Mercurial > hg
view mercurial/store.py @ 45095:8e04607023e5
procutil: ensure that procutil.std{out,err}.write() writes all bytes
Python 3 offers different kind of streams and it’s not guaranteed for all of
them that calling write() writes all bytes.
When Python is started in unbuffered mode, sys.std{out,err}.buffer are
instances of io.FileIO, whose write() can write less bytes for
platform-specific reasons (e.g. Linux has a 0x7ffff000 bytes maximum and could
write less if interrupted by a signal; when writing to Windows consoles, it’s
limited to 32767 bytes to avoid the "not enough space" error). This can lead to
silent loss of data, both when using sys.std{out,err}.buffer (which may in fact
not be a buffered stream) and when using the text streams sys.std{out,err}
(I’ve created a CPython bug report for that:
https://bugs.python.org/issue41221).
Python may fix the problem at some point. For now, we implement our own wrapper
for procutil.std{out,err} that calls the raw stream’s write() method until all
bytes have been written. We don’t use sys.std{out,err} for larger writes, so I
think it’s not worth the effort to patch them.
author | Manuel Jacob <me@manueljacob.de> |
---|---|
date | Fri, 10 Jul 2020 12:27:58 +0200 |
parents | 9d2b2df2c2ba |
children | 909dafff6a78 |
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# store.py - repository store handling for Mercurial # # Copyright 2008 Matt Mackall <mpm@selenic.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import errno import functools import os import stat from .i18n import _ from .pycompat import getattr from . import ( changelog, error, manifest, node, policy, pycompat, util, vfs as vfsmod, ) from .utils import hashutil parsers = policy.importmod('parsers') # how much bytes should be read from fncache in one read # It is done to prevent loading large fncache files into memory fncache_chunksize = 10 ** 6 def _matchtrackedpath(path, matcher): """parses a fncache entry and returns whether the entry is tracking a path matched by matcher or not. If matcher is None, returns True""" if matcher is None: return True path = decodedir(path) if path.startswith(b'data/'): return matcher(path[len(b'data/') : -len(b'.i')]) elif path.startswith(b'meta/'): return matcher.visitdir(path[len(b'meta/') : -len(b'/00manifest.i')]) raise error.ProgrammingError(b"cannot decode path %s" % path) # This avoids a collision between a file named foo and a dir named # foo.i or foo.d def _encodedir(path): ''' >>> _encodedir(b'data/foo.i') 'data/foo.i' >>> _encodedir(b'data/foo.i/bla.i') 'data/foo.i.hg/bla.i' >>> _encodedir(b'data/foo.i.hg/bla.i') 'data/foo.i.hg.hg/bla.i' >>> _encodedir(b'data/foo.i\\ndata/foo.i/bla.i\\ndata/foo.i.hg/bla.i\\n') 'data/foo.i\\ndata/foo.i.hg/bla.i\\ndata/foo.i.hg.hg/bla.i\\n' ''' return ( path.replace(b".hg/", b".hg.hg/") .replace(b".i/", b".i.hg/") .replace(b".d/", b".d.hg/") ) encodedir = getattr(parsers, 'encodedir', _encodedir) def decodedir(path): ''' >>> decodedir(b'data/foo.i') 'data/foo.i' >>> decodedir(b'data/foo.i.hg/bla.i') 'data/foo.i/bla.i' >>> decodedir(b'data/foo.i.hg.hg/bla.i') 'data/foo.i.hg/bla.i' ''' if b".hg/" not in path: return path return ( path.replace(b".d.hg/", b".d/") .replace(b".i.hg/", b".i/") .replace(b".hg.hg/", b".hg/") ) def _reserved(): ''' characters that are problematic for filesystems * ascii escapes (0..31) * ascii hi (126..255) * windows specials these characters will be escaped by encodefunctions ''' winreserved = [ord(x) for x in u'\\:*?"<>|'] for x in range(32): yield x for x in range(126, 256): yield x for x in winreserved: yield x def _buildencodefun(): ''' >>> enc, dec = _buildencodefun() >>> enc(b'nothing/special.txt') 'nothing/special.txt' >>> dec(b'nothing/special.txt') 'nothing/special.txt' >>> enc(b'HELLO') '_h_e_l_l_o' >>> dec(b'_h_e_l_l_o') 'HELLO' >>> enc(b'hello:world?') 'hello~3aworld~3f' >>> dec(b'hello~3aworld~3f') 'hello:world?' >>> enc(b'the\\x07quick\\xADshot') 'the~07quick~adshot' >>> dec(b'the~07quick~adshot') 'the\\x07quick\\xadshot' ''' e = b'_' xchr = pycompat.bytechr asciistr = list(map(xchr, range(127))) capitals = list(range(ord(b"A"), ord(b"Z") + 1)) cmap = {x: x for x in asciistr} for x in _reserved(): cmap[xchr(x)] = b"~%02x" % x for x in capitals + [ord(e)]: cmap[xchr(x)] = e + xchr(x).lower() dmap = {} for k, v in pycompat.iteritems(cmap): dmap[v] = k def decode(s): i = 0 while i < len(s): for l in pycompat.xrange(1, 4): try: yield dmap[s[i : i + l]] i += l break except KeyError: pass else: raise KeyError return ( lambda s: b''.join( [cmap[s[c : c + 1]] for c in pycompat.xrange(len(s))] ), lambda s: b''.join(list(decode(s))), ) _encodefname, _decodefname = _buildencodefun() def encodefilename(s): ''' >>> encodefilename(b'foo.i/bar.d/bla.hg/hi:world?/HELLO') 'foo.i.hg/bar.d.hg/bla.hg.hg/hi~3aworld~3f/_h_e_l_l_o' ''' return _encodefname(encodedir(s)) def decodefilename(s): ''' >>> decodefilename(b'foo.i.hg/bar.d.hg/bla.hg.hg/hi~3aworld~3f/_h_e_l_l_o') 'foo.i/bar.d/bla.hg/hi:world?/HELLO' ''' return decodedir(_decodefname(s)) def _buildlowerencodefun(): ''' >>> f = _buildlowerencodefun() >>> f(b'nothing/special.txt') 'nothing/special.txt' >>> f(b'HELLO') 'hello' >>> f(b'hello:world?') 'hello~3aworld~3f' >>> f(b'the\\x07quick\\xADshot') 'the~07quick~adshot' ''' xchr = pycompat.bytechr cmap = {xchr(x): xchr(x) for x in pycompat.xrange(127)} for x in _reserved(): cmap[xchr(x)] = b"~%02x" % x for x in range(ord(b"A"), ord(b"Z") + 1): cmap[xchr(x)] = xchr(x).lower() def lowerencode(s): return b"".join([cmap[c] for c in pycompat.iterbytestr(s)]) return lowerencode lowerencode = getattr(parsers, 'lowerencode', None) or _buildlowerencodefun() # Windows reserved names: con, prn, aux, nul, com1..com9, lpt1..lpt9 _winres3 = (b'aux', b'con', b'prn', b'nul') # length 3 _winres4 = (b'com', b'lpt') # length 4 (with trailing 1..9) def _auxencode(path, dotencode): ''' Encodes filenames containing names reserved by Windows or which end in period or space. Does not touch other single reserved characters c. Specifically, c in '\\:*?"<>|' or ord(c) <= 31 are *not* encoded here. Additionally encodes space or period at the beginning, if dotencode is True. Parameter path is assumed to be all lowercase. A segment only needs encoding if a reserved name appears as a basename (e.g. "aux", "aux.foo"). A directory or file named "foo.aux" doesn't need encoding. >>> s = b'.foo/aux.txt/txt.aux/con/prn/nul/foo.' >>> _auxencode(s.split(b'/'), True) ['~2efoo', 'au~78.txt', 'txt.aux', 'co~6e', 'pr~6e', 'nu~6c', 'foo~2e'] >>> s = b'.com1com2/lpt9.lpt4.lpt1/conprn/com0/lpt0/foo.' >>> _auxencode(s.split(b'/'), False) ['.com1com2', 'lp~749.lpt4.lpt1', 'conprn', 'com0', 'lpt0', 'foo~2e'] >>> _auxencode([b'foo. '], True) ['foo.~20'] >>> _auxencode([b' .foo'], True) ['~20.foo'] ''' for i, n in enumerate(path): if not n: continue if dotencode and n[0] in b'. ': n = b"~%02x" % ord(n[0:1]) + n[1:] path[i] = n else: l = n.find(b'.') if l == -1: l = len(n) if (l == 3 and n[:3] in _winres3) or ( l == 4 and n[3:4] <= b'9' and n[3:4] >= b'1' and n[:3] in _winres4 ): # encode third letter ('aux' -> 'au~78') ec = b"~%02x" % ord(n[2:3]) n = n[0:2] + ec + n[3:] path[i] = n if n[-1] in b'. ': # encode last period or space ('foo...' -> 'foo..~2e') path[i] = n[:-1] + b"~%02x" % ord(n[-1:]) return path _maxstorepathlen = 120 _dirprefixlen = 8 _maxshortdirslen = 8 * (_dirprefixlen + 1) - 4 def _hashencode(path, dotencode): digest = node.hex(hashutil.sha1(path).digest()) le = lowerencode(path[5:]).split(b'/') # skips prefix 'data/' or 'meta/' parts = _auxencode(le, dotencode) basename = parts[-1] _root, ext = os.path.splitext(basename) sdirs = [] sdirslen = 0 for p in parts[:-1]: d = p[:_dirprefixlen] if d[-1] in b'. ': # Windows can't access dirs ending in period or space d = d[:-1] + b'_' if sdirslen == 0: t = len(d) else: t = sdirslen + 1 + len(d) if t > _maxshortdirslen: break sdirs.append(d) sdirslen = t dirs = b'/'.join(sdirs) if len(dirs) > 0: dirs += b'/' res = b'dh/' + dirs + digest + ext spaceleft = _maxstorepathlen - len(res) if spaceleft > 0: filler = basename[:spaceleft] res = b'dh/' + dirs + filler + digest + ext return res def _hybridencode(path, dotencode): '''encodes path with a length limit Encodes all paths that begin with 'data/', according to the following. Default encoding (reversible): Encodes all uppercase letters 'X' as '_x'. All reserved or illegal characters are encoded as '~xx', where xx is the two digit hex code of the character (see encodefilename). Relevant path components consisting of Windows reserved filenames are masked by encoding the third character ('aux' -> 'au~78', see _auxencode). Hashed encoding (not reversible): If the default-encoded path is longer than _maxstorepathlen, a non-reversible hybrid hashing of the path is done instead. This encoding uses up to _dirprefixlen characters of all directory levels of the lowerencoded path, but not more levels than can fit into _maxshortdirslen. Then follows the filler followed by the sha digest of the full path. The filler is the beginning of the basename of the lowerencoded path (the basename is everything after the last path separator). The filler is as long as possible, filling in characters from the basename until the encoded path has _maxstorepathlen characters (or all chars of the basename have been taken). The extension (e.g. '.i' or '.d') is preserved. The string 'data/' at the beginning is replaced with 'dh/', if the hashed encoding was used. ''' path = encodedir(path) ef = _encodefname(path).split(b'/') res = b'/'.join(_auxencode(ef, dotencode)) if len(res) > _maxstorepathlen: res = _hashencode(path, dotencode) return res def _pathencode(path): de = encodedir(path) if len(path) > _maxstorepathlen: return _hashencode(de, True) ef = _encodefname(de).split(b'/') res = b'/'.join(_auxencode(ef, True)) if len(res) > _maxstorepathlen: return _hashencode(de, True) return res _pathencode = getattr(parsers, 'pathencode', _pathencode) def _plainhybridencode(f): return _hybridencode(f, False) def _calcmode(vfs): try: # files in .hg/ will be created using this mode mode = vfs.stat().st_mode # avoid some useless chmods if (0o777 & ~util.umask) == (0o777 & mode): mode = None except OSError: mode = None return mode _data = ( b'bookmarks narrowspec data meta 00manifest.d 00manifest.i' b' 00changelog.d 00changelog.i phaseroots obsstore' ) def isrevlog(f, kind, st): return kind == stat.S_IFREG and f[-2:] in (b'.i', b'.d') class basicstore(object): '''base class for local repository stores''' def __init__(self, path, vfstype): vfs = vfstype(path) self.path = vfs.base self.createmode = _calcmode(vfs) vfs.createmode = self.createmode self.rawvfs = vfs self.vfs = vfsmod.filtervfs(vfs, encodedir) self.opener = self.vfs def join(self, f): return self.path + b'/' + encodedir(f) def _walk(self, relpath, recurse, filefilter=isrevlog): '''yields (unencoded, encoded, size)''' path = self.path if relpath: path += b'/' + relpath striplen = len(self.path) + 1 l = [] if self.rawvfs.isdir(path): visit = [path] readdir = self.rawvfs.readdir while visit: p = visit.pop() for f, kind, st in readdir(p, stat=True): fp = p + b'/' + f if filefilter(f, kind, st): n = util.pconvert(fp[striplen:]) l.append((decodedir(n), n, st.st_size)) elif kind == stat.S_IFDIR and recurse: visit.append(fp) l.sort() return l def changelog(self, trypending): return changelog.changelog(self.vfs, trypending=trypending) def manifestlog(self, repo, storenarrowmatch): rootstore = manifest.manifestrevlog(self.vfs) return manifest.manifestlog(self.vfs, repo, rootstore, storenarrowmatch) def datafiles(self, matcher=None): return self._walk(b'data', True) + self._walk(b'meta', True) def topfiles(self): # yield manifest before changelog return reversed(self._walk(b'', False)) def walk(self, matcher=None): '''yields (unencoded, encoded, size) if a matcher is passed, storage files of only those tracked paths are passed with matches the matcher ''' # yield data files first for x in self.datafiles(matcher): yield x for x in self.topfiles(): yield x def copylist(self): return [b'requires'] + _data.split() def write(self, tr): pass def invalidatecaches(self): pass def markremoved(self, fn): pass def __contains__(self, path): '''Checks if the store contains path''' path = b"/".join((b"data", path)) # file? if self.vfs.exists(path + b".i"): return True # dir? if not path.endswith(b"/"): path = path + b"/" return self.vfs.exists(path) class encodedstore(basicstore): def __init__(self, path, vfstype): vfs = vfstype(path + b'/store') self.path = vfs.base self.createmode = _calcmode(vfs) vfs.createmode = self.createmode self.rawvfs = vfs self.vfs = vfsmod.filtervfs(vfs, encodefilename) self.opener = self.vfs def datafiles(self, matcher=None): for a, b, size in super(encodedstore, self).datafiles(): try: a = decodefilename(a) except KeyError: a = None if a is not None and not _matchtrackedpath(a, matcher): continue yield a, b, size def join(self, f): return self.path + b'/' + encodefilename(f) def copylist(self): return [b'requires', b'00changelog.i'] + [ b'store/' + f for f in _data.split() ] class fncache(object): # the filename used to be partially encoded # hence the encodedir/decodedir dance def __init__(self, vfs): self.vfs = vfs self.entries = None self._dirty = False # set of new additions to fncache self.addls = set() def ensureloaded(self, warn=None): '''read the fncache file if not already read. If the file on disk is corrupted, raise. If warn is provided, warn and keep going instead.''' if self.entries is None: self._load(warn) def _load(self, warn=None): '''fill the entries from the fncache file''' self._dirty = False try: fp = self.vfs(b'fncache', mode=b'rb') except IOError: # skip nonexistent file self.entries = set() return self.entries = set() chunk = b'' for c in iter(functools.partial(fp.read, fncache_chunksize), b''): chunk += c try: p = chunk.rindex(b'\n') self.entries.update(decodedir(chunk[: p + 1]).splitlines()) chunk = chunk[p + 1 :] except ValueError: # substring '\n' not found, maybe the entry is bigger than the # chunksize, so let's keep iterating pass if chunk: msg = _(b"fncache does not ends with a newline") if warn: warn(msg + b'\n') else: raise error.Abort( msg, hint=_( b"use 'hg debugrebuildfncache' to " b"rebuild the fncache" ), ) self._checkentries(fp, warn) fp.close() def _checkentries(self, fp, warn): """ make sure there is no empty string in entries """ if b'' in self.entries: fp.seek(0) for n, line in enumerate(util.iterfile(fp)): if not line.rstrip(b'\n'): t = _(b'invalid entry in fncache, line %d') % (n + 1) if warn: warn(t + b'\n') else: raise error.Abort(t) def write(self, tr): if self._dirty: assert self.entries is not None self.entries = self.entries | self.addls self.addls = set() tr.addbackup(b'fncache') fp = self.vfs(b'fncache', mode=b'wb', atomictemp=True) if self.entries: fp.write(encodedir(b'\n'.join(self.entries) + b'\n')) fp.close() self._dirty = False if self.addls: # if we have just new entries, let's append them to the fncache tr.addbackup(b'fncache') fp = self.vfs(b'fncache', mode=b'ab', atomictemp=True) if self.addls: fp.write(encodedir(b'\n'.join(self.addls) + b'\n')) fp.close() self.entries = None self.addls = set() def add(self, fn): if self.entries is None: self._load() if fn not in self.entries: self.addls.add(fn) def remove(self, fn): if self.entries is None: self._load() if fn in self.addls: self.addls.remove(fn) return try: self.entries.remove(fn) self._dirty = True except KeyError: pass def __contains__(self, fn): if fn in self.addls: return True if self.entries is None: self._load() return fn in self.entries def __iter__(self): if self.entries is None: self._load() return iter(self.entries | self.addls) class _fncachevfs(vfsmod.proxyvfs): def __init__(self, vfs, fnc, encode): vfsmod.proxyvfs.__init__(self, vfs) self.fncache = fnc self.encode = encode def __call__(self, path, mode=b'r', *args, **kw): encoded = self.encode(path) if mode not in (b'r', b'rb') and ( path.startswith(b'data/') or path.startswith(b'meta/') ): # do not trigger a fncache load when adding a file that already is # known to exist. notload = self.fncache.entries is None and self.vfs.exists(encoded) if notload and b'a' in mode and not self.vfs.stat(encoded).st_size: # when appending to an existing file, if the file has size zero, # it should be considered as missing. Such zero-size files are # the result of truncation when a transaction is aborted. notload = False if not notload: self.fncache.add(path) return self.vfs(encoded, mode, *args, **kw) def join(self, path): if path: return self.vfs.join(self.encode(path)) else: return self.vfs.join(path) class fncachestore(basicstore): def __init__(self, path, vfstype, dotencode): if dotencode: encode = _pathencode else: encode = _plainhybridencode self.encode = encode vfs = vfstype(path + b'/store') self.path = vfs.base self.pathsep = self.path + b'/' self.createmode = _calcmode(vfs) vfs.createmode = self.createmode self.rawvfs = vfs fnc = fncache(vfs) self.fncache = fnc self.vfs = _fncachevfs(vfs, fnc, encode) self.opener = self.vfs def join(self, f): return self.pathsep + self.encode(f) def getsize(self, path): return self.rawvfs.stat(path).st_size def datafiles(self, matcher=None): for f in sorted(self.fncache): if not _matchtrackedpath(f, matcher): continue ef = self.encode(f) try: yield f, ef, self.getsize(ef) except OSError as err: if err.errno != errno.ENOENT: raise def copylist(self): d = ( b'bookmarks narrowspec data meta dh fncache phaseroots obsstore' b' 00manifest.d 00manifest.i 00changelog.d 00changelog.i' ) return [b'requires', b'00changelog.i'] + [ b'store/' + f for f in d.split() ] def write(self, tr): self.fncache.write(tr) def invalidatecaches(self): self.fncache.entries = None self.fncache.addls = set() def markremoved(self, fn): self.fncache.remove(fn) def _exists(self, f): ef = self.encode(f) try: self.getsize(ef) return True except OSError as err: if err.errno != errno.ENOENT: raise # nonexistent entry return False def __contains__(self, path): '''Checks if the store contains path''' path = b"/".join((b"data", path)) # check for files (exact match) e = path + b'.i' if e in self.fncache and self._exists(e): return True # now check for directories (prefix match) if not path.endswith(b'/'): path += b'/' for e in self.fncache: if e.startswith(path) and self._exists(e): return True return False