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|
# Copyright (C) 2008, 2009 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""Core compression logic for compressing streams of related files."""
import time
import zlib
try:
import pylzma
except ImportError:
pylzma = None
from bzrlib import (
annotate,
debug,
errors,
graph as _mod_graph,
knit,
osutils,
pack,
trace,
)
from bzrlib.btree_index import BTreeBuilder
from bzrlib.lru_cache import LRUSizeCache
from bzrlib.tsort import topo_sort
from bzrlib.versionedfile import (
adapter_registry,
AbsentContentFactory,
ChunkedContentFactory,
FulltextContentFactory,
VersionedFiles,
)
# Minimum number of uncompressed bytes to try fetch at once when retrieving
# groupcompress blocks.
BATCH_SIZE = 2**16
_USE_LZMA = False and (pylzma is not None)
# osutils.sha_string('')
_null_sha1 = 'da39a3ee5e6b4b0d3255bfef95601890afd80709'
def sort_gc_optimal(parent_map):
"""Sort and group the keys in parent_map into groupcompress order.
groupcompress is defined (currently) as reverse-topological order, grouped
by the key prefix.
:return: A sorted-list of keys
"""
# groupcompress ordering is approximately reverse topological,
# properly grouped by file-id.
per_prefix_map = {}
for key, value in parent_map.iteritems():
if isinstance(key, str) or len(key) == 1:
prefix = ''
else:
prefix = key[0]
try:
per_prefix_map[prefix][key] = value
except KeyError:
per_prefix_map[prefix] = {key: value}
present_keys = []
for prefix in sorted(per_prefix_map):
present_keys.extend(reversed(topo_sort(per_prefix_map[prefix])))
return present_keys
# The max zlib window size is 32kB, so if we set 'max_size' output of the
# decompressor to the requested bytes + 32kB, then we should guarantee
# num_bytes coming out.
_ZLIB_DECOMP_WINDOW = 32*1024
class GroupCompressBlock(object):
"""An object which maintains the internal structure of the compressed data.
This tracks the meta info (start of text, length, type, etc.)
"""
# Group Compress Block v1 Zlib
GCB_HEADER = 'gcb1z\n'
# Group Compress Block v1 Lzma
GCB_LZ_HEADER = 'gcb1l\n'
GCB_KNOWN_HEADERS = (GCB_HEADER, GCB_LZ_HEADER)
def __init__(self):
# map by key? or just order in file?
self._compressor_name = None
self._z_content = None
self._z_content_decompressor = None
self._z_content_length = None
self._content_length = None
self._content = None
self._content_chunks = None
def __len__(self):
# This is the maximum number of bytes this object will reference if
# everything is decompressed. However, if we decompress less than
# everything... (this would cause some problems for LRUSizeCache)
return self._content_length + self._z_content_length
def _ensure_content(self, num_bytes=None):
"""Make sure that content has been expanded enough.
:param num_bytes: Ensure that we have extracted at least num_bytes of
content. If None, consume everything
"""
# TODO: If we re-use the same content block at different times during
# get_record_stream(), it is possible that the first pass will
# get inserted, triggering an extract/_ensure_content() which
# will get rid of _z_content. And then the next use of the block
# will try to access _z_content (to send it over the wire), and
# fail because it is already extracted. Consider never releasing
# _z_content because of this.
if num_bytes is None:
num_bytes = self._content_length
elif (self._content_length is not None
and num_bytes > self._content_length):
raise AssertionError(
'requested num_bytes (%d) > content length (%d)'
% (num_bytes, self._content_length))
# Expand the content if required
if self._content is None:
if self._content_chunks is not None:
self._content = ''.join(self._content_chunks)
self._content_chunks = None
if self._content is None:
if self._z_content is None:
raise AssertionError('No content to decompress')
if self._z_content == '':
self._content = ''
elif self._compressor_name == 'lzma':
# We don't do partial lzma decomp yet
self._content = pylzma.decompress(self._z_content)
elif self._compressor_name == 'zlib':
# Start a zlib decompressor
if num_bytes is None:
self._content = zlib.decompress(self._z_content)
else:
self._z_content_decompressor = zlib.decompressobj()
# Seed the decompressor with the uncompressed bytes, so
# that the rest of the code is simplified
self._content = self._z_content_decompressor.decompress(
self._z_content, num_bytes + _ZLIB_DECOMP_WINDOW)
else:
raise AssertionError('Unknown compressor: %r'
% self._compressor_name)
# Any bytes remaining to be decompressed will be in the decompressors
# 'unconsumed_tail'
# Do we have enough bytes already?
if num_bytes is not None and len(self._content) >= num_bytes:
return
if num_bytes is None and self._z_content_decompressor is None:
# We must have already decompressed everything
return
# If we got this far, and don't have a decompressor, something is wrong
if self._z_content_decompressor is None:
raise AssertionError(
'No decompressor to decompress %d bytes' % num_bytes)
remaining_decomp = self._z_content_decompressor.unconsumed_tail
if num_bytes is None:
if remaining_decomp:
# We don't know how much is left, but we'll decompress it all
self._content += self._z_content_decompressor.decompress(
remaining_decomp)
# Note: There's what I consider a bug in zlib.decompressobj
# If you pass back in the entire unconsumed_tail, only
# this time you don't pass a max-size, it doesn't
# change the unconsumed_tail back to None/''.
# However, we know we are done with the whole stream
self._z_content_decompressor = None
# XXX: Why is this the only place in this routine we set this?
self._content_length = len(self._content)
else:
if not remaining_decomp:
raise AssertionError('Nothing left to decompress')
needed_bytes = num_bytes - len(self._content)
# We always set max_size to 32kB over the minimum needed, so that
# zlib will give us as much as we really want.
# TODO: If this isn't good enough, we could make a loop here,
# that keeps expanding the request until we get enough
self._content += self._z_content_decompressor.decompress(
remaining_decomp, needed_bytes + _ZLIB_DECOMP_WINDOW)
if len(self._content) < num_bytes:
raise AssertionError('%d bytes wanted, only %d available'
% (num_bytes, len(self._content)))
if not self._z_content_decompressor.unconsumed_tail:
# The stream is finished
self._z_content_decompressor = None
def _parse_bytes(self, bytes, pos):
"""Read the various lengths from the header.
This also populates the various 'compressed' buffers.
:return: The position in bytes just after the last newline
"""
# At present, we have 2 integers for the compressed and uncompressed
# content. In base10 (ascii) 14 bytes can represent > 1TB, so to avoid
# checking too far, cap the search to 14 bytes.
pos2 = bytes.index('\n', pos, pos + 14)
self._z_content_length = int(bytes[pos:pos2])
pos = pos2 + 1
pos2 = bytes.index('\n', pos, pos + 14)
self._content_length = int(bytes[pos:pos2])
pos = pos2 + 1
if len(bytes) != (pos + self._z_content_length):
# XXX: Define some GCCorrupt error ?
raise AssertionError('Invalid bytes: (%d) != %d + %d' %
(len(bytes), pos, self._z_content_length))
self._z_content = bytes[pos:]
@classmethod
def from_bytes(cls, bytes):
out = cls()
if bytes[:6] not in cls.GCB_KNOWN_HEADERS:
raise ValueError('bytes did not start with any of %r'
% (cls.GCB_KNOWN_HEADERS,))
# XXX: why not testing the whole header ?
if bytes[4] == 'z':
out._compressor_name = 'zlib'
elif bytes[4] == 'l':
out._compressor_name = 'lzma'
else:
raise ValueError('unknown compressor: %r' % (bytes,))
out._parse_bytes(bytes, 6)
return out
def extract(self, key, start, end, sha1=None):
"""Extract the text for a specific key.
:param key: The label used for this content
:param sha1: TODO (should we validate only when sha1 is supplied?)
:return: The bytes for the content
"""
if start == end == 0:
return ''
self._ensure_content(end)
# The bytes are 'f' or 'd' for the type, then a variable-length
# base128 integer for the content size, then the actual content
# We know that the variable-length integer won't be longer than 5
# bytes (it takes 5 bytes to encode 2^32)
c = self._content[start]
if c == 'f':
type = 'fulltext'
else:
if c != 'd':
raise ValueError('Unknown content control code: %s'
% (c,))
type = 'delta'
content_len, len_len = decode_base128_int(
self._content[start + 1:start + 6])
content_start = start + 1 + len_len
if end != content_start + content_len:
raise ValueError('end != len according to field header'
' %s != %s' % (end, content_start + content_len))
if c == 'f':
bytes = self._content[content_start:end]
elif c == 'd':
bytes = apply_delta_to_source(self._content, content_start, end)
return bytes
def set_chunked_content(self, content_chunks, length):
"""Set the content of this block to the given chunks."""
# If we have lots of short lines, it is may be more efficient to join
# the content ahead of time. If the content is <10MiB, we don't really
# care about the extra memory consumption, so we can just pack it and
# be done. However, timing showed 18s => 17.9s for repacking 1k revs of
# mysql, which is below the noise margin
self._content_length = length
self._content_chunks = content_chunks
self._content = None
self._z_content = None
def set_content(self, content):
"""Set the content of this block."""
self._content_length = len(content)
self._content = content
self._z_content = None
def _create_z_content_using_lzma(self):
if self._content_chunks is not None:
self._content = ''.join(self._content_chunks)
self._content_chunks = None
if self._content is None:
raise AssertionError('Nothing to compress')
self._z_content = pylzma.compress(self._content)
self._z_content_length = len(self._z_content)
def _create_z_content_from_chunks(self):
compressor = zlib.compressobj(zlib.Z_DEFAULT_COMPRESSION)
compressed_chunks = map(compressor.compress, self._content_chunks)
compressed_chunks.append(compressor.flush())
self._z_content = ''.join(compressed_chunks)
self._z_content_length = len(self._z_content)
def _create_z_content(self):
if self._z_content is not None:
return
if _USE_LZMA:
self._create_z_content_using_lzma()
return
if self._content_chunks is not None:
self._create_z_content_from_chunks()
return
self._z_content = zlib.compress(self._content)
self._z_content_length = len(self._z_content)
def to_bytes(self):
"""Encode the information into a byte stream."""
self._create_z_content()
if _USE_LZMA:
header = self.GCB_LZ_HEADER
else:
header = self.GCB_HEADER
chunks = [header,
'%d\n%d\n' % (self._z_content_length, self._content_length),
self._z_content,
]
return ''.join(chunks)
def _dump(self, include_text=False):
"""Take this block, and spit out a human-readable structure.
:param include_text: Inserts also include text bits, chose whether you
want this displayed in the dump or not.
:return: A dump of the given block. The layout is something like:
[('f', length), ('d', delta_length, text_length, [delta_info])]
delta_info := [('i', num_bytes, text), ('c', offset, num_bytes),
...]
"""
self._ensure_content()
result = []
pos = 0
while pos < self._content_length:
kind = self._content[pos]
pos += 1
if kind not in ('f', 'd'):
raise ValueError('invalid kind character: %r' % (kind,))
content_len, len_len = decode_base128_int(
self._content[pos:pos + 5])
pos += len_len
if content_len + pos > self._content_length:
raise ValueError('invalid content_len %d for record @ pos %d'
% (content_len, pos - len_len - 1))
if kind == 'f': # Fulltext
if include_text:
text = self._content[pos:pos+content_len]
result.append(('f', content_len, text))
else:
result.append(('f', content_len))
elif kind == 'd': # Delta
delta_content = self._content[pos:pos+content_len]
delta_info = []
# The first entry in a delta is the decompressed length
decomp_len, delta_pos = decode_base128_int(delta_content)
result.append(('d', content_len, decomp_len, delta_info))
measured_len = 0
while delta_pos < content_len:
c = ord(delta_content[delta_pos])
delta_pos += 1
if c & 0x80: # Copy
(offset, length,
delta_pos) = decode_copy_instruction(delta_content, c,
delta_pos)
if include_text:
text = self._content[offset:offset+length]
delta_info.append(('c', offset, length, text))
else:
delta_info.append(('c', offset, length))
measured_len += length
else: # Insert
if include_text:
txt = delta_content[delta_pos:delta_pos+c]
else:
txt = ''
delta_info.append(('i', c, txt))
measured_len += c
delta_pos += c
if delta_pos != content_len:
raise ValueError('Delta consumed a bad number of bytes:'
' %d != %d' % (delta_pos, content_len))
if measured_len != decomp_len:
raise ValueError('Delta claimed fulltext was %d bytes, but'
' extraction resulted in %d bytes'
% (decomp_len, measured_len))
pos += content_len
return result
class _LazyGroupCompressFactory(object):
"""Yield content from a GroupCompressBlock on demand."""
def __init__(self, key, parents, manager, start, end, first):
"""Create a _LazyGroupCompressFactory
:param key: The key of just this record
:param parents: The parents of this key (possibly None)
:param gc_block: A GroupCompressBlock object
:param start: Offset of the first byte for this record in the
uncompressd content
:param end: Offset of the byte just after the end of this record
(ie, bytes = content[start:end])
:param first: Is this the first Factory for the given block?
"""
self.key = key
self.parents = parents
self.sha1 = None
# Note: This attribute coupled with Manager._factories creates a
# reference cycle. Perhaps we would rather use a weakref(), or
# find an appropriate time to release the ref. After the first
# get_bytes_as call? After Manager.get_record_stream() returns
# the object?
self._manager = manager
self._bytes = None
self.storage_kind = 'groupcompress-block'
if not first:
self.storage_kind = 'groupcompress-block-ref'
self._first = first
self._start = start
self._end = end
def __repr__(self):
return '%s(%s, first=%s)' % (self.__class__.__name__,
self.key, self._first)
def get_bytes_as(self, storage_kind):
if storage_kind == self.storage_kind:
if self._first:
# wire bytes, something...
return self._manager._wire_bytes()
else:
return ''
if storage_kind in ('fulltext', 'chunked'):
if self._bytes is None:
# Grab and cache the raw bytes for this entry
# and break the ref-cycle with _manager since we don't need it
# anymore
self._manager._prepare_for_extract()
block = self._manager._block
self._bytes = block.extract(self.key, self._start, self._end)
# There are code paths that first extract as fulltext, and then
# extract as storage_kind (smart fetch). So we don't break the
# refcycle here, but instead in manager.get_record_stream()
if storage_kind == 'fulltext':
return self._bytes
else:
return [self._bytes]
raise errors.UnavailableRepresentation(self.key, storage_kind,
self.storage_kind)
class _LazyGroupContentManager(object):
"""This manages a group of _LazyGroupCompressFactory objects."""
_max_cut_fraction = 0.75 # We allow a block to be trimmed to 75% of
# current size, and still be considered
# resuable
_full_block_size = 4*1024*1024
_full_mixed_block_size = 2*1024*1024
_full_enough_block_size = 3*1024*1024 # size at which we won't repack
_full_enough_mixed_block_size = 2*768*1024 # 1.5MB
def __init__(self, block):
self._block = block
# We need to preserve the ordering
self._factories = []
self._last_byte = 0
def add_factory(self, key, parents, start, end):
if not self._factories:
first = True
else:
first = False
# Note that this creates a reference cycle....
factory = _LazyGroupCompressFactory(key, parents, self,
start, end, first=first)
# max() works here, but as a function call, doing a compare seems to be
# significantly faster, timeit says 250ms for max() and 100ms for the
# comparison
if end > self._last_byte:
self._last_byte = end
self._factories.append(factory)
def get_record_stream(self):
"""Get a record for all keys added so far."""
for factory in self._factories:
yield factory
# Break the ref-cycle
factory._bytes = None
factory._manager = None
# TODO: Consider setting self._factories = None after the above loop,
# as it will break the reference cycle
def _trim_block(self, last_byte):
"""Create a new GroupCompressBlock, with just some of the content."""
# None of the factories need to be adjusted, because the content is
# located in an identical place. Just that some of the unreferenced
# trailing bytes are stripped
trace.mutter('stripping trailing bytes from groupcompress block'
' %d => %d', self._block._content_length, last_byte)
new_block = GroupCompressBlock()
self._block._ensure_content(last_byte)
new_block.set_content(self._block._content[:last_byte])
self._block = new_block
def _rebuild_block(self):
"""Create a new GroupCompressBlock with only the referenced texts."""
compressor = GroupCompressor()
tstart = time.time()
old_length = self._block._content_length
end_point = 0
for factory in self._factories:
bytes = factory.get_bytes_as('fulltext')
(found_sha1, start_point, end_point,
type) = compressor.compress(factory.key, bytes, factory.sha1)
# Now update this factory with the new offsets, etc
factory.sha1 = found_sha1
factory._start = start_point
factory._end = end_point
self._last_byte = end_point
new_block = compressor.flush()
# TODO: Should we check that new_block really *is* smaller than the old
# block? It seems hard to come up with a method that it would
# expand, since we do full compression again. Perhaps based on a
# request that ends up poorly ordered?
delta = time.time() - tstart
self._block = new_block
trace.mutter('creating new compressed block on-the-fly in %.3fs'
' %d bytes => %d bytes', delta, old_length,
self._block._content_length)
def _prepare_for_extract(self):
"""A _LazyGroupCompressFactory is about to extract to fulltext."""
# We expect that if one child is going to fulltext, all will be. This
# helps prevent all of them from extracting a small amount at a time.
# Which in itself isn't terribly expensive, but resizing 2MB 32kB at a
# time (self._block._content) is a little expensive.
self._block._ensure_content(self._last_byte)
def _check_rebuild_action(self):
"""Check to see if our block should be repacked."""
total_bytes_used = 0
last_byte_used = 0
for factory in self._factories:
total_bytes_used += factory._end - factory._start
if last_byte_used < factory._end:
last_byte_used = factory._end
# If we are using more than half of the bytes from the block, we have
# nothing else to check
if total_bytes_used * 2 >= self._block._content_length:
return None, last_byte_used, total_bytes_used
# We are using less than 50% of the content. Is the content we are
# using at the beginning of the block? If so, we can just trim the
# tail, rather than rebuilding from scratch.
if total_bytes_used * 2 > last_byte_used:
return 'trim', last_byte_used, total_bytes_used
# We are using a small amount of the data, and it isn't just packed
# nicely at the front, so rebuild the content.
# Note: This would be *nicer* as a strip-data-from-group, rather than
# building it up again from scratch
# It might be reasonable to consider the fulltext sizes for
# different bits when deciding this, too. As you may have a small
# fulltext, and a trivial delta, and you are just trading around
# for another fulltext. If we do a simple 'prune' you may end up
# expanding many deltas into fulltexts, as well.
# If we build a cheap enough 'strip', then we could try a strip,
# if that expands the content, we then rebuild.
return 'rebuild', last_byte_used, total_bytes_used
def check_is_well_utilized(self):
"""Is the current block considered 'well utilized'?
This heuristic asks if the current block considers itself to be a fully
developed group, rather than just a loose collection of data.
"""
if len(self._factories) == 1:
# A block of length 1 could be improved by combining with other
# groups - don't look deeper. Even larger than max size groups
# could compress well with adjacent versions of the same thing.
return False
action, last_byte_used, total_bytes_used = self._check_rebuild_action()
block_size = self._block._content_length
if total_bytes_used < block_size * self._max_cut_fraction:
# This block wants to trim itself small enough that we want to
# consider it under-utilized.
return False
# TODO: This code is meant to be the twin of _insert_record_stream's
# 'start_new_block' logic. It would probably be better to factor
# out that logic into a shared location, so that it stays
# together better
# We currently assume a block is properly utilized whenever it is >75%
# of the size of a 'full' block. In normal operation, a block is
# considered full when it hits 4MB of same-file content. So any block
# >3MB is 'full enough'.
# The only time this isn't true is when a given block has large-object
# content. (a single file >4MB, etc.)
# Under these circumstances, we allow a block to grow to
# 2 x largest_content. Which means that if a given block had a large
# object, it may actually be under-utilized. However, given that this
# is 'pack-on-the-fly' it is probably reasonable to not repack large
# content blobs on-the-fly. Note that because we return False for all
# 1-item blobs, we will repack them; we may wish to reevaluate our
# treatment of large object blobs in the future.
if block_size >= self._full_enough_block_size:
return True
# If a block is <3MB, it still may be considered 'full' if it contains
# mixed content. The current rule is 2MB of mixed content is considered
# full. So check to see if this block contains mixed content, and
# set the threshold appropriately.
common_prefix = None
for factory in self._factories:
prefix = factory.key[:-1]
if common_prefix is None:
common_prefix = prefix
elif prefix != common_prefix:
# Mixed content, check the size appropriately
if block_size >= self._full_enough_mixed_block_size:
return True
break
# The content failed both the mixed check and the single-content check
# so obviously it is not fully utilized
# TODO: there is one other constraint that isn't being checked
# namely, that the entries in the block are in the appropriate
# order. For example, you could insert the entries in exactly
# reverse groupcompress order, and we would think that is ok.
# (all the right objects are in one group, and it is fully
# utilized, etc.) For now, we assume that case is rare,
# especially since we should always fetch in 'groupcompress'
# order.
return False
def _check_rebuild_block(self):
action, last_byte_used, total_bytes_used = self._check_rebuild_action()
if action is None:
return
if action == 'trim':
self._trim_block(last_byte_used)
elif action == 'rebuild':
self._rebuild_block()
else:
raise ValueError('unknown rebuild action: %r' % (action,))
def _wire_bytes(self):
"""Return a byte stream suitable for transmitting over the wire."""
self._check_rebuild_block()
# The outer block starts with:
# 'groupcompress-block\n'
# <length of compressed key info>\n
# <length of uncompressed info>\n
# <length of gc block>\n
# <header bytes>
# <gc-block>
lines = ['groupcompress-block\n']
# The minimal info we need is the key, the start offset, and the
# parents. The length and type are encoded in the record itself.
# However, passing in the other bits makes it easier. The list of
# keys, and the start offset, the length
# 1 line key
# 1 line with parents, '' for ()
# 1 line for start offset
# 1 line for end byte
header_lines = []
for factory in self._factories:
key_bytes = '\x00'.join(factory.key)
parents = factory.parents
if parents is None:
parent_bytes = 'None:'
else:
parent_bytes = '\t'.join('\x00'.join(key) for key in parents)
record_header = '%s\n%s\n%d\n%d\n' % (
key_bytes, parent_bytes, factory._start, factory._end)
header_lines.append(record_header)
# TODO: Can we break the refcycle at this point and set
# factory._manager = None?
header_bytes = ''.join(header_lines)
del header_lines
header_bytes_len = len(header_bytes)
z_header_bytes = zlib.compress(header_bytes)
del header_bytes
z_header_bytes_len = len(z_header_bytes)
block_bytes = self._block.to_bytes()
lines.append('%d\n%d\n%d\n' % (z_header_bytes_len, header_bytes_len,
len(block_bytes)))
lines.append(z_header_bytes)
lines.append(block_bytes)
del z_header_bytes, block_bytes
return ''.join(lines)
@classmethod
def from_bytes(cls, bytes):
# TODO: This does extra string copying, probably better to do it a
# different way
(storage_kind, z_header_len, header_len,
block_len, rest) = bytes.split('\n', 4)
del bytes
if storage_kind != 'groupcompress-block':
raise ValueError('Unknown storage kind: %s' % (storage_kind,))
z_header_len = int(z_header_len)
if len(rest) < z_header_len:
raise ValueError('Compressed header len shorter than all bytes')
z_header = rest[:z_header_len]
header_len = int(header_len)
header = zlib.decompress(z_header)
if len(header) != header_len:
raise ValueError('invalid length for decompressed bytes')
del z_header
block_len = int(block_len)
if len(rest) != z_header_len + block_len:
raise ValueError('Invalid length for block')
block_bytes = rest[z_header_len:]
del rest
# So now we have a valid GCB, we just need to parse the factories that
# were sent to us
header_lines = header.split('\n')
del header
last = header_lines.pop()
if last != '':
raise ValueError('header lines did not end with a trailing'
' newline')
if len(header_lines) % 4 != 0:
raise ValueError('The header was not an even multiple of 4 lines')
block = GroupCompressBlock.from_bytes(block_bytes)
del block_bytes
result = cls(block)
for start in xrange(0, len(header_lines), 4):
# intern()?
key = tuple(header_lines[start].split('\x00'))
parents_line = header_lines[start+1]
if parents_line == 'None:':
parents = None
else:
parents = tuple([tuple(segment.split('\x00'))
for segment in parents_line.split('\t')
if segment])
start_offset = int(header_lines[start+2])
end_offset = int(header_lines[start+3])
result.add_factory(key, parents, start_offset, end_offset)
return result
def network_block_to_records(storage_kind, bytes, line_end):
if storage_kind != 'groupcompress-block':
raise ValueError('Unknown storage kind: %s' % (storage_kind,))
manager = _LazyGroupContentManager.from_bytes(bytes)
return manager.get_record_stream()
class _CommonGroupCompressor(object):
def __init__(self):
"""Create a GroupCompressor."""
self.chunks = []
self._last = None
self.endpoint = 0
self.input_bytes = 0
self.labels_deltas = {}
self._delta_index = None # Set by the children
self._block = GroupCompressBlock()
def compress(self, key, bytes, expected_sha, nostore_sha=None, soft=False):
"""Compress lines with label key.
:param key: A key tuple. It is stored in the output
for identification of the text during decompression. If the last
element is 'None' it is replaced with the sha1 of the text -
e.g. sha1:xxxxxxx.
:param bytes: The bytes to be compressed
:param expected_sha: If non-None, the sha the lines are believed to
have. During compression the sha is calculated; a mismatch will
cause an error.
:param nostore_sha: If the computed sha1 sum matches, we will raise
ExistingContent rather than adding the text.
:param soft: Do a 'soft' compression. This means that we require larger
ranges to match to be considered for a copy command.
:return: The sha1 of lines, the start and end offsets in the delta, and
the type ('fulltext' or 'delta').
:seealso VersionedFiles.add_lines:
"""
if not bytes: # empty, like a dir entry, etc
if nostore_sha == _null_sha1:
raise errors.ExistingContent()
return _null_sha1, 0, 0, 'fulltext'
# we assume someone knew what they were doing when they passed it in
if expected_sha is not None:
sha1 = expected_sha
else:
sha1 = osutils.sha_string(bytes)
if nostore_sha is not None:
if sha1 == nostore_sha:
raise errors.ExistingContent()
if key[-1] is None:
key = key[:-1] + ('sha1:' + sha1,)
start, end, type = self._compress(key, bytes, len(bytes) / 2, soft)
return sha1, start, end, type
def _compress(self, key, bytes, max_delta_size, soft=False):
"""Compress lines with label key.
:param key: A key tuple. It is stored in the output for identification
of the text during decompression.
:param bytes: The bytes to be compressed
:param max_delta_size: The size above which we issue a fulltext instead
of a delta.
:param soft: Do a 'soft' compression. This means that we require larger
ranges to match to be considered for a copy command.
:return: The sha1 of lines, the start and end offsets in the delta, and
the type ('fulltext' or 'delta').
"""
raise NotImplementedError(self._compress)
def extract(self, key):
"""Extract a key previously added to the compressor.
:param key: The key to extract.
:return: An iterable over bytes and the sha1.
"""
(start_byte, start_chunk, end_byte, end_chunk) = self.labels_deltas[key]
delta_chunks = self.chunks[start_chunk:end_chunk]
stored_bytes = ''.join(delta_chunks)
if stored_bytes[0] == 'f':
fulltext_len, offset = decode_base128_int(stored_bytes[1:10])
data_len = fulltext_len + 1 + offset
if data_len != len(stored_bytes):
raise ValueError('Index claimed fulltext len, but stored bytes'
' claim %s != %s'
% (len(stored_bytes), data_len))
bytes = stored_bytes[offset + 1:]
else:
# XXX: This is inefficient at best
source = ''.join(self.chunks[:start_chunk])
if stored_bytes[0] != 'd':
raise ValueError('Unknown content kind, bytes claim %s'
% (stored_bytes[0],))
delta_len, offset = decode_base128_int(stored_bytes[1:10])
data_len = delta_len + 1 + offset
if data_len != len(stored_bytes):
raise ValueError('Index claimed delta len, but stored bytes'
' claim %s != %s'
% (len(stored_bytes), data_len))
bytes = apply_delta(source, stored_bytes[offset + 1:])
bytes_sha1 = osutils.sha_string(bytes)
return bytes, bytes_sha1
def flush(self):
"""Finish this group, creating a formatted stream.
After calling this, the compressor should no longer be used
"""
# TODO: this causes us to 'bloat' to 2x the size of content in the
# group. This has an impact for 'commit' of large objects.
# One possibility is to use self._content_chunks, and be lazy and
# only fill out self._content as a full string when we actually
# need it. That would at least drop the peak memory consumption
# for 'commit' down to ~1x the size of the largest file, at a
# cost of increased complexity within this code. 2x is still <<
# 3x the size of the largest file, so we are doing ok.
self._block.set_chunked_content(self.chunks, self.endpoint)
self.chunks = None
self._delta_index = None
return self._block
def pop_last(self):
"""Call this if you want to 'revoke' the last compression.
After this, the data structures will be rolled back, but you cannot do
more compression.
"""
self._delta_index = None
del self.chunks[self._last[0]:]
self.endpoint = self._last[1]
self._last = None
def ratio(self):
"""Return the overall compression ratio."""
return float(self.input_bytes) / float(self.endpoint)
class PythonGroupCompressor(_CommonGroupCompressor):
def __init__(self):
"""Create a GroupCompressor.
Used only if the pyrex version is not available.
"""
super(PythonGroupCompressor, self).__init__()
self._delta_index = LinesDeltaIndex([])
# The actual content is managed by LinesDeltaIndex
self.chunks = self._delta_index.lines
def _compress(self, key, bytes, max_delta_size, soft=False):
"""see _CommonGroupCompressor._compress"""
input_len = len(bytes)
new_lines = osutils.split_lines(bytes)
out_lines, index_lines = self._delta_index.make_delta(
new_lines, bytes_length=input_len, soft=soft)
delta_length = sum(map(len, out_lines))
if delta_length > max_delta_size:
# The delta is longer than the fulltext, insert a fulltext
type = 'fulltext'
out_lines = ['f', encode_base128_int(input_len)]
out_lines.extend(new_lines)
index_lines = [False, False]
index_lines.extend([True] * len(new_lines))
else:
# this is a worthy delta, output it
type = 'delta'
out_lines[0] = 'd'
# Update the delta_length to include those two encoded integers
out_lines[1] = encode_base128_int(delta_length)
# Before insertion
start = self.endpoint
chunk_start = len(self.chunks)
self._last = (chunk_start, self.endpoint)
self._delta_index.extend_lines(out_lines, index_lines)
self.endpoint = self._delta_index.endpoint
self.input_bytes += input_len
chunk_end = len(self.chunks)
self.labels_deltas[key] = (start, chunk_start,
self.endpoint, chunk_end)
return start, self.endpoint, type
class PyrexGroupCompressor(_CommonGroupCompressor):
"""Produce a serialised group of compressed texts.
It contains code very similar to SequenceMatcher because of having a similar
task. However some key differences apply:
- there is no junk, we want a minimal edit not a human readable diff.
- we don't filter very common lines (because we don't know where a good
range will start, and after the first text we want to be emitting minmal
edits only.
- we chain the left side, not the right side
- we incrementally update the adjacency matrix as new lines are provided.
- we look for matches in all of the left side, so the routine which does
the analagous task of find_longest_match does not need to filter on the
left side.
"""
def __init__(self):
super(PyrexGroupCompressor, self).__init__()
self._delta_index = DeltaIndex()
def _compress(self, key, bytes, max_delta_size, soft=False):
"""see _CommonGroupCompressor._compress"""
input_len = len(bytes)
# By having action/label/sha1/len, we can parse the group if the index
# was ever destroyed, we have the key in 'label', we know the final
# bytes are valid from sha1, and we know where to find the end of this
# record because of 'len'. (the delta record itself will store the
# total length for the expanded record)
# 'len: %d\n' costs approximately 1% increase in total data
# Having the labels at all costs us 9-10% increase, 38% increase for
# inventory pages, and 5.8% increase for text pages
# new_chunks = ['label:%s\nsha1:%s\n' % (label, sha1)]
if self._delta_index._source_offset != self.endpoint:
raise AssertionError('_source_offset != endpoint'
' somehow the DeltaIndex got out of sync with'
' the output lines')
delta = self._delta_index.make_delta(bytes, max_delta_size)
if (delta is None):
type = 'fulltext'
enc_length = encode_base128_int(len(bytes))
len_mini_header = 1 + len(enc_length)
self._delta_index.add_source(bytes, len_mini_header)
new_chunks = ['f', enc_length, bytes]
else:
type = 'delta'
enc_length = encode_base128_int(len(delta))
len_mini_header = 1 + len(enc_length)
new_chunks = ['d', enc_length, delta]
self._delta_index.add_delta_source(delta, len_mini_header)
# Before insertion
start = self.endpoint
chunk_start = len(self.chunks)
# Now output these bytes
self._output_chunks(new_chunks)
self.input_bytes += input_len
chunk_end = len(self.chunks)
self.labels_deltas[key] = (start, chunk_start,
self.endpoint, chunk_end)
if not self._delta_index._source_offset == self.endpoint:
raise AssertionError('the delta index is out of sync'
'with the output lines %s != %s'
% (self._delta_index._source_offset, self.endpoint))
return start, self.endpoint, type
def _output_chunks(self, new_chunks):
"""Output some chunks.
:param new_chunks: The chunks to output.
"""
self._last = (len(self.chunks), self.endpoint)
endpoint = self.endpoint
self.chunks.extend(new_chunks)
endpoint += sum(map(len, new_chunks))
self.endpoint = endpoint
def make_pack_factory(graph, delta, keylength, inconsistency_fatal=True):
"""Create a factory for creating a pack based groupcompress.
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
ref_length = 0
if graph:
ref_length = 1
graph_index = BTreeBuilder(reference_lists=ref_length,
key_elements=keylength)
stream = transport.open_write_stream('newpack')
writer = pack.ContainerWriter(stream.write)
writer.begin()
index = _GCGraphIndex(graph_index, lambda:True, parents=parents,
add_callback=graph_index.add_nodes,
inconsistency_fatal=inconsistency_fatal)
access = knit._DirectPackAccess({})
access.set_writer(writer, graph_index, (transport, 'newpack'))
result = GroupCompressVersionedFiles(index, access, delta)
result.stream = stream
result.writer = writer
return result
return factory
def cleanup_pack_group(versioned_files):
versioned_files.writer.end()
versioned_files.stream.close()
class _BatchingBlockFetcher(object):
"""Fetch group compress blocks in batches.
:ivar total_bytes: int of expected number of bytes needed to fetch the
currently pending batch.
"""
def __init__(self, gcvf, locations):
self.gcvf = gcvf
self.locations = locations
self.keys = []
self.batch_memos = {}
self.memos_to_get = []
self.total_bytes = 0
self.last_read_memo = None
self.manager = None
def add_key(self, key):
"""Add another to key to fetch.
:return: The estimated number of bytes needed to fetch the batch so
far.
"""
self.keys.append(key)
index_memo, _, _, _ = self.locations[key]
read_memo = index_memo[0:3]
# Three possibilities for this read_memo:
# - it's already part of this batch; or
# - it's not yet part of this batch, but is already cached; or
# - it's not yet part of this batch and will need to be fetched.
if read_memo in self.batch_memos:
# This read memo is already in this batch.
return self.total_bytes
try:
cached_block = self.gcvf._group_cache[read_memo]
except KeyError:
# This read memo is new to this batch, and the data isn't cached
# either.
self.batch_memos[read_memo] = None
self.memos_to_get.append(read_memo)
byte_length = read_memo[2]
self.total_bytes += byte_length
else:
# This read memo is new to this batch, but cached.
# Keep a reference to the cached block in batch_memos because it's
# certain that we'll use it when this batch is processed, but
# there's a risk that it would fall out of _group_cache between now
# and then.
self.batch_memos[read_memo] = cached_block
return self.total_bytes
def _flush_manager(self):
if self.manager is not None:
for factory in self.manager.get_record_stream():
yield factory
self.manager = None
self.last_read_memo = None
def yield_factories(self, full_flush=False):
"""Yield factories for keys added since the last yield. They will be
returned in the order they were added via add_key.
:param full_flush: by default, some results may not be returned in case
they can be part of the next batch. If full_flush is True, then
all results are returned.
"""
if self.manager is None and not self.keys:
return
# Fetch all memos in this batch.
blocks = self.gcvf._get_blocks(self.memos_to_get)
# Turn blocks into factories and yield them.
memos_to_get_stack = list(self.memos_to_get)
memos_to_get_stack.reverse()
for key in self.keys:
index_memo, _, parents, _ = self.locations[key]
read_memo = index_memo[:3]
if self.last_read_memo != read_memo:
# We are starting a new block. If we have a
# manager, we have found everything that fits for
# now, so yield records
for factory in self._flush_manager():
yield factory
# Now start a new manager.
if memos_to_get_stack and memos_to_get_stack[-1] == read_memo:
# The next block from _get_blocks will be the block we
# need.
block_read_memo, block = blocks.next()
if block_read_memo != read_memo:
raise AssertionError(
"block_read_memo out of sync with read_memo"
"(%r != %r)" % (block_read_memo, read_memo))
self.batch_memos[read_memo] = block
memos_to_get_stack.pop()
else:
block = self.batch_memos[read_memo]
self.manager = _LazyGroupContentManager(block)
self.last_read_memo = read_memo
start, end = index_memo[3:5]
self.manager.add_factory(key, parents, start, end)
if full_flush:
for factory in self._flush_manager():
yield factory
del self.keys[:]
self.batch_memos.clear()
del self.memos_to_get[:]
self.total_bytes = 0
class GroupCompressVersionedFiles(VersionedFiles):
"""A group-compress based VersionedFiles implementation."""
def __init__(self, index, access, delta=True):
"""Create a GroupCompressVersionedFiles object.
:param index: The index object storing access and graph data.
:param access: The access object storing raw data.
:param delta: Whether to delta compress or just entropy compress.
"""
self._index = index
self._access = access
self._delta = delta
self._unadded_refs = {}
self._group_cache = LRUSizeCache(max_size=50*1024*1024)
self._fallback_vfs = []
def add_lines(self, key, parents, lines, parent_texts=None,
left_matching_blocks=None, nostore_sha=None, random_id=False,
check_content=True):
"""Add a text to the store.
:param key: The key tuple of the text to add.
:param parents: The parents key tuples of the text to add.
:param lines: A list of lines. Each line must be a bytestring. And all
of them except the last must be terminated with \n and contain no
other \n's. The last line may either contain no \n's or a single
terminating \n. If the lines list does meet this constraint the add
routine may error or may succeed - but you will be unable to read
the data back accurately. (Checking the lines have been split
correctly is expensive and extremely unlikely to catch bugs so it
is not done at runtime unless check_content is True.)
:param parent_texts: An optional dictionary containing the opaque
representations of some or all of the parents of version_id to
allow delta optimisations. VERY IMPORTANT: the texts must be those
returned by add_lines or data corruption can be caused.
:param left_matching_blocks: a hint about which areas are common
between the text and its left-hand-parent. The format is
the SequenceMatcher.get_matching_blocks format.
:param nostore_sha: Raise ExistingContent and do not add the lines to
the versioned file if the digest of the lines matches this.
:param random_id: If True a random id has been selected rather than
an id determined by some deterministic process such as a converter
from a foreign VCS. When True the backend may choose not to check
for uniqueness of the resulting key within the versioned file, so
this should only be done when the result is expected to be unique
anyway.
:param check_content: If True, the lines supplied are verified to be
bytestrings that are correctly formed lines.
:return: The text sha1, the number of bytes in the text, and an opaque
representation of the inserted version which can be provided
back to future add_lines calls in the parent_texts dictionary.
"""
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 = ()
# double handling for now. Make it work until then.
length = sum(map(len, lines))
record = ChunkedContentFactory(key, parents, None, lines)
sha1 = list(self._insert_record_stream([record], random_id=random_id,
nostore_sha=nostore_sha))[0]
return sha1, length, None
def _add_text(self, key, parents, text, nostore_sha=None, random_id=False):
"""See VersionedFiles._add_text()."""
self._index._check_write_ok()
self._check_add(key, None, random_id, check_content=False)
if text.__class__ is not str:
raise errors.BzrBadParameterUnicode("text")
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 = ()
# double handling for now. Make it work until then.
length = len(text)
record = FulltextContentFactory(key, parents, None, text)
sha1 = list(self._insert_record_stream([record], random_id=random_id,
nostore_sha=nostore_sha))[0]
return sha1, length, None
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 annotate(self, key):
"""See VersionedFiles.annotate."""
ann = annotate.Annotator(self)
return ann.annotate_flat(key)
def get_annotator(self):
return annotate.Annotator(self)
def check(self, progress_bar=None, keys=None):
"""See VersionedFiles.check()."""
if keys is None:
keys = self.keys()
for record in self.get_record_stream(keys, 'unordered', True):
record.get_bytes_as('fulltext')
else:
return self.get_record_stream(keys, 'unordered', True)
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 version_id is not None:
if osutils.contains_whitespace(version_id):
raise errors.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 get_known_graph_ancestry(self, keys):
"""Get a KnownGraph instance with the ancestry of keys."""
# Note that this is identical to
# KnitVersionedFiles.get_known_graph_ancestry, but they don't share
# ancestry.
parent_map, missing_keys = self._index.find_ancestry(keys)
for fallback in self._fallback_vfs:
if not missing_keys:
break
(f_parent_map, f_missing_keys) = fallback._index.find_ancestry(
missing_keys)
parent_map.update(f_parent_map)
missing_keys = f_missing_keys
kg = _mod_graph.KnownGraph(parent_map)
return kg
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_blocks(self, read_memos):
"""Get GroupCompressBlocks for the given read_memos.
:returns: a series of (read_memo, block) pairs, in the order they were
originally passed.
"""
cached = {}
for read_memo in read_memos:
try:
block = self._group_cache[read_memo]
except KeyError:
pass
else:
cached[read_memo] = block
not_cached = []
not_cached_seen = set()
for read_memo in read_memos:
if read_memo in cached:
# Don't fetch what we already have
continue
if read_memo in not_cached_seen:
# Don't try to fetch the same data twice
continue
not_cached.append(read_memo)
not_cached_seen.add(read_memo)
raw_records = self._access.get_raw_records(not_cached)
for read_memo in read_memos:
try:
yield read_memo, cached[read_memo]
except KeyError:
# Read the block, and cache it.
zdata = raw_records.next()
block = GroupCompressBlock.from_bytes(zdata)
self._group_cache[read_memo] = block
cached[read_memo] = block
yield read_memo, block
def get_missing_compression_parent_keys(self):
"""Return the keys of missing compression parents.
Missing compression parents occur when a record stream was missing
basis texts, or a index was scanned that had missing basis texts.
"""
# GroupCompress cannot currently reference texts that are not in the
# group, so this is valid for now
return frozenset()
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
orig_keys = list(keys)
keys = set(keys)
if not keys:
return
if (not self._index.has_graph
and ordering in ('topological', 'groupcompress')):
# Cannot topological order when no graph has been stored.
# but we allow 'as-requested' or 'unordered'
ordering = 'unordered'
remaining_keys = keys
while True:
try:
keys = set(remaining_keys)
for content_factory in self._get_remaining_record_stream(keys,
orig_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 _find_from_fallback(self, missing):
"""Find whatever keys you can from the fallbacks.
:param missing: A set of missing keys. This set will be mutated as keys
are found from a fallback_vfs
:return: (parent_map, key_to_source_map, source_results)
parent_map the overall key => parent_keys
key_to_source_map a dict from {key: source}
source_results a list of (source: keys)
"""
parent_map = {}
key_to_source_map = {}
source_results = []
for source in self._fallback_vfs:
if not missing:
break
source_parents = source.get_parent_map(missing)
parent_map.update(source_parents)
source_parents = list(source_parents)
source_results.append((source, source_parents))
key_to_source_map.update((key, source) for key in source_parents)
missing.difference_update(source_parents)
return parent_map, key_to_source_map, source_results
def _get_ordered_source_keys(self, ordering, parent_map, key_to_source_map):
"""Get the (source, [keys]) list.
The returned objects should be in the order defined by 'ordering',
which can weave between different sources.
:param ordering: Must be one of 'topological' or 'groupcompress'
:return: List of [(source, [keys])] tuples, such that all keys are in
the defined order, regardless of source.
"""
if ordering == 'topological':
present_keys = topo_sort(parent_map)
else:
# ordering == 'groupcompress'
# XXX: This only optimizes for the target ordering. We may need
# to balance that with the time it takes to extract
# ordering, by somehow grouping based on
# locations[key][0:3]
present_keys = sort_gc_optimal(parent_map)
# Now group by source:
source_keys = []
current_source = None
for key in present_keys:
source = key_to_source_map.get(key, self)
if source is not current_source:
source_keys.append((source, []))
current_source = source
source_keys[-1][1].append(key)
return source_keys
def _get_as_requested_source_keys(self, orig_keys, locations, unadded_keys,
key_to_source_map):
source_keys = []
current_source = None
for key in orig_keys:
if key in locations or key in unadded_keys:
source = self
elif key in key_to_source_map:
source = key_to_source_map[key]
else: # absent
continue
if source is not current_source:
source_keys.append((source, []))
current_source = source
source_keys[-1][1].append(key)
return source_keys
def _get_io_ordered_source_keys(self, locations, unadded_keys,
source_result):
def get_group(key):
# This is the group the bytes are stored in, followed by the
# location in the group
return locations[key][0]
present_keys = sorted(locations.iterkeys(), key=get_group)
# We don't have an ordering for keys in the in-memory object, but
# lets process the in-memory ones first.
present_keys = list(unadded_keys) + present_keys
# Now grab all of the ones from other sources
source_keys = [(self, present_keys)]
source_keys.extend(source_result)
return source_keys
def _get_remaining_record_stream(self, keys, orig_keys, ordering,
include_delta_closure):
"""Get a stream of records for keys.
:param keys: The keys to include.
:param ordering: one of 'unordered', 'topological', 'groupcompress' or
'as-requested'
: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.
"""
# Cheap: iterate
locations = self._index.get_build_details(keys)
unadded_keys = set(self._unadded_refs).intersection(keys)
missing = keys.difference(locations)
missing.difference_update(unadded_keys)
(fallback_parent_map, key_to_source_map,
source_result) = self._find_from_fallback(missing)
if ordering in ('topological', 'groupcompress'):
# would be better to not globally sort initially but instead
# start with one key, recurse to its oldest parent, then grab
# everything in the same group, etc.
parent_map = dict((key, details[2]) for key, details in
locations.iteritems())
for key in unadded_keys:
parent_map[key] = self._unadded_refs[key]
parent_map.update(fallback_parent_map)
source_keys = self._get_ordered_source_keys(ordering, parent_map,
key_to_source_map)
elif ordering == 'as-requested':
source_keys = self._get_as_requested_source_keys(orig_keys,
locations, unadded_keys, key_to_source_map)
else:
# We want to yield the keys in a semi-optimal (read-wise) ordering.
# Otherwise we thrash the _group_cache and destroy performance
source_keys = self._get_io_ordered_source_keys(locations,
unadded_keys, source_result)
for key in missing:
yield AbsentContentFactory(key)
# Batch up as many keys as we can until either:
# - we encounter an unadded ref, or
# - we run out of keys, or
# - the total bytes to retrieve for this batch > BATCH_SIZE
batcher = _BatchingBlockFetcher(self, locations)
for source, keys in source_keys:
if source is self:
for key in keys:
if key in self._unadded_refs:
# Flush batch, then yield unadded ref from
# self._compressor.
for factory in batcher.yield_factories(full_flush=True):
yield factory
bytes, sha1 = self._compressor.extract(key)
parents = self._unadded_refs[key]
yield FulltextContentFactory(key, parents, sha1, bytes)
continue
if batcher.add_key(key) > BATCH_SIZE:
# Ok, this batch is big enough. Yield some results.
for factory in batcher.yield_factories():
yield factory
else:
for factory in batcher.yield_factories(full_flush=True):
yield factory
for record in source.get_record_stream(keys, ordering,
include_delta_closure):
yield record
for factory in batcher.yield_factories(full_flush=True):
yield factory
def get_sha1s(self, keys):
"""See VersionedFiles.get_sha1s()."""
result = {}
for record in self.get_record_stream(keys, 'unordered', True):
if record.sha1 != None:
result[record.key] = record.sha1
else:
if record.storage_kind != 'absent':
result[record.key] = osutils.sha_string(
record.get_bytes_as('fulltext'))
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:
"""
# XXX: Setting random_id=True makes
# test_insert_record_stream_existing_keys fail for groupcompress and
# groupcompress-nograph, this needs to be revisited while addressing
# 'bzr branch' performance issues.
for _ in self._insert_record_stream(stream, random_id=False):
pass
def _insert_record_stream(self, stream, random_id=False, nostore_sha=None,
reuse_blocks=True):
"""Internal core to insert a record stream into this container.
This helper function has a different interface than insert_record_stream
to allow add_lines to be minimal, but still return the needed data.
:param stream: A stream of records to insert.
:param nostore_sha: If the sha1 of a given text matches nostore_sha,
raise ExistingContent, rather than committing the new text.
:param reuse_blocks: If the source is streaming from
groupcompress-blocks, just insert the blocks as-is, rather than
expanding the texts and inserting again.
:return: An iterator over the sha1 of the inserted records.
:seealso insert_record_stream:
:seealso add_lines:
"""
adapters = {}
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
# This will go up to fulltexts for gc to gc fetching, which isn't
# ideal.
self._compressor = GroupCompressor()
self._unadded_refs = {}
keys_to_add = []
def flush():
bytes = self._compressor.flush().to_bytes()
index, start, length = self._access.add_raw_records(
[(None, len(bytes))], bytes)[0]
nodes = []
for key, reads, refs in keys_to_add:
nodes.append((key, "%d %d %s" % (start, length, reads), refs))
self._index.add_records(nodes, random_id=random_id)
self._unadded_refs = {}
del keys_to_add[:]
self._compressor = GroupCompressor()
last_prefix = None
max_fulltext_len = 0
max_fulltext_prefix = None
insert_manager = None
block_start = None
block_length = None
# XXX: TODO: remove this, it is just for safety checking for now
inserted_keys = set()
reuse_this_block = reuse_blocks
for record in stream:
# Raise an error when a record is missing.
if record.storage_kind == 'absent':
raise errors.RevisionNotPresent(record.key, self)
if random_id:
if record.key in inserted_keys:
trace.note('Insert claimed random_id=True,'
' but then inserted %r two times', record.key)
continue
inserted_keys.add(record.key)
if reuse_blocks:
# If the reuse_blocks flag is set, check to see if we can just
# copy a groupcompress block as-is.
# We only check on the first record (groupcompress-block) not
# on all of the (groupcompress-block-ref) entries.
# The reuse_this_block flag is then kept for as long as
if record.storage_kind == 'groupcompress-block':
# Check to see if we really want to re-use this block
insert_manager = record._manager
reuse_this_block = insert_manager.check_is_well_utilized()
else:
reuse_this_block = False
if reuse_this_block:
# We still want to reuse this block
if record.storage_kind == 'groupcompress-block':
# Insert the raw block into the target repo
insert_manager = record._manager
bytes = record._manager._block.to_bytes()
_, start, length = self._access.add_raw_records(
[(None, len(bytes))], bytes)[0]
del bytes
block_start = start
block_length = length
if record.storage_kind in ('groupcompress-block',
'groupcompress-block-ref'):
if insert_manager is None:
raise AssertionError('No insert_manager set')
if insert_manager is not record._manager:
raise AssertionError('insert_manager does not match'
' the current record, we cannot be positive'
' that the appropriate content was inserted.'
)
value = "%d %d %d %d" % (block_start, block_length,
record._start, record._end)
nodes = [(record.key, value, (record.parents,))]
# TODO: Consider buffering up many nodes to be added, not
# sure how much overhead this has, but we're seeing
# ~23s / 120s in add_records calls
self._index.add_records(nodes, random_id=random_id)
continue
try:
bytes = record.get_bytes_as('fulltext')
except errors.UnavailableRepresentation:
adapter_key = record.storage_kind, 'fulltext'
adapter = get_adapter(adapter_key)
bytes = adapter.get_bytes(record)
if len(record.key) > 1:
prefix = record.key[0]
soft = (prefix == last_prefix)
else:
prefix = None
soft = False
if max_fulltext_len < len(bytes):
max_fulltext_len = len(bytes)
max_fulltext_prefix = prefix
(found_sha1, start_point, end_point,
type) = self._compressor.compress(record.key,
bytes, record.sha1, soft=soft,
nostore_sha=nostore_sha)
# delta_ratio = float(len(bytes)) / (end_point - start_point)
# Check if we want to continue to include that text
if (prefix == max_fulltext_prefix
and end_point < 2 * max_fulltext_len):
# As long as we are on the same file_id, we will fill at least
# 2 * max_fulltext_len
start_new_block = False
elif end_point > 4*1024*1024:
start_new_block = True
elif (prefix is not None and prefix != last_prefix
and end_point > 2*1024*1024):
start_new_block = True
else:
start_new_block = False
last_prefix = prefix
if start_new_block:
self._compressor.pop_last()
flush()
max_fulltext_len = len(bytes)
(found_sha1, start_point, end_point,
type) = self._compressor.compress(record.key, bytes,
record.sha1)
if record.key[-1] is None:
key = record.key[:-1] + ('sha1:' + found_sha1,)
else:
key = record.key
self._unadded_refs[key] = record.parents
yield found_sha1
keys_to_add.append((key, '%d %d' % (start_point, end_point),
(record.parents,)))
if len(keys_to_add):
flush()
self._compressor = None
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.
:return: An iterator over (line, key).
"""
keys = set(keys)
total = len(keys)
# 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
for key_idx, record in enumerate(self.get_record_stream(keys,
'unordered', True)):
# XXX: todo - optimise to use less than full texts.
key = record.key
if pb is not None:
pb.update('Walking content', key_idx, total)
if record.storage_kind == 'absent':
raise errors.RevisionNotPresent(key, self)
lines = osutils.split_lines(record.get_bytes_as('fulltext'))
for line in lines:
yield line, key
if pb is not None:
pb.update('Walking content', total, total)
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 _GCGraphIndex(object):
"""Mapper from GroupCompressVersionedFiles needs into GraphIndex storage."""
def __init__(self, graph_index, is_locked, parents=True,
add_callback=None, track_external_parent_refs=False,
inconsistency_fatal=True, track_new_keys=False):
"""Construct a _GCGraphIndex on a graph_index.
:param graph_index: An implementation of bzrlib.index.GraphIndex.
:param is_locked: A callback, returns True if the index is locked and
thus usable.
: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 track_external_parent_refs: As keys are added, keep track of the
keys they reference, so that we can query get_missing_parents(),
etc.
:param inconsistency_fatal: When asked to add records that are already
present, and the details are inconsistent with the existing
record, raise an exception instead of warning (and skipping the
record).
"""
self._add_callback = add_callback
self._graph_index = graph_index
self._parents = parents
self.has_graph = parents
self._is_locked = is_locked
self._inconsistency_fatal = inconsistency_fatal
if track_external_parent_refs:
self._key_dependencies = knit._KeyRefs(
track_new_keys=track_new_keys)
else:
self._key_dependencies = None
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.
changed = False
keys = {}
for (key, value, refs) in records:
if not self._parents:
if refs:
for ref in refs:
if ref:
raise errors.KnitCorrupt(self,
"attempt to add node with parents "
"in parentless index.")
refs = ()
changed = True
keys[key] = (value, refs)
# check for dups
if not random_id:
present_nodes = self._get_entries(keys)
for (index, key, value, node_refs) in present_nodes:
if node_refs != keys[key][1]:
details = '%s %s %s' % (key, (value, node_refs), keys[key])
if self._inconsistency_fatal:
raise errors.KnitCorrupt(self, "inconsistent details"
" in add_records: %s" %
details)
else:
trace.warning("inconsistent details in skipped"
" record: %s", details)
del keys[key]
changed = True
if changed:
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))
records = result
key_dependencies = self._key_dependencies
if key_dependencies is not None:
if self._parents:
for key, value, refs in records:
parents = refs[0]
key_dependencies.add_references(key, parents)
else:
for key, value, refs in records:
new_keys.add_key(key)
self._add_callback(records)
def _check_read(self):
"""Raise an exception if reads are not permitted."""
if not self._is_locked():
raise errors.ObjectNotLocked(self)
def _check_write_ok(self):
"""Raise an exception if writes are not permitted."""
if not self._is_locked():
raise errors.ObjectNotLocked(self)
def _get_entries(self, keys, check_present=False):
"""Get the entries for keys.
Note: Callers are responsible for checking that the index is locked
before calling this method.
: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 errors.RevisionNotPresent(missing_keys.pop(), self)
def find_ancestry(self, keys):
"""See CombinedGraphIndex.find_ancestry"""
return self._graph_index.find_ancestry(keys, 0)
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_missing_parents(self):
"""Return the keys of missing parents."""
# Copied from _KnitGraphIndex.get_missing_parents
# We may have false positives, so filter those out.
self._key_dependencies.satisfy_refs_for_keys(
self.get_parent_map(self._key_dependencies.get_unsatisfied_refs()))
return frozenset(self._key_dependencies.get_unsatisfied_refs())
def get_build_details(self, keys):
"""Get the various build details 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
"""
self._check_read()
result = {}
entries = self._get_entries(keys)
for entry in entries:
key = entry[1]
if not self._parents:
parents = None
else:
parents = entry[3][0]
method = 'group'
result[key] = (self._node_to_position(entry),
None, parents, (method, None))
return result
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()]
def _node_to_position(self, node):
"""Convert an index value to position details."""
bits = node[2].split(' ')
# It would be nice not to read the entire gzip.
start = int(bits[0])
stop = int(bits[1])
basis_end = int(bits[2])
delta_end = int(bits[3])
return node[0], start, stop, basis_end, delta_end
def scan_unvalidated_index(self, graph_index):
"""Inform this _GCGraphIndex that there is an unvalidated index.
This allows this _GCGraphIndex to keep track of any missing
compression parents we may want to have filled in to make those
indices valid. It also allows _GCGraphIndex to track any new keys.
:param graph_index: A GraphIndex
"""
key_dependencies = self._key_dependencies
if key_dependencies is None:
return
for node in graph_index.iter_all_entries():
# Add parent refs from graph_index (and discard parent refs
# that the graph_index has).
key_dependencies.add_references(node[1], node[3][0])
from bzrlib._groupcompress_py import (
apply_delta,
apply_delta_to_source,
encode_base128_int,
decode_base128_int,
decode_copy_instruction,
LinesDeltaIndex,
)
try:
from bzrlib._groupcompress_pyx import (
apply_delta,
apply_delta_to_source,
DeltaIndex,
encode_base128_int,
decode_base128_int,
)
GroupCompressor = PyrexGroupCompressor
except ImportError:
GroupCompressor = PythonGroupCompressor
|