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import struct
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import zlib
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from mercurial.node import (
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hex,
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sha1nodeconstants,
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)
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from mercurial.i18n import _
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from mercurial import (
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pycompat,
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util,
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)
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from . import (
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basepack,
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constants,
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shallowutil,
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)
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NODELENGTH = 20
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# The indicator value in the index for a fulltext entry.
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FULLTEXTINDEXMARK = -1
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NOBASEINDEXMARK = -2
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INDEXSUFFIX = b'.dataidx'
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PACKSUFFIX = b'.datapack'
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class datapackstore(basepack.basepackstore):
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INDEXSUFFIX = INDEXSUFFIX
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PACKSUFFIX = PACKSUFFIX
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def __init__(self, ui, path):
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super(datapackstore, self).__init__(ui, path)
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def getpack(self, path):
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return datapack(path)
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def get(self, name, node):
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raise RuntimeError(b"must use getdeltachain with datapackstore")
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def getmeta(self, name, node):
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for pack in self.packs:
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try:
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return pack.getmeta(name, node)
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except KeyError:
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pass
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for pack in self.refresh():
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try:
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return pack.getmeta(name, node)
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except KeyError:
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pass
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raise KeyError((name, hex(node)))
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def getdelta(self, name, node):
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for pack in self.packs:
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try:
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return pack.getdelta(name, node)
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except KeyError:
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pass
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for pack in self.refresh():
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try:
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return pack.getdelta(name, node)
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except KeyError:
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pass
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raise KeyError((name, hex(node)))
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def getdeltachain(self, name, node):
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for pack in self.packs:
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try:
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return pack.getdeltachain(name, node)
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except KeyError:
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pass
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for pack in self.refresh():
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try:
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return pack.getdeltachain(name, node)
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except KeyError:
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pass
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raise KeyError((name, hex(node)))
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def add(self, name, node, data):
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raise RuntimeError(b"cannot add to datapackstore")
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class datapack(basepack.basepack):
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INDEXSUFFIX = INDEXSUFFIX
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PACKSUFFIX = PACKSUFFIX
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# Format is <node><delta offset><pack data offset><pack data size>
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# See the mutabledatapack doccomment for more details.
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INDEXFORMAT = b'!20siQQ'
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INDEXENTRYLENGTH = 40
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SUPPORTED_VERSIONS = [2]
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def getmissing(self, keys):
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missing = []
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for name, node in keys:
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value = self._find(node)
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if not value:
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missing.append((name, node))
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return missing
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def get(self, name, node):
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raise RuntimeError(
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b"must use getdeltachain with datapack (%s:%s)" % (name, hex(node))
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)
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def getmeta(self, name, node):
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value = self._find(node)
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if value is None:
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raise KeyError((name, hex(node)))
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node, deltabaseoffset, offset, size = value
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rawentry = self._data[offset : offset + size]
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# see docstring of mutabledatapack for the format
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offset = 0
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offset += struct.unpack_from(b'!H', rawentry, offset)[0] + 2 # filename
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offset += 40 # node, deltabase node
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offset += struct.unpack_from(b'!Q', rawentry, offset)[0] + 8 # delta
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metalen = struct.unpack_from(b'!I', rawentry, offset)[0]
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offset += 4
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meta = shallowutil.parsepackmeta(rawentry[offset : offset + metalen])
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return meta
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def getdelta(self, name, node):
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value = self._find(node)
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if value is None:
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raise KeyError((name, hex(node)))
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node, deltabaseoffset, offset, size = value
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entry = self._readentry(offset, size, getmeta=True)
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filename, node, deltabasenode, delta, meta = entry
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# If we've read a lot of data from the mmap, free some memory.
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self.freememory()
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return delta, filename, deltabasenode, meta
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def getdeltachain(self, name, node):
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value = self._find(node)
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if value is None:
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raise KeyError((name, hex(node)))
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params = self.params
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# Precompute chains
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chain = [value]
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deltabaseoffset = value[1]
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entrylen = self.INDEXENTRYLENGTH
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while (
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deltabaseoffset != FULLTEXTINDEXMARK
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and deltabaseoffset != NOBASEINDEXMARK
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):
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loc = params.indexstart + deltabaseoffset
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value = struct.unpack(
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self.INDEXFORMAT, self._index[loc : loc + entrylen]
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)
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deltabaseoffset = value[1]
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chain.append(value)
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# Read chain data
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deltachain = []
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for node, deltabaseoffset, offset, size in chain:
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filename, node, deltabasenode, delta = self._readentry(offset, size)
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deltachain.append((filename, node, filename, deltabasenode, delta))
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# If we've read a lot of data from the mmap, free some memory.
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self.freememory()
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return deltachain
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def _readentry(self, offset, size, getmeta=False):
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rawentry = self._data[offset : offset + size]
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self._pagedin += len(rawentry)
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# <2 byte len> + <filename>
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lengthsize = 2
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filenamelen = struct.unpack(b'!H', rawentry[:2])[0]
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filename = rawentry[lengthsize : lengthsize + filenamelen]
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# <20 byte node> + <20 byte deltabase>
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nodestart = lengthsize + filenamelen
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deltabasestart = nodestart + NODELENGTH
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node = rawentry[nodestart:deltabasestart]
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deltabasenode = rawentry[deltabasestart : deltabasestart + NODELENGTH]
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# <8 byte len> + <delta>
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deltastart = deltabasestart + NODELENGTH
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rawdeltalen = rawentry[deltastart : deltastart + 8]
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deltalen = struct.unpack(b'!Q', rawdeltalen)[0]
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delta = rawentry[deltastart + 8 : deltastart + 8 + deltalen]
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delta = self._decompress(delta)
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if getmeta:
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metastart = deltastart + 8 + deltalen
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metalen = struct.unpack_from(b'!I', rawentry, metastart)[0]
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rawmeta = rawentry[metastart + 4 : metastart + 4 + metalen]
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meta = shallowutil.parsepackmeta(rawmeta)
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return filename, node, deltabasenode, delta, meta
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else:
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return filename, node, deltabasenode, delta
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def _decompress(self, data):
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return zlib.decompress(data)
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def add(self, name, node, data):
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raise RuntimeError(b"cannot add to datapack (%s:%s)" % (name, node))
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def _find(self, node):
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params = self.params
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fanoutkey = struct.unpack(
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params.fanoutstruct, node[: params.fanoutprefix]
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)[0]
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fanout = self._fanouttable
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start = fanout[fanoutkey] + params.indexstart
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indexend = self._indexend
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# Scan forward to find the first non-same entry, which is the upper
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# bound.
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for i in pycompat.xrange(fanoutkey + 1, params.fanoutcount):
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end = fanout[i] + params.indexstart
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if end != start:
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break
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else:
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end = indexend
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# Bisect between start and end to find node
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index = self._index
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startnode = index[start : start + NODELENGTH]
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endnode = index[end : end + NODELENGTH]
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entrylen = self.INDEXENTRYLENGTH
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if startnode == node:
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entry = index[start : start + entrylen]
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elif endnode == node:
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entry = index[end : end + entrylen]
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else:
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while start < end - entrylen:
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mid = start + (end - start) // 2
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mid = mid - ((mid - params.indexstart) % entrylen)
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midnode = index[mid : mid + NODELENGTH]
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if midnode == node:
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entry = index[mid : mid + entrylen]
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break
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if node > midnode:
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start = mid
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elif node < midnode:
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end = mid
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else:
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return None
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return struct.unpack(self.INDEXFORMAT, entry)
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def markledger(self, ledger, options=None):
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for filename, node in self:
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ledger.markdataentry(self, filename, node)
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def cleanup(self, ledger):
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entries = ledger.sources.get(self, [])
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allkeys = set(self)
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repackedkeys = {
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(e.filename, e.node) for e in entries if e.datarepacked or e.gced
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}
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if len(allkeys - repackedkeys) == 0:
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if self.path not in ledger.created:
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util.unlinkpath(self.indexpath, ignoremissing=True)
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util.unlinkpath(self.packpath, ignoremissing=True)
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def __iter__(self):
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for f, n, deltabase, deltalen in self.iterentries():
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yield f, n
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def iterentries(self):
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# Start at 1 to skip the header
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offset = 1
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data = self._data
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while offset < self.datasize:
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oldoffset = offset
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# <2 byte len> + <filename>
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filenamelen = struct.unpack(b'!H', data[offset : offset + 2])[0]
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offset += 2
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filename = data[offset : offset + filenamelen]
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offset += filenamelen
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# <20 byte node>
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node = data[offset : offset + constants.NODESIZE]
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offset += constants.NODESIZE
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# <20 byte deltabase>
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deltabase = data[offset : offset + constants.NODESIZE]
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offset += constants.NODESIZE
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# <8 byte len> + <delta>
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rawdeltalen = data[offset : offset + 8]
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deltalen = struct.unpack(b'!Q', rawdeltalen)[0]
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offset += 8
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# TODO(augie): we should store a header that is the
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# uncompressed size.
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uncompressedlen = len(
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self._decompress(data[offset : offset + deltalen])
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)
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offset += deltalen
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# <4 byte len> + <metadata-list>
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metalen = struct.unpack_from(b'!I', data, offset)[0]
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offset += 4 + metalen
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yield (filename, node, deltabase, uncompressedlen)
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# If we've read a lot of data from the mmap, free some memory.
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self._pagedin += offset - oldoffset
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if self.freememory():
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data = self._data
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class mutabledatapack(basepack.mutablebasepack):
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"""A class for constructing and serializing a datapack file and index.
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A datapack is a pair of files that contain the revision contents for various
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file revisions in Mercurial. It contains only revision contents (like file
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contents), not any history information.
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It consists of two files, with the following format. All bytes are in
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network byte order (big endian).
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.datapack
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The pack itself is a series of revision deltas with some basic header
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information on each. A revision delta may be a fulltext, represented by
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a deltabasenode equal to the nullid.
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datapack = <version: 1 byte>
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[<revision>,...]
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revision = <filename len: 2 byte unsigned int>
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<filename>
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<node: 20 byte>
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<deltabasenode: 20 byte>
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<delta len: 8 byte unsigned int>
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<delta>
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<metadata-list len: 4 byte unsigned int> [1]
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<metadata-list> [1]
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metadata-list = [<metadata-item>, ...]
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metadata-item = <metadata-key: 1 byte>
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<metadata-value len: 2 byte unsigned>
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<metadata-value>
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metadata-key could be METAKEYFLAG or METAKEYSIZE or other single byte
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value in the future.
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.dataidx
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The index file consists of two parts, the fanout and the index.
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The index is a list of index entries, sorted by node (one per revision
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in the pack). Each entry has:
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- node (The 20 byte node of the entry; i.e. the commit hash, file node
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hash, etc)
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- deltabase index offset (The location in the index of the deltabase for
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this entry. The deltabase is the next delta in
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the chain, with the chain eventually
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terminating in a full-text, represented by a
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deltabase offset of -1. This lets us compute
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delta chains from the index, then do
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sequential reads from the pack if the revision
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are nearby on disk.)
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- pack entry offset (The location of this entry in the datapack)
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- pack content size (The on-disk length of this entry's pack data)
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The fanout is a quick lookup table to reduce the number of steps for
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bisecting the index. It is a series of 4 byte pointers to positions
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within the index. It has 2^16 entries, which corresponds to hash
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prefixes [0000, 0001,..., FFFE, FFFF]. Example: the pointer in slot
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4F0A points to the index position of the first revision whose node
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starts with 4F0A. This saves log(2^16)=16 bisect steps.
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dataidx = <fanouttable>
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<index>
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fanouttable = [<index offset: 4 byte unsigned int>,...] (2^16 entries)
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index = [<index entry>,...]
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indexentry = <node: 20 byte>
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<deltabase location: 4 byte signed int>
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<pack entry offset: 8 byte unsigned int>
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<pack entry size: 8 byte unsigned int>
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[1]: new in version 1.
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"""
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INDEXSUFFIX = INDEXSUFFIX
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PACKSUFFIX = PACKSUFFIX
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# v[01] index format: <node><delta offset><pack data offset><pack data size>
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INDEXFORMAT = datapack.INDEXFORMAT
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INDEXENTRYLENGTH = datapack.INDEXENTRYLENGTH
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# v1 has metadata support
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SUPPORTED_VERSIONS = [2]
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def _compress(self, data):
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return zlib.compress(data)
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def add(self, name, node, deltabasenode, delta, metadata=None):
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# metadata is a dict, ex. {METAKEYFLAG: flag}
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if len(name) > 2 ** 16:
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raise RuntimeError(_(b"name too long %s") % name)
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if len(node) != 20:
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raise RuntimeError(_(b"node should be 20 bytes %s") % node)
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|
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if node in self.entries:
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# The revision has already been added
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return
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# TODO: allow configurable compression
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|
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delta = self._compress(delta)
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|
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rawdata = b''.join(
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(
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struct.pack(b'!H', len(name)), # unsigned 2 byte int
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|
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name,
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node,
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deltabasenode,
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struct.pack(b'!Q', len(delta)), # unsigned 8 byte int
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delta,
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)
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)
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# v1 support metadata
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rawmeta = shallowutil.buildpackmeta(metadata)
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rawdata += struct.pack(b'!I', len(rawmeta)) # unsigned 4 byte
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rawdata += rawmeta
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offset = self.packfp.tell()
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size = len(rawdata)
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self.entries[node] = (deltabasenode, offset, size)
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|
|
|
|
self.writeraw(rawdata)
|
|
|
|
|
|
def createindex(self, nodelocations, indexoffset):
|
|
|
entries = sorted(
|
|
|
(n, db, o, s) for n, (db, o, s) in self.entries.items()
|
|
|
)
|
|
|
|
|
|
rawindex = b''
|
|
|
fmt = self.INDEXFORMAT
|
|
|
for node, deltabase, offset, size in entries:
|
|
|
if deltabase == sha1nodeconstants.nullid:
|
|
|
deltabaselocation = FULLTEXTINDEXMARK
|
|
|
else:
|
|
|
# Instead of storing the deltabase node in the index, let's
|
|
|
# store a pointer directly to the index entry for the deltabase.
|
|
|
deltabaselocation = nodelocations.get(
|
|
|
deltabase, NOBASEINDEXMARK
|
|
|
)
|
|
|
|
|
|
entry = struct.pack(fmt, node, deltabaselocation, offset, size)
|
|
|
rawindex += entry
|
|
|
|
|
|
return rawindex
|
|
|
|