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objects.py
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objects.py
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# objects.py -- Access to base git objects
# Copyright (C) 2007 James Westby <jw+debian@jameswestby.net>
# Copyright (C) 2008-2013 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 io import BytesIO
from collections import namedtuple
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 hashlib import sha1
ZERO_SHA = "0" * 40
# Header fields for commits
_TREE_HEADER = "tree"
_PARENT_HEADER = "parent"
_AUTHOR_HEADER = "author"
_COMMITTER_HEADER = "committer"
_ENCODING_HEADER = "encoding"
_MERGETAG_HEADER = "mergetag"
# Header fields for objects
_OBJECT_HEADER = "object"
_TYPE_HEADER = "type"
_TAG_HEADER = "tag"
_TAGGER_HEADER = "tagger"
S_IFGITLINK = 0o160000
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
try:
return binascii.unhexlify(hex)
except TypeError as exc:
if not isinstance(hex, str):
raise
raise ValueError(exc.args[0])
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, ValueError):
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, sha=None):
"""Set the contents of this object from a serialized string."""
if not isinstance(text, str):
raise TypeError(text)
self.set_raw_chunks([text], sha)
def set_raw_chunks(self, chunks, sha=None):
"""Set the contents of this object from a list of chunks."""
self._chunked_text = chunks
self._deserialize(chunks)
if sha is None:
self._sha = None
else:
self._sha = FixedSha(sha)
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):
with GitFile(self._path, 'rb') as f:
self._parse_file(f)
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."""
with GitFile(path, 'rb') as f:
obj = cls.from_file(f)
obj._path = path
obj._sha = FixedSha(filename_to_hex(path))
obj._file = None
obj._magic = None
return obj
@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):
raise ObjectFormatException("invalid object header")
@staticmethod
def from_raw_string(type_num, string, sha=None):
"""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.
:param sha: Optional known sha for the object
"""
obj = object_class(type_num)()
obj.set_raw_string(string, sha)
return obj
@staticmethod
def from_raw_chunks(type_num, chunks, sha=None):
"""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.
:param sha: Optional known sha for the object
"""
obj = object_class(type_num)()
obj.set_raw_chunks(chunks, sha)
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 as 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 = sha1()
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 = sha1()
new_sha.update(self._header())
for chunk in self.as_raw_chunks():
new_sha.update(chunk)
self._sha = new_sha
return self._sha
def copy(self):
"""Create a new copy of this SHA1 object from its raw string"""
obj_class = object_class(self.get_type())
return obj_class.from_raw_string(
self.get_type(),
self.as_raw_string(),
self.id)
@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_message(chunks):
"""Parse a message with a list of fields and a body.
:param chunks: the raw chunks 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 = BytesIO("".join(chunks))
k = None
v = ""
for l in f:
if l.startswith(" "):
v += l[1:]
else:
if k is not None:
yield (k, v.rstrip("\n"))
if l == "\n":
# Empty line indicates end of headers
break
(k, v) = l.split(" ", 1)
yield (None, f.read())
f.close()
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_message(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_message(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 as 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 not isinstance(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)
"""
key_func = name_order and key_entry_name_order or key_entry
for name, entry in sorted(entries.iteritems(), key=key_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 key_entry(entry):
"""Sort key for tree entry.
:param entry: (name, value) tuplee
"""
(name, value) = entry
if stat.S_ISDIR(value[0]):
name += "/"
return name
def key_entry_name_order(entry):
"""Sort key for tree entry in name order."""
return entry[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 isinstance(name, int) and isinstance(mode, 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 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 as 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 | 0o755, stat.S_IFREG | 0o644,
stat.S_IFLNK, stat.S_IFDIR, S_IFGITLINK,
# TODO: optionally exclude as in git fsck --strict
stat.S_IFREG | 0o664)
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 key_entry(last) > key_entry(entry):
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