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from __future__ import absolute_import
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import collections
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import errno
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import hashlib
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import mmap
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import os
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import struct
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import time
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from mercurial.i18n import _
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from mercurial import (
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node as nodemod,
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policy,
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pycompat,
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util,
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vfs as vfsmod,
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)
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from . import shallowutil
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osutil = policy.importmod(r'osutil')
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# The pack version supported by this implementation. This will need to be
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# rev'd whenever the byte format changes. Ex: changing the fanout prefix,
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# changing any of the int sizes, changing the delta algorithm, etc.
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PACKVERSIONSIZE = 1
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INDEXVERSIONSIZE = 2
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FANOUTSTART = INDEXVERSIONSIZE
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# Constant that indicates a fanout table entry hasn't been filled in. (This does
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# not get serialized)
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EMPTYFANOUT = -1
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# The fanout prefix is the number of bytes that can be addressed by the fanout
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# table. Example: a fanout prefix of 1 means we use the first byte of a hash to
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# look in the fanout table (which will be 2^8 entries long).
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SMALLFANOUTPREFIX = 1
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LARGEFANOUTPREFIX = 2
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# The number of entries in the index at which point we switch to a large fanout.
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# It is chosen to balance the linear scan through a sparse fanout, with the
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# size of the bisect in actual index.
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# 2^16 / 8 was chosen because it trades off (1 step fanout scan + 5 step
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# bisect) with (8 step fanout scan + 1 step bisect)
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# 5 step bisect = log(2^16 / 8 / 255) # fanout
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# 10 step fanout scan = 2^16 / (2^16 / 8) # fanout space divided by entries
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SMALLFANOUTCUTOFF = 2**16 // 8
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# The amount of time to wait between checking for new packs. This prevents an
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# exception when data is moved to a new pack after the process has already
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# loaded the pack list.
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REFRESHRATE = 0.1
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if pycompat.isposix and not pycompat.ispy3:
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# With glibc 2.7+ the 'e' flag uses O_CLOEXEC when opening.
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# The 'e' flag will be ignored on older versions of glibc.
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# Python 3 can't handle the 'e' flag.
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PACKOPENMODE = 'rbe'
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else:
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PACKOPENMODE = 'rb'
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class _cachebackedpacks(object):
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def __init__(self, packs, cachesize):
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self._packs = set(packs)
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self._lrucache = util.lrucachedict(cachesize)
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self._lastpack = None
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# Avoid cold start of the cache by populating the most recent packs
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# in the cache.
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for i in reversed(range(min(cachesize, len(packs)))):
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self._movetofront(packs[i])
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def _movetofront(self, pack):
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# This effectively makes pack the first entry in the cache.
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self._lrucache[pack] = True
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def _registerlastpackusage(self):
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if self._lastpack is not None:
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self._movetofront(self._lastpack)
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self._lastpack = None
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def add(self, pack):
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self._registerlastpackusage()
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# This method will mostly be called when packs are not in cache.
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# Therefore, adding pack to the cache.
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self._movetofront(pack)
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self._packs.add(pack)
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def __iter__(self):
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self._registerlastpackusage()
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# Cache iteration is based on LRU.
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for pack in self._lrucache:
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self._lastpack = pack
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yield pack
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cachedpacks = set(pack for pack in self._lrucache)
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# Yield for paths not in the cache.
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for pack in self._packs - cachedpacks:
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self._lastpack = pack
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yield pack
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# Data not found in any pack.
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self._lastpack = None
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class basepackstore(object):
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# Default cache size limit for the pack files.
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DEFAULTCACHESIZE = 100
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def __init__(self, ui, path):
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self.ui = ui
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self.path = path
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# lastrefesh is 0 so we'll immediately check for new packs on the first
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# failure.
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self.lastrefresh = 0
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packs = []
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for filepath, __, __ in self._getavailablepackfilessorted():
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try:
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pack = self.getpack(filepath)
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except Exception as ex:
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# An exception may be thrown if the pack file is corrupted
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# somehow. Log a warning but keep going in this case, just
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# skipping this pack file.
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#
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# If this is an ENOENT error then don't even bother logging.
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# Someone could have removed the file since we retrieved the
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# list of paths.
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if getattr(ex, 'errno', None) != errno.ENOENT:
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ui.warn(_('unable to load pack %s: %s\n') % (filepath, ex))
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continue
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packs.append(pack)
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self.packs = _cachebackedpacks(packs, self.DEFAULTCACHESIZE)
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def _getavailablepackfiles(self):
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"""For each pack file (a index/data file combo), yields:
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(full path without extension, mtime, size)
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mtime will be the mtime of the index/data file (whichever is newer)
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size is the combined size of index/data file
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"""
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indexsuffixlen = len(self.INDEXSUFFIX)
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packsuffixlen = len(self.PACKSUFFIX)
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ids = set()
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sizes = collections.defaultdict(lambda: 0)
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mtimes = collections.defaultdict(lambda: [])
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try:
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for filename, type, stat in osutil.listdir(self.path, stat=True):
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id = None
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if filename[-indexsuffixlen:] == self.INDEXSUFFIX:
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id = filename[:-indexsuffixlen]
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elif filename[-packsuffixlen:] == self.PACKSUFFIX:
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id = filename[:-packsuffixlen]
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# Since we expect to have two files corresponding to each ID
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# (the index file and the pack file), we can yield once we see
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# it twice.
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if id:
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sizes[id] += stat.st_size # Sum both files' sizes together
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mtimes[id].append(stat.st_mtime)
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if id in ids:
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yield (os.path.join(self.path, id), max(mtimes[id]),
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sizes[id])
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else:
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ids.add(id)
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except OSError as ex:
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if ex.errno != errno.ENOENT:
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raise
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def _getavailablepackfilessorted(self):
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"""Like `_getavailablepackfiles`, but also sorts the files by mtime,
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yielding newest files first.
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This is desirable, since it is more likely newer packfiles have more
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desirable data.
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"""
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files = []
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for path, mtime, size in self._getavailablepackfiles():
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files.append((mtime, size, path))
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files = sorted(files, reverse=True)
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for mtime, size, path in files:
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yield path, mtime, size
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def gettotalsizeandcount(self):
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"""Returns the total disk size (in bytes) of all the pack files in
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this store, and the count of pack files.
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(This might be smaller than the total size of the ``self.path``
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directory, since this only considers fuly-writen pack files, and not
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temporary files or other detritus on the directory.)
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"""
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totalsize = 0
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count = 0
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for __, __, size in self._getavailablepackfiles():
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totalsize += size
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count += 1
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return totalsize, count
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def getmetrics(self):
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"""Returns metrics on the state of this store."""
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size, count = self.gettotalsizeandcount()
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return {
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'numpacks': count,
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'totalpacksize': size,
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}
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def getpack(self, path):
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raise NotImplementedError()
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def getmissing(self, keys):
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missing = keys
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for pack in self.packs:
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missing = pack.getmissing(missing)
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# Ensures better performance of the cache by keeping the most
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# recently accessed pack at the beginning in subsequent iterations.
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if not missing:
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return missing
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if missing:
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for pack in self.refresh():
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missing = pack.getmissing(missing)
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return missing
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def markledger(self, ledger, options=None):
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for pack in self.packs:
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pack.markledger(ledger)
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def markforrefresh(self):
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"""Tells the store that there may be new pack files, so the next time it
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has a lookup miss it should check for new files."""
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self.lastrefresh = 0
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def refresh(self):
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"""Checks for any new packs on disk, adds them to the main pack list,
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and returns a list of just the new packs."""
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now = time.time()
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# If we experience a lot of misses (like in the case of getmissing() on
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# new objects), let's only actually check disk for new stuff every once
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# in a while. Generally this code path should only ever matter when a
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# repack is going on in the background, and that should be pretty rare
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# to have that happen twice in quick succession.
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newpacks = []
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if now > self.lastrefresh + REFRESHRATE:
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self.lastrefresh = now
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previous = set(p.path for p in self.packs)
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for filepath, __, __ in self._getavailablepackfilessorted():
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if filepath not in previous:
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newpack = self.getpack(filepath)
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newpacks.append(newpack)
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self.packs.add(newpack)
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return newpacks
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class versionmixin(object):
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# Mix-in for classes with multiple supported versions
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VERSION = None
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SUPPORTED_VERSIONS = [2]
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def _checkversion(self, version):
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if version in self.SUPPORTED_VERSIONS:
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if self.VERSION is None:
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# only affect this instance
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self.VERSION = version
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elif self.VERSION != version:
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raise RuntimeError('inconsistent version: %d' % version)
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else:
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raise RuntimeError('unsupported version: %d' % version)
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class basepack(versionmixin):
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# The maximum amount we should read via mmap before remmaping so the old
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# pages can be released (100MB)
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MAXPAGEDIN = 100 * 1024**2
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SUPPORTED_VERSIONS = [2]
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def __init__(self, path):
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self.path = path
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self.packpath = path + self.PACKSUFFIX
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self.indexpath = path + self.INDEXSUFFIX
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self.indexsize = os.stat(self.indexpath).st_size
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self.datasize = os.stat(self.packpath).st_size
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self._index = None
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self._data = None
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self.freememory() # initialize the mmap
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version = struct.unpack('!B', self._data[:PACKVERSIONSIZE])[0]
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self._checkversion(version)
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version, config = struct.unpack('!BB', self._index[:INDEXVERSIONSIZE])
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self._checkversion(version)
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if 0b10000000 & config:
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self.params = indexparams(LARGEFANOUTPREFIX, version)
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else:
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self.params = indexparams(SMALLFANOUTPREFIX, version)
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@util.propertycache
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def _fanouttable(self):
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params = self.params
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rawfanout = self._index[FANOUTSTART:FANOUTSTART + params.fanoutsize]
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fanouttable = []
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for i in pycompat.xrange(0, params.fanoutcount):
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loc = i * 4
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fanoutentry = struct.unpack('!I', rawfanout[loc:loc + 4])[0]
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fanouttable.append(fanoutentry)
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return fanouttable
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@util.propertycache
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def _indexend(self):
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nodecount = struct.unpack_from('!Q', self._index,
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self.params.indexstart - 8)[0]
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return self.params.indexstart + nodecount * self.INDEXENTRYLENGTH
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def freememory(self):
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"""Unmap and remap the memory to free it up after known expensive
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operations. Return True if self._data and self._index were reloaded.
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"""
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if self._index:
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if self._pagedin < self.MAXPAGEDIN:
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return False
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self._index.close()
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self._data.close()
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# TODO: use an opener/vfs to access these paths
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with open(self.indexpath, PACKOPENMODE) as indexfp:
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# memory-map the file, size 0 means whole file
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self._index = mmap.mmap(indexfp.fileno(), 0,
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access=mmap.ACCESS_READ)
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with open(self.packpath, PACKOPENMODE) as datafp:
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self._data = mmap.mmap(datafp.fileno(), 0, access=mmap.ACCESS_READ)
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self._pagedin = 0
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return True
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def getmissing(self, keys):
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raise NotImplementedError()
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def markledger(self, ledger, options=None):
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raise NotImplementedError()
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def cleanup(self, ledger):
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raise NotImplementedError()
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def __iter__(self):
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raise NotImplementedError()
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def iterentries(self):
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raise NotImplementedError()
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class mutablebasepack(versionmixin):
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def __init__(self, ui, packdir, version=2):
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self._checkversion(version)
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# TODO(augie): make this configurable
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self._compressor = 'GZ'
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opener = vfsmod.vfs(packdir)
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opener.createmode = 0o444
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self.opener = opener
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self.entries = {}
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shallowutil.mkstickygroupdir(ui, packdir)
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self.packfp, self.packpath = opener.mkstemp(
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suffix=self.PACKSUFFIX + '-tmp')
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self.idxfp, self.idxpath = opener.mkstemp(
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suffix=self.INDEXSUFFIX + '-tmp')
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self.packfp = os.fdopen(self.packfp, r'wb+')
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self.idxfp = os.fdopen(self.idxfp, r'wb+')
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self.sha = hashlib.sha1()
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self._closed = False
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# The opener provides no way of doing permission fixup on files created
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# via mkstemp, so we must fix it ourselves. We can probably fix this
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# upstream in vfs.mkstemp so we don't need to use the private method.
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opener._fixfilemode(opener.join(self.packpath))
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opener._fixfilemode(opener.join(self.idxpath))
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# Write header
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# TODO: make it extensible (ex: allow specifying compression algorithm,
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# a flexible key/value header, delta algorithm, fanout size, etc)
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versionbuf = struct.pack('!B', self.VERSION) # unsigned 1 byte int
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self.writeraw(versionbuf)
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def __enter__(self):
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return self
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def __exit__(self, exc_type, exc_value, traceback):
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if exc_type is None:
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self.close()
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else:
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self.abort()
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def abort(self):
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# Unclean exit
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self._cleantemppacks()
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def writeraw(self, data):
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self.packfp.write(data)
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self.sha.update(data)
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def close(self, ledger=None):
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if self._closed:
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return
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try:
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sha = nodemod.hex(self.sha.digest())
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self.packfp.close()
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self.writeindex()
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if len(self.entries) == 0:
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# Empty pack
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self._cleantemppacks()
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self._closed = True
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return None
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self.opener.rename(self.packpath, sha + self.PACKSUFFIX)
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try:
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self.opener.rename(self.idxpath, sha + self.INDEXSUFFIX)
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except Exception as ex:
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try:
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self.opener.unlink(sha + self.PACKSUFFIX)
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except Exception:
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pass
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# Throw exception 'ex' explicitly since a normal 'raise' would
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|
# potentially throw an exception from the unlink cleanup.
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raise ex
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except Exception:
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# Clean up temp packs in all exception cases
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|
self._cleantemppacks()
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raise
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|
|
|
self._closed = True
|
|
|
result = self.opener.join(sha)
|
|
|
if ledger:
|
|
|
ledger.addcreated(result)
|
|
|
return result
|
|
|
|
|
|
def _cleantemppacks(self):
|
|
|
try:
|
|
|
self.opener.unlink(self.packpath)
|
|
|
except Exception:
|
|
|
pass
|
|
|
try:
|
|
|
self.opener.unlink(self.idxpath)
|
|
|
except Exception:
|
|
|
pass
|
|
|
|
|
|
def writeindex(self):
|
|
|
largefanout = len(self.entries) > SMALLFANOUTCUTOFF
|
|
|
if largefanout:
|
|
|
params = indexparams(LARGEFANOUTPREFIX, self.VERSION)
|
|
|
else:
|
|
|
params = indexparams(SMALLFANOUTPREFIX, self.VERSION)
|
|
|
|
|
|
fanouttable = [EMPTYFANOUT] * params.fanoutcount
|
|
|
|
|
|
# Precompute the location of each entry
|
|
|
locations = {}
|
|
|
count = 0
|
|
|
for node in sorted(self.entries):
|
|
|
location = count * self.INDEXENTRYLENGTH
|
|
|
locations[node] = location
|
|
|
count += 1
|
|
|
|
|
|
# Must use [0] on the unpack result since it's always a tuple.
|
|
|
fanoutkey = struct.unpack(params.fanoutstruct,
|
|
|
node[:params.fanoutprefix])[0]
|
|
|
if fanouttable[fanoutkey] == EMPTYFANOUT:
|
|
|
fanouttable[fanoutkey] = location
|
|
|
|
|
|
rawfanouttable = ''
|
|
|
last = 0
|
|
|
for offset in fanouttable:
|
|
|
offset = offset if offset != EMPTYFANOUT else last
|
|
|
last = offset
|
|
|
rawfanouttable += struct.pack('!I', offset)
|
|
|
|
|
|
rawentrieslength = struct.pack('!Q', len(self.entries))
|
|
|
|
|
|
# The index offset is the it's location in the file. So after the 2 byte
|
|
|
# header and the fanouttable.
|
|
|
rawindex = self.createindex(locations, 2 + len(rawfanouttable))
|
|
|
|
|
|
self._writeheader(params)
|
|
|
self.idxfp.write(rawfanouttable)
|
|
|
self.idxfp.write(rawentrieslength)
|
|
|
self.idxfp.write(rawindex)
|
|
|
self.idxfp.close()
|
|
|
|
|
|
def createindex(self, nodelocations):
|
|
|
raise NotImplementedError()
|
|
|
|
|
|
def _writeheader(self, indexparams):
|
|
|
# Index header
|
|
|
# <version: 1 byte>
|
|
|
# <large fanout: 1 bit> # 1 means 2^16, 0 means 2^8
|
|
|
# <unused: 7 bit> # future use (compression, delta format, etc)
|
|
|
config = 0
|
|
|
if indexparams.fanoutprefix == LARGEFANOUTPREFIX:
|
|
|
config = 0b10000000
|
|
|
self.idxfp.write(struct.pack('!BB', self.VERSION, config))
|
|
|
|
|
|
class indexparams(object):
|
|
|
__slots__ = (r'fanoutprefix', r'fanoutstruct', r'fanoutcount',
|
|
|
r'fanoutsize', r'indexstart')
|
|
|
|
|
|
def __init__(self, prefixsize, version):
|
|
|
self.fanoutprefix = prefixsize
|
|
|
|
|
|
# The struct pack format for fanout table location (i.e. the format that
|
|
|
# converts the node prefix into an integer location in the fanout
|
|
|
# table).
|
|
|
if prefixsize == SMALLFANOUTPREFIX:
|
|
|
self.fanoutstruct = '!B'
|
|
|
elif prefixsize == LARGEFANOUTPREFIX:
|
|
|
self.fanoutstruct = '!H'
|
|
|
else:
|
|
|
raise ValueError("invalid fanout prefix size: %s" % prefixsize)
|
|
|
|
|
|
# The number of fanout table entries
|
|
|
self.fanoutcount = 2**(prefixsize * 8)
|
|
|
|
|
|
# The total bytes used by the fanout table
|
|
|
self.fanoutsize = self.fanoutcount * 4
|
|
|
|
|
|
self.indexstart = FANOUTSTART + self.fanoutsize
|
|
|
# Skip the index length
|
|
|
self.indexstart += 8
|
|
|
|
