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|
# Copyright (C) 2005, 2006, 2007, 2008 Canonical Ltd
#
# 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; either version 2 of the License, or
# (at your option) any later version.
#
# 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
"""Knit versionedfile implementation.
A knit is a versioned file implementation that supports efficient append only
updates.
Knit file layout:
lifeless: the data file is made up of "delta records". each delta record has a delta header
that contains; (1) a version id, (2) the size of the delta (in lines), and (3) the digest of
the -expanded data- (ie, the delta applied to the parent). the delta also ends with a
end-marker; simply "end VERSION"
delta can be line or full contents.a
... the 8's there are the index number of the annotation.
version robertc@robertcollins.net-20051003014215-ee2990904cc4c7ad 7 c7d23b2a5bd6ca00e8e266cec0ec228158ee9f9e
59,59,3
8
8 if ie.executable:
8 e.set('executable', 'yes')
130,130,2
8 if elt.get('executable') == 'yes':
8 ie.executable = True
end robertc@robertcollins.net-20051003014215-ee2990904cc4c7ad
whats in an index:
09:33 < jrydberg> lifeless: each index is made up of a tuple of; version id, options, position, size, parents
09:33 < jrydberg> lifeless: the parents are currently dictionary compressed
09:33 < jrydberg> lifeless: (meaning it currently does not support ghosts)
09:33 < lifeless> right
09:33 < jrydberg> lifeless: the position and size is the range in the data file
so the index sequence is the dictionary compressed sequence number used
in the deltas to provide line annotation
"""
# TODOS:
# 10:16 < lifeless> make partial index writes safe
# 10:16 < lifeless> implement 'knit.check()' like weave.check()
# 10:17 < lifeless> record known ghosts so we can detect when they are filled in rather than the current 'reweave
# always' approach.
# move sha1 out of the content so that join is faster at verifying parents
# record content length ?
from cStringIO import StringIO
from itertools import izip, chain
import operator
import os
import sys
from bzrlib.lazy_import import lazy_import
lazy_import(globals(), """
from bzrlib import (
annotate,
debug,
diff,
graph as _mod_graph,
index as _mod_index,
lru_cache,
pack,
progress,
trace,
tsort,
tuned_gzip,
)
""")
from bzrlib import (
errors,
osutils,
patiencediff,
)
from bzrlib.errors import (
FileExists,
NoSuchFile,
KnitError,
InvalidRevisionId,
KnitCorrupt,
KnitHeaderError,
RevisionNotPresent,
RevisionAlreadyPresent,
SHA1KnitCorrupt,
)
from bzrlib.osutils import (
contains_whitespace,
contains_linebreaks,
sha_string,
sha_strings,
split_lines,
)
from bzrlib.versionedfile import (
AbsentContentFactory,
adapter_registry,
ConstantMapper,
ContentFactory,
ChunkedContentFactory,
VersionedFile,
VersionedFiles,
)
# TODO: Split out code specific to this format into an associated object.
# TODO: Can we put in some kind of value to check that the index and data
# files belong together?
# TODO: accommodate binaries, perhaps by storing a byte count
# TODO: function to check whole file
# TODO: atomically append data, then measure backwards from the cursor
# position after writing to work out where it was located. we may need to
# bypass python file buffering.
DATA_SUFFIX = '.knit'
INDEX_SUFFIX = '.kndx'
class KnitAdapter(object):
"""Base class for knit record adaption."""
def __init__(self, basis_vf):
"""Create an adapter which accesses full texts from basis_vf.
:param basis_vf: A versioned file to access basis texts of deltas from.
May be None for adapters that do not need to access basis texts.
"""
self._data = KnitVersionedFiles(None, None)
self._annotate_factory = KnitAnnotateFactory()
self._plain_factory = KnitPlainFactory()
self._basis_vf = basis_vf
class FTAnnotatedToUnannotated(KnitAdapter):
"""An adapter from FT annotated knits to unannotated ones."""
def get_bytes(self, factory, annotated_compressed_bytes):
rec, contents = \
self._data._parse_record_unchecked(annotated_compressed_bytes)
content = self._annotate_factory.parse_fulltext(contents, rec[1])
size, bytes = self._data._record_to_data((rec[1],), rec[3], content.text())
return bytes
class DeltaAnnotatedToUnannotated(KnitAdapter):
"""An adapter for deltas from annotated to unannotated."""
def get_bytes(self, factory, annotated_compressed_bytes):
rec, contents = \
self._data._parse_record_unchecked(annotated_compressed_bytes)
delta = self._annotate_factory.parse_line_delta(contents, rec[1],
plain=True)
contents = self._plain_factory.lower_line_delta(delta)
size, bytes = self._data._record_to_data((rec[1],), rec[3], contents)
return bytes
class FTAnnotatedToFullText(KnitAdapter):
"""An adapter from FT annotated knits to unannotated ones."""
def get_bytes(self, factory, annotated_compressed_bytes):
rec, contents = \
self._data._parse_record_unchecked(annotated_compressed_bytes)
content, delta = self._annotate_factory.parse_record(factory.key[-1],
contents, factory._build_details, None)
return ''.join(content.text())
class DeltaAnnotatedToFullText(KnitAdapter):
"""An adapter for deltas from annotated to unannotated."""
def get_bytes(self, factory, annotated_compressed_bytes):
rec, contents = \
self._data._parse_record_unchecked(annotated_compressed_bytes)
delta = self._annotate_factory.parse_line_delta(contents, rec[1],
plain=True)
compression_parent = factory.parents[0]
basis_entry = self._basis_vf.get_record_stream(
[compression_parent], 'unordered', True).next()
if basis_entry.storage_kind == 'absent':
raise errors.RevisionNotPresent(compression_parent, self._basis_vf)
basis_chunks = basis_entry.get_bytes_as('chunked')
basis_lines = osutils.chunks_to_lines(basis_chunks)
# Manually apply the delta because we have one annotated content and
# one plain.
basis_content = PlainKnitContent(basis_lines, compression_parent)
basis_content.apply_delta(delta, rec[1])
basis_content._should_strip_eol = factory._build_details[1]
return ''.join(basis_content.text())
class FTPlainToFullText(KnitAdapter):
"""An adapter from FT plain knits to unannotated ones."""
def get_bytes(self, factory, compressed_bytes):
rec, contents = \
self._data._parse_record_unchecked(compressed_bytes)
content, delta = self._plain_factory.parse_record(factory.key[-1],
contents, factory._build_details, None)
return ''.join(content.text())
class DeltaPlainToFullText(KnitAdapter):
"""An adapter for deltas from annotated to unannotated."""
def get_bytes(self, factory, compressed_bytes):
rec, contents = \
self._data._parse_record_unchecked(compressed_bytes)
delta = self._plain_factory.parse_line_delta(contents, rec[1])
compression_parent = factory.parents[0]
# XXX: string splitting overhead.
basis_entry = self._basis_vf.get_record_stream(
[compression_parent], 'unordered', True).next()
if basis_entry.storage_kind == 'absent':
raise errors.RevisionNotPresent(compression_parent, self._basis_vf)
basis_chunks = basis_entry.get_bytes_as('chunked')
basis_lines = osutils.chunks_to_lines(basis_chunks)
basis_content = PlainKnitContent(basis_lines, compression_parent)
# Manually apply the delta because we have one annotated content and
# one plain.
content, _ = self._plain_factory.parse_record(rec[1], contents,
factory._build_details, basis_content)
return ''.join(content.text())
class KnitContentFactory(ContentFactory):
"""Content factory for streaming from knits.
:seealso ContentFactory:
"""
def __init__(self, key, parents, build_details, sha1, raw_record,
annotated, knit=None):
"""Create a KnitContentFactory for key.
:param key: The key.
:param parents: The parents.
:param build_details: The build details as returned from
get_build_details.
:param sha1: The sha1 expected from the full text of this object.
:param raw_record: The bytes of the knit data from disk.
:param annotated: True if the raw data is annotated.
"""
ContentFactory.__init__(self)
self.sha1 = sha1
self.key = key
self.parents = parents
if build_details[0] == 'line-delta':
kind = 'delta'
else:
kind = 'ft'
if annotated:
annotated_kind = 'annotated-'
else:
annotated_kind = ''
self.storage_kind = 'knit-%s%s-gz' % (annotated_kind, kind)
self._raw_record = raw_record
self._build_details = build_details
self._knit = knit
def get_bytes_as(self, storage_kind):
if storage_kind == self.storage_kind:
return self._raw_record
if self._knit is not None:
if storage_kind == 'chunked':
return self._knit.get_lines(self.key[0])
elif storage_kind == 'fulltext':
return self._knit.get_text(self.key[0])
raise errors.UnavailableRepresentation(self.key, storage_kind,
self.storage_kind)
class KnitContent(object):
"""Content of a knit version to which deltas can be applied.
This is always stored in memory as a list of lines with \n at the end,
plus a flag saying if the final ending is really there or not, because that
corresponds to the on-disk knit representation.
"""
def __init__(self):
self._should_strip_eol = False
def apply_delta(self, delta, new_version_id):
"""Apply delta to this object to become new_version_id."""
raise NotImplementedError(self.apply_delta)
def line_delta_iter(self, new_lines):
"""Generate line-based delta from this content to new_lines."""
new_texts = new_lines.text()
old_texts = self.text()
s = patiencediff.PatienceSequenceMatcher(None, old_texts, new_texts)
for tag, i1, i2, j1, j2 in s.get_opcodes():
if tag == 'equal':
continue
# ofrom, oto, length, data
yield i1, i2, j2 - j1, new_lines._lines[j1:j2]
def line_delta(self, new_lines):
return list(self.line_delta_iter(new_lines))
@staticmethod
def get_line_delta_blocks(knit_delta, source, target):
"""Extract SequenceMatcher.get_matching_blocks() from a knit delta"""
target_len = len(target)
s_pos = 0
t_pos = 0
for s_begin, s_end, t_len, new_text in knit_delta:
true_n = s_begin - s_pos
n = true_n
if n > 0:
# knit deltas do not provide reliable info about whether the
# last line of a file matches, due to eol handling.
if source[s_pos + n -1] != target[t_pos + n -1]:
n-=1
if n > 0:
yield s_pos, t_pos, n
t_pos += t_len + true_n
s_pos = s_end
n = target_len - t_pos
if n > 0:
if source[s_pos + n -1] != target[t_pos + n -1]:
n-=1
if n > 0:
yield s_pos, t_pos, n
yield s_pos + (target_len - t_pos), target_len, 0
class AnnotatedKnitContent(KnitContent):
"""Annotated content."""
def __init__(self, lines):
KnitContent.__init__(self)
self._lines = lines
def annotate(self):
"""Return a list of (origin, text) for each content line."""
lines = self._lines[:]
if self._should_strip_eol:
origin, last_line = lines[-1]
lines[-1] = (origin, last_line.rstrip('\n'))
return lines
def apply_delta(self, delta, new_version_id):
"""Apply delta to this object to become new_version_id."""
offset = 0
lines = self._lines
for start, end, count, delta_lines in delta:
lines[offset+start:offset+end] = delta_lines
offset = offset + (start - end) + count
def text(self):
try:
lines = [text for origin, text in self._lines]
except ValueError, e:
# most commonly (only?) caused by the internal form of the knit
# missing annotation information because of a bug - see thread
# around 20071015
raise KnitCorrupt(self,
"line in annotated knit missing annotation information: %s"
% (e,))
if self._should_strip_eol:
lines[-1] = lines[-1].rstrip('\n')
return lines
def copy(self):
return AnnotatedKnitContent(self._lines[:])
class PlainKnitContent(KnitContent):
"""Unannotated content.
When annotate[_iter] is called on this content, the same version is reported
for all lines. Generally, annotate[_iter] is not useful on PlainKnitContent
objects.
"""
def __init__(self, lines, version_id):
KnitContent.__init__(self)
self._lines = lines
self._version_id = version_id
def annotate(self):
"""Return a list of (origin, text) for each content line."""
return [(self._version_id, line) for line in self._lines]
def apply_delta(self, delta, new_version_id):
"""Apply delta to this object to become new_version_id."""
offset = 0
lines = self._lines
for start, end, count, delta_lines in delta:
lines[offset+start:offset+end] = delta_lines
offset = offset + (start - end) + count
self._version_id = new_version_id
def copy(self):
return PlainKnitContent(self._lines[:], self._version_id)
def text(self):
lines = self._lines
if self._should_strip_eol:
lines = lines[:]
lines[-1] = lines[-1].rstrip('\n')
return lines
class _KnitFactory(object):
"""Base class for common Factory functions."""
def parse_record(self, version_id, record, record_details,
base_content, copy_base_content=True):
"""Parse a record into a full content object.
:param version_id: The official version id for this content
:param record: The data returned by read_records_iter()
:param record_details: Details about the record returned by
get_build_details
:param base_content: If get_build_details returns a compression_parent,
you must return a base_content here, else use None
:param copy_base_content: When building from the base_content, decide
you can either copy it and return a new object, or modify it in
place.
:return: (content, delta) A Content object and possibly a line-delta,
delta may be None
"""
method, noeol = record_details
if method == 'line-delta':
if copy_base_content:
content = base_content.copy()
else:
content = base_content
delta = self.parse_line_delta(record, version_id)
content.apply_delta(delta, version_id)
else:
content = self.parse_fulltext(record, version_id)
delta = None
content._should_strip_eol = noeol
return (content, delta)
class KnitAnnotateFactory(_KnitFactory):
"""Factory for creating annotated Content objects."""
annotated = True
def make(self, lines, version_id):
num_lines = len(lines)
return AnnotatedKnitContent(zip([version_id] * num_lines, lines))
def parse_fulltext(self, content, version_id):
"""Convert fulltext to internal representation
fulltext content is of the format
revid(utf8) plaintext\n
internal representation is of the format:
(revid, plaintext)
"""
# TODO: jam 20070209 The tests expect this to be returned as tuples,
# but the code itself doesn't really depend on that.
# Figure out a way to not require the overhead of turning the
# list back into tuples.
lines = [tuple(line.split(' ', 1)) for line in content]
return AnnotatedKnitContent(lines)
def parse_line_delta_iter(self, lines):
return iter(self.parse_line_delta(lines))
def parse_line_delta(self, lines, version_id, plain=False):
"""Convert a line based delta into internal representation.
line delta is in the form of:
intstart intend intcount
1..count lines:
revid(utf8) newline\n
internal representation is
(start, end, count, [1..count tuples (revid, newline)])
:param plain: If True, the lines are returned as a plain
list without annotations, not as a list of (origin, content) tuples, i.e.
(start, end, count, [1..count newline])
"""
result = []
lines = iter(lines)
next = lines.next
cache = {}
def cache_and_return(line):
origin, text = line.split(' ', 1)
return cache.setdefault(origin, origin), text
# walk through the lines parsing.
# Note that the plain test is explicitly pulled out of the
# loop to minimise any performance impact
if plain:
for header in lines:
start, end, count = [int(n) for n in header.split(',')]
contents = [next().split(' ', 1)[1] for i in xrange(count)]
result.append((start, end, count, contents))
else:
for header in lines:
start, end, count = [int(n) for n in header.split(',')]
contents = [tuple(next().split(' ', 1)) for i in xrange(count)]
result.append((start, end, count, contents))
return result
def get_fulltext_content(self, lines):
"""Extract just the content lines from a fulltext."""
return (line.split(' ', 1)[1] for line in lines)
def get_linedelta_content(self, lines):
"""Extract just the content from a line delta.
This doesn't return all of the extra information stored in a delta.
Only the actual content lines.
"""
lines = iter(lines)
next = lines.next
for header in lines:
header = header.split(',')
count = int(header[2])
for i in xrange(count):
origin, text = next().split(' ', 1)
yield text
def lower_fulltext(self, content):
"""convert a fulltext content record into a serializable form.
see parse_fulltext which this inverts.
"""
# TODO: jam 20070209 We only do the caching thing to make sure that
# the origin is a valid utf-8 line, eventually we could remove it
return ['%s %s' % (o, t) for o, t in content._lines]
def lower_line_delta(self, delta):
"""convert a delta into a serializable form.
See parse_line_delta which this inverts.
"""
# TODO: jam 20070209 We only do the caching thing to make sure that
# the origin is a valid utf-8 line, eventually we could remove it
out = []
for start, end, c, lines in delta:
out.append('%d,%d,%d\n' % (start, end, c))
out.extend(origin + ' ' + text
for origin, text in lines)
return out
def annotate(self, knit, key):
content = knit._get_content(key)
# adjust for the fact that serialised annotations are only key suffixes
# for this factory.
if type(key) == tuple:
prefix = key[:-1]
origins = content.annotate()
result = []
for origin, line in origins:
result.append((prefix + (origin,), line))
return result
else:
# XXX: This smells a bit. Why would key ever be a non-tuple here?
# Aren't keys defined to be tuples? -- spiv 20080618
return content.annotate()
class KnitPlainFactory(_KnitFactory):
"""Factory for creating plain Content objects."""
annotated = False
def make(self, lines, version_id):
return PlainKnitContent(lines, version_id)
def parse_fulltext(self, content, version_id):
"""This parses an unannotated fulltext.
Note that this is not a noop - the internal representation
has (versionid, line) - its just a constant versionid.
"""
return self.make(content, version_id)
def parse_line_delta_iter(self, lines, version_id):
cur = 0
num_lines = len(lines)
while cur < num_lines:
header = lines[cur]
cur += 1
start, end, c = [int(n) for n in header.split(',')]
yield start, end, c, lines[cur:cur+c]
cur += c
def parse_line_delta(self, lines, version_id):
return list(self.parse_line_delta_iter(lines, version_id))
def get_fulltext_content(self, lines):
"""Extract just the content lines from a fulltext."""
return iter(lines)
def get_linedelta_content(self, lines):
"""Extract just the content from a line delta.
This doesn't return all of the extra information stored in a delta.
Only the actual content lines.
"""
lines = iter(lines)
next = lines.next
for header in lines:
header = header.split(',')
count = int(header[2])
for i in xrange(count):
yield next()
def lower_fulltext(self, content):
return content.text()
def lower_line_delta(self, delta):
out = []
for start, end, c, lines in delta:
out.append('%d,%d,%d\n' % (start, end, c))
out.extend(lines)
return out
def annotate(self, knit, key):
annotator = _KnitAnnotator(knit)
return annotator.annotate(key)
def make_file_factory(annotated, mapper):
"""Create a factory for creating a file based KnitVersionedFiles.
This is only functional enough to run interface tests, it doesn't try to
provide a full pack environment.
:param annotated: knit annotations are wanted.
:param mapper: The mapper from keys to paths.
"""
def factory(transport):
index = _KndxIndex(transport, mapper, lambda:None, lambda:True, lambda:True)
access = _KnitKeyAccess(transport, mapper)
return KnitVersionedFiles(index, access, annotated=annotated)
return factory
def make_pack_factory(graph, delta, keylength):
"""Create a factory for creating a pack based VersionedFiles.
This is only functional enough to run interface tests, it doesn't try to
provide a full pack environment.
:param graph: Store a graph.
:param delta: Delta compress contents.
:param keylength: How long should keys be.
"""
def factory(transport):
parents = graph or delta
ref_length = 0
if graph:
ref_length += 1
if delta:
ref_length += 1
max_delta_chain = 200
else:
max_delta_chain = 0
graph_index = _mod_index.InMemoryGraphIndex(reference_lists=ref_length,
key_elements=keylength)
stream = transport.open_write_stream('newpack')
writer = pack.ContainerWriter(stream.write)
writer.begin()
index = _KnitGraphIndex(graph_index, lambda:True, parents=parents,
deltas=delta, add_callback=graph_index.add_nodes)
access = _DirectPackAccess({})
access.set_writer(writer, graph_index, (transport, 'newpack'))
result = KnitVersionedFiles(index, access,
max_delta_chain=max_delta_chain)
result.stream = stream
result.writer = writer
return result
return factory
def cleanup_pack_knit(versioned_files):
versioned_files.stream.close()
versioned_files.writer.end()
class KnitVersionedFiles(VersionedFiles):
"""Storage for many versioned files using knit compression.
Backend storage is managed by indices and data objects.
:ivar _index: A _KnitGraphIndex or similar that can describe the
parents, graph, compression and data location of entries in this
KnitVersionedFiles. Note that this is only the index for
*this* vfs; if there are fallbacks they must be queried separately.
"""
def __init__(self, index, data_access, max_delta_chain=200,
annotated=False, reload_func=None):
"""Create a KnitVersionedFiles with index and data_access.
:param index: The index for the knit data.
:param data_access: The access object to store and retrieve knit
records.
:param max_delta_chain: The maximum number of deltas to permit during
insertion. Set to 0 to prohibit the use of deltas.
:param annotated: Set to True to cause annotations to be calculated and
stored during insertion.
:param reload_func: An function that can be called if we think we need
to reload the pack listing and try again. See
'bzrlib.repofmt.pack_repo.AggregateIndex' for the signature.
"""
self._index = index
self._access = data_access
self._max_delta_chain = max_delta_chain
if annotated:
self._factory = KnitAnnotateFactory()
else:
self._factory = KnitPlainFactory()
self._fallback_vfs = []
self._reload_func = reload_func
def __repr__(self):
return "%s(%r, %r)" % (
self.__class__.__name__,
self._index,
self._access)
def add_fallback_versioned_files(self, a_versioned_files):
"""Add a source of texts for texts not present in this knit.
:param a_versioned_files: A VersionedFiles object.
"""
self._fallback_vfs.append(a_versioned_files)
def add_lines(self, key, parents, lines, parent_texts=None,
left_matching_blocks=None, nostore_sha=None, random_id=False,
check_content=True):
"""See VersionedFiles.add_lines()."""
self._index._check_write_ok()
self._check_add(key, lines, random_id, check_content)
if parents is None:
# The caller might pass None if there is no graph data, but kndx
# indexes can't directly store that, so we give them
# an empty tuple instead.
parents = ()
return self._add(key, lines, parents,
parent_texts, left_matching_blocks, nostore_sha, random_id)
def _add(self, key, lines, parents, parent_texts,
left_matching_blocks, nostore_sha, random_id):
"""Add a set of lines on top of version specified by parents.
Any versions not present will be converted into ghosts.
"""
# first thing, if the content is something we don't need to store, find
# that out.
line_bytes = ''.join(lines)
digest = sha_string(line_bytes)
if nostore_sha == digest:
raise errors.ExistingContent
present_parents = []
if parent_texts is None:
parent_texts = {}
# Do a single query to ascertain parent presence; we only compress
# against parents in the same kvf.
present_parent_map = self._index.get_parent_map(parents)
for parent in parents:
if parent in present_parent_map:
present_parents.append(parent)
# Currently we can only compress against the left most present parent.
if (len(present_parents) == 0 or
present_parents[0] != parents[0]):
delta = False
else:
# To speed the extract of texts the delta chain is limited
# to a fixed number of deltas. This should minimize both
# I/O and the time spend applying deltas.
delta = self._check_should_delta(present_parents[0])
text_length = len(line_bytes)
options = []
if lines:
if lines[-1][-1] != '\n':
# copy the contents of lines.
lines = lines[:]
options.append('no-eol')
lines[-1] = lines[-1] + '\n'
line_bytes += '\n'
for element in key:
if type(element) != str:
raise TypeError("key contains non-strings: %r" % (key,))
# Knit hunks are still last-element only
version_id = key[-1]
content = self._factory.make(lines, version_id)
if 'no-eol' in options:
# Hint to the content object that its text() call should strip the
# EOL.
content._should_strip_eol = True
if delta or (self._factory.annotated and len(present_parents) > 0):
# Merge annotations from parent texts if needed.
delta_hunks = self._merge_annotations(content, present_parents,
parent_texts, delta, self._factory.annotated,
left_matching_blocks)
if delta:
options.append('line-delta')
store_lines = self._factory.lower_line_delta(delta_hunks)
size, bytes = self._record_to_data(key, digest,
store_lines)
else:
options.append('fulltext')
# isinstance is slower and we have no hierarchy.
if self._factory.__class__ == KnitPlainFactory:
# Use the already joined bytes saving iteration time in
# _record_to_data.
size, bytes = self._record_to_data(key, digest,
lines, [line_bytes])
else:
# get mixed annotation + content and feed it into the
# serialiser.
store_lines = self._factory.lower_fulltext(content)
size, bytes = self._record_to_data(key, digest,
store_lines)
access_memo = self._access.add_raw_records([(key, size)], bytes)[0]
self._index.add_records(
((key, options, access_memo, parents),),
random_id=random_id)
return digest, text_length, content
def annotate(self, key):
"""See VersionedFiles.annotate."""
return self._factory.annotate(self, key)
def check(self, progress_bar=None):
"""See VersionedFiles.check()."""
# This doesn't actually test extraction of everything, but that will
# impact 'bzr check' substantially, and needs to be integrated with
# care. However, it does check for the obvious problem of a delta with
# no basis.
keys = self._index.keys()
parent_map = self.get_parent_map(keys)
for key in keys:
if self._index.get_method(key) != 'fulltext':
compression_parent = parent_map[key][0]
if compression_parent not in parent_map:
raise errors.KnitCorrupt(self,
"Missing basis parent %s for %s" % (
compression_parent, key))
for fallback_vfs in self._fallback_vfs:
fallback_vfs.check()
def _check_add(self, key, lines, random_id, check_content):
"""check that version_id and lines are safe to add."""
version_id = key[-1]
if contains_whitespace(version_id):
raise InvalidRevisionId(version_id, self)
self.check_not_reserved_id(version_id)
# TODO: If random_id==False and the key is already present, we should
# probably check that the existing content is identical to what is
# being inserted, and otherwise raise an exception. This would make
# the bundle code simpler.
if check_content:
self._check_lines_not_unicode(lines)
self._check_lines_are_lines(lines)
def _check_header(self, key, line):
rec = self._split_header(line)
self._check_header_version(rec, key[-1])
return rec
def _check_header_version(self, rec, version_id):
"""Checks the header version on original format knit records.
These have the last component of the key embedded in the record.
"""
if rec[1] != version_id:
raise KnitCorrupt(self,
'unexpected version, wanted %r, got %r' % (version_id, rec[1]))
def _check_should_delta(self, parent):
"""Iterate back through the parent listing, looking for a fulltext.
This is used when we want to decide whether to add a delta or a new
fulltext. It searches for _max_delta_chain parents. When it finds a
fulltext parent, it sees if the total size of the deltas leading up to
it is large enough to indicate that we want a new full text anyway.
Return True if we should create a new delta, False if we should use a
full text.
"""
delta_size = 0
fulltext_size = None
for count in xrange(self._max_delta_chain):
try:
# Note that this only looks in the index of this particular
# KnitVersionedFiles, not in the fallbacks. This ensures that
# we won't store a delta spanning physical repository
# boundaries.
build_details = self._index.get_build_details([parent])
parent_details = build_details[parent]
except RevisionNotPresent, KeyError:
# Some basis is not locally present: always fulltext
return False
index_memo, compression_parent, _, _ = parent_details
_, _, size = index_memo
if compression_parent is None:
fulltext_size = size
break
delta_size += size
# We don't explicitly check for presence because this is in an
# inner loop, and if it's missing it'll fail anyhow.
parent = compression_parent
else:
# We couldn't find a fulltext, so we must create a new one
return False
# Simple heuristic - if the total I/O wold be greater as a delta than
# the originally installed fulltext, we create a new fulltext.
return fulltext_size > delta_size
def _build_details_to_components(self, build_details):
"""Convert a build_details tuple to a position tuple."""
# record_details, access_memo, compression_parent
return build_details[3], build_details[0], build_details[1]
def _get_components_positions(self, keys, allow_missing=False):
"""Produce a map of position data for the components of keys.
This data is intended to be used for retrieving the knit records.
A dict of key to (record_details, index_memo, next, parents) is
returned.
method is the way referenced data should be applied.
index_memo is the handle to pass to the data access to actually get the
data
next is the build-parent of the version, or None for fulltexts.
parents is the version_ids of the parents of this version
:param allow_missing: If True do not raise an error on a missing component,
just ignore it.
"""
component_data = {}
pending_components = keys
while pending_components:
build_details = self._index.get_build_details(pending_components)
current_components = set(pending_components)
pending_components = set()
for key, details in build_details.iteritems():
(index_memo, compression_parent, parents,
record_details) = details
method = record_details[0]
if compression_parent is not None:
pending_components.add(compression_parent)
component_data[key] = self._build_details_to_components(details)
missing = current_components.difference(build_details)
if missing and not allow_missing:
raise errors.RevisionNotPresent(missing.pop(), self)
return component_data
def _get_content(self, key, parent_texts={}):
"""Returns a content object that makes up the specified
version."""
cached_version = parent_texts.get(key, None)
if cached_version is not None:
# Ensure the cache dict is valid.
if not self.get_parent_map([key]):
raise RevisionNotPresent(key, self)
return cached_version
text_map, contents_map = self._get_content_maps([key])
return contents_map[key]
def _get_content_maps(self, keys, nonlocal_keys=None):
"""Produce maps of text and KnitContents
:param keys: The keys to produce content maps for.
:param nonlocal_keys: An iterable of keys(possibly intersecting keys)
which are known to not be in this knit, but rather in one of the
fallback knits.
:return: (text_map, content_map) where text_map contains the texts for
the requested versions and content_map contains the KnitContents.
"""
# FUTURE: This function could be improved for the 'extract many' case
# by tracking each component and only doing the copy when the number of
# children than need to apply delta's to it is > 1 or it is part of the
# final output.
keys = list(keys)
multiple_versions = len(keys) != 1
record_map = self._get_record_map(keys, allow_missing=True)
text_map = {}
content_map = {}
final_content = {}
if nonlocal_keys is None:
nonlocal_keys = set()
else:
nonlocal_keys = frozenset(nonlocal_keys)
missing_keys = set(nonlocal_keys)
for source in self._fallback_vfs:
if not missing_keys:
break
for record in source.get_record_stream(missing_keys,
'unordered', True):
if record.storage_kind == 'absent':
continue
missing_keys.remove(record.key)
lines = osutils.chunks_to_lines(record.get_bytes_as('chunked'))
text_map[record.key] = lines
content_map[record.key] = PlainKnitContent(lines, record.key)
if record.key in keys:
final_content[record.key] = content_map[record.key]
for key in keys:
if key in nonlocal_keys:
# already handled
continue
components = []
cursor = key
while cursor is not None:
try:
record, record_details, digest, next = record_map[cursor]
except KeyError:
raise RevisionNotPresent(cursor, self)
components.append((cursor, record, record_details, digest))
cursor = next
if cursor in content_map:
# no need to plan further back
components.append((cursor, None, None, None))
break
content = None
for (component_id, record, record_details,
digest) in reversed(components):
if component_id in content_map:
content = content_map[component_id]
else:
content, delta = self._factory.parse_record(key[-1],
record, record_details, content,
copy_base_content=multiple_versions)
if multiple_versions:
content_map[component_id] = content
final_content[key] = content
# digest here is the digest from the last applied component.
text = content.text()
actual_sha = sha_strings(text)
if actual_sha != digest:
raise SHA1KnitCorrupt(self, actual_sha, digest, key, text)
text_map[key] = text
return text_map, final_content
def get_parent_map(self, keys):
"""Get a map of the graph parents of keys.
:param keys: The keys to look up parents for.
:return: A mapping from keys to parents. Absent keys are absent from
the mapping.
"""
return self._get_parent_map_with_sources(keys)[0]
def _get_parent_map_with_sources(self, keys):
"""Get a map of the parents of keys.
:param keys: The keys to look up parents for.
:return: A tuple. The first element is a mapping from keys to parents.
Absent keys are absent from the mapping. The second element is a
list with the locations each key was found in. The first element
is the in-this-knit parents, the second the first fallback source,
and so on.
"""
result = {}
sources = [self._index] + self._fallback_vfs
source_results = []
missing = set(keys)
for source in sources:
if not missing:
break
new_result = source.get_parent_map(missing)
source_results.append(new_result)
result.update(new_result)
missing.difference_update(set(new_result))
return result, source_results
def _get_record_map(self, keys, allow_missing=False):
"""Produce a dictionary of knit records.
:return: {key:(record, record_details, digest, next)}
record
data returned from read_records
record_details
opaque information to pass to parse_record
digest
SHA1 digest of the full text after all steps are done
next
build-parent of the version, i.e. the leftmost ancestor.
Will be None if the record is not a delta.
:param keys: The keys to build a map for
:param allow_missing: If some records are missing, rather than
error, just return the data that could be generated.
"""
# This retries the whole request if anything fails. Potentially we
# could be a bit more selective. We could track the keys whose records
# we have successfully found, and then only request the new records
# from there. However, _get_components_positions grabs the whole build
# chain, which means we'll likely try to grab the same records again
# anyway. Also, can the build chains change as part of a pack
# operation? We wouldn't want to end up with a broken chain.
while True:
try:
position_map = self._get_components_positions(keys,
allow_missing=allow_missing)
# key = component_id, r = record_details, i_m = index_memo,
# n = next
records = [(key, i_m) for key, (r, i_m, n)
in position_map.iteritems()]
record_map = {}
for key, record, digest in self._read_records_iter(records):
(record_details, index_memo, next) = position_map[key]
record_map[key] = record, record_details, digest, next
return record_map
except errors.RetryWithNewPacks, e:
self._access.reload_or_raise(e)
def _split_by_prefix(self, keys):
"""For the given keys, split them up based on their prefix.
To keep memory pressure somewhat under control, split the
requests back into per-file-id requests, otherwise "bzr co"
extracts the full tree into memory before writing it to disk.
This should be revisited if _get_content_maps() can ever cross
file-id boundaries.
:param keys: An iterable of key tuples
:return: A dict of {prefix: [key_list]}
"""
split_by_prefix = {}
for key in keys:
if len(key) == 1:
split_by_prefix.setdefault('', []).append(key)
else:
split_by_prefix.setdefault(key[0], []).append(key)
return split_by_prefix
def get_record_stream(self, keys, ordering, include_delta_closure):
"""Get a stream of records for keys.
:param keys: The keys to include.
:param ordering: Either 'unordered' or 'topological'. A topologically
sorted stream has compression parents strictly before their
children.
:param include_delta_closure: If True then the closure across any
compression parents will be included (in the opaque data).
:return: An iterator of ContentFactory objects, each of which is only
valid until the iterator is advanced.
"""
# keys might be a generator
keys = set(keys)
if not keys:
return
if not self._index.has_graph:
# Cannot topological order when no graph has been stored.
ordering = 'unordered'
remaining_keys = keys
while True:
try:
keys = set(remaining_keys)
for content_factory in self._get_remaining_record_stream(keys,
ordering, include_delta_closure):
remaining_keys.discard(content_factory.key)
yield content_factory
return
except errors.RetryWithNewPacks, e:
self._access.reload_or_raise(e)
def _get_remaining_record_stream(self, keys, ordering,
include_delta_closure):
"""This function is the 'retry' portion for get_record_stream."""
if include_delta_closure:
positions = self._get_components_positions(keys, allow_missing=True)
else:
build_details = self._index.get_build_details(keys)
# map from key to
# (record_details, access_memo, compression_parent_key)
positions = dict((key, self._build_details_to_components(details))
for key, details in build_details.iteritems())
absent_keys = keys.difference(set(positions))
# There may be more absent keys : if we're missing the basis component
# and are trying to include the delta closure.
if include_delta_closure:
needed_from_fallback = set()
# Build up reconstructable_keys dict. key:True in this dict means
# the key can be reconstructed.
reconstructable_keys = {}
for key in keys:
# the delta chain
try:
chain = [key, positions[key][2]]
except KeyError:
needed_from_fallback.add(key)
continue
result = True
while chain[-1] is not None:
if chain[-1] in reconstructable_keys:
result = reconstructable_keys[chain[-1]]
break
else:
try:
chain.append(positions[chain[-1]][2])
except KeyError:
# missing basis component
needed_from_fallback.add(chain[-1])
result = True
break
for chain_key in chain[:-1]:
reconstructable_keys[chain_key] = result
if not result:
needed_from_fallback.add(key)
# Double index lookups here : need a unified api ?
global_map, parent_maps = self._get_parent_map_with_sources(keys)
if ordering == 'topological':
# Global topological sort
present_keys = tsort.topo_sort(global_map)
# Now group by source:
source_keys = []
current_source = None
for key in present_keys:
for parent_map in parent_maps:
if key in parent_map:
key_source = parent_map
break
if current_source is not key_source:
source_keys.append((key_source, []))
current_source = key_source
source_keys[-1][1].append(key)
else:
if ordering != 'unordered':
raise AssertionError('valid values for ordering are:'
' "unordered" or "topological" not: %r'
% (ordering,))
# Just group by source; remote sources first.
present_keys = []
source_keys = []
for parent_map in reversed(parent_maps):
source_keys.append((parent_map, []))
for key in parent_map:
present_keys.append(key)
source_keys[-1][1].append(key)
# We have been requested to return these records in an order that
# suits us. So we ask the index to give us an optimally sorted
# order.
for source, sub_keys in source_keys:
if source is parent_maps[0]:
# Only sort the keys for this VF
self._index._sort_keys_by_io(sub_keys, positions)
absent_keys = keys - set(global_map)
for key in absent_keys:
yield AbsentContentFactory(key)
# restrict our view to the keys we can answer.
# XXX: Memory: TODO: batch data here to cap buffered data at (say) 1MB.
# XXX: At that point we need to consider the impact of double reads by
# utilising components multiple times.
if include_delta_closure:
# XXX: get_content_maps performs its own index queries; allow state
# to be passed in.
non_local_keys = needed_from_fallback - absent_keys
prefix_split_keys = self._split_by_prefix(present_keys)
prefix_split_non_local_keys = self._split_by_prefix(non_local_keys)
for prefix, keys in prefix_split_keys.iteritems():
non_local = prefix_split_non_local_keys.get(prefix, [])
non_local = set(non_local)
text_map, _ = self._get_content_maps(keys, non_local)
for key in keys:
lines = text_map.pop(key)
yield ChunkedContentFactory(key, global_map[key], None,
lines)
else:
for source, keys in source_keys:
if source is parent_maps[0]:
# this KnitVersionedFiles
records = [(key, positions[key][1]) for key in keys]
for key, raw_data, sha1 in self._read_records_iter_raw(records):
(record_details, index_memo, _) = positions[key]
yield KnitContentFactory(key, global_map[key],
record_details, sha1, raw_data, self._factory.annotated, None)
else:
vf = self._fallback_vfs[parent_maps.index(source) - 1]
for record in vf.get_record_stream(keys, ordering,
include_delta_closure):
yield record
def get_sha1s(self, keys):
"""See VersionedFiles.get_sha1s()."""
missing = set(keys)
record_map = self._get_record_map(missing, allow_missing=True)
result = {}
for key, details in record_map.iteritems():
if key not in missing:
continue
# record entry 2 is the 'digest'.
result[key] = details[2]
missing.difference_update(set(result))
for source in self._fallback_vfs:
if not missing:
break
new_result = source.get_sha1s(missing)
result.update(new_result)
missing.difference_update(set(new_result))
return result
def insert_record_stream(self, stream):
"""Insert a record stream into this container.
:param stream: A stream of records to insert.
:return: None
:seealso VersionedFiles.get_record_stream:
"""
def get_adapter(adapter_key):
try:
return adapters[adapter_key]
except KeyError:
adapter_factory = adapter_registry.get(adapter_key)
adapter = adapter_factory(self)
adapters[adapter_key] = adapter
return adapter
delta_types = set()
if self._factory.annotated:
# self is annotated, we need annotated knits to use directly.
annotated = "annotated-"
convertibles = []
else:
# self is not annotated, but we can strip annotations cheaply.
annotated = ""
convertibles = set(["knit-annotated-ft-gz"])
if self._max_delta_chain:
delta_types.add("knit-annotated-delta-gz")
convertibles.add("knit-annotated-delta-gz")
# The set of types we can cheaply adapt without needing basis texts.
native_types = set()
if self._max_delta_chain:
native_types.add("knit-%sdelta-gz" % annotated)
delta_types.add("knit-%sdelta-gz" % annotated)
native_types.add("knit-%sft-gz" % annotated)
knit_types = native_types.union(convertibles)
adapters = {}
# Buffer all index entries that we can't add immediately because their
# basis parent is missing. We don't buffer all because generating
# annotations may require access to some of the new records. However we
# can't generate annotations from new deltas until their basis parent
# is present anyway, so we get away with not needing an index that
# includes the new keys.
#
# See <http://launchpad.net/bugs/300177> about ordering of compression
# parents in the records - to be conservative, we insist that all
# parents must be present to avoid expanding to a fulltext.
#
# key = basis_parent, value = index entry to add
buffered_index_entries = {}
for record in stream:
parents = record.parents
if record.storage_kind in delta_types:
# TODO: eventually the record itself should track
# compression_parent
compression_parent = parents[0]
else:
compression_parent = None
# Raise an error when a record is missing.
if record.storage_kind == 'absent':
raise RevisionNotPresent([record.key], self)
elif ((record.storage_kind in knit_types)
and (compression_parent is None
or not self._fallback_vfs
or self._index.has_key(compression_parent)
or not self.has_key(compression_parent))):
# we can insert the knit record literally if either it has no
# compression parent OR we already have its basis in this kvf
# OR the basis is not present even in the fallbacks. In the
# last case it will either turn up later in the stream and all
# will be well, or it won't turn up at all and we'll raise an
# error at the end.
#
# TODO: self.has_key is somewhat redundant with
# self._index.has_key; we really want something that directly
# asks if it's only present in the fallbacks. -- mbp 20081119
if record.storage_kind not in native_types:
try:
adapter_key = (record.storage_kind, "knit-delta-gz")
adapter = get_adapter(adapter_key)
except KeyError:
adapter_key = (record.storage_kind, "knit-ft-gz")
adapter = get_adapter(adapter_key)
bytes = adapter.get_bytes(
record, record.get_bytes_as(record.storage_kind))
else:
bytes = record.get_bytes_as(record.storage_kind)
options = [record._build_details[0]]
if record._build_details[1]:
options.append('no-eol')
# Just blat it across.
# Note: This does end up adding data on duplicate keys. As
# modern repositories use atomic insertions this should not
# lead to excessive growth in the event of interrupted fetches.
# 'knit' repositories may suffer excessive growth, but as a
# deprecated format this is tolerable. It can be fixed if
# needed by in the kndx index support raising on a duplicate
# add with identical parents and options.
access_memo = self._access.add_raw_records(
[(record.key, len(bytes))], bytes)[0]
index_entry = (record.key, options, access_memo, parents)
buffered = False
if 'fulltext' not in options:
# Not a fulltext, so we need to make sure the compression
# parent will also be present.
# Note that pack backed knits don't need to buffer here
# because they buffer all writes to the transaction level,
# but we don't expose that difference at the index level. If
# the query here has sufficient cost to show up in
# profiling we should do that.
#
# They're required to be physically in this
# KnitVersionedFiles, not in a fallback.
if not self._index.has_key(compression_parent):
pending = buffered_index_entries.setdefault(
compression_parent, [])
pending.append(index_entry)
buffered = True
if not buffered:
self._index.add_records([index_entry])
elif record.storage_kind == 'chunked':
self.add_lines(record.key, parents,
osutils.chunks_to_lines(record.get_bytes_as('chunked')))
elif record.storage_kind == 'fulltext':
self.add_lines(record.key, parents,
split_lines(record.get_bytes_as('fulltext')))
else:
# Not a fulltext, and not suitable for direct insertion as a
# delta, either because it's not the right format, or this
# KnitVersionedFiles doesn't permit deltas (_max_delta_chain ==
# 0) or because it depends on a base only present in the
# fallback kvfs.
adapter_key = record.storage_kind, 'fulltext'
adapter = get_adapter(adapter_key)
lines = split_lines(adapter.get_bytes(
record, record.get_bytes_as(record.storage_kind)))
try:
self.add_lines(record.key, parents, lines)
except errors.RevisionAlreadyPresent:
pass
# Add any records whose basis parent is now available.
added_keys = [record.key]
while added_keys:
key = added_keys.pop(0)
if key in buffered_index_entries:
index_entries = buffered_index_entries[key]
self._index.add_records(index_entries)
added_keys.extend(
[index_entry[0] for index_entry in index_entries])
del buffered_index_entries[key]
# If there were any deltas which had a missing basis parent, error.
if buffered_index_entries:
from pprint import pformat
raise errors.BzrCheckError(
"record_stream refers to compression parents not in %r:\n%s"
% (self, pformat(sorted(buffered_index_entries.keys()))))
def iter_lines_added_or_present_in_keys(self, keys, pb=None):
"""Iterate over the lines in the versioned files from keys.
This may return lines from other keys. Each item the returned
iterator yields is a tuple of a line and a text version that that line
is present in (not introduced in).
Ordering of results is in whatever order is most suitable for the
underlying storage format.
If a progress bar is supplied, it may be used to indicate progress.
The caller is responsible for cleaning up progress bars (because this
is an iterator).
NOTES:
* Lines are normalised by the underlying store: they will all have \\n
terminators.
* Lines are returned in arbitrary order.
* If a requested key did not change any lines (or didn't have any
lines), it may not be mentioned at all in the result.
:return: An iterator over (line, key).
"""
if pb is None:
pb = progress.DummyProgress()
keys = set(keys)
total = len(keys)
done = False
while not done:
try:
# we don't care about inclusions, the caller cares.
# but we need to setup a list of records to visit.
# we need key, position, length
key_records = []
build_details = self._index.get_build_details(keys)
for key, details in build_details.iteritems():
if key in keys:
key_records.append((key, details[0]))
records_iter = enumerate(self._read_records_iter(key_records))
for (key_idx, (key, data, sha_value)) in records_iter:
pb.update('Walking content.', key_idx, total)
compression_parent = build_details[key][1]
if compression_parent is None:
# fulltext
line_iterator = self._factory.get_fulltext_content(data)
else:
# Delta
line_iterator = self._factory.get_linedelta_content(data)
# Now that we are yielding the data for this key, remove it
# from the list
keys.remove(key)
# XXX: It might be more efficient to yield (key,
# line_iterator) in the future. However for now, this is a
# simpler change to integrate into the rest of the
# codebase. RBC 20071110
for line in line_iterator:
yield line, key
done = True
except errors.RetryWithNewPacks, e:
self._access.reload_or_raise(e)
# If there are still keys we've not yet found, we look in the fallback
# vfs, and hope to find them there. Note that if the keys are found
# but had no changes or no content, the fallback may not return
# anything.
if keys and not self._fallback_vfs:
# XXX: strictly the second parameter is meant to be the file id
# but it's not easily accessible here.
raise RevisionNotPresent(keys, repr(self))
for source in self._fallback_vfs:
if not keys:
break
source_keys = set()
for line, key in source.iter_lines_added_or_present_in_keys(keys):
source_keys.add(key)
yield line, key
keys.difference_update(source_keys)
pb.update('Walking content.', total, total)
def _make_line_delta(self, delta_seq, new_content):
"""Generate a line delta from delta_seq and new_content."""
diff_hunks = []
for op in delta_seq.get_opcodes():
if op[0] == 'equal':
continue
diff_hunks.append((op[1], op[2], op[4]-op[3], new_content._lines[op[3]:op[4]]))
return diff_hunks
def _merge_annotations(self, content, parents, parent_texts={},
delta=None, annotated=None,
left_matching_blocks=None):
"""Merge annotations for content and generate deltas.
This is done by comparing the annotations based on changes to the text
and generating a delta on the resulting full texts. If annotations are
not being created then a simple delta is created.
"""
if left_matching_blocks is not None:
delta_seq = diff._PrematchedMatcher(left_matching_blocks)
else:
delta_seq = None
if annotated:
for parent_key in parents:
merge_content = self._get_content(parent_key, parent_texts)
if (parent_key == parents[0] and delta_seq is not None):
seq = delta_seq
else:
seq = patiencediff.PatienceSequenceMatcher(
None, merge_content.text(), content.text())
for i, j, n in seq.get_matching_blocks():
if n == 0:
continue
# this copies (origin, text) pairs across to the new
# content for any line that matches the last-checked
# parent.
content._lines[j:j+n] = merge_content._lines[i:i+n]
# XXX: Robert says the following block is a workaround for a
# now-fixed bug and it can probably be deleted. -- mbp 20080618
if content._lines and content._lines[-1][1][-1] != '\n':
# The copied annotation was from a line without a trailing EOL,
# reinstate one for the content object, to ensure correct
# serialization.
line = content._lines[-1][1] + '\n'
content._lines[-1] = (content._lines[-1][0], line)
if delta:
if delta_seq is None:
reference_content = self._get_content(parents[0], parent_texts)
new_texts = content.text()
old_texts = reference_content.text()
delta_seq = patiencediff.PatienceSequenceMatcher(
None, old_texts, new_texts)
return self._make_line_delta(delta_seq, content)
def _parse_record(self, version_id, data):
"""Parse an original format knit record.
These have the last element of the key only present in the stored data.
"""
rec, record_contents = self._parse_record_unchecked(data)
self._check_header_version(rec, version_id)
return record_contents, rec[3]
def _parse_record_header(self, key, raw_data):
"""Parse a record header for consistency.
:return: the header and the decompressor stream.
as (stream, header_record)
"""
df = tuned_gzip.GzipFile(mode='rb', fileobj=StringIO(raw_data))
try:
# Current serialise
rec = self._check_header(key, df.readline())
except Exception, e:
raise KnitCorrupt(self,
"While reading {%s} got %s(%s)"
% (key, e.__class__.__name__, str(e)))
return df, rec
def _parse_record_unchecked(self, data):
# profiling notes:
# 4168 calls in 2880 217 internal
# 4168 calls to _parse_record_header in 2121
# 4168 calls to readlines in 330
df = tuned_gzip.GzipFile(mode='rb', fileobj=StringIO(data))
try:
record_contents = df.readlines()
except Exception, e:
raise KnitCorrupt(self, "Corrupt compressed record %r, got %s(%s)" %
(data, e.__class__.__name__, str(e)))
header = record_contents.pop(0)
rec = self._split_header(header)
last_line = record_contents.pop()
if len(record_contents) != int(rec[2]):
raise KnitCorrupt(self,
'incorrect number of lines %s != %s'
' for version {%s} %s'
% (len(record_contents), int(rec[2]),
rec[1], record_contents))
if last_line != 'end %s\n' % rec[1]:
raise KnitCorrupt(self,
'unexpected version end line %r, wanted %r'
% (last_line, rec[1]))
df.close()
return rec, record_contents
def _read_records_iter(self, records):
"""Read text records from data file and yield result.
The result will be returned in whatever is the fastest to read.
Not by the order requested. Also, multiple requests for the same
record will only yield 1 response.
:param records: A list of (key, access_memo) entries
:return: Yields (key, contents, digest) in the order
read, not the order requested
"""
if not records:
return
# XXX: This smells wrong, IO may not be getting ordered right.
needed_records = sorted(set(records), key=operator.itemgetter(1))
if not needed_records:
return
# The transport optimizes the fetching as well
# (ie, reads continuous ranges.)
raw_data = self._access.get_raw_records(
[index_memo for key, index_memo in needed_records])
for (key, index_memo), data in \
izip(iter(needed_records), raw_data):
content, digest = self._parse_record(key[-1], data)
yield key, content, digest
def _read_records_iter_raw(self, records):
"""Read text records from data file and yield raw data.
This unpacks enough of the text record to validate the id is
as expected but thats all.
Each item the iterator yields is (key, bytes, sha1_of_full_text).
"""
# setup an iterator of the external records:
# uses readv so nice and fast we hope.
if len(records):
# grab the disk data needed.
needed_offsets = [index_memo for key, index_memo
in records]
raw_records = self._access.get_raw_records(needed_offsets)
for key, index_memo in records:
data = raw_records.next()
# validate the header (note that we can only use the suffix in
# current knit records).
df, rec = self._parse_record_header(key, data)
df.close()
yield key, data, rec[3]
def _record_to_data(self, key, digest, lines, dense_lines=None):
"""Convert key, digest, lines into a raw data block.
:param key: The key of the record. Currently keys are always serialised
using just the trailing component.
:param dense_lines: The bytes of lines but in a denser form. For
instance, if lines is a list of 1000 bytestrings each ending in \n,
dense_lines may be a list with one line in it, containing all the
1000's lines and their \n's. Using dense_lines if it is already
known is a win because the string join to create bytes in this
function spends less time resizing the final string.
:return: (len, a StringIO instance with the raw data ready to read.)
"""
# Note: using a string copy here increases memory pressure with e.g.
# ISO's, but it is about 3 seconds faster on a 1.2Ghz intel machine
# when doing the initial commit of a mozilla tree. RBC 20070921
bytes = ''.join(chain(
["version %s %d %s\n" % (key[-1],
len(lines),
digest)],
dense_lines or lines,
["end %s\n" % key[-1]]))
if type(bytes) != str:
raise AssertionError(
'data must be plain bytes was %s' % type(bytes))
if lines and lines[-1][-1] != '\n':
raise ValueError('corrupt lines value %r' % lines)
compressed_bytes = tuned_gzip.bytes_to_gzip(bytes)
return len(compressed_bytes), compressed_bytes
def _split_header(self, line):
rec = line.split()
if len(rec) != 4:
raise KnitCorrupt(self,
'unexpected number of elements in record header')
return rec
def keys(self):
"""See VersionedFiles.keys."""
if 'evil' in debug.debug_flags:
trace.mutter_callsite(2, "keys scales with size of history")
sources = [self._index] + self._fallback_vfs
result = set()
for source in sources:
result.update(source.keys())
return result
class _KndxIndex(object):
"""Manages knit index files
The index is kept in memory and read on startup, to enable
fast lookups of revision information. The cursor of the index
file is always pointing to the end, making it easy to append
entries.
_cache is a cache for fast mapping from version id to a Index
object.
_history is a cache for fast mapping from indexes to version ids.
The index data format is dictionary compressed when it comes to
parent references; a index entry may only have parents that with a
lover index number. As a result, the index is topological sorted.
Duplicate entries may be written to the index for a single version id
if this is done then the latter one completely replaces the former:
this allows updates to correct version and parent information.
Note that the two entries may share the delta, and that successive
annotations and references MUST point to the first entry.
The index file on disc contains a header, followed by one line per knit
record. The same revision can be present in an index file more than once.
The first occurrence gets assigned a sequence number starting from 0.
The format of a single line is
REVISION_ID FLAGS BYTE_OFFSET LENGTH( PARENT_ID|PARENT_SEQUENCE_ID)* :\n
REVISION_ID is a utf8-encoded revision id
FLAGS is a comma separated list of flags about the record. Values include
no-eol, line-delta, fulltext.
BYTE_OFFSET is the ascii representation of the byte offset in the data file
that the the compressed data starts at.
LENGTH is the ascii representation of the length of the data file.
PARENT_ID a utf-8 revision id prefixed by a '.' that is a parent of
REVISION_ID.
PARENT_SEQUENCE_ID the ascii representation of the sequence number of a
revision id already in the knit that is a parent of REVISION_ID.
The ' :' marker is the end of record marker.
partial writes:
when a write is interrupted to the index file, it will result in a line
that does not end in ' :'. If the ' :' is not present at the end of a line,
or at the end of the file, then the record that is missing it will be
ignored by the parser.
When writing new records to the index file, the data is preceded by '\n'
to ensure that records always start on new lines even if the last write was
interrupted. As a result its normal for the last line in the index to be
missing a trailing newline. One can be added with no harmful effects.
:ivar _kndx_cache: dict from prefix to the old state of KnitIndex objects,
where prefix is e.g. the (fileid,) for .texts instances or () for
constant-mapped things like .revisions, and the old state is
tuple(history_vector, cache_dict). This is used to prevent having an
ABI change with the C extension that reads .kndx files.
"""
HEADER = "# bzr knit index 8\n"
def __init__(self, transport, mapper, get_scope, allow_writes, is_locked):
"""Create a _KndxIndex on transport using mapper."""
self._transport = transport
self._mapper = mapper
self._get_scope = get_scope
self._allow_writes = allow_writes
self._is_locked = is_locked
self._reset_cache()
self.has_graph = True
def add_records(self, records, random_id=False):
"""Add multiple records to the index.
:param records: a list of tuples:
(key, options, access_memo, parents).
:param random_id: If True the ids being added were randomly generated
and no check for existence will be performed.
"""
paths = {}
for record in records:
key = record[0]
prefix = key[:-1]
path = self._mapper.map(key) + '.kndx'
path_keys = paths.setdefault(path, (prefix, []))
path_keys[1].append(record)
for path in sorted(paths):
prefix, path_keys = paths[path]
self._load_prefixes([prefix])
lines = []
orig_history = self._kndx_cache[prefix][1][:]
orig_cache = self._kndx_cache[prefix][0].copy()
try:
for key, options, (_, pos, size), parents in path_keys:
if parents is None:
# kndx indices cannot be parentless.
parents = ()
line = "\n%s %s %s %s %s :" % (
key[-1], ','.join(options), pos, size,
self._dictionary_compress(parents))
if type(line) != str:
raise AssertionError(
'data must be utf8 was %s' % type(line))
lines.append(line)
self._cache_key(key, options, pos, size, parents)
if len(orig_history):
self._transport.append_bytes(path, ''.join(lines))
else:
self._init_index(path, lines)
except:
# If any problems happen, restore the original values and re-raise
self._kndx_cache[prefix] = (orig_cache, orig_history)
raise
def _cache_key(self, key, options, pos, size, parent_keys):
"""Cache a version record in the history array and index cache.
This is inlined into _load_data for performance. KEEP IN SYNC.
(It saves 60ms, 25% of the __init__ overhead on local 4000 record
indexes).
"""
prefix = key[:-1]
version_id = key[-1]
# last-element only for compatibilty with the C load_data.
parents = tuple(parent[-1] for parent in parent_keys)
for parent in parent_keys:
if parent[:-1] != prefix:
raise ValueError("mismatched prefixes for %r, %r" % (
key, parent_keys))
cache, history = self._kndx_cache[prefix]
# only want the _history index to reference the 1st index entry
# for version_id
if version_id not in cache:
index = len(history)
history.append(version_id)
else:
index = cache[version_id][5]
cache[version_id] = (version_id,
options,
pos,
size,
parents,
index)
def check_header(self, fp):
line = fp.readline()
if line == '':
# An empty file can actually be treated as though the file doesn't
# exist yet.
raise errors.NoSuchFile(self)
if line != self.HEADER:
raise KnitHeaderError(badline=line, filename=self)
def _check_read(self):
if not self._is_locked():
raise errors.ObjectNotLocked(self)
if self._get_scope() != self._scope:
self._reset_cache()
def _check_write_ok(self):
"""Assert if not writes are permitted."""
if not self._is_locked():
raise errors.ObjectNotLocked(self)
if self._get_scope() != self._scope:
self._reset_cache()
if self._mode != 'w':
raise errors.ReadOnlyObjectDirtiedError(self)
def get_build_details(self, keys):
"""Get the method, index_memo and compression parent for keys.
Ghosts are omitted from the result.
:param keys: An iterable of keys.
:return: A dict of key:(index_memo, compression_parent, parents,
record_details).
index_memo
opaque structure to pass to read_records to extract the raw
data
compression_parent
Content that this record is built upon, may be None
parents
Logical parents of this node
record_details
extra information about the content which needs to be passed to
Factory.parse_record
"""
parent_map = self.get_parent_map(keys)
result = {}
for key in keys:
if key not in parent_map:
continue # Ghost
method = self.get_method(key)
parents = parent_map[key]
if method == 'fulltext':
compression_parent = None
else:
compression_parent = parents[0]
noeol = 'no-eol' in self.get_options(key)
index_memo = self.get_position(key)
result[key] = (index_memo, compression_parent,
parents, (method, noeol))
return result
def get_method(self, key):
"""Return compression method of specified key."""
options = self.get_options(key)
if 'fulltext' in options:
return 'fulltext'
elif 'line-delta' in options:
return 'line-delta'
else:
raise errors.KnitIndexUnknownMethod(self, options)
def get_options(self, key):
"""Return a list representing options.
e.g. ['foo', 'bar']
"""
prefix, suffix = self._split_key(key)
self._load_prefixes([prefix])
try:
return self._kndx_cache[prefix][0][suffix][1]
except KeyError:
raise RevisionNotPresent(key, self)
def get_parent_map(self, keys):
"""Get a map of the parents of keys.
:param keys: The keys to look up parents for.
:return: A mapping from keys to parents. Absent keys are absent from
the mapping.
"""
# Parse what we need to up front, this potentially trades off I/O
# locality (.kndx and .knit in the same block group for the same file
# id) for less checking in inner loops.
prefixes = set(key[:-1] for key in keys)
self._load_prefixes(prefixes)
result = {}
for key in keys:
prefix = key[:-1]
try:
suffix_parents = self._kndx_cache[prefix][0][key[-1]][4]
except KeyError:
pass
else:
result[key] = tuple(prefix + (suffix,) for
suffix in suffix_parents)
return result
def get_position(self, key):
"""Return details needed to access the version.
:return: a tuple (key, data position, size) to hand to the access
logic to get the record.
"""
prefix, suffix = self._split_key(key)
self._load_prefixes([prefix])
entry = self._kndx_cache[prefix][0][suffix]
return key, entry[2], entry[3]
has_key = _mod_index._has_key_from_parent_map
def _init_index(self, path, extra_lines=[]):
"""Initialize an index."""
sio = StringIO()
sio.write(self.HEADER)
sio.writelines(extra_lines)
sio.seek(0)
self._transport.put_file_non_atomic(path, sio,
create_parent_dir=True)
# self._create_parent_dir)
# mode=self._file_mode,
# dir_mode=self._dir_mode)
def keys(self):
"""Get all the keys in the collection.
The keys are not ordered.
"""
result = set()
# Identify all key prefixes.
# XXX: A bit hacky, needs polish.
if type(self._mapper) == ConstantMapper:
prefixes = [()]
else:
relpaths = set()
for quoted_relpath in self._transport.iter_files_recursive():
path, ext = os.path.splitext(quoted_relpath)
relpaths.add(path)
prefixes = [self._mapper.unmap(path) for path in relpaths]
self._load_prefixes(prefixes)
for prefix in prefixes:
for suffix in self._kndx_cache[prefix][1]:
result.add(prefix + (suffix,))
return result
def _load_prefixes(self, prefixes):
"""Load the indices for prefixes."""
self._check_read()
for prefix in prefixes:
if prefix not in self._kndx_cache:
# the load_data interface writes to these variables.
self._cache = {}
self._history = []
self._filename = prefix
try:
path = self._mapper.map(prefix) + '.kndx'
fp = self._transport.get(path)
try:
# _load_data may raise NoSuchFile if the target knit is
# completely empty.
_load_data(self, fp)
finally:
fp.close()
self._kndx_cache[prefix] = (self._cache, self._history)
del self._cache
del self._filename
del self._history
except NoSuchFile:
self._kndx_cache[prefix] = ({}, [])
if type(self._mapper) == ConstantMapper:
# preserve behaviour for revisions.kndx etc.
self._init_index(path)
del self._cache
del self._filename
del self._history
missing_keys = _mod_index._missing_keys_from_parent_map
def _partition_keys(self, keys):
"""Turn keys into a dict of prefix:suffix_list."""
result = {}
for key in keys:
prefix_keys = result.setdefault(key[:-1], [])
prefix_keys.append(key[-1])
return result
def _dictionary_compress(self, keys):
"""Dictionary compress keys.
:param keys: The keys to generate references to.
:return: A string representation of keys. keys which are present are
dictionary compressed, and others are emitted as fulltext with a
'.' prefix.
"""
if not keys:
return ''
result_list = []
prefix = keys[0][:-1]
cache = self._kndx_cache[prefix][0]
for key in keys:
if key[:-1] != prefix:
# kndx indices cannot refer across partitioned storage.
raise ValueError("mismatched prefixes for %r" % keys)
if key[-1] in cache:
# -- inlined lookup() --
result_list.append(str(cache[key[-1]][5]))
# -- end lookup () --
else:
result_list.append('.' + key[-1])
return ' '.join(result_list)
def _reset_cache(self):
# Possibly this should be a LRU cache. A dictionary from key_prefix to
# (cache_dict, history_vector) for parsed kndx files.
self._kndx_cache = {}
self._scope = self._get_scope()
allow_writes = self._allow_writes()
if allow_writes:
self._mode = 'w'
else:
self._mode = 'r'
def _sort_keys_by_io(self, keys, positions):
"""Figure out an optimal order to read the records for the given keys.
Sort keys, grouped by index and sorted by position.
:param keys: A list of keys whose records we want to read. This will be
sorted 'in-place'.
:param positions: A dict, such as the one returned by
_get_components_positions()
:return: None
"""
def get_sort_key(key):
index_memo = positions[key][1]
# Group by prefix and position. index_memo[0] is the key, so it is
# (file_id, revision_id) and we don't want to sort on revision_id,
# index_memo[1] is the position, and index_memo[2] is the size,
# which doesn't matter for the sort
return index_memo[0][:-1], index_memo[1]
return keys.sort(key=get_sort_key)
def _split_key(self, key):
"""Split key into a prefix and suffix."""
return key[:-1], key[-1]
class _KnitGraphIndex(object):
"""A KnitVersionedFiles index layered on GraphIndex."""
def __init__(self, graph_index, is_locked, deltas=False, parents=True,
add_callback=None):
"""Construct a KnitGraphIndex on a graph_index.
:param graph_index: An implementation of bzrlib.index.GraphIndex.
:param is_locked: A callback to check whether the object should answer
queries.
:param deltas: Allow delta-compressed records.
:param parents: If True, record knits parents, if not do not record
parents.
:param add_callback: If not None, allow additions to the index and call
this callback with a list of added GraphIndex nodes:
[(node, value, node_refs), ...]
:param is_locked: A callback, returns True if the index is locked and
thus usable.
"""
self._add_callback = add_callback
self._graph_index = graph_index
self._deltas = deltas
self._parents = parents
if deltas and not parents:
# XXX: TODO: Delta tree and parent graph should be conceptually
# separate.
raise KnitCorrupt(self, "Cannot do delta compression without "
"parent tracking.")
self.has_graph = parents
self._is_locked = is_locked
def __repr__(self):
return "%s(%r)" % (self.__class__.__name__, self._graph_index)
def add_records(self, records, random_id=False):
"""Add multiple records to the index.
This function does not insert data into the Immutable GraphIndex
backing the KnitGraphIndex, instead it prepares data for insertion by
the caller and checks that it is safe to insert then calls
self._add_callback with the prepared GraphIndex nodes.
:param records: a list of tuples:
(key, options, access_memo, parents).
:param random_id: If True the ids being added were randomly generated
and no check for existence will be performed.
"""
if not self._add_callback:
raise errors.ReadOnlyError(self)
# we hope there are no repositories with inconsistent parentage
# anymore.
keys = {}
for (key, options, access_memo, parents) in records:
if self._parents:
parents = tuple(parents)
index, pos, size = access_memo
if 'no-eol' in options:
value = 'N'
else:
value = ' '
value += "%d %d" % (pos, size)
if not self._deltas:
if 'line-delta' in options:
raise KnitCorrupt(self, "attempt to add line-delta in non-delta knit")
if self._parents:
if self._deltas:
if 'line-delta' in options:
node_refs = (parents, (parents[0],))
else:
node_refs = (parents, ())
else:
node_refs = (parents, )
else:
if parents:
raise KnitCorrupt(self, "attempt to add node with parents "
"in parentless index.")
node_refs = ()
keys[key] = (value, node_refs)
# check for dups
if not random_id:
present_nodes = self._get_entries(keys)
for (index, key, value, node_refs) in present_nodes:
if (value[0] != keys[key][0][0] or
node_refs != keys[key][1]):
raise KnitCorrupt(self, "inconsistent details in add_records"
": %s %s" % ((value, node_refs), keys[key]))
del keys[key]
result = []
if self._parents:
for key, (value, node_refs) in keys.iteritems():
result.append((key, value, node_refs))
else:
for key, (value, node_refs) in keys.iteritems():
result.append((key, value))
self._add_callback(result)
def _check_read(self):
"""raise if reads are not permitted."""
if not self._is_locked():
raise errors.ObjectNotLocked(self)
def _check_write_ok(self):
"""Assert if writes are not permitted."""
if not self._is_locked():
raise errors.ObjectNotLocked(self)
def _compression_parent(self, an_entry):
# return the key that an_entry is compressed against, or None
# Grab the second parent list (as deltas implies parents currently)
compression_parents = an_entry[3][1]
if not compression_parents:
return None
if len(compression_parents) != 1:
raise AssertionError(
"Too many compression parents: %r" % compression_parents)
return compression_parents[0]
def get_build_details(self, keys):
"""Get the method, index_memo and compression parent for version_ids.
Ghosts are omitted from the result.
:param keys: An iterable of keys.
:return: A dict of key:
(index_memo, compression_parent, parents, record_details).
index_memo
opaque structure to pass to read_records to extract the raw
data
compression_parent
Content that this record is built upon, may be None
parents
Logical parents of this node
record_details
extra information about the content which needs to be passed to
Factory.parse_record
"""
self._check_read()
result = {}
entries = self._get_entries(keys, False)
for entry in entries:
key = entry[1]
if not self._parents:
parents = ()
else:
parents = entry[3][0]
if not self._deltas:
compression_parent_key = None
else:
compression_parent_key = self._compression_parent(entry)
noeol = (entry[2][0] == 'N')
if compression_parent_key:
method = 'line-delta'
else:
method = 'fulltext'
result[key] = (self._node_to_position(entry),
compression_parent_key, parents,
(method, noeol))
return result
def _get_entries(self, keys, check_present=False):
"""Get the entries for keys.
:param keys: An iterable of index key tuples.
"""
keys = set(keys)
found_keys = set()
if self._parents:
for node in self._graph_index.iter_entries(keys):
yield node
found_keys.add(node[1])
else:
# adapt parentless index to the rest of the code.
for node in self._graph_index.iter_entries(keys):
yield node[0], node[1], node[2], ()
found_keys.add(node[1])
if check_present:
missing_keys = keys.difference(found_keys)
if missing_keys:
raise RevisionNotPresent(missing_keys.pop(), self)
def get_method(self, key):
"""Return compression method of specified key."""
return self._get_method(self._get_node(key))
def _get_method(self, node):
if not self._deltas:
return 'fulltext'
if self._compression_parent(node):
return 'line-delta'
else:
return 'fulltext'
def _get_node(self, key):
try:
return list(self._get_entries([key]))[0]
except IndexError:
raise RevisionNotPresent(key, self)
def get_options(self, key):
"""Return a list representing options.
e.g. ['foo', 'bar']
"""
node = self._get_node(key)
options = [self._get_method(node)]
if node[2][0] == 'N':
options.append('no-eol')
return options
def get_parent_map(self, keys):
"""Get a map of the parents of keys.
:param keys: The keys to look up parents for.
:return: A mapping from keys to parents. Absent keys are absent from
the mapping.
"""
self._check_read()
nodes = self._get_entries(keys)
result = {}
if self._parents:
for node in nodes:
result[node[1]] = node[3][0]
else:
for node in nodes:
result[node[1]] = None
return result
def get_position(self, key):
"""Return details needed to access the version.
:return: a tuple (index, data position, size) to hand to the access
logic to get the record.
"""
node = self._get_node(key)
return self._node_to_position(node)
has_key = _mod_index._has_key_from_parent_map
def keys(self):
"""Get all the keys in the collection.
The keys are not ordered.
"""
self._check_read()
return [node[1] for node in self._graph_index.iter_all_entries()]
missing_keys = _mod_index._missing_keys_from_parent_map
def _node_to_position(self, node):
"""Convert an index value to position details."""
bits = node[2][1:].split(' ')
return node[0], int(bits[0]), int(bits[1])
def _sort_keys_by_io(self, keys, positions):
"""Figure out an optimal order to read the records for the given keys.
Sort keys, grouped by index and sorted by position.
:param keys: A list of keys whose records we want to read. This will be
sorted 'in-place'.
:param positions: A dict, such as the one returned by
_get_components_positions()
:return: None
"""
def get_index_memo(key):
# index_memo is at offset [1]. It is made up of (GraphIndex,
# position, size). GI is an object, which will be unique for each
# pack file. This causes us to group by pack file, then sort by
# position. Size doesn't matter, but it isn't worth breaking up the
# tuple.
return positions[key][1]
return keys.sort(key=get_index_memo)
class _KnitKeyAccess(object):
"""Access to records in .knit files."""
def __init__(self, transport, mapper):
"""Create a _KnitKeyAccess with transport and mapper.
:param transport: The transport the access object is rooted at.
:param mapper: The mapper used to map keys to .knit files.
"""
self._transport = transport
self._mapper = mapper
def add_raw_records(self, key_sizes, raw_data):
"""Add raw knit bytes to a storage area.
The data is spooled to the container writer in one bytes-record per
raw data item.
:param sizes: An iterable of tuples containing the key and size of each
raw data segment.
:param raw_data: A bytestring containing the data.
:return: A list of memos to retrieve the record later. Each memo is an
opaque index memo. For _KnitKeyAccess the memo is (key, pos,
length), where the key is the record key.
"""
if type(raw_data) != str:
raise AssertionError(
'data must be plain bytes was %s' % type(raw_data))
result = []
offset = 0
# TODO: This can be tuned for writing to sftp and other servers where
# append() is relatively expensive by grouping the writes to each key
# prefix.
for key, size in key_sizes:
path = self._mapper.map(key)
try:
base = self._transport.append_bytes(path + '.knit',
raw_data[offset:offset+size])
except errors.NoSuchFile:
self._transport.mkdir(osutils.dirname(path))
base = self._transport.append_bytes(path + '.knit',
raw_data[offset:offset+size])
# if base == 0:
# chmod.
offset += size
result.append((key, base, size))
return result
def get_raw_records(self, memos_for_retrieval):
"""Get the raw bytes for a records.
:param memos_for_retrieval: An iterable containing the access memo for
retrieving the bytes.
:return: An iterator over the bytes of the records.
"""
# first pass, group into same-index request to minimise readv's issued.
request_lists = []
current_prefix = None
for (key, offset, length) in memos_for_retrieval:
if current_prefix == key[:-1]:
current_list.append((offset, length))
else:
if current_prefix is not None:
request_lists.append((current_prefix, current_list))
current_prefix = key[:-1]
current_list = [(offset, length)]
# handle the last entry
if current_prefix is not None:
request_lists.append((current_prefix, current_list))
for prefix, read_vector in request_lists:
path = self._mapper.map(prefix) + '.knit'
for pos, data in self._transport.readv(path, read_vector):
yield data
class _DirectPackAccess(object):
"""Access to data in one or more packs with less translation."""
def __init__(self, index_to_packs, reload_func=None):
"""Create a _DirectPackAccess object.
:param index_to_packs: A dict mapping index objects to the transport
and file names for obtaining data.
:param reload_func: A function to call if we determine that the pack
files have moved and we need to reload our caches. See
bzrlib.repo_fmt.pack_repo.AggregateIndex for more details.
"""
self._container_writer = None
self._write_index = None
self._indices = index_to_packs
self._reload_func = reload_func
def add_raw_records(self, key_sizes, raw_data):
"""Add raw knit bytes to a storage area.
The data is spooled to the container writer in one bytes-record per
raw data item.
:param sizes: An iterable of tuples containing the key and size of each
raw data segment.
:param raw_data: A bytestring containing the data.
:return: A list of memos to retrieve the record later. Each memo is an
opaque index memo. For _DirectPackAccess the memo is (index, pos,
length), where the index field is the write_index object supplied
to the PackAccess object.
"""
if type(raw_data) != str:
raise AssertionError(
'data must be plain bytes was %s' % type(raw_data))
result = []
offset = 0
for key, size in key_sizes:
p_offset, p_length = self._container_writer.add_bytes_record(
raw_data[offset:offset+size], [])
offset += size
result.append((self._write_index, p_offset, p_length))
return result
def get_raw_records(self, memos_for_retrieval):
"""Get the raw bytes for a records.
:param memos_for_retrieval: An iterable containing the (index, pos,
length) memo for retrieving the bytes. The Pack access method
looks up the pack to use for a given record in its index_to_pack
map.
:return: An iterator over the bytes of the records.
"""
# first pass, group into same-index requests
request_lists = []
current_index = None
for (index, offset, length) in memos_for_retrieval:
if current_index == index:
current_list.append((offset, length))
else:
if current_index is not None:
request_lists.append((current_index, current_list))
current_index = index
current_list = [(offset, length)]
# handle the last entry
if current_index is not None:
request_lists.append((current_index, current_list))
for index, offsets in request_lists:
try:
transport, path = self._indices[index]
except KeyError:
# A KeyError here indicates that someone has triggered an index
# reload, and this index has gone missing, we need to start
# over.
if self._reload_func is None:
# If we don't have a _reload_func there is nothing that can
# be done
raise
raise errors.RetryWithNewPacks(index,
reload_occurred=True,
exc_info=sys.exc_info())
try:
reader = pack.make_readv_reader(transport, path, offsets)
for names, read_func in reader.iter_records():
yield read_func(None)
except errors.NoSuchFile:
# A NoSuchFile error indicates that a pack file has gone
# missing on disk, we need to trigger a reload, and start over.
if self._reload_func is None:
raise
raise errors.RetryWithNewPacks(transport.abspath(path),
reload_occurred=False,
exc_info=sys.exc_info())
def set_writer(self, writer, index, transport_packname):
"""Set a writer to use for adding data."""
if index is not None:
self._indices[index] = transport_packname
self._container_writer = writer
self._write_index = index
def reload_or_raise(self, retry_exc):
"""Try calling the reload function, or re-raise the original exception.
This should be called after _DirectPackAccess raises a
RetryWithNewPacks exception. This function will handle the common logic
of determining when the error is fatal versus being temporary.
It will also make sure that the original exception is raised, rather
than the RetryWithNewPacks exception.
If this function returns, then the calling function should retry
whatever operation was being performed. Otherwise an exception will
be raised.
:param retry_exc: A RetryWithNewPacks exception.
"""
is_error = False
if self._reload_func is None:
is_error = True
elif not self._reload_func():
# The reload claimed that nothing changed
if not retry_exc.reload_occurred:
# If there wasn't an earlier reload, then we really were
# expecting to find changes. We didn't find them, so this is a
# hard error
is_error = True
if is_error:
exc_class, exc_value, exc_traceback = retry_exc.exc_info
raise exc_class, exc_value, exc_traceback
# Deprecated, use PatienceSequenceMatcher instead
KnitSequenceMatcher = patiencediff.PatienceSequenceMatcher
def annotate_knit(knit, revision_id):
"""Annotate a knit with no cached annotations.
This implementation is for knits with no cached annotations.
It will work for knits with cached annotations, but this is not
recommended.
"""
annotator = _KnitAnnotator(knit)
return iter(annotator.annotate(revision_id))
class _KnitAnnotator(object):
"""Build up the annotations for a text."""
def __init__(self, knit):
self._knit = knit
# Content objects, differs from fulltexts because of how final newlines
# are treated by knits. the content objects here will always have a
# final newline
self._fulltext_contents = {}
# Annotated lines of specific revisions
self._annotated_lines = {}
# Track the raw data for nodes that we could not process yet.
# This maps the revision_id of the base to a list of children that will
# annotated from it.
self._pending_children = {}
# Nodes which cannot be extracted
self._ghosts = set()
# Track how many children this node has, so we know if we need to keep
# it
self._annotate_children = {}
self._compression_children = {}
self._all_build_details = {}
# The children => parent revision_id graph
self._revision_id_graph = {}
self._heads_provider = None
self._nodes_to_keep_annotations = set()
self._generations_until_keep = 100
def set_generations_until_keep(self, value):
"""Set the number of generations before caching a node.
Setting this to -1 will cache every merge node, setting this higher
will cache fewer nodes.
"""
self._generations_until_keep = value
def _add_fulltext_content(self, revision_id, content_obj):
self._fulltext_contents[revision_id] = content_obj
# TODO: jam 20080305 It might be good to check the sha1digest here
return content_obj.text()
def _check_parents(self, child, nodes_to_annotate):
"""Check if all parents have been processed.
:param child: A tuple of (rev_id, parents, raw_content)
:param nodes_to_annotate: If child is ready, add it to
nodes_to_annotate, otherwise put it back in self._pending_children
"""
for parent_id in child[1]:
if (parent_id not in self._annotated_lines):
# This parent is present, but another parent is missing
self._pending_children.setdefault(parent_id,
[]).append(child)
break
else:
# This one is ready to be processed
nodes_to_annotate.append(child)
def _add_annotation(self, revision_id, fulltext, parent_ids,
left_matching_blocks=None):
"""Add an annotation entry.
All parents should already have been annotated.
:return: A list of children that now have their parents satisfied.
"""
a = self._annotated_lines
annotated_parent_lines = [a[p] for p in parent_ids]
annotated_lines = list(annotate.reannotate(annotated_parent_lines,
fulltext, revision_id, left_matching_blocks,
heads_provider=self._get_heads_provider()))
self._annotated_lines[revision_id] = annotated_lines
for p in parent_ids:
ann_children = self._annotate_children[p]
ann_children.remove(revision_id)
if (not ann_children
and p not in self._nodes_to_keep_annotations):
del self._annotated_lines[p]
del self._all_build_details[p]
if p in self._fulltext_contents:
del self._fulltext_contents[p]
# Now that we've added this one, see if there are any pending
# deltas to be done, certainly this parent is finished
nodes_to_annotate = []
for child in self._pending_children.pop(revision_id, []):
self._check_parents(child, nodes_to_annotate)
return nodes_to_annotate
def _get_build_graph(self, key):
"""Get the graphs for building texts and annotations.
The data you need for creating a full text may be different than the
data you need to annotate that text. (At a minimum, you need both
parents to create an annotation, but only need 1 parent to generate the
fulltext.)
:return: A list of (key, index_memo) records, suitable for
passing to read_records_iter to start reading in the raw data fro/
the pack file.
"""
if key in self._annotated_lines:
# Nothing to do
return []
pending = set([key])
records = []
generation = 0
kept_generation = 0
while pending:
# get all pending nodes
generation += 1
this_iteration = pending
build_details = self._knit._index.get_build_details(this_iteration)
self._all_build_details.update(build_details)
# new_nodes = self._knit._index._get_entries(this_iteration)
pending = set()
for key, details in build_details.iteritems():
(index_memo, compression_parent, parents,
record_details) = details
self._revision_id_graph[key] = parents
records.append((key, index_memo))
# Do we actually need to check _annotated_lines?
pending.update(p for p in parents
if p not in self._all_build_details)
if compression_parent:
self._compression_children.setdefault(compression_parent,
[]).append(key)
if parents:
for parent in parents:
self._annotate_children.setdefault(parent,
[]).append(key)
num_gens = generation - kept_generation
if ((num_gens >= self._generations_until_keep)
and len(parents) > 1):
kept_generation = generation
self._nodes_to_keep_annotations.add(key)
missing_versions = this_iteration.difference(build_details.keys())
self._ghosts.update(missing_versions)
for missing_version in missing_versions:
# add a key, no parents
self._revision_id_graph[missing_version] = ()
pending.discard(missing_version) # don't look for it
if self._ghosts.intersection(self._compression_children):
raise KnitCorrupt(
"We cannot have nodes which have a ghost compression parent:\n"
"ghosts: %r\n"
"compression children: %r"
% (self._ghosts, self._compression_children))
# Cleanout anything that depends on a ghost so that we don't wait for
# the ghost to show up
for node in self._ghosts:
if node in self._annotate_children:
# We won't be building this node
del self._annotate_children[node]
# Generally we will want to read the records in reverse order, because
# we find the parent nodes after the children
records.reverse()
return records
def _annotate_records(self, records):
"""Build the annotations for the listed records."""
# We iterate in the order read, rather than a strict order requested
# However, process what we can, and put off to the side things that
# still need parents, cleaning them up when those parents are
# processed.
for (rev_id, record,
digest) in self._knit._read_records_iter(records):
if rev_id in self._annotated_lines:
continue
parent_ids = self._revision_id_graph[rev_id]
parent_ids = [p for p in parent_ids if p not in self._ghosts]
details = self._all_build_details[rev_id]
(index_memo, compression_parent, parents,
record_details) = details
nodes_to_annotate = []
# TODO: Remove the punning between compression parents, and
# parent_ids, we should be able to do this without assuming
# the build order
if len(parent_ids) == 0:
# There are no parents for this node, so just add it
# TODO: This probably needs to be decoupled
fulltext_content, delta = self._knit._factory.parse_record(
rev_id, record, record_details, None)
fulltext = self._add_fulltext_content(rev_id, fulltext_content)
nodes_to_annotate.extend(self._add_annotation(rev_id, fulltext,
parent_ids, left_matching_blocks=None))
else:
child = (rev_id, parent_ids, record)
# Check if all the parents are present
self._check_parents(child, nodes_to_annotate)
while nodes_to_annotate:
# Should we use a queue here instead of a stack?
(rev_id, parent_ids, record) = nodes_to_annotate.pop()
(index_memo, compression_parent, parents,
record_details) = self._all_build_details[rev_id]
blocks = None
if compression_parent is not None:
comp_children = self._compression_children[compression_parent]
if rev_id not in comp_children:
raise AssertionError("%r not in compression children %r"
% (rev_id, comp_children))
# If there is only 1 child, it is safe to reuse this
# content
reuse_content = (len(comp_children) == 1
and compression_parent not in
self._nodes_to_keep_annotations)
if reuse_content:
# Remove it from the cache since it will be changing
parent_fulltext_content = self._fulltext_contents.pop(compression_parent)
# Make sure to copy the fulltext since it might be
# modified
parent_fulltext = list(parent_fulltext_content.text())
else:
parent_fulltext_content = self._fulltext_contents[compression_parent]
parent_fulltext = parent_fulltext_content.text()
comp_children.remove(rev_id)
fulltext_content, delta = self._knit._factory.parse_record(
rev_id, record, record_details,
parent_fulltext_content,
copy_base_content=(not reuse_content))
fulltext = self._add_fulltext_content(rev_id,
fulltext_content)
if compression_parent == parent_ids[0]:
# the compression_parent is the left parent, so we can
# re-use the delta
blocks = KnitContent.get_line_delta_blocks(delta,
parent_fulltext, fulltext)
else:
fulltext_content = self._knit._factory.parse_fulltext(
record, rev_id)
fulltext = self._add_fulltext_content(rev_id,
fulltext_content)
nodes_to_annotate.extend(
self._add_annotation(rev_id, fulltext, parent_ids,
left_matching_blocks=blocks))
def _get_heads_provider(self):
"""Create a heads provider for resolving ancestry issues."""
if self._heads_provider is not None:
return self._heads_provider
parent_provider = _mod_graph.DictParentsProvider(
self._revision_id_graph)
graph_obj = _mod_graph.Graph(parent_provider)
head_cache = _mod_graph.FrozenHeadsCache(graph_obj)
self._heads_provider = head_cache
return head_cache
def annotate(self, key):
"""Return the annotated fulltext at the given key.
:param key: The key to annotate.
"""
if len(self._knit._fallback_vfs) > 0:
# stacked knits can't use the fast path at present.
return self._simple_annotate(key)
while True:
try:
records = self._get_build_graph(key)
if key in self._ghosts:
raise errors.RevisionNotPresent(key, self._knit)
self._annotate_records(records)
return self._annotated_lines[key]
except errors.RetryWithNewPacks, e:
self._knit._access.reload_or_raise(e)
# The cached build_details are no longer valid
self._all_build_details.clear()
def _simple_annotate(self, key):
"""Return annotated fulltext, rediffing from the full texts.
This is slow but makes no assumptions about the repository
being able to produce line deltas.
"""
# TODO: this code generates a parent maps of present ancestors; it
# could be split out into a separate method, and probably should use
# iter_ancestry instead. -- mbp and robertc 20080704
graph = _mod_graph.Graph(self._knit)
head_cache = _mod_graph.FrozenHeadsCache(graph)
search = graph._make_breadth_first_searcher([key])
keys = set()
while True:
try:
present, ghosts = search.next_with_ghosts()
except StopIteration:
break
keys.update(present)
parent_map = self._knit.get_parent_map(keys)
parent_cache = {}
reannotate = annotate.reannotate
for record in self._knit.get_record_stream(keys, 'topological', True):
key = record.key
fulltext = osutils.chunks_to_lines(record.get_bytes_as('chunked'))
parents = parent_map[key]
if parents is not None:
parent_lines = [parent_cache[parent] for parent in parent_map[key]]
else:
parent_lines = []
parent_cache[key] = list(
reannotate(parent_lines, fulltext, key, None, head_cache))
try:
return parent_cache[key]
except KeyError, e:
raise errors.RevisionNotPresent(key, self._knit)
try:
from bzrlib._knit_load_data_c import _load_data_c as _load_data
except ImportError:
from bzrlib._knit_load_data_py import _load_data_py as _load_data
|