mirror of
https://github.com/facebook/sapling.git
synced 2024-10-07 07:17:55 +03:00
aaa1f20f5a
This way can use one additional bit, and when encountering invalid revlogs with the first bit set don't produce python warnings or strange error messages.
1287 lines
44 KiB
Python
1287 lines
44 KiB
Python
"""
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revlog.py - storage back-end for mercurial
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This provides efficient delta storage with O(1) retrieve and append
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and O(changes) merge between branches
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Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>
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This software may be used and distributed according to the terms
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of the GNU General Public License, incorporated herein by reference.
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"""
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from node import *
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from i18n import gettext as _
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from demandload import demandload
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demandload(globals(), "binascii changegroup errno ancestor mdiff os")
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demandload(globals(), "sha struct util zlib")
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# revlog version strings
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REVLOGV0 = 0
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REVLOGNG = 1
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# revlog flags
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REVLOGNGINLINEDATA = (1 << 16)
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REVLOG_DEFAULT_FLAGS = REVLOGNGINLINEDATA
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REVLOG_DEFAULT_FORMAT = REVLOGNG
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REVLOG_DEFAULT_VERSION = REVLOG_DEFAULT_FORMAT | REVLOG_DEFAULT_FLAGS
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def flagstr(flag):
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if flag == "inline":
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return REVLOGNGINLINEDATA
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raise RevlogError(_("unknown revlog flag %s") % flag)
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def hash(text, p1, p2):
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"""generate a hash from the given text and its parent hashes
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This hash combines both the current file contents and its history
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in a manner that makes it easy to distinguish nodes with the same
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content in the revision graph.
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"""
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l = [p1, p2]
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l.sort()
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s = sha.new(l[0])
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s.update(l[1])
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s.update(text)
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return s.digest()
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def compress(text):
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""" generate a possibly-compressed representation of text """
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if not text: return ("", text)
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if len(text) < 44:
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if text[0] == '\0': return ("", text)
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return ('u', text)
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bin = zlib.compress(text)
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if len(bin) > len(text):
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if text[0] == '\0': return ("", text)
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return ('u', text)
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return ("", bin)
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def decompress(bin):
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""" decompress the given input """
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if not bin: return bin
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t = bin[0]
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if t == '\0': return bin
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if t == 'x': return zlib.decompress(bin)
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if t == 'u': return bin[1:]
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raise RevlogError(_("unknown compression type %r") % t)
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indexformatv0 = ">4l20s20s20s"
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v0shaoffset = 56
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# index ng:
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# 6 bytes offset
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# 2 bytes flags
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# 4 bytes compressed length
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# 4 bytes uncompressed length
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# 4 bytes: base rev
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# 4 bytes link rev
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# 4 bytes parent 1 rev
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# 4 bytes parent 2 rev
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# 32 bytes: nodeid
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indexformatng = ">Qiiiiii20s12x"
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ngshaoffset = 32
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versionformat = ">I"
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class lazyparser(object):
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"""
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this class avoids the need to parse the entirety of large indices
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"""
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# lazyparser is not safe to use on windows if win32 extensions not
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# available. it keeps file handle open, which make it not possible
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# to break hardlinks on local cloned repos.
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safe_to_use = os.name != 'nt' or (not util.is_win_9x() and
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hasattr(util, 'win32api'))
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def __init__(self, dataf, size, indexformat, shaoffset):
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self.dataf = dataf
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self.format = indexformat
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self.s = struct.calcsize(indexformat)
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self.indexformat = indexformat
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self.datasize = size
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self.l = size/self.s
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self.index = [None] * self.l
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self.map = {nullid: nullrev}
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self.allmap = 0
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self.all = 0
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self.mapfind_count = 0
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self.shaoffset = shaoffset
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def loadmap(self):
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"""
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during a commit, we need to make sure the rev being added is
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not a duplicate. This requires loading the entire index,
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which is fairly slow. loadmap can load up just the node map,
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which takes much less time.
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"""
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if self.allmap: return
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end = self.datasize
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self.allmap = 1
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cur = 0
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count = 0
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blocksize = self.s * 256
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self.dataf.seek(0)
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while cur < end:
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data = self.dataf.read(blocksize)
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off = 0
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for x in xrange(256):
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n = data[off + self.shaoffset:off + self.shaoffset + 20]
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self.map[n] = count
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count += 1
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if count >= self.l:
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break
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off += self.s
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cur += blocksize
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def loadblock(self, blockstart, blocksize, data=None):
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if self.all: return
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if data is None:
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self.dataf.seek(blockstart)
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if blockstart + blocksize > self.datasize:
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# the revlog may have grown since we've started running,
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# but we don't have space in self.index for more entries.
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# limit blocksize so that we don't get too much data.
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blocksize = max(self.datasize - blockstart, 0)
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data = self.dataf.read(blocksize)
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lend = len(data) / self.s
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i = blockstart / self.s
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off = 0
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for x in xrange(lend):
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if self.index[i + x] == None:
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b = data[off : off + self.s]
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self.index[i + x] = b
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n = b[self.shaoffset:self.shaoffset + 20]
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self.map[n] = i + x
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off += self.s
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def findnode(self, node):
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"""search backwards through the index file for a specific node"""
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if self.allmap: return None
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# hg log will cause many many searches for the manifest
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# nodes. After we get called a few times, just load the whole
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# thing.
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if self.mapfind_count > 8:
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self.loadmap()
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if node in self.map:
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return node
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return None
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self.mapfind_count += 1
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last = self.l - 1
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while self.index[last] != None:
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if last == 0:
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self.all = 1
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self.allmap = 1
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return None
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last -= 1
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end = (last + 1) * self.s
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blocksize = self.s * 256
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while end >= 0:
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start = max(end - blocksize, 0)
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self.dataf.seek(start)
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data = self.dataf.read(end - start)
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findend = end - start
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while True:
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# we're searching backwards, so weh have to make sure
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# we don't find a changeset where this node is a parent
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off = data.rfind(node, 0, findend)
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findend = off
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if off >= 0:
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i = off / self.s
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off = i * self.s
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n = data[off + self.shaoffset:off + self.shaoffset + 20]
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if n == node:
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self.map[n] = i + start / self.s
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return node
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else:
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break
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end -= blocksize
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return None
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def loadindex(self, i=None, end=None):
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if self.all: return
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all = False
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if i == None:
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blockstart = 0
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blocksize = (512 / self.s) * self.s
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end = self.datasize
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all = True
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else:
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if end:
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blockstart = i * self.s
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end = end * self.s
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blocksize = end - blockstart
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else:
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blockstart = (i & ~(32)) * self.s
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blocksize = self.s * 64
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end = blockstart + blocksize
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while blockstart < end:
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self.loadblock(blockstart, blocksize)
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blockstart += blocksize
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if all: self.all = True
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class lazyindex(object):
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"""a lazy version of the index array"""
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def __init__(self, parser):
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self.p = parser
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def __len__(self):
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return len(self.p.index)
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def load(self, pos):
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if pos < 0:
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pos += len(self.p.index)
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self.p.loadindex(pos)
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return self.p.index[pos]
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def __getitem__(self, pos):
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ret = self.p.index[pos] or self.load(pos)
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if isinstance(ret, str):
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ret = struct.unpack(self.p.indexformat, ret)
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return ret
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def __setitem__(self, pos, item):
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self.p.index[pos] = item
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def __delitem__(self, pos):
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del self.p.index[pos]
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def append(self, e):
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self.p.index.append(e)
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class lazymap(object):
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"""a lazy version of the node map"""
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def __init__(self, parser):
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self.p = parser
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def load(self, key):
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n = self.p.findnode(key)
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if n == None:
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raise KeyError(key)
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def __contains__(self, key):
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if key in self.p.map:
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return True
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self.p.loadmap()
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return key in self.p.map
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def __iter__(self):
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yield nullid
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for i in xrange(self.p.l):
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ret = self.p.index[i]
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if not ret:
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self.p.loadindex(i)
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ret = self.p.index[i]
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if isinstance(ret, str):
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ret = struct.unpack(self.p.indexformat, ret)
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yield ret[-1]
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def __getitem__(self, key):
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try:
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return self.p.map[key]
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except KeyError:
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try:
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self.load(key)
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return self.p.map[key]
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except KeyError:
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raise KeyError("node " + hex(key))
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def __setitem__(self, key, val):
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self.p.map[key] = val
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def __delitem__(self, key):
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del self.p.map[key]
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class RevlogError(Exception): pass
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class revlog(object):
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"""
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the underlying revision storage object
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A revlog consists of two parts, an index and the revision data.
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The index is a file with a fixed record size containing
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information on each revision, includings its nodeid (hash), the
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nodeids of its parents, the position and offset of its data within
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the data file, and the revision it's based on. Finally, each entry
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contains a linkrev entry that can serve as a pointer to external
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data.
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The revision data itself is a linear collection of data chunks.
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Each chunk represents a revision and is usually represented as a
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delta against the previous chunk. To bound lookup time, runs of
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deltas are limited to about 2 times the length of the original
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version data. This makes retrieval of a version proportional to
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its size, or O(1) relative to the number of revisions.
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Both pieces of the revlog are written to in an append-only
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fashion, which means we never need to rewrite a file to insert or
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remove data, and can use some simple techniques to avoid the need
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for locking while reading.
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"""
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def __init__(self, opener, indexfile, datafile,
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defversion=REVLOG_DEFAULT_VERSION):
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"""
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create a revlog object
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opener is a function that abstracts the file opening operation
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and can be used to implement COW semantics or the like.
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"""
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self.indexfile = indexfile
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self.datafile = datafile
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self.opener = opener
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self.indexstat = None
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self.cache = None
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self.chunkcache = None
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self.defversion = defversion
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self.load()
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def load(self):
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v = self.defversion
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try:
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f = self.opener(self.indexfile)
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i = f.read(4)
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f.seek(0)
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except IOError, inst:
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if inst.errno != errno.ENOENT:
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raise
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i = ""
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else:
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try:
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st = util.fstat(f)
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except AttributeError, inst:
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st = None
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else:
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oldst = self.indexstat
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if (oldst and st.st_dev == oldst.st_dev
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and st.st_ino == oldst.st_ino
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and st.st_mtime == oldst.st_mtime
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and st.st_ctime == oldst.st_ctime):
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return
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self.indexstat = st
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if len(i) > 0:
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v = struct.unpack(versionformat, i)[0]
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flags = v & ~0xFFFF
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fmt = v & 0xFFFF
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if fmt == REVLOGV0:
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if flags:
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raise RevlogError(_("index %s unknown flags %#04x for format v0")
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% (self.indexfile, flags >> 16))
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elif fmt == REVLOGNG:
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if flags & ~REVLOGNGINLINEDATA:
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raise RevlogError(_("index %s unknown flags %#04x for revlogng")
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% (self.indexfile, flags >> 16))
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else:
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raise RevlogError(_("index %s unknown format %d")
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% (self.indexfile, fmt))
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self.version = v
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if v == REVLOGV0:
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self.indexformat = indexformatv0
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shaoffset = v0shaoffset
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else:
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self.indexformat = indexformatng
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shaoffset = ngshaoffset
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if i:
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if (lazyparser.safe_to_use and not self.inlinedata() and
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st and st.st_size > 10000):
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# big index, let's parse it on demand
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parser = lazyparser(f, st.st_size, self.indexformat, shaoffset)
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self.index = lazyindex(parser)
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self.nodemap = lazymap(parser)
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else:
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self.parseindex(f, st)
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if self.version != REVLOGV0:
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e = list(self.index[0])
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type = self.ngtype(e[0])
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e[0] = self.offset_type(0, type)
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self.index[0] = e
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else:
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self.nodemap = {nullid: nullrev}
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self.index = []
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|
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def parseindex(self, fp, st):
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s = struct.calcsize(self.indexformat)
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self.index = []
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self.nodemap = {nullid: nullrev}
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inline = self.inlinedata()
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n = 0
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leftover = None
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while True:
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if st:
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data = fp.read(65536)
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else:
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# hack for httprangereader, it doesn't do partial reads well
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data = fp.read()
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if not data:
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break
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if n == 0 and self.inlinedata():
|
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# cache the first chunk
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self.chunkcache = (0, data)
|
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if leftover:
|
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data = leftover + data
|
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leftover = None
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off = 0
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l = len(data)
|
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while off < l:
|
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if l - off < s:
|
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leftover = data[off:]
|
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break
|
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cur = data[off:off + s]
|
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off += s
|
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e = struct.unpack(self.indexformat, cur)
|
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self.index.append(e)
|
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self.nodemap[e[-1]] = n
|
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n += 1
|
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if inline:
|
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off += e[1]
|
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if off > l:
|
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# some things don't seek well, just read it
|
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fp.read(off - l)
|
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if not st:
|
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break
|
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|
|
|
|
def ngoffset(self, q):
|
|
if q & 0xFFFF:
|
|
raise RevlogError(_('%s: incompatible revision flag %x') %
|
|
(self.indexfile, q))
|
|
return long(q >> 16)
|
|
|
|
def ngtype(self, q):
|
|
return int(q & 0xFFFF)
|
|
|
|
def offset_type(self, offset, type):
|
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return long(long(offset) << 16 | type)
|
|
|
|
def loadindex(self, start, end):
|
|
"""load a block of indexes all at once from the lazy parser"""
|
|
if isinstance(self.index, lazyindex):
|
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self.index.p.loadindex(start, end)
|
|
|
|
def loadindexmap(self):
|
|
"""loads both the map and the index from the lazy parser"""
|
|
if isinstance(self.index, lazyindex):
|
|
p = self.index.p
|
|
p.loadindex()
|
|
self.nodemap = p.map
|
|
|
|
def loadmap(self):
|
|
"""loads the map from the lazy parser"""
|
|
if isinstance(self.nodemap, lazymap):
|
|
self.nodemap.p.loadmap()
|
|
self.nodemap = self.nodemap.p.map
|
|
|
|
def inlinedata(self): return self.version & REVLOGNGINLINEDATA
|
|
def tip(self): return self.node(len(self.index) - 1)
|
|
def count(self): return len(self.index)
|
|
def node(self, rev):
|
|
return rev == nullrev and nullid or self.index[rev][-1]
|
|
def rev(self, node):
|
|
try:
|
|
return self.nodemap[node]
|
|
except KeyError:
|
|
raise RevlogError(_('%s: no node %s') % (self.indexfile, hex(node)))
|
|
def linkrev(self, node):
|
|
return (node == nullid) and nullrev or self.index[self.rev(node)][-4]
|
|
def parents(self, node):
|
|
if node == nullid: return (nullid, nullid)
|
|
r = self.rev(node)
|
|
d = self.index[r][-3:-1]
|
|
if self.version == REVLOGV0:
|
|
return d
|
|
return (self.node(d[0]), self.node(d[1]))
|
|
def parentrevs(self, rev):
|
|
if rev == nullrev:
|
|
return (nullrev, nullrev)
|
|
d = self.index[rev][-3:-1]
|
|
if self.version == REVLOGV0:
|
|
return (self.rev(d[0]), self.rev(d[1]))
|
|
return d
|
|
def start(self, rev):
|
|
if rev == nullrev:
|
|
return 0
|
|
if self.version != REVLOGV0:
|
|
return self.ngoffset(self.index[rev][0])
|
|
return self.index[rev][0]
|
|
|
|
def end(self, rev): return self.start(rev) + self.length(rev)
|
|
|
|
def size(self, rev):
|
|
"""return the length of the uncompressed text for a given revision"""
|
|
if rev == nullrev:
|
|
return 0
|
|
l = -1
|
|
if self.version != REVLOGV0:
|
|
l = self.index[rev][2]
|
|
if l >= 0:
|
|
return l
|
|
|
|
t = self.revision(self.node(rev))
|
|
return len(t)
|
|
|
|
# alternate implementation, The advantage to this code is it
|
|
# will be faster for a single revision. But, the results are not
|
|
# cached, so finding the size of every revision will be slower.
|
|
"""
|
|
if self.cache and self.cache[1] == rev:
|
|
return len(self.cache[2])
|
|
|
|
base = self.base(rev)
|
|
if self.cache and self.cache[1] >= base and self.cache[1] < rev:
|
|
base = self.cache[1]
|
|
text = self.cache[2]
|
|
else:
|
|
text = self.revision(self.node(base))
|
|
|
|
l = len(text)
|
|
for x in xrange(base + 1, rev + 1):
|
|
l = mdiff.patchedsize(l, self.chunk(x))
|
|
return l
|
|
"""
|
|
|
|
def length(self, rev):
|
|
if rev == nullrev:
|
|
return 0
|
|
else:
|
|
return self.index[rev][1]
|
|
def base(self, rev):
|
|
if (rev == nullrev):
|
|
return nullrev
|
|
else:
|
|
return self.index[rev][-5]
|
|
|
|
def reachable(self, node, stop=None):
|
|
"""return a hash of all nodes ancestral to a given node, including
|
|
the node itself, stopping when stop is matched"""
|
|
reachable = {}
|
|
visit = [node]
|
|
reachable[node] = 1
|
|
if stop:
|
|
stopn = self.rev(stop)
|
|
else:
|
|
stopn = 0
|
|
while visit:
|
|
n = visit.pop(0)
|
|
if n == stop:
|
|
continue
|
|
if n == nullid:
|
|
continue
|
|
for p in self.parents(n):
|
|
if self.rev(p) < stopn:
|
|
continue
|
|
if p not in reachable:
|
|
reachable[p] = 1
|
|
visit.append(p)
|
|
return reachable
|
|
|
|
def nodesbetween(self, roots=None, heads=None):
|
|
"""Return a tuple containing three elements. Elements 1 and 2 contain
|
|
a final list bases and heads after all the unreachable ones have been
|
|
pruned. Element 0 contains a topologically sorted list of all
|
|
|
|
nodes that satisfy these constraints:
|
|
1. All nodes must be descended from a node in roots (the nodes on
|
|
roots are considered descended from themselves).
|
|
2. All nodes must also be ancestors of a node in heads (the nodes in
|
|
heads are considered to be their own ancestors).
|
|
|
|
If roots is unspecified, nullid is assumed as the only root.
|
|
If heads is unspecified, it is taken to be the output of the
|
|
heads method (i.e. a list of all nodes in the repository that
|
|
have no children)."""
|
|
nonodes = ([], [], [])
|
|
if roots is not None:
|
|
roots = list(roots)
|
|
if not roots:
|
|
return nonodes
|
|
lowestrev = min([self.rev(n) for n in roots])
|
|
else:
|
|
roots = [nullid] # Everybody's a descendent of nullid
|
|
lowestrev = nullrev
|
|
if (lowestrev == nullrev) and (heads is None):
|
|
# We want _all_ the nodes!
|
|
return ([self.node(r) for r in xrange(0, self.count())],
|
|
[nullid], list(self.heads()))
|
|
if heads is None:
|
|
# All nodes are ancestors, so the latest ancestor is the last
|
|
# node.
|
|
highestrev = self.count() - 1
|
|
# Set ancestors to None to signal that every node is an ancestor.
|
|
ancestors = None
|
|
# Set heads to an empty dictionary for later discovery of heads
|
|
heads = {}
|
|
else:
|
|
heads = list(heads)
|
|
if not heads:
|
|
return nonodes
|
|
ancestors = {}
|
|
# Turn heads into a dictionary so we can remove 'fake' heads.
|
|
# Also, later we will be using it to filter out the heads we can't
|
|
# find from roots.
|
|
heads = dict.fromkeys(heads, 0)
|
|
# Start at the top and keep marking parents until we're done.
|
|
nodestotag = heads.keys()
|
|
# Remember where the top was so we can use it as a limit later.
|
|
highestrev = max([self.rev(n) for n in nodestotag])
|
|
while nodestotag:
|
|
# grab a node to tag
|
|
n = nodestotag.pop()
|
|
# Never tag nullid
|
|
if n == nullid:
|
|
continue
|
|
# A node's revision number represents its place in a
|
|
# topologically sorted list of nodes.
|
|
r = self.rev(n)
|
|
if r >= lowestrev:
|
|
if n not in ancestors:
|
|
# If we are possibly a descendent of one of the roots
|
|
# and we haven't already been marked as an ancestor
|
|
ancestors[n] = 1 # Mark as ancestor
|
|
# Add non-nullid parents to list of nodes to tag.
|
|
nodestotag.extend([p for p in self.parents(n) if
|
|
p != nullid])
|
|
elif n in heads: # We've seen it before, is it a fake head?
|
|
# So it is, real heads should not be the ancestors of
|
|
# any other heads.
|
|
heads.pop(n)
|
|
if not ancestors:
|
|
return nonodes
|
|
# Now that we have our set of ancestors, we want to remove any
|
|
# roots that are not ancestors.
|
|
|
|
# If one of the roots was nullid, everything is included anyway.
|
|
if lowestrev > nullrev:
|
|
# But, since we weren't, let's recompute the lowest rev to not
|
|
# include roots that aren't ancestors.
|
|
|
|
# Filter out roots that aren't ancestors of heads
|
|
roots = [n for n in roots if n in ancestors]
|
|
# Recompute the lowest revision
|
|
if roots:
|
|
lowestrev = min([self.rev(n) for n in roots])
|
|
else:
|
|
# No more roots? Return empty list
|
|
return nonodes
|
|
else:
|
|
# We are descending from nullid, and don't need to care about
|
|
# any other roots.
|
|
lowestrev = nullrev
|
|
roots = [nullid]
|
|
# Transform our roots list into a 'set' (i.e. a dictionary where the
|
|
# values don't matter.
|
|
descendents = dict.fromkeys(roots, 1)
|
|
# Also, keep the original roots so we can filter out roots that aren't
|
|
# 'real' roots (i.e. are descended from other roots).
|
|
roots = descendents.copy()
|
|
# Our topologically sorted list of output nodes.
|
|
orderedout = []
|
|
# Don't start at nullid since we don't want nullid in our output list,
|
|
# and if nullid shows up in descedents, empty parents will look like
|
|
# they're descendents.
|
|
for r in xrange(max(lowestrev, 0), highestrev + 1):
|
|
n = self.node(r)
|
|
isdescendent = False
|
|
if lowestrev == nullrev: # Everybody is a descendent of nullid
|
|
isdescendent = True
|
|
elif n in descendents:
|
|
# n is already a descendent
|
|
isdescendent = True
|
|
# This check only needs to be done here because all the roots
|
|
# will start being marked is descendents before the loop.
|
|
if n in roots:
|
|
# If n was a root, check if it's a 'real' root.
|
|
p = tuple(self.parents(n))
|
|
# If any of its parents are descendents, it's not a root.
|
|
if (p[0] in descendents) or (p[1] in descendents):
|
|
roots.pop(n)
|
|
else:
|
|
p = tuple(self.parents(n))
|
|
# A node is a descendent if either of its parents are
|
|
# descendents. (We seeded the dependents list with the roots
|
|
# up there, remember?)
|
|
if (p[0] in descendents) or (p[1] in descendents):
|
|
descendents[n] = 1
|
|
isdescendent = True
|
|
if isdescendent and ((ancestors is None) or (n in ancestors)):
|
|
# Only include nodes that are both descendents and ancestors.
|
|
orderedout.append(n)
|
|
if (ancestors is not None) and (n in heads):
|
|
# We're trying to figure out which heads are reachable
|
|
# from roots.
|
|
# Mark this head as having been reached
|
|
heads[n] = 1
|
|
elif ancestors is None:
|
|
# Otherwise, we're trying to discover the heads.
|
|
# Assume this is a head because if it isn't, the next step
|
|
# will eventually remove it.
|
|
heads[n] = 1
|
|
# But, obviously its parents aren't.
|
|
for p in self.parents(n):
|
|
heads.pop(p, None)
|
|
heads = [n for n in heads.iterkeys() if heads[n] != 0]
|
|
roots = roots.keys()
|
|
assert orderedout
|
|
assert roots
|
|
assert heads
|
|
return (orderedout, roots, heads)
|
|
|
|
def heads(self, start=None):
|
|
"""return the list of all nodes that have no children
|
|
|
|
if start is specified, only heads that are descendants of
|
|
start will be returned
|
|
|
|
"""
|
|
if start is None:
|
|
start = nullid
|
|
startrev = self.rev(start)
|
|
reachable = {startrev: 1}
|
|
heads = {startrev: 1}
|
|
|
|
parentrevs = self.parentrevs
|
|
for r in xrange(startrev + 1, self.count()):
|
|
for p in parentrevs(r):
|
|
if p in reachable:
|
|
reachable[r] = 1
|
|
heads[r] = 1
|
|
if p in heads:
|
|
del heads[p]
|
|
return [self.node(r) for r in heads]
|
|
|
|
def children(self, node):
|
|
"""find the children of a given node"""
|
|
c = []
|
|
p = self.rev(node)
|
|
for r in range(p + 1, self.count()):
|
|
for pr in self.parentrevs(r):
|
|
if pr == p:
|
|
c.append(self.node(r))
|
|
return c
|
|
|
|
def _match(self, id):
|
|
if isinstance(id, (long, int)):
|
|
# rev
|
|
return self.node(id)
|
|
if len(id) == 20:
|
|
# possibly a binary node
|
|
# odds of a binary node being all hex in ASCII are 1 in 10**25
|
|
try:
|
|
node = id
|
|
r = self.rev(node) # quick search the index
|
|
return node
|
|
except RevlogError:
|
|
pass # may be partial hex id
|
|
try:
|
|
# str(rev)
|
|
rev = int(id)
|
|
if str(rev) != id: raise ValueError
|
|
if rev < 0: rev = self.count() + rev
|
|
if rev < 0 or rev >= self.count(): raise ValueError
|
|
return self.node(rev)
|
|
except (ValueError, OverflowError):
|
|
pass
|
|
if len(id) == 40:
|
|
try:
|
|
# a full hex nodeid?
|
|
node = bin(id)
|
|
r = self.rev(node)
|
|
return node
|
|
except TypeError:
|
|
pass
|
|
|
|
def _partialmatch(self, id):
|
|
if len(id) < 40:
|
|
try:
|
|
# hex(node)[:...]
|
|
bin_id = bin(id[:len(id) & ~1]) # grab an even number of digits
|
|
node = None
|
|
for n in self.nodemap:
|
|
if n.startswith(bin_id) and hex(n).startswith(id):
|
|
if node is not None:
|
|
raise RevlogError(_("Ambiguous identifier"))
|
|
node = n
|
|
if node is not None:
|
|
return node
|
|
except TypeError:
|
|
pass
|
|
|
|
def lookup(self, id):
|
|
"""locate a node based on:
|
|
- revision number or str(revision number)
|
|
- nodeid or subset of hex nodeid
|
|
"""
|
|
|
|
n = self._match(id)
|
|
if n is not None:
|
|
return n
|
|
n = self._partialmatch(id)
|
|
if n:
|
|
return n
|
|
|
|
raise RevlogError(_("No match found"))
|
|
|
|
def cmp(self, node, text):
|
|
"""compare text with a given file revision"""
|
|
p1, p2 = self.parents(node)
|
|
return hash(text, p1, p2) != node
|
|
|
|
def makenode(self, node, text):
|
|
"""calculate a file nodeid for text, descended or possibly
|
|
unchanged from node"""
|
|
|
|
if self.cmp(node, text):
|
|
return hash(text, node, nullid)
|
|
return node
|
|
|
|
def diff(self, a, b):
|
|
"""return a delta between two revisions"""
|
|
return mdiff.textdiff(a, b)
|
|
|
|
def patches(self, t, pl):
|
|
"""apply a list of patches to a string"""
|
|
return mdiff.patches(t, pl)
|
|
|
|
def chunk(self, rev, df=None, cachelen=4096):
|
|
start, length = self.start(rev), self.length(rev)
|
|
inline = self.inlinedata()
|
|
if inline:
|
|
start += (rev + 1) * struct.calcsize(self.indexformat)
|
|
end = start + length
|
|
def loadcache(df):
|
|
cache_length = max(cachelen, length) # 4k
|
|
if not df:
|
|
if inline:
|
|
df = self.opener(self.indexfile)
|
|
else:
|
|
df = self.opener(self.datafile)
|
|
df.seek(start)
|
|
self.chunkcache = (start, df.read(cache_length))
|
|
|
|
if not self.chunkcache:
|
|
loadcache(df)
|
|
|
|
cache_start = self.chunkcache[0]
|
|
cache_end = cache_start + len(self.chunkcache[1])
|
|
if start >= cache_start and end <= cache_end:
|
|
# it is cached
|
|
offset = start - cache_start
|
|
else:
|
|
loadcache(df)
|
|
offset = 0
|
|
|
|
#def checkchunk():
|
|
# df = self.opener(self.datafile)
|
|
# df.seek(start)
|
|
# return df.read(length)
|
|
#assert s == checkchunk()
|
|
return decompress(self.chunkcache[1][offset:offset + length])
|
|
|
|
def delta(self, node):
|
|
"""return or calculate a delta between a node and its predecessor"""
|
|
r = self.rev(node)
|
|
return self.revdiff(r - 1, r)
|
|
|
|
def revdiff(self, rev1, rev2):
|
|
"""return or calculate a delta between two revisions"""
|
|
b1 = self.base(rev1)
|
|
b2 = self.base(rev2)
|
|
if b1 == b2 and rev1 + 1 == rev2:
|
|
return self.chunk(rev2)
|
|
else:
|
|
return self.diff(self.revision(self.node(rev1)),
|
|
self.revision(self.node(rev2)))
|
|
|
|
def revision(self, node):
|
|
"""return an uncompressed revision of a given"""
|
|
if node == nullid: return ""
|
|
if self.cache and self.cache[0] == node: return self.cache[2]
|
|
|
|
# look up what we need to read
|
|
text = None
|
|
rev = self.rev(node)
|
|
base = self.base(rev)
|
|
|
|
if self.inlinedata():
|
|
# we probably have the whole chunk cached
|
|
df = None
|
|
else:
|
|
df = self.opener(self.datafile)
|
|
|
|
# do we have useful data cached?
|
|
if self.cache and self.cache[1] >= base and self.cache[1] < rev:
|
|
base = self.cache[1]
|
|
text = self.cache[2]
|
|
self.loadindex(base, rev + 1)
|
|
else:
|
|
self.loadindex(base, rev + 1)
|
|
text = self.chunk(base, df=df)
|
|
|
|
bins = []
|
|
for r in xrange(base + 1, rev + 1):
|
|
bins.append(self.chunk(r, df=df))
|
|
|
|
text = self.patches(text, bins)
|
|
|
|
p1, p2 = self.parents(node)
|
|
if node != hash(text, p1, p2):
|
|
raise RevlogError(_("integrity check failed on %s:%d")
|
|
% (self.datafile, rev))
|
|
|
|
self.cache = (node, rev, text)
|
|
return text
|
|
|
|
def checkinlinesize(self, tr, fp=None):
|
|
if not self.inlinedata():
|
|
return
|
|
if not fp:
|
|
fp = self.opener(self.indexfile, 'r')
|
|
fp.seek(0, 2)
|
|
size = fp.tell()
|
|
if size < 131072:
|
|
return
|
|
trinfo = tr.find(self.indexfile)
|
|
if trinfo == None:
|
|
raise RevlogError(_("%s not found in the transaction")
|
|
% self.indexfile)
|
|
|
|
trindex = trinfo[2]
|
|
dataoff = self.start(trindex)
|
|
|
|
tr.add(self.datafile, dataoff)
|
|
df = self.opener(self.datafile, 'w')
|
|
calc = struct.calcsize(self.indexformat)
|
|
for r in xrange(self.count()):
|
|
start = self.start(r) + (r + 1) * calc
|
|
length = self.length(r)
|
|
fp.seek(start)
|
|
d = fp.read(length)
|
|
df.write(d)
|
|
fp.close()
|
|
df.close()
|
|
fp = self.opener(self.indexfile, 'w', atomictemp=True)
|
|
self.version &= ~(REVLOGNGINLINEDATA)
|
|
if self.count():
|
|
x = self.index[0]
|
|
e = struct.pack(self.indexformat, *x)[4:]
|
|
l = struct.pack(versionformat, self.version)
|
|
fp.write(l)
|
|
fp.write(e)
|
|
|
|
for i in xrange(1, self.count()):
|
|
x = self.index[i]
|
|
e = struct.pack(self.indexformat, *x)
|
|
fp.write(e)
|
|
|
|
# if we don't call rename, the temp file will never replace the
|
|
# real index
|
|
fp.rename()
|
|
|
|
tr.replace(self.indexfile, trindex * calc)
|
|
self.chunkcache = None
|
|
|
|
def addrevision(self, text, transaction, link, p1=None, p2=None, d=None):
|
|
"""add a revision to the log
|
|
|
|
text - the revision data to add
|
|
transaction - the transaction object used for rollback
|
|
link - the linkrev data to add
|
|
p1, p2 - the parent nodeids of the revision
|
|
d - an optional precomputed delta
|
|
"""
|
|
if not self.inlinedata():
|
|
dfh = self.opener(self.datafile, "a")
|
|
else:
|
|
dfh = None
|
|
ifh = self.opener(self.indexfile, "a+")
|
|
return self._addrevision(text, transaction, link, p1, p2, d, ifh, dfh)
|
|
|
|
def _addrevision(self, text, transaction, link, p1, p2, d, ifh, dfh):
|
|
if text is None: text = ""
|
|
if p1 is None: p1 = self.tip()
|
|
if p2 is None: p2 = nullid
|
|
|
|
node = hash(text, p1, p2)
|
|
|
|
if node in self.nodemap:
|
|
return node
|
|
|
|
n = self.count()
|
|
t = n - 1
|
|
|
|
if n:
|
|
base = self.base(t)
|
|
start = self.start(base)
|
|
end = self.end(t)
|
|
if not d:
|
|
prev = self.revision(self.tip())
|
|
d = self.diff(prev, text)
|
|
data = compress(d)
|
|
l = len(data[1]) + len(data[0])
|
|
dist = end - start + l
|
|
|
|
# full versions are inserted when the needed deltas
|
|
# become comparable to the uncompressed text
|
|
if not n or dist > len(text) * 2:
|
|
data = compress(text)
|
|
l = len(data[1]) + len(data[0])
|
|
base = n
|
|
else:
|
|
base = self.base(t)
|
|
|
|
offset = 0
|
|
if t >= 0:
|
|
offset = self.end(t)
|
|
|
|
if self.version == REVLOGV0:
|
|
e = (offset, l, base, link, p1, p2, node)
|
|
else:
|
|
e = (self.offset_type(offset, 0), l, len(text),
|
|
base, link, self.rev(p1), self.rev(p2), node)
|
|
|
|
self.index.append(e)
|
|
self.nodemap[node] = n
|
|
entry = struct.pack(self.indexformat, *e)
|
|
|
|
if not self.inlinedata():
|
|
transaction.add(self.datafile, offset)
|
|
transaction.add(self.indexfile, n * len(entry))
|
|
if data[0]:
|
|
dfh.write(data[0])
|
|
dfh.write(data[1])
|
|
dfh.flush()
|
|
else:
|
|
ifh.seek(0, 2)
|
|
transaction.add(self.indexfile, ifh.tell(), self.count() - 1)
|
|
|
|
if len(self.index) == 1 and self.version != REVLOGV0:
|
|
l = struct.pack(versionformat, self.version)
|
|
ifh.write(l)
|
|
entry = entry[4:]
|
|
|
|
ifh.write(entry)
|
|
|
|
if self.inlinedata():
|
|
ifh.write(data[0])
|
|
ifh.write(data[1])
|
|
self.checkinlinesize(transaction, ifh)
|
|
|
|
self.cache = (node, n, text)
|
|
return node
|
|
|
|
def ancestor(self, a, b):
|
|
"""calculate the least common ancestor of nodes a and b"""
|
|
|
|
def parents(rev):
|
|
return [p for p in self.parentrevs(rev) if p != nullrev]
|
|
|
|
c = ancestor.ancestor(self.rev(a), self.rev(b), parents)
|
|
if c is None:
|
|
return nullid
|
|
|
|
return self.node(c)
|
|
|
|
def group(self, nodelist, lookup, infocollect=None):
|
|
"""calculate a delta group
|
|
|
|
Given a list of changeset revs, return a set of deltas and
|
|
metadata corresponding to nodes. the first delta is
|
|
parent(nodes[0]) -> nodes[0] the receiver is guaranteed to
|
|
have this parent as it has all history before these
|
|
changesets. parent is parent[0]
|
|
"""
|
|
revs = [self.rev(n) for n in nodelist]
|
|
|
|
# if we don't have any revisions touched by these changesets, bail
|
|
if not revs:
|
|
yield changegroup.closechunk()
|
|
return
|
|
|
|
# add the parent of the first rev
|
|
p = self.parents(self.node(revs[0]))[0]
|
|
revs.insert(0, self.rev(p))
|
|
|
|
# build deltas
|
|
for d in xrange(0, len(revs) - 1):
|
|
a, b = revs[d], revs[d + 1]
|
|
nb = self.node(b)
|
|
|
|
if infocollect is not None:
|
|
infocollect(nb)
|
|
|
|
d = self.revdiff(a, b)
|
|
p = self.parents(nb)
|
|
meta = nb + p[0] + p[1] + lookup(nb)
|
|
yield changegroup.genchunk("%s%s" % (meta, d))
|
|
|
|
yield changegroup.closechunk()
|
|
|
|
def addgroup(self, revs, linkmapper, transaction, unique=0):
|
|
"""
|
|
add a delta group
|
|
|
|
given a set of deltas, add them to the revision log. the
|
|
first delta is against its parent, which should be in our
|
|
log, the rest are against the previous delta.
|
|
"""
|
|
|
|
#track the base of the current delta log
|
|
r = self.count()
|
|
t = r - 1
|
|
node = None
|
|
|
|
base = prev = nullrev
|
|
start = end = textlen = 0
|
|
if r:
|
|
end = self.end(t)
|
|
|
|
ifh = self.opener(self.indexfile, "a+")
|
|
ifh.seek(0, 2)
|
|
transaction.add(self.indexfile, ifh.tell(), self.count())
|
|
if self.inlinedata():
|
|
dfh = None
|
|
else:
|
|
transaction.add(self.datafile, end)
|
|
dfh = self.opener(self.datafile, "a")
|
|
|
|
# loop through our set of deltas
|
|
chain = None
|
|
for chunk in revs:
|
|
node, p1, p2, cs = struct.unpack("20s20s20s20s", chunk[:80])
|
|
link = linkmapper(cs)
|
|
if node in self.nodemap:
|
|
# this can happen if two branches make the same change
|
|
# if unique:
|
|
# raise RevlogError(_("already have %s") % hex(node[:4]))
|
|
chain = node
|
|
continue
|
|
delta = chunk[80:]
|
|
|
|
for p in (p1, p2):
|
|
if not p in self.nodemap:
|
|
raise RevlogError(_("unknown parent %s") % short(p))
|
|
|
|
if not chain:
|
|
# retrieve the parent revision of the delta chain
|
|
chain = p1
|
|
if not chain in self.nodemap:
|
|
raise RevlogError(_("unknown base %s") % short(chain[:4]))
|
|
|
|
# full versions are inserted when the needed deltas become
|
|
# comparable to the uncompressed text or when the previous
|
|
# version is not the one we have a delta against. We use
|
|
# the size of the previous full rev as a proxy for the
|
|
# current size.
|
|
|
|
if chain == prev:
|
|
tempd = compress(delta)
|
|
cdelta = tempd[0] + tempd[1]
|
|
textlen = mdiff.patchedsize(textlen, delta)
|
|
|
|
if chain != prev or (end - start + len(cdelta)) > textlen * 2:
|
|
# flush our writes here so we can read it in revision
|
|
if dfh:
|
|
dfh.flush()
|
|
ifh.flush()
|
|
text = self.revision(chain)
|
|
text = self.patches(text, [delta])
|
|
chk = self._addrevision(text, transaction, link, p1, p2, None,
|
|
ifh, dfh)
|
|
if not dfh and not self.inlinedata():
|
|
# addrevision switched from inline to conventional
|
|
# reopen the index
|
|
dfh = self.opener(self.datafile, "a")
|
|
ifh = self.opener(self.indexfile, "a")
|
|
if chk != node:
|
|
raise RevlogError(_("consistency error adding group"))
|
|
textlen = len(text)
|
|
else:
|
|
if self.version == REVLOGV0:
|
|
e = (end, len(cdelta), base, link, p1, p2, node)
|
|
else:
|
|
e = (self.offset_type(end, 0), len(cdelta), textlen, base,
|
|
link, self.rev(p1), self.rev(p2), node)
|
|
self.index.append(e)
|
|
self.nodemap[node] = r
|
|
if self.inlinedata():
|
|
ifh.write(struct.pack(self.indexformat, *e))
|
|
ifh.write(cdelta)
|
|
self.checkinlinesize(transaction, ifh)
|
|
if not self.inlinedata():
|
|
dfh = self.opener(self.datafile, "a")
|
|
ifh = self.opener(self.indexfile, "a")
|
|
else:
|
|
dfh.write(cdelta)
|
|
ifh.write(struct.pack(self.indexformat, *e))
|
|
|
|
t, r, chain, prev = r, r + 1, node, node
|
|
base = self.base(t)
|
|
start = self.start(base)
|
|
end = self.end(t)
|
|
|
|
return node
|
|
|
|
def strip(self, rev, minlink):
|
|
if self.count() == 0 or rev >= self.count():
|
|
return
|
|
|
|
if isinstance(self.index, lazyindex):
|
|
self.loadindexmap()
|
|
|
|
# When stripping away a revision, we need to make sure it
|
|
# does not actually belong to an older changeset.
|
|
# The minlink parameter defines the oldest revision
|
|
# we're allowed to strip away.
|
|
while minlink > self.index[rev][-4]:
|
|
rev += 1
|
|
if rev >= self.count():
|
|
return
|
|
|
|
# first truncate the files on disk
|
|
end = self.start(rev)
|
|
if not self.inlinedata():
|
|
df = self.opener(self.datafile, "a")
|
|
df.truncate(end)
|
|
end = rev * struct.calcsize(self.indexformat)
|
|
else:
|
|
end += rev * struct.calcsize(self.indexformat)
|
|
|
|
indexf = self.opener(self.indexfile, "a")
|
|
indexf.truncate(end)
|
|
|
|
# then reset internal state in memory to forget those revisions
|
|
self.cache = None
|
|
self.chunkcache = None
|
|
for x in xrange(rev, self.count()):
|
|
del self.nodemap[self.node(x)]
|
|
|
|
del self.index[rev:]
|
|
|
|
def checksize(self):
|
|
expected = 0
|
|
if self.count():
|
|
expected = self.end(self.count() - 1)
|
|
|
|
try:
|
|
f = self.opener(self.datafile)
|
|
f.seek(0, 2)
|
|
actual = f.tell()
|
|
dd = actual - expected
|
|
except IOError, inst:
|
|
if inst.errno != errno.ENOENT:
|
|
raise
|
|
dd = 0
|
|
|
|
try:
|
|
f = self.opener(self.indexfile)
|
|
f.seek(0, 2)
|
|
actual = f.tell()
|
|
s = struct.calcsize(self.indexformat)
|
|
i = actual / s
|
|
di = actual - (i * s)
|
|
if self.inlinedata():
|
|
databytes = 0
|
|
for r in xrange(self.count()):
|
|
databytes += self.length(r)
|
|
dd = 0
|
|
di = actual - self.count() * s - databytes
|
|
except IOError, inst:
|
|
if inst.errno != errno.ENOENT:
|
|
raise
|
|
di = 0
|
|
|
|
return (dd, di)
|
|
|
|
|