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cleanup: remove pointless r-prefixes on single-quoted strings...
cleanup: remove pointless r-prefixes on single-quoted strings This is the promised second step on single-quoted strings. These had existed because our source transformer didn't turn r'' into b'', so we had tagged some strings as r-strings to get "native" strings on both Pythons. Now that the transformer is gone, we can dispense with this nonsense. Methodology: I ran hg locate 'set:added() or modified() or clean()' | egrep '.*\.py$' | xargs egrep --color=never -n -- \[\^b\]\[\^a-z\]r\'\[\^\'\\\\\]\*\'\[\^\'\ in an emacs grep-mode buffer, and then used a keyboard macro to iterate over the results and remove the r prefix as needed. # skip-blame removing unneeded r prefixes left over from Python 3 migration. Differential Revision: https://phab.mercurial-scm.org/D7306
Augie Fackler - - Load All Authors

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lfcommands.py
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/ hgext / largefiles / lfcommands.py
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# 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.
'''High-level command function for lfconvert, plus the cmdtable.'''
from __future__ import absolute_import
import errno
import hashlib
import os
import shutil
from mercurial.i18n import _
from mercurial import (
cmdutil,
context,
error,
exthelper,
hg,
lock,
match as matchmod,
node,
pycompat,
scmutil,
util,
)
from ..convert import (
convcmd,
filemap,
)
from . import lfutil, storefactory
release = lock.release
# -- Commands ----------------------------------------------------------
eh = exthelper.exthelper()
@eh.command(
b'lfconvert',
[
(
b's',
b'size',
b'',
_(b'minimum size (MB) for files to be converted as largefiles'),
b'SIZE',
),
(
b'',
b'to-normal',
False,
_(b'convert from a largefiles repo to a normal repo'),
),
],
_(b'hg lfconvert SOURCE DEST [FILE ...]'),
norepo=True,
inferrepo=True,
)
def lfconvert(ui, src, dest, *pats, **opts):
'''convert a normal repository to a largefiles repository
Convert repository SOURCE to a new repository DEST, identical to
SOURCE except that certain files will be converted as largefiles:
specifically, any file that matches any PATTERN *or* whose size is
above the minimum size threshold is converted as a largefile. The
size used to determine whether or not to track a file as a
largefile is the size of the first version of the file. The
minimum size can be specified either with --size or in
configuration as ``largefiles.size``.
After running this command you will need to make sure that
largefiles is enabled anywhere you intend to push the new
repository.
Use --to-normal to convert largefiles back to normal files; after
this, the DEST repository can be used without largefiles at all.'''
opts = pycompat.byteskwargs(opts)
if opts[b'to_normal']:
tolfile = False
else:
tolfile = True
size = lfutil.getminsize(ui, True, opts.get(b'size'), default=None)
if not hg.islocal(src):
raise error.Abort(_(b'%s is not a local Mercurial repo') % src)
if not hg.islocal(dest):
raise error.Abort(_(b'%s is not a local Mercurial repo') % dest)
rsrc = hg.repository(ui, src)
ui.status(_(b'initializing destination %s\n') % dest)
rdst = hg.repository(ui, dest, create=True)
success = False
dstwlock = dstlock = None
try:
# Get a list of all changesets in the source. The easy way to do this
# is to simply walk the changelog, using changelog.nodesbetween().
# Take a look at mercurial/revlog.py:639 for more details.
# Use a generator instead of a list to decrease memory usage
ctxs = (
rsrc[ctx]
for ctx in rsrc.changelog.nodesbetween(None, rsrc.heads())[0]
)
revmap = {node.nullid: node.nullid}
if tolfile:
# Lock destination to prevent modification while it is converted to.
# Don't need to lock src because we are just reading from its
# history which can't change.
dstwlock = rdst.wlock()
dstlock = rdst.lock()
lfiles = set()
normalfiles = set()
if not pats:
pats = ui.configlist(lfutil.longname, b'patterns')
if pats:
matcher = matchmod.match(rsrc.root, b'', list(pats))
else:
matcher = None
lfiletohash = {}
with ui.makeprogress(
_(b'converting revisions'),
unit=_(b'revisions'),
total=rsrc[b'tip'].rev(),
) as progress:
for ctx in ctxs:
progress.update(ctx.rev())
_lfconvert_addchangeset(
rsrc,
rdst,
ctx,
revmap,
lfiles,
normalfiles,
matcher,
size,
lfiletohash,
)
if rdst.wvfs.exists(lfutil.shortname):
rdst.wvfs.rmtree(lfutil.shortname)
for f in lfiletohash.keys():
if rdst.wvfs.isfile(f):
rdst.wvfs.unlink(f)
try:
rdst.wvfs.removedirs(rdst.wvfs.dirname(f))
except OSError:
pass
# If there were any files converted to largefiles, add largefiles
# to the destination repository's requirements.
if lfiles:
rdst.requirements.add(b'largefiles')
rdst._writerequirements()
else:
class lfsource(filemap.filemap_source):
def __init__(self, ui, source):
super(lfsource, self).__init__(ui, source, None)
self.filemapper.rename[lfutil.shortname] = b'.'
def getfile(self, name, rev):
realname, realrev = rev
f = super(lfsource, self).getfile(name, rev)
if (
not realname.startswith(lfutil.shortnameslash)
or f[0] is None
):
return f
# Substitute in the largefile data for the hash
hash = f[0].strip()
path = lfutil.findfile(rsrc, hash)
if path is None:
raise error.Abort(
_(b"missing largefile for '%s' in %s")
% (realname, realrev)
)
return util.readfile(path), f[1]
class converter(convcmd.converter):
def __init__(self, ui, source, dest, revmapfile, opts):
src = lfsource(ui, source)
super(converter, self).__init__(
ui, src, dest, revmapfile, opts
)
found, missing = downloadlfiles(ui, rsrc)
if missing != 0:
raise error.Abort(_(b"all largefiles must be present locally"))
orig = convcmd.converter
convcmd.converter = converter
try:
convcmd.convert(
ui, src, dest, source_type=b'hg', dest_type=b'hg'
)
finally:
convcmd.converter = orig
success = True
finally:
if tolfile:
rdst.dirstate.clear()
release(dstlock, dstwlock)
if not success:
# we failed, remove the new directory
shutil.rmtree(rdst.root)
def _lfconvert_addchangeset(
rsrc, rdst, ctx, revmap, lfiles, normalfiles, matcher, size, lfiletohash
):
# Convert src parents to dst parents
parents = _convertparents(ctx, revmap)
# Generate list of changed files
files = _getchangedfiles(ctx, parents)
dstfiles = []
for f in files:
if f not in lfiles and f not in normalfiles:
islfile = _islfile(f, ctx, matcher, size)
# If this file was renamed or copied then copy
# the largefile-ness of its predecessor
if f in ctx.manifest():
fctx = ctx.filectx(f)
renamed = fctx.copysource()
if renamed is None:
# the code below assumes renamed to be a boolean or a list
# and won't quite work with the value None
renamed = False
renamedlfile = renamed and renamed in lfiles
islfile |= renamedlfile
if b'l' in fctx.flags():
if renamedlfile:
raise error.Abort(
_(b'renamed/copied largefile %s becomes symlink')
% f
)
islfile = False
if islfile:
lfiles.add(f)
else:
normalfiles.add(f)
if f in lfiles:
fstandin = lfutil.standin(f)
dstfiles.append(fstandin)
# largefile in manifest if it has not been removed/renamed
if f in ctx.manifest():
fctx = ctx.filectx(f)
if b'l' in fctx.flags():
renamed = fctx.copysource()
if renamed and renamed in lfiles:
raise error.Abort(
_(b'largefile %s becomes symlink') % f
)
# largefile was modified, update standins
m = hashlib.sha1(b'')
m.update(ctx[f].data())
hash = node.hex(m.digest())
if f not in lfiletohash or lfiletohash[f] != hash:
rdst.wwrite(f, ctx[f].data(), ctx[f].flags())
executable = b'x' in ctx[f].flags()
lfutil.writestandin(rdst, fstandin, hash, executable)
lfiletohash[f] = hash
else:
# normal file
dstfiles.append(f)
def getfilectx(repo, memctx, f):
srcfname = lfutil.splitstandin(f)
if srcfname is not None:
# if the file isn't in the manifest then it was removed
# or renamed, return None to indicate this
try:
fctx = ctx.filectx(srcfname)
except error.LookupError:
return None
renamed = fctx.copysource()
if renamed:
# standin is always a largefile because largefile-ness
# doesn't change after rename or copy
renamed = lfutil.standin(renamed)
return context.memfilectx(
repo,
memctx,
f,
lfiletohash[srcfname] + b'\n',
b'l' in fctx.flags(),
b'x' in fctx.flags(),
renamed,
)
else:
return _getnormalcontext(repo, ctx, f, revmap)
# Commit
_commitcontext(rdst, parents, ctx, dstfiles, getfilectx, revmap)
def _commitcontext(rdst, parents, ctx, dstfiles, getfilectx, revmap):
mctx = context.memctx(
rdst,
parents,
ctx.description(),
dstfiles,
getfilectx,
ctx.user(),
ctx.date(),
ctx.extra(),
)
ret = rdst.commitctx(mctx)
lfutil.copyalltostore(rdst, ret)
rdst.setparents(ret)
revmap[ctx.node()] = rdst.changelog.tip()
# Generate list of changed files
def _getchangedfiles(ctx, parents):
files = set(ctx.files())
if node.nullid not in parents:
mc = ctx.manifest()
for pctx in ctx.parents():
for fn in pctx.manifest().diff(mc):
files.add(fn)
return files
# Convert src parents to dst parents
def _convertparents(ctx, revmap):
parents = []
for p in ctx.parents():
parents.append(revmap[p.node()])
while len(parents) < 2:
parents.append(node.nullid)
return parents
# Get memfilectx for a normal file
def _getnormalcontext(repo, ctx, f, revmap):
try:
fctx = ctx.filectx(f)
except error.LookupError:
return None
renamed = fctx.copysource()
data = fctx.data()
if f == b'.hgtags':
data = _converttags(repo.ui, revmap, data)
return context.memfilectx(
repo, ctx, f, data, b'l' in fctx.flags(), b'x' in fctx.flags(), renamed
)
# Remap tag data using a revision map
def _converttags(ui, revmap, data):
newdata = []
for line in data.splitlines():
try:
id, name = line.split(b' ', 1)
except ValueError:
ui.warn(_(b'skipping incorrectly formatted tag %s\n') % line)
continue
try:
newid = node.bin(id)
except TypeError:
ui.warn(_(b'skipping incorrectly formatted id %s\n') % id)
continue
try:
newdata.append(b'%s %s\n' % (node.hex(revmap[newid]), name))
except KeyError:
ui.warn(_(b'no mapping for id %s\n') % id)
continue
return b''.join(newdata)
def _islfile(file, ctx, matcher, size):
'''Return true if file should be considered a largefile, i.e.
matcher matches it or it is larger than size.'''
# never store special .hg* files as largefiles
if file == b'.hgtags' or file == b'.hgignore' or file == b'.hgsigs':
return False
if matcher and matcher(file):
return True
try:
return ctx.filectx(file).size() >= size * 1024 * 1024
except error.LookupError:
return False
def uploadlfiles(ui, rsrc, rdst, files):
'''upload largefiles to the central store'''
if not files:
return
store = storefactory.openstore(rsrc, rdst, put=True)
at = 0
ui.debug(b"sending statlfile command for %d largefiles\n" % len(files))
retval = store.exists(files)
files = [h for h in files if not retval[h]]
ui.debug(b"%d largefiles need to be uploaded\n" % len(files))
with ui.makeprogress(
_(b'uploading largefiles'), unit=_(b'files'), total=len(files)
) as progress:
for hash in files:
progress.update(at)
source = lfutil.findfile(rsrc, hash)
if not source:
raise error.Abort(
_(
b'largefile %s missing from store'
b' (needs to be uploaded)'
)
% hash
)
# XXX check for errors here
store.put(source, hash)
at += 1
def verifylfiles(ui, repo, all=False, contents=False):
'''Verify that every largefile revision in the current changeset
exists in the central store. With --contents, also verify that
the contents of each local largefile file revision are correct (SHA-1 hash
matches the revision ID). With --all, check every changeset in
this repository.'''
if all:
revs = repo.revs(b'all()')
else:
revs = [b'.']
store = storefactory.openstore(repo)
return store.verify(revs, contents=contents)
def cachelfiles(ui, repo, node, filelist=None):
'''cachelfiles ensures that all largefiles needed by the specified revision
are present in the repository's largefile cache.
returns a tuple (cached, missing). cached is the list of files downloaded
by this operation; missing is the list of files that were needed but could
not be found.'''
lfiles = lfutil.listlfiles(repo, node)
if filelist:
lfiles = set(lfiles) & set(filelist)
toget = []
ctx = repo[node]
for lfile in lfiles:
try:
expectedhash = lfutil.readasstandin(ctx[lfutil.standin(lfile)])
except IOError as err:
if err.errno == errno.ENOENT:
continue # node must be None and standin wasn't found in wctx
raise
if not lfutil.findfile(repo, expectedhash):
toget.append((lfile, expectedhash))
if toget:
store = storefactory.openstore(repo)
ret = store.get(toget)
return ret
return ([], [])
def downloadlfiles(ui, repo, rev=None):
match = scmutil.match(repo[None], [repo.wjoin(lfutil.shortname)], {})
def prepare(ctx, fns):
pass
totalsuccess = 0
totalmissing = 0
if rev != []: # walkchangerevs on empty list would return all revs
for ctx in cmdutil.walkchangerevs(repo, match, {b'rev': rev}, prepare):
success, missing = cachelfiles(ui, repo, ctx.node())
totalsuccess += len(success)
totalmissing += len(missing)
ui.status(_(b"%d additional largefiles cached\n") % totalsuccess)
if totalmissing > 0:
ui.status(_(b"%d largefiles failed to download\n") % totalmissing)
return totalsuccess, totalmissing
def updatelfiles(
ui, repo, filelist=None, printmessage=None, normallookup=False
):
'''Update largefiles according to standins in the working directory
If ``printmessage`` is other than ``None``, it means "print (or
ignore, for false) message forcibly".
'''
statuswriter = lfutil.getstatuswriter(ui, repo, printmessage)
with repo.wlock():
lfdirstate = lfutil.openlfdirstate(ui, repo)
lfiles = set(lfutil.listlfiles(repo)) | set(lfdirstate)
if filelist is not None:
filelist = set(filelist)
lfiles = [f for f in lfiles if f in filelist]
update = {}
dropped = set()
updated, removed = 0, 0
wvfs = repo.wvfs
wctx = repo[None]
for lfile in lfiles:
lfileorig = os.path.relpath(
scmutil.backuppath(ui, repo, lfile), start=repo.root
)
standin = lfutil.standin(lfile)
standinorig = os.path.relpath(
scmutil.backuppath(ui, repo, standin), start=repo.root
)
if wvfs.exists(standin):
if wvfs.exists(standinorig) and wvfs.exists(lfile):
shutil.copyfile(wvfs.join(lfile), wvfs.join(lfileorig))
wvfs.unlinkpath(standinorig)
expecthash = lfutil.readasstandin(wctx[standin])
if expecthash != b'':
if lfile not in wctx: # not switched to normal file
if repo.dirstate[standin] != b'?':
wvfs.unlinkpath(lfile, ignoremissing=True)
else:
dropped.add(lfile)
# use normallookup() to allocate an entry in largefiles
# dirstate to prevent lfilesrepo.status() from reporting
# missing files as removed.
lfdirstate.normallookup(lfile)
update[lfile] = expecthash
else:
# Remove lfiles for which the standin is deleted, unless the
# lfile is added to the repository again. This happens when a
# largefile is converted back to a normal file: the standin
# disappears, but a new (normal) file appears as the lfile.
if (
wvfs.exists(lfile)
and repo.dirstate.normalize(lfile) not in wctx
):
wvfs.unlinkpath(lfile)
removed += 1
# largefile processing might be slow and be interrupted - be prepared
lfdirstate.write()
if lfiles:
lfiles = [f for f in lfiles if f not in dropped]
for f in dropped:
repo.wvfs.unlinkpath(lfutil.standin(f))
# This needs to happen for dropped files, otherwise they stay in
# the M state.
lfutil.synclfdirstate(repo, lfdirstate, f, normallookup)
statuswriter(_(b'getting changed largefiles\n'))
cachelfiles(ui, repo, None, lfiles)
for lfile in lfiles:
update1 = 0
expecthash = update.get(lfile)
if expecthash:
if not lfutil.copyfromcache(repo, expecthash, lfile):
# failed ... but already removed and set to normallookup
continue
# Synchronize largefile dirstate to the last modified
# time of the file
lfdirstate.normal(lfile)
update1 = 1
# copy the exec mode of largefile standin from the repository's
# dirstate to its state in the lfdirstate.
standin = lfutil.standin(lfile)
if wvfs.exists(standin):
# exec is decided by the users permissions using mask 0o100
standinexec = wvfs.stat(standin).st_mode & 0o100
st = wvfs.stat(lfile)
mode = st.st_mode
if standinexec != mode & 0o100:
# first remove all X bits, then shift all R bits to X
mode &= ~0o111
if standinexec:
mode |= (mode >> 2) & 0o111 & ~util.umask
wvfs.chmod(lfile, mode)
update1 = 1
updated += update1
lfutil.synclfdirstate(repo, lfdirstate, lfile, normallookup)
lfdirstate.write()
if lfiles:
statuswriter(
_(b'%d largefiles updated, %d removed\n') % (updated, removed)
)
@eh.command(
b'lfpull',
[(b'r', b'rev', [], _(b'pull largefiles for these revisions'))]
+ cmdutil.remoteopts,
_(b'-r REV... [-e CMD] [--remotecmd CMD] [SOURCE]'),
)
def lfpull(ui, repo, source=b"default", **opts):
"""pull largefiles for the specified revisions from the specified source
Pull largefiles that are referenced from local changesets but missing
locally, pulling from a remote repository to the local cache.
If SOURCE is omitted, the 'default' path will be used.
See :hg:`help urls` for more information.
.. container:: verbose
Some examples:
- pull largefiles for all branch heads::
hg lfpull -r "head() and not closed()"
- pull largefiles on the default branch::
hg lfpull -r "branch(default)"
"""
repo.lfpullsource = source
revs = opts.get('rev', [])
if not revs:
raise error.Abort(_(b'no revisions specified'))
revs = scmutil.revrange(repo, revs)
numcached = 0
for rev in revs:
ui.note(_(b'pulling largefiles for revision %d\n') % rev)
(cached, missing) = cachelfiles(ui, repo, rev)
numcached += len(cached)
ui.status(_(b"%d largefiles cached\n") % numcached)
@eh.command(b'debuglfput', [] + cmdutil.remoteopts, _(b'FILE'))
def debuglfput(ui, repo, filepath, **kwargs):
hash = lfutil.hashfile(filepath)
storefactory.openstore(repo).put(filepath, hash)
ui.write(b'%s\n' % hash)
return 0