##// END OF EJS Templates
convert: introduce --full for converting all files...
convert: introduce --full for converting all files Convert will normally only process files that were changed in a source revision, apply the filemap, and record it has a change in the target repository. (If it ends up not really changing anything, nothing changes.) That means that _if_ the filemap is changed before continuing an incremental convert, the change will only kick in when the files it affects are modified in a source revision and thus processed. With --full, convert will make a full conversion every time and process all files in the source repo and remove target repo files that shouldn't be there. Filemap changes will thus kick in on the first converted revision, no matter what is changed. This flag should in most cases not make any difference but will make convert significantly slower. Other names has been considered for this feature, such as "resync", "sync", "checkunmodified", "all" or "allfiles", but I found that they were less obvious and required more explanation than "full" and were harder to describe consistently.

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lfutil.py
416 lines | 14.2 KiB | text/x-python | PythonLexer
# Copyright 2009-2010 Gregory P. Ward
# Copyright 2009-2010 Intelerad Medical Systems Incorporated
# Copyright 2010-2011 Fog Creek Software
# Copyright 2010-2011 Unity Technologies
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
'''largefiles utility code: must not import other modules in this package.'''
import os
import platform
import shutil
import stat
from mercurial import dirstate, httpconnection, match as match_, util, scmutil
from mercurial.i18n import _
from mercurial import node
shortname = '.hglf'
shortnameslash = shortname + '/'
longname = 'largefiles'
# -- Private worker functions ------------------------------------------
def getminsize(ui, assumelfiles, opt, default=10):
lfsize = opt
if not lfsize and assumelfiles:
lfsize = ui.config(longname, 'minsize', default=default)
if lfsize:
try:
lfsize = float(lfsize)
except ValueError:
raise util.Abort(_('largefiles: size must be number (not %s)\n')
% lfsize)
if lfsize is None:
raise util.Abort(_('minimum size for largefiles must be specified'))
return lfsize
def link(src, dest):
util.makedirs(os.path.dirname(dest))
try:
util.oslink(src, dest)
except OSError:
# if hardlinks fail, fallback on atomic copy
dst = util.atomictempfile(dest)
for chunk in util.filechunkiter(open(src, 'rb')):
dst.write(chunk)
dst.close()
os.chmod(dest, os.stat(src).st_mode)
def usercachepath(ui, hash):
path = ui.configpath(longname, 'usercache', None)
if path:
path = os.path.join(path, hash)
else:
if os.name == 'nt':
appdata = os.getenv('LOCALAPPDATA', os.getenv('APPDATA'))
if appdata:
path = os.path.join(appdata, longname, hash)
elif platform.system() == 'Darwin':
home = os.getenv('HOME')
if home:
path = os.path.join(home, 'Library', 'Caches',
longname, hash)
elif os.name == 'posix':
path = os.getenv('XDG_CACHE_HOME')
if path:
path = os.path.join(path, longname, hash)
else:
home = os.getenv('HOME')
if home:
path = os.path.join(home, '.cache', longname, hash)
else:
raise util.Abort(_('unknown operating system: %s\n') % os.name)
return path
def inusercache(ui, hash):
path = usercachepath(ui, hash)
return path and os.path.exists(path)
def findfile(repo, hash):
if instore(repo, hash):
repo.ui.note(_('found %s in store\n') % hash)
return storepath(repo, hash)
elif inusercache(repo.ui, hash):
repo.ui.note(_('found %s in system cache\n') % hash)
path = storepath(repo, hash)
link(usercachepath(repo.ui, hash), path)
return path
return None
class largefilesdirstate(dirstate.dirstate):
def __getitem__(self, key):
return super(largefilesdirstate, self).__getitem__(unixpath(key))
def normal(self, f):
return super(largefilesdirstate, self).normal(unixpath(f))
def remove(self, f):
return super(largefilesdirstate, self).remove(unixpath(f))
def add(self, f):
return super(largefilesdirstate, self).add(unixpath(f))
def drop(self, f):
return super(largefilesdirstate, self).drop(unixpath(f))
def forget(self, f):
return super(largefilesdirstate, self).forget(unixpath(f))
def normallookup(self, f):
return super(largefilesdirstate, self).normallookup(unixpath(f))
def _ignore(self, f):
return False
def openlfdirstate(ui, repo, create=True):
'''
Return a dirstate object that tracks largefiles: i.e. its root is
the repo root, but it is saved in .hg/largefiles/dirstate.
'''
lfstoredir = repo.join(longname)
opener = scmutil.opener(lfstoredir)
lfdirstate = largefilesdirstate(opener, ui, repo.root,
repo.dirstate._validate)
# If the largefiles dirstate does not exist, populate and create
# it. This ensures that we create it on the first meaningful
# largefiles operation in a new clone.
if create and not os.path.exists(os.path.join(lfstoredir, 'dirstate')):
matcher = getstandinmatcher(repo)
standins = repo.dirstate.walk(matcher, [], False, False)
if len(standins) > 0:
util.makedirs(lfstoredir)
for standin in standins:
lfile = splitstandin(standin)
lfdirstate.normallookup(lfile)
return lfdirstate
def lfdirstatestatus(lfdirstate, repo, rev):
match = match_.always(repo.root, repo.getcwd())
s = lfdirstate.status(match, [], False, False, False)
unsure, modified, added, removed, missing, unknown, ignored, clean = s
for lfile in unsure:
try:
fctx = repo[rev][standin(lfile)]
except LookupError:
fctx = None
if not fctx or fctx.data().strip() != hashfile(repo.wjoin(lfile)):
modified.append(lfile)
else:
clean.append(lfile)
lfdirstate.normal(lfile)
return (modified, added, removed, missing, unknown, ignored, clean)
def listlfiles(repo, rev=None, matcher=None):
'''return a list of largefiles in the working copy or the
specified changeset'''
if matcher is None:
matcher = getstandinmatcher(repo)
# ignore unknown files in working directory
return [splitstandin(f)
for f in repo[rev].walk(matcher)
if rev is not None or repo.dirstate[f] != '?']
def instore(repo, hash):
return os.path.exists(storepath(repo, hash))
def storepath(repo, hash):
return repo.join(os.path.join(longname, hash))
def copyfromcache(repo, hash, filename):
'''Copy the specified largefile from the repo or system cache to
filename in the repository. Return true on success or false if the
file was not found in either cache (which should not happened:
this is meant to be called only after ensuring that the needed
largefile exists in the cache).'''
path = findfile(repo, hash)
if path is None:
return False
util.makedirs(os.path.dirname(repo.wjoin(filename)))
# The write may fail before the file is fully written, but we
# don't use atomic writes in the working copy.
shutil.copy(path, repo.wjoin(filename))
return True
def copytostore(repo, rev, file, uploaded=False):
hash = readstandin(repo, file, rev)
if instore(repo, hash):
return
copytostoreabsolute(repo, repo.wjoin(file), hash)
def copyalltostore(repo, node):
'''Copy all largefiles in a given revision to the store'''
ctx = repo[node]
for filename in ctx.files():
if isstandin(filename) and filename in ctx.manifest():
realfile = splitstandin(filename)
copytostore(repo, ctx.node(), realfile)
def copytostoreabsolute(repo, file, hash):
if inusercache(repo.ui, hash):
link(usercachepath(repo.ui, hash), storepath(repo, hash))
elif not getattr(repo, "_isconverting", False):
util.makedirs(os.path.dirname(storepath(repo, hash)))
dst = util.atomictempfile(storepath(repo, hash),
createmode=repo.store.createmode)
for chunk in util.filechunkiter(open(file, 'rb')):
dst.write(chunk)
dst.close()
linktousercache(repo, hash)
def linktousercache(repo, hash):
path = usercachepath(repo.ui, hash)
if path:
link(storepath(repo, hash), path)
def getstandinmatcher(repo, pats=[], opts={}):
'''Return a match object that applies pats to the standin directory'''
standindir = repo.wjoin(shortname)
if pats:
pats = [os.path.join(standindir, pat) for pat in pats]
else:
# no patterns: relative to repo root
pats = [standindir]
# no warnings about missing files or directories
match = scmutil.match(repo[None], pats, opts)
match.bad = lambda f, msg: None
return match
def composestandinmatcher(repo, rmatcher):
'''Return a matcher that accepts standins corresponding to the
files accepted by rmatcher. Pass the list of files in the matcher
as the paths specified by the user.'''
smatcher = getstandinmatcher(repo, rmatcher.files())
isstandin = smatcher.matchfn
def composedmatchfn(f):
return isstandin(f) and rmatcher.matchfn(splitstandin(f))
smatcher.matchfn = composedmatchfn
return smatcher
def standin(filename):
'''Return the repo-relative path to the standin for the specified big
file.'''
# Notes:
# 1) Some callers want an absolute path, but for instance addlargefiles
# needs it repo-relative so it can be passed to repo[None].add(). So
# leave it up to the caller to use repo.wjoin() to get an absolute path.
# 2) Join with '/' because that's what dirstate always uses, even on
# Windows. Change existing separator to '/' first in case we are
# passed filenames from an external source (like the command line).
return shortnameslash + util.pconvert(filename)
def isstandin(filename):
'''Return true if filename is a big file standin. filename must be
in Mercurial's internal form (slash-separated).'''
return filename.startswith(shortnameslash)
def splitstandin(filename):
# Split on / because that's what dirstate always uses, even on Windows.
# Change local separator to / first just in case we are passed filenames
# from an external source (like the command line).
bits = util.pconvert(filename).split('/', 1)
if len(bits) == 2 and bits[0] == shortname:
return bits[1]
else:
return None
def updatestandin(repo, standin):
file = repo.wjoin(splitstandin(standin))
if os.path.exists(file):
hash = hashfile(file)
executable = getexecutable(file)
writestandin(repo, standin, hash, executable)
def readstandin(repo, filename, node=None):
'''read hex hash from standin for filename at given node, or working
directory if no node is given'''
return repo[node][standin(filename)].data().strip()
def writestandin(repo, standin, hash, executable):
'''write hash to <repo.root>/<standin>'''
repo.wwrite(standin, hash + '\n', executable and 'x' or '')
def copyandhash(instream, outfile):
'''Read bytes from instream (iterable) and write them to outfile,
computing the SHA-1 hash of the data along the way. Return the hash.'''
hasher = util.sha1('')
for data in instream:
hasher.update(data)
outfile.write(data)
return hasher.hexdigest()
def hashrepofile(repo, file):
return hashfile(repo.wjoin(file))
def hashfile(file):
if not os.path.exists(file):
return ''
hasher = util.sha1('')
fd = open(file, 'rb')
for data in util.filechunkiter(fd, 128 * 1024):
hasher.update(data)
fd.close()
return hasher.hexdigest()
def getexecutable(filename):
mode = os.stat(filename).st_mode
return ((mode & stat.S_IXUSR) and
(mode & stat.S_IXGRP) and
(mode & stat.S_IXOTH))
def urljoin(first, second, *arg):
def join(left, right):
if not left.endswith('/'):
left += '/'
if right.startswith('/'):
right = right[1:]
return left + right
url = join(first, second)
for a in arg:
url = join(url, a)
return url
def hexsha1(data):
"""hexsha1 returns the hex-encoded sha1 sum of the data in the file-like
object data"""
h = util.sha1()
for chunk in util.filechunkiter(data):
h.update(chunk)
return h.hexdigest()
def httpsendfile(ui, filename):
return httpconnection.httpsendfile(ui, filename, 'rb')
def unixpath(path):
'''Return a version of path normalized for use with the lfdirstate.'''
return util.pconvert(os.path.normpath(path))
def islfilesrepo(repo):
if ('largefiles' in repo.requirements and
util.any(shortnameslash in f[0] for f in repo.store.datafiles())):
return True
return util.any(openlfdirstate(repo.ui, repo, False))
class storeprotonotcapable(Exception):
def __init__(self, storetypes):
self.storetypes = storetypes
def getstandinsstate(repo):
standins = []
matcher = getstandinmatcher(repo)
for standin in repo.dirstate.walk(matcher, [], False, False):
lfile = splitstandin(standin)
try:
hash = readstandin(repo, lfile)
except IOError:
hash = None
standins.append((lfile, hash))
return standins
def synclfdirstate(repo, lfdirstate, lfile, normallookup):
lfstandin = standin(lfile)
if lfstandin in repo.dirstate:
stat = repo.dirstate._map[lfstandin]
state, mtime = stat[0], stat[3]
else:
state, mtime = '?', -1
if state == 'n':
if normallookup or mtime < 0:
# state 'n' doesn't ensure 'clean' in this case
lfdirstate.normallookup(lfile)
else:
lfdirstate.normal(lfile)
elif state == 'm':
lfdirstate.normallookup(lfile)
elif state == 'r':
lfdirstate.remove(lfile)
elif state == 'a':
lfdirstate.add(lfile)
elif state == '?':
lfdirstate.drop(lfile)
def getlfilestoupdate(oldstandins, newstandins):
changedstandins = set(oldstandins).symmetric_difference(set(newstandins))
filelist = []
for f in changedstandins:
if f[0] not in filelist:
filelist.append(f[0])
return filelist
def getlfilestoupload(repo, missing, addfunc):
for n in missing:
parents = [p for p in repo.changelog.parents(n) if p != node.nullid]
ctx = repo[n]
files = set(ctx.files())
if len(parents) == 2:
mc = ctx.manifest()
mp1 = ctx.parents()[0].manifest()
mp2 = ctx.parents()[1].manifest()
for f in mp1:
if f not in mc:
files.add(f)
for f in mp2:
if f not in mc:
files.add(f)
for f in mc:
if mc[f] != mp1.get(f, None) or mc[f] != mp2.get(f, None):
files.add(f)
for fn in files:
if isstandin(fn) and fn in ctx:
addfunc(fn, ctx[fn].data().strip())