mirror of
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782 lines
25 KiB
Python
782 lines
25 KiB
Python
# Copyright (C) 2010, 2011 Sebastian Thiel (byronimo@gmail.com) and contributors
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#
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# This module is part of GitDB and is released under
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# the New BSD License: http://www.opensource.org/licenses/bsd-license.php
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"""Contains basic c-functions which usually contain performance critical code
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Keeping this code separate from the beginning makes it easier to out-source
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it into c later, if required"""
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import zlib
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from gitdb.util import byte_ord
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decompressobj = zlib.decompressobj
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import mmap
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from itertools import islice
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from functools import reduce
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from gitdb.const import NULL_BYTE, BYTE_SPACE
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from gitdb.utils.encoding import force_text
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from gitdb.utils.compat import izip, buffer, xrange, PY3
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from gitdb.typ import (
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str_blob_type,
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str_commit_type,
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str_tree_type,
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str_tag_type,
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)
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from io import StringIO
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# INVARIANTS
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OFS_DELTA = 6
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REF_DELTA = 7
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delta_types = (OFS_DELTA, REF_DELTA)
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type_id_to_type_map = {
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0: b'', # EXT 1
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1: str_commit_type,
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2: str_tree_type,
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3: str_blob_type,
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4: str_tag_type,
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5: b'', # EXT 2
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OFS_DELTA: "OFS_DELTA", # OFFSET DELTA
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REF_DELTA: "REF_DELTA" # REFERENCE DELTA
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}
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type_to_type_id_map = {
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str_commit_type: 1,
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str_tree_type: 2,
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str_blob_type: 3,
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str_tag_type: 4,
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"OFS_DELTA": OFS_DELTA,
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"REF_DELTA": REF_DELTA,
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}
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# used when dealing with larger streams
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chunk_size = 1000 * mmap.PAGESIZE
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__all__ = ('is_loose_object', 'loose_object_header_info', 'msb_size', 'pack_object_header_info',
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'write_object', 'loose_object_header', 'stream_copy', 'apply_delta_data',
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'is_equal_canonical_sha', 'connect_deltas', 'DeltaChunkList', 'create_pack_object_header')
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#{ Structures
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def _set_delta_rbound(d, size):
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"""Truncate the given delta to the given size
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:param size: size relative to our target offset, may not be 0, must be smaller or equal
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to our size
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:return: d"""
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d.ts = size
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# NOTE: data is truncated automatically when applying the delta
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# MUST NOT DO THIS HERE
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return d
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def _move_delta_lbound(d, bytes):
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"""Move the delta by the given amount of bytes, reducing its size so that its
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right bound stays static
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:param bytes: amount of bytes to move, must be smaller than delta size
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:return: d"""
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if bytes == 0:
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return
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d.to += bytes
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d.so += bytes
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d.ts -= bytes
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if d.data is not None:
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d.data = d.data[bytes:]
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# END handle data
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return d
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def delta_duplicate(src):
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return DeltaChunk(src.to, src.ts, src.so, src.data)
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def delta_chunk_apply(dc, bbuf, write):
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"""Apply own data to the target buffer
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:param bbuf: buffer providing source bytes for copy operations
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:param write: write method to call with data to write"""
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if dc.data is None:
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# COPY DATA FROM SOURCE
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write(buffer(bbuf, dc.so, dc.ts))
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else:
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# APPEND DATA
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# whats faster: if + 4 function calls or just a write with a slice ?
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# Considering data can be larger than 127 bytes now, it should be worth it
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if dc.ts < len(dc.data):
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write(dc.data[:dc.ts])
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else:
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write(dc.data)
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# END handle truncation
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# END handle chunk mode
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class DeltaChunk(object):
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"""Represents a piece of a delta, it can either add new data, or copy existing
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one from a source buffer"""
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__slots__ = (
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'to', # start offset in the target buffer in bytes
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'ts', # size of this chunk in the target buffer in bytes
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'so', # start offset in the source buffer in bytes or None
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'data', # chunk of bytes to be added to the target buffer,
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# DeltaChunkList to use as base, or None
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)
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def __init__(self, to, ts, so, data):
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self.to = to
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self.ts = ts
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self.so = so
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self.data = data
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def __repr__(self):
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return "DeltaChunk(%i, %i, %s, %s)" % (self.to, self.ts, self.so, self.data or "")
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#{ Interface
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def rbound(self):
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return self.to + self.ts
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def has_data(self):
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""":return: True if the instance has data to add to the target stream"""
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return self.data is not None
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#} END interface
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def _closest_index(dcl, absofs):
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""":return: index at which the given absofs should be inserted. The index points
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to the DeltaChunk with a target buffer absofs that equals or is greater than
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absofs.
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**Note:** global method for performance only, it belongs to DeltaChunkList"""
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lo = 0
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hi = len(dcl)
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while lo < hi:
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mid = (lo + hi) / 2
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dc = dcl[mid]
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if dc.to > absofs:
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hi = mid
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elif dc.rbound() > absofs or dc.to == absofs:
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return mid
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else:
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lo = mid + 1
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# END handle bound
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# END for each delta absofs
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return len(dcl) - 1
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def delta_list_apply(dcl, bbuf, write):
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"""Apply the chain's changes and write the final result using the passed
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write function.
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:param bbuf: base buffer containing the base of all deltas contained in this
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list. It will only be used if the chunk in question does not have a base
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chain.
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:param write: function taking a string of bytes to write to the output"""
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for dc in dcl:
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delta_chunk_apply(dc, bbuf, write)
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# END for each dc
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def delta_list_slice(dcl, absofs, size, ndcl):
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""":return: Subsection of this list at the given absolute offset, with the given
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size in bytes.
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:return: None"""
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cdi = _closest_index(dcl, absofs) # delta start index
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cd = dcl[cdi]
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slen = len(dcl)
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lappend = ndcl.append
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if cd.to != absofs:
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tcd = DeltaChunk(cd.to, cd.ts, cd.so, cd.data)
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_move_delta_lbound(tcd, absofs - cd.to)
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tcd.ts = min(tcd.ts, size)
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lappend(tcd)
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size -= tcd.ts
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cdi += 1
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# END lbound overlap handling
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while cdi < slen and size:
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# are we larger than the current block
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cd = dcl[cdi]
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if cd.ts <= size:
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lappend(DeltaChunk(cd.to, cd.ts, cd.so, cd.data))
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size -= cd.ts
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else:
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tcd = DeltaChunk(cd.to, cd.ts, cd.so, cd.data)
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tcd.ts = size
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lappend(tcd)
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size -= tcd.ts
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break
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# END hadle size
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cdi += 1
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# END for each chunk
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class DeltaChunkList(list):
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"""List with special functionality to deal with DeltaChunks.
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There are two types of lists we represent. The one was created bottom-up, working
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towards the latest delta, the other kind was created top-down, working from the
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latest delta down to the earliest ancestor. This attribute is queryable
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after all processing with is_reversed."""
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__slots__ = tuple()
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def rbound(self):
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""":return: rightmost extend in bytes, absolute"""
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if len(self) == 0:
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return 0
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return self[-1].rbound()
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def lbound(self):
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""":return: leftmost byte at which this chunklist starts"""
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if len(self) == 0:
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return 0
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return self[0].to
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def size(self):
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""":return: size of bytes as measured by our delta chunks"""
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return self.rbound() - self.lbound()
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def apply(self, bbuf, write):
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"""Only used by public clients, internally we only use the global routines
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for performance"""
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return delta_list_apply(self, bbuf, write)
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def compress(self):
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"""Alter the list to reduce the amount of nodes. Currently we concatenate
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add-chunks
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:return: self"""
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slen = len(self)
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if slen < 2:
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return self
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i = 0
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first_data_index = None
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while i < slen:
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dc = self[i]
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i += 1
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if dc.data is None:
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if first_data_index is not None and i - 2 - first_data_index > 1:
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# if first_data_index is not None:
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nd = StringIO() # new data
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so = self[first_data_index].to # start offset in target buffer
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for x in xrange(first_data_index, i - 1):
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xdc = self[x]
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nd.write(xdc.data[:xdc.ts])
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# END collect data
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del(self[first_data_index:i - 1])
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buf = nd.getvalue()
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self.insert(first_data_index, DeltaChunk(so, len(buf), 0, buf))
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slen = len(self)
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i = first_data_index + 1
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# END concatenate data
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first_data_index = None
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continue
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# END skip non-data chunks
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if first_data_index is None:
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first_data_index = i - 1
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# END iterate list
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# if slen_orig != len(self):
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# print "INFO: Reduced delta list len to %f %% of former size" % ((float(len(self)) / slen_orig) * 100)
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return self
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def check_integrity(self, target_size=-1):
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"""Verify the list has non-overlapping chunks only, and the total size matches
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target_size
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:param target_size: if not -1, the total size of the chain must be target_size
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:raise AssertionError: if the size doen't match"""
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if target_size > -1:
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assert self[-1].rbound() == target_size
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assert reduce(lambda x, y: x + y, (d.ts for d in self), 0) == target_size
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# END target size verification
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if len(self) < 2:
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return
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# check data
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for dc in self:
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assert dc.ts > 0
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if dc.has_data():
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assert len(dc.data) >= dc.ts
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# END for each dc
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left = islice(self, 0, len(self) - 1)
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right = iter(self)
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right.next()
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# this is very pythonic - we might have just use index based access here,
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# but this could actually be faster
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for lft, rgt in izip(left, right):
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assert lft.rbound() == rgt.to
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assert lft.to + lft.ts == rgt.to
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# END for each pair
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class TopdownDeltaChunkList(DeltaChunkList):
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"""Represents a list which is generated by feeding its ancestor streams one by
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one"""
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__slots__ = tuple()
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def connect_with_next_base(self, bdcl):
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"""Connect this chain with the next level of our base delta chunklist.
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The goal in this game is to mark as many of our chunks rigid, hence they
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cannot be changed by any of the upcoming bases anymore. Once all our
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chunks are marked like that, we can stop all processing
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:param bdcl: data chunk list being one of our bases. They must be fed in
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consequtively and in order, towards the earliest ancestor delta
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:return: True if processing was done. Use it to abort processing of
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remaining streams if False is returned"""
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nfc = 0 # number of frozen chunks
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dci = 0 # delta chunk index
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slen = len(self) # len of self
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ccl = list() # temporary list
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while dci < slen:
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dc = self[dci]
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dci += 1
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# all add-chunks which are already topmost don't need additional processing
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if dc.data is not None:
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nfc += 1
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continue
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# END skip add chunks
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# copy chunks
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# integrate the portion of the base list into ourselves. Lists
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# dont support efficient insertion ( just one at a time ), but for now
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# we live with it. Internally, its all just a 32/64bit pointer, and
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# the portions of moved memory should be smallish. Maybe we just rebuild
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# ourselves in order to reduce the amount of insertions ...
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del(ccl[:])
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delta_list_slice(bdcl, dc.so, dc.ts, ccl)
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# move the target bounds into place to match with our chunk
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ofs = dc.to - dc.so
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for cdc in ccl:
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cdc.to += ofs
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# END update target bounds
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if len(ccl) == 1:
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self[dci - 1] = ccl[0]
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else:
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# maybe try to compute the expenses here, and pick the right algorithm
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# It would normally be faster than copying everything physically though
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# TODO: Use a deque here, and decide by the index whether to extend
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# or extend left !
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post_dci = self[dci:]
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del(self[dci - 1:]) # include deletion of dc
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self.extend(ccl)
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self.extend(post_dci)
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slen = len(self)
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dci += len(ccl) - 1 # deleted dc, added rest
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# END handle chunk replacement
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# END for each chunk
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if nfc == slen:
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return False
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# END handle completeness
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return True
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#} END structures
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#{ Routines
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def is_loose_object(m):
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"""
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:return: True the file contained in memory map m appears to be a loose object.
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Only the first two bytes are needed"""
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b0, b1 = map(ord, m[:2])
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word = (b0 << 8) + b1
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return b0 == 0x78 and (word % 31) == 0
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def loose_object_header_info(m):
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"""
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:return: tuple(type_string, uncompressed_size_in_bytes) the type string of the
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object as well as its uncompressed size in bytes.
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:param m: memory map from which to read the compressed object data"""
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decompress_size = 8192 # is used in cgit as well
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hdr = decompressobj().decompress(m, decompress_size)
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type_name, size = hdr[:hdr.find(NULL_BYTE)].split(BYTE_SPACE)
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return type_name, int(size)
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def pack_object_header_info(data):
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"""
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:return: tuple(type_id, uncompressed_size_in_bytes, byte_offset)
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The type_id should be interpreted according to the ``type_id_to_type_map`` map
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The byte-offset specifies the start of the actual zlib compressed datastream
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:param m: random-access memory, like a string or memory map"""
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c = byte_ord(data[0]) # first byte
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i = 1 # next char to read
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type_id = (c >> 4) & 7 # numeric type
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size = c & 15 # starting size
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s = 4 # starting bit-shift size
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if PY3:
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while c & 0x80:
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c = byte_ord(data[i])
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i += 1
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size += (c & 0x7f) << s
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s += 7
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# END character loop
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else:
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while c & 0x80:
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c = ord(data[i])
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i += 1
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size += (c & 0x7f) << s
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s += 7
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# END character loop
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# end performance at expense of maintenance ...
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return (type_id, size, i)
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def create_pack_object_header(obj_type, obj_size):
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"""
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:return: string defining the pack header comprised of the object type
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and its incompressed size in bytes
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:param obj_type: pack type_id of the object
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:param obj_size: uncompressed size in bytes of the following object stream"""
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c = 0 # 1 byte
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if PY3:
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hdr = bytearray() # output string
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c = (obj_type << 4) | (obj_size & 0xf)
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obj_size >>= 4
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while obj_size:
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hdr.append(c | 0x80)
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c = obj_size & 0x7f
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obj_size >>= 7
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# END until size is consumed
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hdr.append(c)
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else:
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hdr = bytes() # output string
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c = (obj_type << 4) | (obj_size & 0xf)
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obj_size >>= 4
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while obj_size:
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hdr += chr(c | 0x80)
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c = obj_size & 0x7f
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obj_size >>= 7
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# END until size is consumed
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hdr += chr(c)
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# end handle interpreter
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return hdr
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def msb_size(data, offset=0):
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"""
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:return: tuple(read_bytes, size) read the msb size from the given random
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access data starting at the given byte offset"""
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size = 0
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i = 0
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l = len(data)
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hit_msb = False
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if PY3:
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while i < l:
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c = data[i + offset]
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size |= (c & 0x7f) << i * 7
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i += 1
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if not c & 0x80:
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hit_msb = True
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break
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# END check msb bit
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# END while in range
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else:
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while i < l:
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c = ord(data[i + offset])
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size |= (c & 0x7f) << i * 7
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i += 1
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if not c & 0x80:
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hit_msb = True
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break
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# END check msb bit
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# END while in range
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# end performance ...
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if not hit_msb:
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raise AssertionError("Could not find terminating MSB byte in data stream")
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return i + offset, size
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def loose_object_header(type, size):
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"""
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:return: bytes representing the loose object header, which is immediately
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followed by the content stream of size 'size'"""
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return ('%s %i\0' % (force_text(type), size)).encode('ascii')
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def write_object(type, size, read, write, chunk_size=chunk_size):
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"""
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Write the object as identified by type, size and source_stream into the
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target_stream
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:param type: type string of the object
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:param size: amount of bytes to write from source_stream
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:param read: read method of a stream providing the content data
|
|
:param write: write method of the output stream
|
|
:param close_target_stream: if True, the target stream will be closed when
|
|
the routine exits, even if an error is thrown
|
|
:return: The actual amount of bytes written to stream, which includes the header and a trailing newline"""
|
|
tbw = 0 # total num bytes written
|
|
|
|
# WRITE HEADER: type SP size NULL
|
|
tbw += write(loose_object_header(type, size))
|
|
tbw += stream_copy(read, write, size, chunk_size)
|
|
|
|
return tbw
|
|
|
|
|
|
def stream_copy(read, write, size, chunk_size):
|
|
"""
|
|
Copy a stream up to size bytes using the provided read and write methods,
|
|
in chunks of chunk_size
|
|
|
|
**Note:** its much like stream_copy utility, but operates just using methods"""
|
|
dbw = 0 # num data bytes written
|
|
|
|
# WRITE ALL DATA UP TO SIZE
|
|
while True:
|
|
cs = min(chunk_size, size - dbw)
|
|
# NOTE: not all write methods return the amount of written bytes, like
|
|
# mmap.write. Its bad, but we just deal with it ... perhaps its not
|
|
# even less efficient
|
|
# data_len = write(read(cs))
|
|
# dbw += data_len
|
|
data = read(cs)
|
|
data_len = len(data)
|
|
dbw += data_len
|
|
write(data)
|
|
if data_len < cs or dbw == size:
|
|
break
|
|
# END check for stream end
|
|
# END duplicate data
|
|
return dbw
|
|
|
|
|
|
def connect_deltas(dstreams):
|
|
"""
|
|
Read the condensed delta chunk information from dstream and merge its information
|
|
into a list of existing delta chunks
|
|
|
|
:param dstreams: iterable of delta stream objects, the delta to be applied last
|
|
comes first, then all its ancestors in order
|
|
:return: DeltaChunkList, containing all operations to apply"""
|
|
tdcl = None # topmost dcl
|
|
|
|
dcl = tdcl = TopdownDeltaChunkList()
|
|
for dsi, ds in enumerate(dstreams):
|
|
# print "Stream", dsi
|
|
db = ds.read()
|
|
delta_buf_size = ds.size
|
|
|
|
# read header
|
|
i, base_size = msb_size(db)
|
|
i, target_size = msb_size(db, i)
|
|
|
|
# interpret opcodes
|
|
tbw = 0 # amount of target bytes written
|
|
while i < delta_buf_size:
|
|
c = ord(db[i])
|
|
i += 1
|
|
if c & 0x80:
|
|
cp_off, cp_size = 0, 0
|
|
if (c & 0x01):
|
|
cp_off = ord(db[i])
|
|
i += 1
|
|
if (c & 0x02):
|
|
cp_off |= (ord(db[i]) << 8)
|
|
i += 1
|
|
if (c & 0x04):
|
|
cp_off |= (ord(db[i]) << 16)
|
|
i += 1
|
|
if (c & 0x08):
|
|
cp_off |= (ord(db[i]) << 24)
|
|
i += 1
|
|
if (c & 0x10):
|
|
cp_size = ord(db[i])
|
|
i += 1
|
|
if (c & 0x20):
|
|
cp_size |= (ord(db[i]) << 8)
|
|
i += 1
|
|
if (c & 0x40):
|
|
cp_size |= (ord(db[i]) << 16)
|
|
i += 1
|
|
|
|
if not cp_size:
|
|
cp_size = 0x10000
|
|
|
|
rbound = cp_off + cp_size
|
|
if (rbound < cp_size or
|
|
rbound > base_size):
|
|
break
|
|
|
|
dcl.append(DeltaChunk(tbw, cp_size, cp_off, None))
|
|
tbw += cp_size
|
|
elif c:
|
|
# NOTE: in C, the data chunks should probably be concatenated here.
|
|
# In python, we do it as a post-process
|
|
dcl.append(DeltaChunk(tbw, c, 0, db[i:i + c]))
|
|
i += c
|
|
tbw += c
|
|
else:
|
|
raise ValueError("unexpected delta opcode 0")
|
|
# END handle command byte
|
|
# END while processing delta data
|
|
|
|
dcl.compress()
|
|
|
|
# merge the lists !
|
|
if dsi > 0:
|
|
if not tdcl.connect_with_next_base(dcl):
|
|
break
|
|
# END handle merge
|
|
|
|
# prepare next base
|
|
dcl = DeltaChunkList()
|
|
# END for each delta stream
|
|
|
|
return tdcl
|
|
|
|
|
|
def apply_delta_data(src_buf, src_buf_size, delta_buf, delta_buf_size, write):
|
|
"""
|
|
Apply data from a delta buffer using a source buffer to the target file
|
|
|
|
:param src_buf: random access data from which the delta was created
|
|
:param src_buf_size: size of the source buffer in bytes
|
|
:param delta_buf_size: size fo the delta buffer in bytes
|
|
:param delta_buf: random access delta data
|
|
:param write: write method taking a chunk of bytes
|
|
|
|
**Note:** transcribed to python from the similar routine in patch-delta.c"""
|
|
i = 0
|
|
db = delta_buf
|
|
if PY3:
|
|
while i < delta_buf_size:
|
|
c = db[i]
|
|
i += 1
|
|
if c & 0x80:
|
|
cp_off, cp_size = 0, 0
|
|
if (c & 0x01):
|
|
cp_off = db[i]
|
|
i += 1
|
|
if (c & 0x02):
|
|
cp_off |= (db[i] << 8)
|
|
i += 1
|
|
if (c & 0x04):
|
|
cp_off |= (db[i] << 16)
|
|
i += 1
|
|
if (c & 0x08):
|
|
cp_off |= (db[i] << 24)
|
|
i += 1
|
|
if (c & 0x10):
|
|
cp_size = db[i]
|
|
i += 1
|
|
if (c & 0x20):
|
|
cp_size |= (db[i] << 8)
|
|
i += 1
|
|
if (c & 0x40):
|
|
cp_size |= (db[i] << 16)
|
|
i += 1
|
|
|
|
if not cp_size:
|
|
cp_size = 0x10000
|
|
|
|
rbound = cp_off + cp_size
|
|
if (rbound < cp_size or
|
|
rbound > src_buf_size):
|
|
break
|
|
write(buffer(src_buf, cp_off, cp_size))
|
|
elif c:
|
|
write(db[i:i + c])
|
|
i += c
|
|
else:
|
|
raise ValueError("unexpected delta opcode 0")
|
|
# END handle command byte
|
|
# END while processing delta data
|
|
else:
|
|
while i < delta_buf_size:
|
|
c = ord(db[i])
|
|
i += 1
|
|
if c & 0x80:
|
|
cp_off, cp_size = 0, 0
|
|
if (c & 0x01):
|
|
cp_off = ord(db[i])
|
|
i += 1
|
|
if (c & 0x02):
|
|
cp_off |= (ord(db[i]) << 8)
|
|
i += 1
|
|
if (c & 0x04):
|
|
cp_off |= (ord(db[i]) << 16)
|
|
i += 1
|
|
if (c & 0x08):
|
|
cp_off |= (ord(db[i]) << 24)
|
|
i += 1
|
|
if (c & 0x10):
|
|
cp_size = ord(db[i])
|
|
i += 1
|
|
if (c & 0x20):
|
|
cp_size |= (ord(db[i]) << 8)
|
|
i += 1
|
|
if (c & 0x40):
|
|
cp_size |= (ord(db[i]) << 16)
|
|
i += 1
|
|
|
|
if not cp_size:
|
|
cp_size = 0x10000
|
|
|
|
rbound = cp_off + cp_size
|
|
if (rbound < cp_size or
|
|
rbound > src_buf_size):
|
|
break
|
|
write(buffer(src_buf, cp_off, cp_size))
|
|
elif c:
|
|
write(db[i:i + c])
|
|
i += c
|
|
else:
|
|
raise ValueError("unexpected delta opcode 0")
|
|
# END handle command byte
|
|
# END while processing delta data
|
|
# end save byte_ord call and prevent performance regression in py2
|
|
|
|
# yes, lets use the exact same error message that git uses :)
|
|
assert i == delta_buf_size, "delta replay has gone wild"
|
|
|
|
|
|
def is_equal_canonical_sha(canonical_length, match, sha1):
|
|
"""
|
|
:return: True if the given lhs and rhs 20 byte binary shas
|
|
The comparison will take the canonical_length of the match sha into account,
|
|
hence the comparison will only use the last 4 bytes for uneven canonical representations
|
|
:param match: less than 20 byte sha
|
|
:param sha1: 20 byte sha"""
|
|
binary_length = canonical_length // 2
|
|
if match[:binary_length] != sha1[:binary_length]:
|
|
return False
|
|
|
|
if canonical_length - binary_length and \
|
|
(byte_ord(match[-1]) ^ byte_ord(sha1[len(match) - 1])) & 0xf0:
|
|
return False
|
|
# END handle uneven canonnical length
|
|
return True
|
|
|
|
#} END routines
|
|
|
|
|
|
try:
|
|
from gitdb_speedups._perf import connect_deltas
|
|
except ImportError:
|
|
pass
|