chunks(self):
"""Return chunks with serialization of the object.
:return: List of strings, not necessarily one per line
"""
if self._needs_parsing:
self._ensure_parsed()
elif self._needs_serialization:
self._chunked_text = self._serialize()
return self._chunked_text
def as_raw_string(self):
"""Return raw string with serialization of the object.
:return: String object
"""
return "".join(self.as_raw_chunks())
def __str__(self):
"""Return raw string serialization of this object."""
return self.as_raw_string()
def __hash__(self):
"""Return unique hash for this object."""
return hash(self.id)
def as_pretty_string(self):
"""Return a string representing this object, fit for display."""
return self.as_raw_string()
def _ensure_parsed(self):
if self._needs_parsing:
if not self._chunked_text:
if self._file is not None:
self._parse_file(self._file)
self._file = None
elif self._path is not None:
self._parse_path()
else:
raise AssertionError(
"ShaFile needs either text or filename")
self._deserialize(self._chunked_text)
self._needs_parsing = False
def set_raw_string(self, text):
"""Set the contents of this object from a serialized string."""
if type(text) != str:
raise TypeError(text)
self.set_raw_chunks([text])
def set_raw_chunks(self, chunks):
"""Set the contents of this object from a list of chunks."""
self._chunked_text = chunks
self._deserialize(chunks)
self._sha = None
self._needs_parsing = False
self._needs_serialization = False
@staticmethod
def _parse_object_header(magic, f):
"""Parse a new style object, creating it but not reading the file."""
num_type = (ord(magic[0]) >> 4) & 7
obj_class = object_class(num_type)
if not obj_class:
raise ObjectFormatException("Not a known type %d" % num_type)
ret = obj_class()
ret._magic = magic
return ret
def _parse_object(self, map):
"""Parse a new style object, setting self._text."""
# skip type and size; type must have already been determined, and
# we trust zlib to fail if it's otherwise corrupted
byte = ord(map[0])
used = 1
while (byte & 0x80) != 0:
byte = ord(map[used])
used += 1
raw = map[used:]
self.set_raw_string(_decompress(raw))
@classmethod
def _is_legacy_object(cls, magic):
b0, b1 = map(ord, magic)
word = (b0 << 8) + b1
return (b0 & 0x8F) == 0x08 and (word % 31) == 0
@classmethod
def _parse_file_header(cls, f):
magic = f.read(2)
if cls._is_legacy_object(magic):
return cls._parse_legacy_object_header(magic, f)
else:
return cls._parse_object_header(magic, f)
def __init__(self):
"""Don't call this directly"""
self._sha = None
self._path = None
self._file = None
self._magic = None
self._chunked_text = []
self._needs_parsing = False
self._needs_serialization = True
def _deserialize(self, chunks):
raise NotImplementedError(self._deserialize)
def _serialize(self):
raise NotImplementedError(self._serialize)
def _parse_path(self):
f = GitFile(self._path, 'rb')
try:
self._parse_file(f)
finally:
f.close()
def _parse_file(self, f):
magic = self._magic
if magic is None:
magic = f.read(2)
map = magic + f.read()
if self._is_legacy_object(magic[:2]):
self._parse_legacy_object(map)
else:
self._parse_object(map)
@classmethod
def from_path(cls, path):
"""Open a SHA file from disk."""
f = GitFile(path, 'rb')
try:
obj = cls.from_file(f)
obj._path = path
obj._sha = FixedSha(filename_to_hex(path))
obj._file = None
obj._magic = None
return obj
finally:
f.close()
@classmethod
def from_file(cls, f):
"""Get the contents of a SHA file on disk."""
try:
obj = cls._parse_file_header(f)
obj._sha = None
obj._needs_parsing = True
obj._needs_serialization = True
obj._file = f
return obj
except (IndexError, ValueError), e:
raise ObjectFormatException("invalid object header")
@staticmethod
def from_raw_string(type_num, string):
"""Creates an object of the indicated type from the raw string given.
:param type_num: The numeric type of the object.
:param string: The raw uncompressed contents.
"""
obj = object_class(type_num)()
obj.set_raw_string(string)
return obj
@staticmethod
def from_raw_chunks(type_num, chunks):
"""Creates an object of the indicated type from the raw chunks given.
:param type_num: The numeric type of the object.
:param chunks: An iterable of the raw uncompressed contents.
"""
obj = object_class(type_num)()
obj.set_raw_chunks(chunks)
return obj
@classmethod
def from_string(cls, string):
"""Create a ShaFile from a string."""
obj = cls()
obj.set_raw_string(string)
return obj
def _check_has_member(self, member, error_msg):
"""Check that the object has a given member variable.
:param member: the member variable to check for
:param error_msg: the message for an error if the member is missing
:raise ObjectFormatException: with the given error_msg if member is
missing or is None
"""
if getattr(self, member, None) is None:
raise ObjectFormatException(error_msg)
def check(self):
"""Check this object for internal consistency.
:raise ObjectFormatException: if the object is malformed in some way
:raise ChecksumMismatch: if the object was created with a SHA that does
not match its contents
"""
# TODO: if we find that error-checking during object parsing is a
# performance bottleneck, those checks should be moved to the class's
# check() method during optimization so we can still check the object
# when necessary.
old_sha = self.id
try:
self._deserialize(self.as_raw_chunks())
self._sha = None
new_sha = self.id
except Exception, e:
raise ObjectFormatException(e)
if old_sha != new_sha:
raise ChecksumMismatch(new_sha, old_sha)
def _header(self):
return object_header(self.type, self.raw_length())
def raw_length(self):
"""Returns the length of the raw string of this object."""
ret = 0
for chunk in self.as_raw_chunks():
ret += len(chunk)
return ret
def _make_sha(self):
ret = make_sha()
ret.update(self._header())
for chunk in self.as_raw_chunks():
ret.update(chunk)
return ret
def sha(self):
"""The SHA1 object that is the name of this object."""
if self._sha is None or self._needs_serialization:
# this is a local because as_raw_chunks() overwrites self._sha
new_sha = make_sha()
new_sha.update(self._header())
for chunk in self.as_raw_chunks():
new_sha.update(chunk)
self._sha = new_sha
return self._sha
@property
def id(self):
"""The hex SHA of this object."""
return self.sha().hexdigest()
def get_type(self):
"""Return the type number for this object class."""
return self.type_num
def set_type(self, type):
"""Set the type number for this object class."""
self.type_num = type
# DEPRECATED: use type_num or type_name as needed.
type = property(get_type, set_type)
def __repr__(self):
return "<%s %s>" % (self.__class__.__name__, self.id)
def __ne__(self, other):
return not isinstance(other, ShaFile) or self.id != other.id
def __eq__(self, other):
"""Return True if the SHAs of the two objects match.
It doesn't make sense to talk about an order on ShaFiles, so we don't
override the rich comparison methods (__le__, etc.).
"""
return isinstance(other, ShaFile) and self.id == other.id
class Blob(ShaFile):
"""A Git Blob object."""
__slots__ = ()
type_name = 'blob'
type_num = 3
def __init__(self):
super(Blob, self).__init__()
self._chunked_text = []
self._needs_parsing = False
self._needs_serialization = False
def _get_data(self):
return self.as_raw_string()
def _set_data(self, data):
self.set_raw_string(data)
data = property(_get_data, _set_data,
"The text contained within the blob object.")
def _get_chunked(self):
self._ensure_parsed()
return self._chunked_text
def _set_chunked(self, chunks):
self._chunked_text = chunks
def _serialize(self):
if not self._chunked_text:
self._ensure_parsed()
self._needs_serialization = False
return self._chunked_text
def _deserialize(self, chunks):
self._chunked_text = chunks
chunked = property(_get_chunked, _set_chunked,
"The text within the blob object, as chunks (not necessarily lines).")
@classmethod
def from_path(cls, path):
blob = ShaFile.from_path(path)
if not isinstance(blob, cls):
raise NotBlobError(path)
return blob
def check(self):
"""Check this object for internal consistency.
:raise ObjectFormatException: if the object is malformed in some way
"""
super(Blob, self).check()
def _parse_tag_or_commit(text):
"""Parse tag or commit text.
:param text: the raw text of the tag or commit object.
:return: iterator of tuples of (field, value), one per header line, in the
order read from the text, possibly including duplicates. Includes a
field named None for the freeform tag/commit text.
"""
f = StringIO(text)
for l in f:
l = l.rstrip("\n")
if l == "":
# Empty line indicates end of headers
break
yield l.split(" ", 1)
yield (None, f.read())
f.close()
def parse_tag(text):
"""Parse a tag object."""
return _parse_tag_or_commit(text)
class Tag(ShaFile):
"""A Git Tag object."""
type_name = 'tag'
type_num = 4
__slots__ = ('_tag_timezone_neg_utc', '_name', '_object_sha',
'_object_class', '_tag_time', '_tag_timezone',
'_tagger', '_message')
def __init__(self):
super(Tag, self).__init__()
self._tag_timezone_neg_utc = False
@classmethod
def from_path(cls, filename):
tag = ShaFile.from_path(filename)
if not isinstance(tag, cls):
raise NotTagError(filename)
return tag
def check(self):
"""Check this object for internal consistency.
:raise ObjectFormatException: if the object is malformed in some way
"""
super(Tag, self).check()
self._check_has_member("_object_sha", "missing object sha")
self._check_has_member("_object_class", "missing object type")
self._check_has_member("_name", "missing tag name")
if not self._name:
raise ObjectFormatException("empty tag name")
check_hexsha(self._object_sha, "invalid object sha")
if getattr(self, "_tagger", None):
check_identity(self._tagger, "invalid tagger")
last = None
for field, _ in parse_tag("".join(self._chunked_text)):
if field == _OBJECT_HEADER and last is not None:
raise ObjectFormatException("unexpected object")
elif field == _TYPE_HEADER and last != _OBJECT_HEADER:
raise ObjectFormatException("unexpected type")
elif field == _TAG_HEADER and last != _TYPE_HEADER:
raise ObjectFormatException("unexpected tag name")
elif field == _TAGGER_HEADER and last != _TAG_HEADER:
raise ObjectFormatException("unexpected tagger")
last = field
def _serialize(self):
chunks = []
chunks.append("%s %s\n" % (_OBJECT_HEADER, self._object_sha))
chunks.append("%s %s\n" % (_TYPE_HEADER, self._object_class.type_name))
chunks.append("%s %s\n" % (_TAG_HEADER, self._name))
if self._tagger:
if self._tag_time is None:
chunks.append("%s %s\n" % (_TAGGER_HEADER, self._tagger))
else:
chunks.append("%s %s %d %s\n" % (
_TAGGER_HEADER, self._tagger, self._tag_time,
format_timezone(self._tag_timezone,
self._tag_timezone_neg_utc)))
chunks.append("\n") # To close headers
chunks.append(self._message)
return chunks
def _deserialize(self, chunks):
"""Grab the metadata attached to the tag"""
self._tagger = None
for field, value in parse_tag("".join(chunks)):
if field == _OBJECT_HEADER:
self._object_sha = value
elif field == _TYPE_HEADER:
obj_class = object_class(value)
if not obj_class:
raise ObjectFormatException("Not a known type: %s" % value)
self._object_class = obj_class
elif field == _TAG_HEADER:
self._name = value
elif field == _TAGGER_HEADER:
try:
sep = value.index("> ")
except ValueError:
self._tagger = value
self._tag_time = None
self._tag_timezone = None
self._tag_timezone_neg_utc = False
else:
self._tagger = value[0:sep+1]
try:
(timetext, timezonetext) = value[sep+2:].rsplit(" ", 1)
self._tag_time = int(timetext)
self._tag_timezone, self._tag_timezone_neg_utc = \
parse_timezone(timezonetext)
except ValueError, e:
raise ObjectFormatException(e)
elif field is None:
self._message = value
else:
raise ObjectFormatException("Unknown field %s" % field)
def _get_object(self):
"""Get the object pointed to by this tag.
:return: tuple of (object class, sha).
"""
self._ensure_parsed()
return (self._object_class, self._object_sha)
def _set_object(self, value):
self._ensure_parsed()
(self._object_class, self._object_sha) = value
self._needs_serialization = True
object = property(_get_object, _set_object)
name = serializable_property("name", "The name of this tag")
tagger = serializable_property("tagger",
"Returns the name of the person who created this tag")
tag_time = serializable_property("tag_time",
"The creation timestamp of the tag. As the number of seconds since the epoch")
tag_timezone = serializable_property("tag_timezone",
"The timezone that tag_time is in.")
message = serializable_property("message", "The message attached to this tag")
class TreeEntry(namedtuple('TreeEntry', ['path', 'mode', 'sha'])):
"""Named tuple encapsulating a single tree entry."""
def in_path(self, path):
"""Return a copy of this entry with the given path prepended."""
if type(self.path) != str:
raise TypeError
return TreeEntry(posixpath.join(path, self.path), self.mode, self.sha)
def parse_tree(text, strict=False):
"""Parse a tree text.
:param text: Serialized text to parse
:return: iterator of tuples of (name, mode, sha)
:raise ObjectFormatException: if the object was malformed in some way
"""
count = 0
l = len(text)
while count < l:
mode_end = text.index(' ', count)
mode_text = text[count:mode_end]
if strict and mode_text.startswith('0'):
raise ObjectFormatException("Invalid mode '%s'" % mode_text)
try:
mode = int(mode_text, 8)
except ValueError:
raise ObjectFormatException("Invalid mode '%s'" % mode_text)
name_end = text.index('\0', mode_end)
name = text[mode_end+1:name_end]
count = name_end+21
sha = text[name_end+1:count]
if len(sha) != 20:
raise ObjectFormatException("Sha has invalid length")
hexsha = sha_to_hex(sha)
yield (name, mode, hexsha)
def serialize_tree(items):
"""Serialize the items in a tree to a text.
:param items: Sorted iterable over (name, mode, sha) tuples
:return: Serialized tree text as chunks
"""
for name, mode, hexsha in items:
yield "%04o %s\0%s" % (mode, name, hex_to_sha(hexsha))
def sorted_tree_items(entries, name_order):
"""Iterate over a tree entries dictionary.
:param name_order: If True, iterate entries in order of their name. If
False, iterate entries in tree order, that is, treat subtree entries as
having '/' appended.
:param entries: Dictionary mapping names to (mode, sha) tuples
:return: Iterator over (name, mode, hexsha)
"""
cmp_func = name_order and cmp_entry_name_order or cmp_entry
for name, entry in sorted(entries.iteritems(), cmp=cmp_func):
mode, hexsha = entry
# Stricter type checks than normal to mirror checks in the C version.
if not isinstance(mode, int) and not isinstance(mode, long):
raise TypeError('Expected integer/long for mode, got %r' % mode)
mode = int(mode)
if not isinstance(hexsha, str):
raise TypeError('Expected a string for SHA, got %r' % hexsha)
yield TreeEntry(name, mode, hexsha)
def cmp_entry((name1, value1), (name2, value2)):
"""Compare two tree entries in tree order."""
if stat.S_ISDIR(value1[0]):
name1 += "/"
if stat.S_ISDIR(value2[0]):
name2 += "/"
return cmp(name1, name2)
def cmp_entry_name_order(entry1, entry2):
"""Compare two tree entries in name order."""
return cmp(entry1[0], entry2[0])
class Tree(ShaFile):
"""A Git tree object"""
type_name = 'tree'
type_num = 2
__slots__ = ('_entries')
def __init__(self):
super(Tree, self).__init__()
self._entries = {}
@classmethod
def from_path(cls, filename):
tree = ShaFile.from_path(filename)
if not isinstance(tree, cls):
raise NotTreeError(filename)
return tree
def __contains__(self, name):
self._ensure_parsed()
return name in self._entries
def __getitem__(self, name):
self._ensure_parsed()
return self._entries[name]
def __setitem__(self, name, value):
"""Set a tree entry by name.
:param name: The name of the entry, as a string.
:param value: A tuple of (mode, hexsha), where mode is the mode of the
entry as an integral type and hexsha is the hex SHA of the entry as
a string.
"""
mode, hexsha = value
self._ensure_parsed()
self._entries[name] = (mode, hexsha)
self._needs_serialization = True
def __delitem__(self, name):
self._ensure_parsed()
del self._entries[name]
self._needs_serialization = True
def __len__(self):
self._ensure_parsed()
return len(self._entries)
def __iter__(self):
self._ensure_parsed()
return iter(self._entries)
def add(self, name, mode, hexsha):
"""Add an entry to the tree.
:param mode: The mode of the entry as an integral type. Not all
possible modes are supported by git; see check() for details.
:param name: The name of the entry, as a string.
:param hexsha: The hex SHA of the entry as a string.
"""
if type(name) is int and type(mode) is str:
(name, mode) = (mode, name)
warnings.warn("Please use Tree.add(name, mode, hexsha)",
category=DeprecationWarning, stacklevel=2)
self._ensure_parsed()
self._entries[name] = mode, hexsha
self._needs_serialization = True
def entries(self):
"""Return a list of tuples describing the tree entries.
:note: The order of the tuples that are returned is different from that
returned by the items and iteritems methods. This function will be
deprecated in the future.
"""
warnings.warn("Tree.entries() is deprecated. Use Tree.items() or"
" Tree.iteritems() instead.", category=DeprecationWarning,
stacklevel=2)
self._ensure_parsed()
# The order of this is different from iteritems() for historical
# reasons
return [
(mode, name, hexsha) for (name, mode, hexsha) in self.iteritems()]
def iteritems(self, name_order=False):
"""Iterate over entries.
:param name_order: If True, iterate in name order instead of tree order.
:return: Iterator over (name, mode, sha) tuples
"""
self._ensure_parsed()
return sorted_tree_items(self._entries, name_order)
def items(self):
"""Return the sorted entries in this tree.
:return: List with (name, mode, sha) tuples
"""
return list(self.iteritems())
def _deserialize(self, chunks):
"""Grab the entries in the tree"""
try:
parsed_entries = parse_tree("".join(chunks))
except ValueError, e:
raise ObjectFormatException(e)
# TODO: list comprehension is for efficiency in the common (small) case;
# if memory efficiency in the large case is a concern, use a genexp.
self._entries = dict([(n, (m, s)) for n, m, s in parsed_entries])
def check(self):
"""Check this object for internal consistency.
:raise ObjectFormatException: if the object is malformed in some way
"""
super(Tree, self).check()
last = None
allowed_modes = (stat.S_IFREG | 0755, stat.S_IFREG | 0644,
stat.S_IFLNK, stat.S_IFDIR, S_IFGITLINK,
# TODO: optionally exclude as in git fsck --strict
stat.S_IFREG | 0664)
for name, mode, sha in parse_tree(''.join(self._chunked_text),
True):
check_hexsha(sha, 'invalid sha %s' % sha)
if '/' in name or name in ('', '.', '..'):
raise ObjectFormatException('invalid name %s' % name)
if mode not in allowed_modes:
raise ObjectFormatException('invalid mode %06o' % mode)
entry = (name, (mode, sha))
if last:
if cmp_entry(last, entry) > 0:
raise ObjectFormatException('entries not sorted')
if name == last[0]:
raise ObjectFormatException('duplicate entry %s' % name)
last = entry
def _serialize(self):
return list(serialize_tree(self.iteritems()))
def as_pretty_string(self):
text = []
for name, mode, hexsha in self.iteritems():
if mode & stat.S_IFDIR:
kind = "tree"
else:
kind = "blob"
text.append("%04o %s %s\t%s\n" % (mode, kind, hexsha, name))
return "".join(text)
def lookup_path(self, lookup_obj, path):
"""Look up an object in a Git tree.
:param lookup_obj: Callback for retrieving object by SHA1
:param path: Path to lookup
:return: A tuple of (mode, SHA) of the resulting path.
"""
parts = path.split('/')
sha = self.id
mode = None
for p in parts:
if not p:
continue
obj = lookup_obj(sha)
if not isinstance(obj, Tree):
raise NotTreeError(sha)
mode, sha = obj[p]
return mode, sha
def parse_timezone(text):
"""Parse a timezone text fragment (e.g. '+0100').
:param text: Text to parse.
:return: Tuple with timezone as seconds difference to UTC
and a boolean indicating whether this was a UTC timezone
prefixed with a negative sign (-0000).
"""
# cgit parses the first character as the sign, and the rest
# as an integer (using strtol), which could also be negative.
# We do the same for compatibility. See #697828.
if not text[0] in '+-':
raise ValueError("Timezone must start with + or - (%(text)s)" % vars())
sign = text[0]
offset = int(text[1:])
if sign == '-':
offset = -offset
unnecessary_negative_timezone = (offset >= 0 and sign == '-')
signum = (offset < 0) and -1 or 1
offset = abs(offset)
hours = int(offset / 100)
minutes = (offset % 100)
return (signum * (hours * 3600 + minutes * 60),
unnecessary_negative_timezone)
def format_timezone(offset, unnecessary_negative_timezone=False):
"""Format a timezone for Git serialization.
:param offset: Timezone offset as seconds difference to UTC
:param unnecessary_negative_timezone: Whether to use a minus sign for
UTC or positive timezones (-0000 and --700 rather than +0000 / +0700).
"""
if offset % 60 != 0:
raise ValueError("Unable to handle non-minute offset.")
if offset < 0 or unnecessary_negative_timezone:
sign = '-'
offset = -offset
else:
sign = '+'
return '%c%02d%02d' % (sign, offset / 3600, (offset / 60) % 60)
def parse_commit(text):
return _parse_tag_or_commit(text)
class Commit(ShaFile):
"""A git commit object"""
type_name = 'commit'
type_num = 1
__slots__ = ('_parents', '_encoding', '_extra', '_author_timezone_neg_utc',
'_commit_timezone_neg_utc', '_commit_time',
'_author_time', '_author_timezone', '_commit_timezone',
'_author', '_committer', '_parents', '_extra',
'_encoding', '_tree', '_message')
def __init__(self):
super(Commit, self).__init__()
self._parents = []
self._encoding = None
self._extra = []
self._author_timezone_neg_utc = False
self._commit_timezone_neg_utc = False
@classmethod
def from_path(cls, path):
commit = ShaFile.from_path(path)
if not isinstance(commit, cls):
raise NotCommitError(path)
return commit
def _deserialize(self, chunks):
self._parents = []
self._extra = []
self._author = None
for field, value in parse_commit(''.join(self._chunked_text)):
if field == _TREE_HEADER:
self._tree = value
elif field == _PARENT_HEADER:
self._parents.append(value)
elif field == _AUTHOR_HEADER:
self._author, timetext, timezonetext = value.rsplit(" ", 2)
self._author_time = int(timetext)
self._author_timezone, self._author_timezone_neg_utc =\
parse_timezone(timezonetext)
elif field == _COMMITTER_HEADER:
self._committer, timetext, timezonetext = value.rsplit(" ", 2)
self._commit_time = int(timetext)
self._commit_timezone, self._commit_timezone_neg_utc =\
parse_timezone(timezonetext)
elif field == _ENCODING_HEADER:
self._encoding = value
elif field is None:
self._message = value
else:
self._extra.append((field, value))
def check(self):
"""Check this object for internal consistency.
:raise ObjectFormatException: if the object is malformed in some way
"""
super(Commit, self).check()
self._check_has_member("_tree", "missing tree")
self._check_has_member("_author", "missing author")
self._check_has_member("_committer", "missing committer")
# times are currently checked when set
for parent in self._parents:
check_hexsha(parent, "invalid parent sha")
check_hexsha(self._tree, "invalid tree sha")
check_identity(self._author, "invalid author")
check_identity(self._committer, "invalid committer")
last = None
for field, _ in parse_commit("".join(self._chunked_text)):
if field == _TREE_HEADER and last is not None:
raise ObjectFormatException("unexpected tree")
elif field == _PARENT_HEADER and last not in (_PARENT_HEADER,
_TREE_HEADER):
raise ObjectFormatException("unexpected parent")
elif field == _AUTHOR_HEADER and last not in (_TREE_HEADER,
_PARENT_HEADER):
raise ObjectFormatException("unexpected author")
elif field == _COMMITTER_HEADER and last != _AUTHOR_HEADER:
raise ObjectFormatException("unexpected committer")
elif field == _ENCODING_HEADER and last != _COMMITTER_HEADER:
raise ObjectFormatException("unexpected encoding")
last = field
# TODO: optionally check for duplicate parents
def _serialize(self):
chunks = []
chunks.append("%s %s\n" % (_TREE_HEADER, self._tree))
for p in self._parents:
chunks.append("%s %s\n" % (_PARENT_HEADER, p))
chunks.append("%s %s %s %s\n" % (
_AUTHOR_HEADER, self._author, str(self._author_time),
format_timezone(self._author_timezone,
self._author_timezone_neg_utc)))
chunks.append("%s %s %s %s\n" % (
_COMMITTER_HEADER, self._committer, str(self._commit_time),
format_timezone(self._commit_timezone,
self._commit_timezone_neg_utc)))
if self.encoding:
chunks.append("%s %s\n" % (_ENCODING_HEADER, self.encoding))
for k, v in self.extra:
if "\n" in k or "\n" in v:
raise AssertionError("newline in extra data: %r -> %r" % (k, v))
chunks.append("%s %s\n" % (k, v))
chunks.append("\n") # There must be a new line after the headers
chunks.append(self._message)
return chunks
tree = serializable_property("tree", "Tree that is the state of this commit")
def _get_parents(self):
"""Return a list of parents of this commit."""
self._ensure_parsed()
return self._parents
def _set_parents(self, value):
"""Set a list of parents of this commit."""
self._ensure_parsed()
self._needs_serialization = True
self._parents = value
parents = property(_get_parents, _set_parents)
def _get_extra(self):
"""Return extra settings of this commit."""
self._ensure_parsed()
return self._extra
extra = property(_get_extra)
author = serializable_property("author",
"The name of the author of the commit")
committer = serializable_property("committer",
"The name of the committer of the commit")
message = serializable_property("message",
"The commit message")
commit_time = serializable_property("commit_time",
"The timestamp of the commit. As the number of seconds since the epoch.")
commit_timezone = serializable_property("commit_timezone",
"The zone the commit time is in")
author_time = serializable_property("author_time",
"The timestamp the commit was written. as the number of seconds since the epoch.")
author_timezone = serializable_property("author_timezone",
"Returns the zone the author time is in.")
encoding = serializable_property("encoding",
"Encoding of the commit message.")
OBJECT_CLASSES = (
Commit,
Tree,
Blob,
Tag,
)
_TYPE_MAP = {}
for cls in OBJECT_CLASSES:
_TYPE_MAP[cls.type_name] = cls
_TYPE_MAP[cls.type_num] = cls
# Hold on to the pure-python implementations for testing
_parse_tree_py = parse_tree
_sorted_tree_items_py = sorted_tree_items
try:
# Try to import C versions
from dulwich._objects import parse_tree, sorted_tree_items
except ImportError:
pass
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