Mercurial > hg
view hgext/largefiles/lfcommands.py @ 45047:40120de810ba stable
demandimport: ignore `lzma` module for demandimport
This makes importing the module fail if the `_lzma` module is not present.
This makes e.g. tarfile correctly recognize if LZMA support is not present. It
changes the exception
File "/usr/lib/python3.6/tarfile.py", line 1694, in xzopen
fileobj = lzma.LZMAFile(fileobj or name, mode, preset=preset)
AttributeError: module 'lzma' has no attribute 'LZMAFile'
to the more correct exception
File "/usr/lib/python3.6/tarfile.py", line 1692, in xzopen
raise CompressionError("lzma module is not available")
tarfile.CompressionError: lzma module is not available
Also, it prevents that the error "abort: No module named '_lzma'!" is shown when
a development warning is to be shown. The reason why that happened is that for
showing the warning, we get information about the stack frames from the inspect
module, which accesses the `__file__` attribute of all modules in `sys.modules`
to build some cache, causing all modules (including `lzma`) to be imported.
author | Manuel Jacob <me@manueljacob.de> |
---|---|
date | Wed, 08 Jul 2020 08:25:30 +0200 |
parents | 2d49482d0dd4 |
children | a03c177a4679 |
line wrap: on
line source
# 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 os import shutil from mercurial.i18n import _ from mercurial import ( cmdutil, context, error, exthelper, hg, lock, match as matchmod, node, pycompat, scmutil, util, ) from mercurial.utils import hashutil 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 = hashutil.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