# hg.py - repository classes for mercurial # # Copyright 2005-2007 Matt Mackall # Copyright 2006 Vadim Gelfer # # 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 hashlib import os import shutil import stat from .i18n import _ from .node import nullid from . import ( bookmarks, bundlerepo, cacheutil, cmdutil, destutil, discovery, error, exchange, extensions, httppeer, localrepo, lock, logcmdutil, logexchange, merge as mergemod, narrowspec, node, phases, pycompat, scmutil, sshpeer, statichttprepo, ui as uimod, unionrepo, url, util, verify as verifymod, vfs as vfsmod, ) from .interfaces import repository as repositorymod release = lock.release # shared features sharedbookmarks = 'bookmarks' def _local(path): path = util.expandpath(util.urllocalpath(path)) try: isfile = os.path.isfile(path) # Python 2 raises TypeError, Python 3 ValueError. except (TypeError, ValueError) as e: raise error.Abort( _('invalid path %s: %s') % (path, pycompat.bytestr(e)) ) return isfile and bundlerepo or localrepo def addbranchrevs(lrepo, other, branches, revs): peer = other.peer() # a courtesy to callers using a localrepo for other hashbranch, branches = branches if not hashbranch and not branches: x = revs or None if revs: y = revs[0] else: y = None return x, y if revs: revs = list(revs) else: revs = [] if not peer.capable('branchmap'): if branches: raise error.Abort(_("remote branch lookup not supported")) revs.append(hashbranch) return revs, revs[0] with peer.commandexecutor() as e: branchmap = e.callcommand('branchmap', {}).result() def primary(branch): if branch == '.': if not lrepo: raise error.Abort(_("dirstate branch not accessible")) branch = lrepo.dirstate.branch() if branch in branchmap: revs.extend(node.hex(r) for r in reversed(branchmap[branch])) return True else: return False for branch in branches: if not primary(branch): raise error.RepoLookupError(_("unknown branch '%s'") % branch) if hashbranch: if not primary(hashbranch): revs.append(hashbranch) return revs, revs[0] def parseurl(path, branches=None): '''parse url#branch, returning (url, (branch, branches))''' u = util.url(path) branch = None if u.fragment: branch = u.fragment u.fragment = None return bytes(u), (branch, branches or []) schemes = { 'bundle': bundlerepo, 'union': unionrepo, 'file': _local, 'http': httppeer, 'https': httppeer, 'ssh': sshpeer, 'static-http': statichttprepo, } def _peerlookup(path): u = util.url(path) scheme = u.scheme or 'file' thing = schemes.get(scheme) or schemes['file'] try: return thing(path) except TypeError: # we can't test callable(thing) because 'thing' can be an unloaded # module that implements __call__ if not util.safehasattr(thing, 'instance'): raise return thing def islocal(repo): '''return true if repo (or path pointing to repo) is local''' if isinstance(repo, bytes): try: return _peerlookup(repo).islocal(repo) except AttributeError: return False return repo.local() def openpath(ui, path, sendaccept=True): '''open path with open if local, url.open if remote''' pathurl = util.url(path, parsequery=False, parsefragment=False) if pathurl.islocal(): return util.posixfile(pathurl.localpath(), 'rb') else: return url.open(ui, path, sendaccept=sendaccept) # a list of (ui, repo) functions called for wire peer initialization wirepeersetupfuncs = [] def _peerorrepo( ui, path, create=False, presetupfuncs=None, intents=None, createopts=None ): """return a repository object for the specified path""" obj = _peerlookup(path).instance( ui, path, create, intents=intents, createopts=createopts ) ui = getattr(obj, "ui", ui) for f in presetupfuncs or []: f(ui, obj) ui.log(b'extension', b'- executing reposetup hooks\n') with util.timedcm('all reposetup') as allreposetupstats: for name, module in extensions.extensions(ui): ui.log(b'extension', b' - running reposetup for %s\n', name) hook = getattr(module, 'reposetup', None) if hook: with util.timedcm('reposetup %r', name) as stats: hook(ui, obj) ui.log( b'extension', b' > reposetup for %s took %s\n', name, stats ) ui.log(b'extension', b'> all reposetup took %s\n', allreposetupstats) if not obj.local(): for f in wirepeersetupfuncs: f(ui, obj) return obj def repository( ui, path='', create=False, presetupfuncs=None, intents=None, createopts=None ): """return a repository object for the specified path""" peer = _peerorrepo( ui, path, create, presetupfuncs=presetupfuncs, intents=intents, createopts=createopts, ) repo = peer.local() if not repo: raise error.Abort( _("repository '%s' is not local") % (path or peer.url()) ) return repo.filtered('visible') def peer(uiorrepo, opts, path, create=False, intents=None, createopts=None): '''return a repository peer for the specified path''' rui = remoteui(uiorrepo, opts) return _peerorrepo( rui, path, create, intents=intents, createopts=createopts ).peer() def defaultdest(source): '''return default destination of clone if none is given >>> defaultdest(b'foo') 'foo' >>> defaultdest(b'/foo/bar') 'bar' >>> defaultdest(b'/') '' >>> defaultdest(b'') '' >>> defaultdest(b'http://example.org/') '' >>> defaultdest(b'http://example.org/foo/') 'foo' ''' path = util.url(source).path if not path: return '' return os.path.basename(os.path.normpath(path)) def sharedreposource(repo): """Returns repository object for source repository of a shared repo. If repo is not a shared repository, returns None. """ if repo.sharedpath == repo.path: return None if util.safehasattr(repo, 'srcrepo') and repo.srcrepo: return repo.srcrepo # the sharedpath always ends in the .hg; we want the path to the repo source = repo.vfs.split(repo.sharedpath)[0] srcurl, branches = parseurl(source) srcrepo = repository(repo.ui, srcurl) repo.srcrepo = srcrepo return srcrepo def share( ui, source, dest=None, update=True, bookmarks=True, defaultpath=None, relative=False, ): '''create a shared repository''' if not islocal(source): raise error.Abort(_('can only share local repositories')) if not dest: dest = defaultdest(source) else: dest = ui.expandpath(dest) if isinstance(source, bytes): origsource = ui.expandpath(source) source, branches = parseurl(origsource) srcrepo = repository(ui, source) rev, checkout = addbranchrevs(srcrepo, srcrepo, branches, None) else: srcrepo = source.local() checkout = None shareditems = set() if bookmarks: shareditems.add(sharedbookmarks) r = repository( ui, dest, create=True, createopts={ 'sharedrepo': srcrepo, 'sharedrelative': relative, 'shareditems': shareditems, }, ) postshare(srcrepo, r, defaultpath=defaultpath) r = repository(ui, dest) _postshareupdate(r, update, checkout=checkout) return r def unshare(ui, repo): """convert a shared repository to a normal one Copy the store data to the repo and remove the sharedpath data. Returns a new repository object representing the unshared repository. The passed repository object is not usable after this function is called. """ with repo.lock(): # we use locks here because if we race with commit, we # can end up with extra data in the cloned revlogs that's # not pointed to by changesets, thus causing verify to # fail destlock = copystore(ui, repo, repo.path) with destlock or util.nullcontextmanager(): sharefile = repo.vfs.join('sharedpath') util.rename(sharefile, sharefile + '.old') repo.requirements.discard('shared') repo.requirements.discard('relshared') repo._writerequirements() # Removing share changes some fundamental properties of the repo instance. # So we instantiate a new repo object and operate on it rather than # try to keep the existing repo usable. newrepo = repository(repo.baseui, repo.root, create=False) # TODO: figure out how to access subrepos that exist, but were previously # removed from .hgsub c = newrepo['.'] subs = c.substate for s in sorted(subs): c.sub(s).unshare() localrepo.poisonrepository(repo) return newrepo def postshare(sourcerepo, destrepo, defaultpath=None): """Called after a new shared repo is created. The new repo only has a requirements file and pointer to the source. This function configures additional shared data. Extensions can wrap this function and write additional entries to destrepo/.hg/shared to indicate additional pieces of data to be shared. """ default = defaultpath or sourcerepo.ui.config('paths', 'default') if default: template = '[paths]\n' 'default = %s\n' destrepo.vfs.write('hgrc', util.tonativeeol(template % default)) if repositorymod.NARROW_REQUIREMENT in sourcerepo.requirements: with destrepo.wlock(): narrowspec.copytoworkingcopy(destrepo) def _postshareupdate(repo, update, checkout=None): """Maybe perform a working directory update after a shared repo is created. ``update`` can be a boolean or a revision to update to. """ if not update: return repo.ui.status(_("updating working directory\n")) if update is not True: checkout = update for test in (checkout, 'default', 'tip'): if test is None: continue try: uprev = repo.lookup(test) break except error.RepoLookupError: continue _update(repo, uprev) def copystore(ui, srcrepo, destpath): '''copy files from store of srcrepo in destpath returns destlock ''' destlock = None try: hardlink = None topic = _('linking') if hardlink else _('copying') with ui.makeprogress(topic, unit=_('files')) as progress: num = 0 srcpublishing = srcrepo.publishing() srcvfs = vfsmod.vfs(srcrepo.sharedpath) dstvfs = vfsmod.vfs(destpath) for f in srcrepo.store.copylist(): if srcpublishing and f.endswith('phaseroots'): continue dstbase = os.path.dirname(f) if dstbase and not dstvfs.exists(dstbase): dstvfs.mkdir(dstbase) if srcvfs.exists(f): if f.endswith('data'): # 'dstbase' may be empty (e.g. revlog format 0) lockfile = os.path.join(dstbase, "lock") # lock to avoid premature writing to the target destlock = lock.lock(dstvfs, lockfile) hardlink, n = util.copyfiles( srcvfs.join(f), dstvfs.join(f), hardlink, progress ) num += n if hardlink: ui.debug("linked %d files\n" % num) else: ui.debug("copied %d files\n" % num) return destlock except: # re-raises release(destlock) raise def clonewithshare( ui, peeropts, sharepath, source, srcpeer, dest, pull=False, rev=None, update=True, stream=False, ): """Perform a clone using a shared repo. The store for the repository will be located at /.hg. The specified revisions will be cloned or pulled from "source". A shared repo will be created at "dest" and a working copy will be created if "update" is True. """ revs = None if rev: if not srcpeer.capable('lookup'): raise error.Abort( _( "src repository does not support " "revision lookup and so doesn't " "support clone by revision" ) ) # TODO this is batchable. remoterevs = [] for r in rev: with srcpeer.commandexecutor() as e: remoterevs.append(e.callcommand('lookup', {'key': r,}).result()) revs = remoterevs # Obtain a lock before checking for or cloning the pooled repo otherwise # 2 clients may race creating or populating it. pooldir = os.path.dirname(sharepath) # lock class requires the directory to exist. try: util.makedir(pooldir, False) except OSError as e: if e.errno != errno.EEXIST: raise poolvfs = vfsmod.vfs(pooldir) basename = os.path.basename(sharepath) with lock.lock(poolvfs, '%s.lock' % basename): if os.path.exists(sharepath): ui.status( _('(sharing from existing pooled repository %s)\n') % basename ) else: ui.status(_('(sharing from new pooled repository %s)\n') % basename) # Always use pull mode because hardlinks in share mode don't work # well. Never update because working copies aren't necessary in # share mode. clone( ui, peeropts, source, dest=sharepath, pull=True, revs=rev, update=False, stream=stream, ) # Resolve the value to put in [paths] section for the source. if islocal(source): defaultpath = os.path.abspath(util.urllocalpath(source)) else: defaultpath = source sharerepo = repository(ui, path=sharepath) destrepo = share( ui, sharerepo, dest=dest, update=False, bookmarks=False, defaultpath=defaultpath, ) # We need to perform a pull against the dest repo to fetch bookmarks # and other non-store data that isn't shared by default. In the case of # non-existing shared repo, this means we pull from the remote twice. This # is a bit weird. But at the time it was implemented, there wasn't an easy # way to pull just non-changegroup data. exchange.pull(destrepo, srcpeer, heads=revs) _postshareupdate(destrepo, update) return srcpeer, peer(ui, peeropts, dest) # Recomputing branch cache might be slow on big repos, # so just copy it def _copycache(srcrepo, dstcachedir, fname): """copy a cache from srcrepo to destcachedir (if it exists)""" srcbranchcache = srcrepo.vfs.join('cache/%s' % fname) dstbranchcache = os.path.join(dstcachedir, fname) if os.path.exists(srcbranchcache): if not os.path.exists(dstcachedir): os.mkdir(dstcachedir) util.copyfile(srcbranchcache, dstbranchcache) def clone( ui, peeropts, source, dest=None, pull=False, revs=None, update=True, stream=False, branch=None, shareopts=None, storeincludepats=None, storeexcludepats=None, depth=None, ): """Make a copy of an existing repository. Create a copy of an existing repository in a new directory. The source and destination are URLs, as passed to the repository function. Returns a pair of repository peers, the source and newly created destination. The location of the source is added to the new repository's .hg/hgrc file, as the default to be used for future pulls and pushes. If an exception is raised, the partly cloned/updated destination repository will be deleted. Arguments: source: repository object or URL dest: URL of destination repository to create (defaults to base name of source repository) pull: always pull from source repository, even in local case or if the server prefers streaming stream: stream raw data uncompressed from repository (fast over LAN, slow over WAN) revs: revision to clone up to (implies pull=True) update: update working directory after clone completes, if destination is local repository (True means update to default rev, anything else is treated as a revision) branch: branches to clone shareopts: dict of options to control auto sharing behavior. The "pool" key activates auto sharing mode and defines the directory for stores. The "mode" key determines how to construct the directory name of the shared repository. "identity" means the name is derived from the node of the first changeset in the repository. "remote" means the name is derived from the remote's path/URL. Defaults to "identity." storeincludepats and storeexcludepats: sets of file patterns to include and exclude in the repository copy, respectively. If not defined, all files will be included (a "full" clone). Otherwise a "narrow" clone containing only the requested files will be performed. If ``storeincludepats`` is not defined but ``storeexcludepats`` is, ``storeincludepats`` is assumed to be ``path:.``. If both are empty sets, no files will be cloned. """ if isinstance(source, bytes): origsource = ui.expandpath(source) source, branches = parseurl(origsource, branch) srcpeer = peer(ui, peeropts, source) else: srcpeer = source.peer() # in case we were called with a localrepo branches = (None, branch or []) origsource = source = srcpeer.url() revs, checkout = addbranchrevs(srcpeer, srcpeer, branches, revs) if dest is None: dest = defaultdest(source) if dest: ui.status(_("destination directory: %s\n") % dest) else: dest = ui.expandpath(dest) dest = util.urllocalpath(dest) source = util.urllocalpath(source) if not dest: raise error.Abort(_("empty destination path is not valid")) destvfs = vfsmod.vfs(dest, expandpath=True) if destvfs.lexists(): if not destvfs.isdir(): raise error.Abort(_("destination '%s' already exists") % dest) elif destvfs.listdir(): raise error.Abort(_("destination '%s' is not empty") % dest) createopts = {} narrow = False if storeincludepats is not None: narrowspec.validatepatterns(storeincludepats) narrow = True if storeexcludepats is not None: narrowspec.validatepatterns(storeexcludepats) narrow = True if narrow: # Include everything by default if only exclusion patterns defined. if storeexcludepats and not storeincludepats: storeincludepats = {'path:.'} createopts['narrowfiles'] = True if depth: createopts['shallowfilestore'] = True if srcpeer.capable(b'lfs-serve'): # Repository creation honors the config if it disabled the extension, so # we can't just announce that lfs will be enabled. This check avoids # saying that lfs will be enabled, and then saying it's an unknown # feature. The lfs creation option is set in either case so that a # requirement is added. If the extension is explicitly disabled but the # requirement is set, the clone aborts early, before transferring any # data. createopts['lfs'] = True if extensions.disabledext('lfs'): ui.status( _( '(remote is using large file support (lfs), but it is ' 'explicitly disabled in the local configuration)\n' ) ) else: ui.status( _( '(remote is using large file support (lfs); lfs will ' 'be enabled for this repository)\n' ) ) shareopts = shareopts or {} sharepool = shareopts.get('pool') sharenamemode = shareopts.get('mode') if sharepool and islocal(dest): sharepath = None if sharenamemode == 'identity': # Resolve the name from the initial changeset in the remote # repository. This returns nullid when the remote is empty. It # raises RepoLookupError if revision 0 is filtered or otherwise # not available. If we fail to resolve, sharing is not enabled. try: with srcpeer.commandexecutor() as e: rootnode = e.callcommand('lookup', {'key': '0',}).result() if rootnode != node.nullid: sharepath = os.path.join(sharepool, node.hex(rootnode)) else: ui.status( _( '(not using pooled storage: ' 'remote appears to be empty)\n' ) ) except error.RepoLookupError: ui.status( _( '(not using pooled storage: ' 'unable to resolve identity of remote)\n' ) ) elif sharenamemode == 'remote': sharepath = os.path.join( sharepool, node.hex(hashlib.sha1(source).digest()) ) else: raise error.Abort( _('unknown share naming mode: %s') % sharenamemode ) # TODO this is a somewhat arbitrary restriction. if narrow: ui.status(_('(pooled storage not supported for narrow clones)\n')) sharepath = None if sharepath: return clonewithshare( ui, peeropts, sharepath, source, srcpeer, dest, pull=pull, rev=revs, update=update, stream=stream, ) srclock = destlock = cleandir = None srcrepo = srcpeer.local() try: abspath = origsource if islocal(origsource): abspath = os.path.abspath(util.urllocalpath(origsource)) if islocal(dest): cleandir = dest copy = False if ( srcrepo and srcrepo.cancopy() and islocal(dest) and not phases.hassecret(srcrepo) ): copy = not pull and not revs # TODO this is a somewhat arbitrary restriction. if narrow: copy = False if copy: try: # we use a lock here because if we race with commit, we # can end up with extra data in the cloned revlogs that's # not pointed to by changesets, thus causing verify to # fail srclock = srcrepo.lock(wait=False) except error.LockError: copy = False if copy: srcrepo.hook('preoutgoing', throw=True, source='clone') hgdir = os.path.realpath(os.path.join(dest, ".hg")) if not os.path.exists(dest): util.makedirs(dest) else: # only clean up directories we create ourselves cleandir = hgdir try: destpath = hgdir util.makedir(destpath, notindexed=True) except OSError as inst: if inst.errno == errno.EEXIST: cleandir = None raise error.Abort( _("destination '%s' already exists") % dest ) raise destlock = copystore(ui, srcrepo, destpath) # copy bookmarks over srcbookmarks = srcrepo.vfs.join('bookmarks') dstbookmarks = os.path.join(destpath, 'bookmarks') if os.path.exists(srcbookmarks): util.copyfile(srcbookmarks, dstbookmarks) dstcachedir = os.path.join(destpath, 'cache') for cache in cacheutil.cachetocopy(srcrepo): _copycache(srcrepo, dstcachedir, cache) # we need to re-init the repo after manually copying the data # into it destpeer = peer(srcrepo, peeropts, dest) srcrepo.hook('outgoing', source='clone', node=node.hex(node.nullid)) else: try: # only pass ui when no srcrepo destpeer = peer( srcrepo or ui, peeropts, dest, create=True, createopts=createopts, ) except OSError as inst: if inst.errno == errno.EEXIST: cleandir = None raise error.Abort( _("destination '%s' already exists") % dest ) raise if revs: if not srcpeer.capable('lookup'): raise error.Abort( _( "src repository does not support " "revision lookup and so doesn't " "support clone by revision" ) ) # TODO this is batchable. remoterevs = [] for rev in revs: with srcpeer.commandexecutor() as e: remoterevs.append( e.callcommand('lookup', {'key': rev,}).result() ) revs = remoterevs checkout = revs[0] else: revs = None local = destpeer.local() if local: if narrow: with local.wlock(), local.lock(): local.setnarrowpats(storeincludepats, storeexcludepats) narrowspec.copytoworkingcopy(local) u = util.url(abspath) defaulturl = bytes(u) local.ui.setconfig('paths', 'default', defaulturl, 'clone') if not stream: if pull: stream = False else: stream = None # internal config: ui.quietbookmarkmove overrides = {('ui', 'quietbookmarkmove'): True} with local.ui.configoverride(overrides, 'clone'): exchange.pull( local, srcpeer, revs, streamclonerequested=stream, includepats=storeincludepats, excludepats=storeexcludepats, depth=depth, ) elif srcrepo: # TODO lift restriction once exchange.push() accepts narrow # push. if narrow: raise error.Abort( _( 'narrow clone not available for ' 'remote destinations' ) ) exchange.push( srcrepo, destpeer, revs=revs, bookmarks=srcrepo._bookmarks.keys(), ) else: raise error.Abort( _("clone from remote to remote not supported") ) cleandir = None destrepo = destpeer.local() if destrepo: template = uimod.samplehgrcs['cloned'] u = util.url(abspath) u.passwd = None defaulturl = bytes(u) destrepo.vfs.write('hgrc', util.tonativeeol(template % defaulturl)) destrepo.ui.setconfig('paths', 'default', defaulturl, 'clone') if ui.configbool('experimental', 'remotenames'): logexchange.pullremotenames(destrepo, srcpeer) if update: if update is not True: with srcpeer.commandexecutor() as e: checkout = e.callcommand( 'lookup', {'key': update,} ).result() uprev = None status = None if checkout is not None: # Some extensions (at least hg-git and hg-subversion) have # a peer.lookup() implementation that returns a name instead # of a nodeid. We work around it here until we've figured # out a better solution. if len(checkout) == 20 and checkout in destrepo: uprev = checkout elif scmutil.isrevsymbol(destrepo, checkout): uprev = scmutil.revsymbol(destrepo, checkout).node() else: if update is not True: try: uprev = destrepo.lookup(update) except error.RepoLookupError: pass if uprev is None: try: uprev = destrepo._bookmarks['@'] update = '@' bn = destrepo[uprev].branch() if bn == 'default': status = _("updating to bookmark @\n") else: status = ( _("updating to bookmark @ on branch %s\n") % bn ) except KeyError: try: uprev = destrepo.branchtip('default') except error.RepoLookupError: uprev = destrepo.lookup('tip') if not status: bn = destrepo[uprev].branch() status = _("updating to branch %s\n") % bn destrepo.ui.status(status) _update(destrepo, uprev) if update in destrepo._bookmarks: bookmarks.activate(destrepo, update) finally: release(srclock, destlock) if cleandir is not None: shutil.rmtree(cleandir, True) if srcpeer is not None: srcpeer.close() return srcpeer, destpeer def _showstats(repo, stats, quietempty=False): if quietempty and stats.isempty(): return repo.ui.status( _( "%d files updated, %d files merged, " "%d files removed, %d files unresolved\n" ) % ( stats.updatedcount, stats.mergedcount, stats.removedcount, stats.unresolvedcount, ) ) def updaterepo(repo, node, overwrite, updatecheck=None): """Update the working directory to node. When overwrite is set, changes are clobbered, merged else returns stats (see pydoc mercurial.merge.applyupdates)""" return mergemod.update( repo, node, branchmerge=False, force=overwrite, labels=['working copy', 'destination'], updatecheck=updatecheck, ) def update(repo, node, quietempty=False, updatecheck=None): """update the working directory to node""" stats = updaterepo(repo, node, False, updatecheck=updatecheck) _showstats(repo, stats, quietempty) if stats.unresolvedcount: repo.ui.status(_("use 'hg resolve' to retry unresolved file merges\n")) return stats.unresolvedcount > 0 # naming conflict in clone() _update = update def clean(repo, node, show_stats=True, quietempty=False): """forcibly switch the working directory to node, clobbering changes""" stats = updaterepo(repo, node, True) repo.vfs.unlinkpath('graftstate', ignoremissing=True) if show_stats: _showstats(repo, stats, quietempty) return stats.unresolvedcount > 0 # naming conflict in updatetotally() _clean = clean _VALID_UPDATECHECKS = { mergemod.UPDATECHECK_ABORT, mergemod.UPDATECHECK_NONE, mergemod.UPDATECHECK_LINEAR, mergemod.UPDATECHECK_NO_CONFLICT, } def updatetotally(ui, repo, checkout, brev, clean=False, updatecheck=None): """Update the working directory with extra care for non-file components This takes care of non-file components below: :bookmark: might be advanced or (in)activated This takes arguments below: :checkout: to which revision the working directory is updated :brev: a name, which might be a bookmark to be activated after updating :clean: whether changes in the working directory can be discarded :updatecheck: how to deal with a dirty working directory Valid values for updatecheck are the UPDATECHECK_* constants defined in the merge module. Passing `None` will result in using the configured default. * ABORT: abort if the working directory is dirty * NONE: don't check (merge working directory changes into destination) * LINEAR: check that update is linear before merging working directory changes into destination * NO_CONFLICT: check that the update does not result in file merges This returns whether conflict is detected at updating or not. """ if updatecheck is None: updatecheck = ui.config('commands', 'update.check') if updatecheck not in _VALID_UPDATECHECKS: # If not configured, or invalid value configured updatecheck = mergemod.UPDATECHECK_LINEAR if updatecheck not in _VALID_UPDATECHECKS: raise ValueError( r'Invalid updatecheck value %r (can accept %r)' % (updatecheck, _VALID_UPDATECHECKS) ) with repo.wlock(): movemarkfrom = None warndest = False if checkout is None: updata = destutil.destupdate(repo, clean=clean) checkout, movemarkfrom, brev = updata warndest = True if clean: ret = _clean(repo, checkout) else: if updatecheck == mergemod.UPDATECHECK_ABORT: cmdutil.bailifchanged(repo, merge=False) updatecheck = mergemod.UPDATECHECK_NONE ret = _update(repo, checkout, updatecheck=updatecheck) if not ret and movemarkfrom: if movemarkfrom == repo['.'].node(): pass # no-op update elif bookmarks.update(repo, [movemarkfrom], repo['.'].node()): b = ui.label(repo._activebookmark, 'bookmarks.active') ui.status(_("updating bookmark %s\n") % b) else: # this can happen with a non-linear update b = ui.label(repo._activebookmark, 'bookmarks') ui.status(_("(leaving bookmark %s)\n") % b) bookmarks.deactivate(repo) elif brev in repo._bookmarks: if brev != repo._activebookmark: b = ui.label(brev, 'bookmarks.active') ui.status(_("(activating bookmark %s)\n") % b) bookmarks.activate(repo, brev) elif brev: if repo._activebookmark: b = ui.label(repo._activebookmark, 'bookmarks') ui.status(_("(leaving bookmark %s)\n") % b) bookmarks.deactivate(repo) if warndest: destutil.statusotherdests(ui, repo) return ret def merge( repo, node, force=None, remind=True, mergeforce=False, labels=None, abort=False, ): """Branch merge with node, resolving changes. Return true if any unresolved conflicts.""" if abort: return abortmerge(repo.ui, repo) stats = mergemod.update( repo, node, branchmerge=True, force=force, mergeforce=mergeforce, labels=labels, ) _showstats(repo, stats) if stats.unresolvedcount: repo.ui.status( _( "use 'hg resolve' to retry unresolved file merges " "or 'hg merge --abort' to abandon\n" ) ) elif remind: repo.ui.status(_("(branch merge, don't forget to commit)\n")) return stats.unresolvedcount > 0 def abortmerge(ui, repo): ms = mergemod.mergestate.read(repo) if ms.active(): # there were conflicts node = ms.localctx.hex() else: # there were no conficts, mergestate was not stored node = repo['.'].hex() repo.ui.status( _("aborting the merge, updating back to" " %s\n") % node[:12] ) stats = mergemod.update(repo, node, branchmerge=False, force=True) _showstats(repo, stats) return stats.unresolvedcount > 0 def _incoming( displaychlist, subreporecurse, ui, repo, source, opts, buffered=False ): """ Helper for incoming / gincoming. displaychlist gets called with (remoterepo, incomingchangesetlist, displayer) parameters, and is supposed to contain only code that can't be unified. """ source, branches = parseurl(ui.expandpath(source), opts.get('branch')) other = peer(repo, opts, source) ui.status(_('comparing with %s\n') % util.hidepassword(source)) revs, checkout = addbranchrevs(repo, other, branches, opts.get('rev')) if revs: revs = [other.lookup(rev) for rev in revs] other, chlist, cleanupfn = bundlerepo.getremotechanges( ui, repo, other, revs, opts["bundle"], opts["force"] ) try: if not chlist: ui.status(_("no changes found\n")) return subreporecurse() ui.pager('incoming') displayer = logcmdutil.changesetdisplayer( ui, other, opts, buffered=buffered ) displaychlist(other, chlist, displayer) displayer.close() finally: cleanupfn() subreporecurse() return 0 # exit code is zero since we found incoming changes def incoming(ui, repo, source, opts): def subreporecurse(): ret = 1 if opts.get('subrepos'): ctx = repo[None] for subpath in sorted(ctx.substate): sub = ctx.sub(subpath) ret = min(ret, sub.incoming(ui, source, opts)) return ret def display(other, chlist, displayer): limit = logcmdutil.getlimit(opts) if opts.get('newest_first'): chlist.reverse() count = 0 for n in chlist: if limit is not None and count >= limit: break parents = [p for p in other.changelog.parents(n) if p != nullid] if opts.get('no_merges') and len(parents) == 2: continue count += 1 displayer.show(other[n]) return _incoming(display, subreporecurse, ui, repo, source, opts) def _outgoing(ui, repo, dest, opts): path = ui.paths.getpath(dest, default=('default-push', 'default')) if not path: raise error.Abort( _('default repository not configured!'), hint=_("see 'hg help config.paths'"), ) dest = path.pushloc or path.loc branches = path.branch, opts.get('branch') or [] ui.status(_('comparing with %s\n') % util.hidepassword(dest)) revs, checkout = addbranchrevs(repo, repo, branches, opts.get('rev')) if revs: revs = [repo[rev].node() for rev in scmutil.revrange(repo, revs)] other = peer(repo, opts, dest) outgoing = discovery.findcommonoutgoing( repo, other, revs, force=opts.get('force') ) o = outgoing.missing if not o: scmutil.nochangesfound(repo.ui, repo, outgoing.excluded) return o, other def outgoing(ui, repo, dest, opts): def recurse(): ret = 1 if opts.get('subrepos'): ctx = repo[None] for subpath in sorted(ctx.substate): sub = ctx.sub(subpath) ret = min(ret, sub.outgoing(ui, dest, opts)) return ret limit = logcmdutil.getlimit(opts) o, other = _outgoing(ui, repo, dest, opts) if not o: cmdutil.outgoinghooks(ui, repo, other, opts, o) return recurse() if opts.get('newest_first'): o.reverse() ui.pager('outgoing') displayer = logcmdutil.changesetdisplayer(ui, repo, opts) count = 0 for n in o: if limit is not None and count >= limit: break parents = [p for p in repo.changelog.parents(n) if p != nullid] if opts.get('no_merges') and len(parents) == 2: continue count += 1 displayer.show(repo[n]) displayer.close() cmdutil.outgoinghooks(ui, repo, other, opts, o) recurse() return 0 # exit code is zero since we found outgoing changes def verify(repo, level=None): """verify the consistency of a repository""" ret = verifymod.verify(repo, level=level) # Broken subrepo references in hidden csets don't seem worth worrying about, # since they can't be pushed/pulled, and --hidden can be used if they are a # concern. # pathto() is needed for -R case revs = repo.revs( "filelog(%s)", util.pathto(repo.root, repo.getcwd(), '.hgsubstate') ) if revs: repo.ui.status(_('checking subrepo links\n')) for rev in revs: ctx = repo[rev] try: for subpath in ctx.substate: try: ret = ( ctx.sub(subpath, allowcreate=False).verify() or ret ) except error.RepoError as e: repo.ui.warn('%d: %s\n' % (rev, e)) except Exception: repo.ui.warn( _('.hgsubstate is corrupt in revision %s\n') % node.short(ctx.node()) ) return ret def remoteui(src, opts): 'build a remote ui from ui or repo and opts' if util.safehasattr(src, 'baseui'): # looks like a repository dst = src.baseui.copy() # drop repo-specific config src = src.ui # copy target options from repo else: # assume it's a global ui object dst = src.copy() # keep all global options # copy ssh-specific options for o in 'ssh', 'remotecmd': v = opts.get(o) or src.config('ui', o) if v: dst.setconfig("ui", o, v, 'copied') # copy bundle-specific options r = src.config('bundle', 'mainreporoot') if r: dst.setconfig('bundle', 'mainreporoot', r, 'copied') # copy selected local settings to the remote ui for sect in ('auth', 'hostfingerprints', 'hostsecurity', 'http_proxy'): for key, val in src.configitems(sect): dst.setconfig(sect, key, val, 'copied') v = src.config('web', 'cacerts') if v: dst.setconfig('web', 'cacerts', util.expandpath(v), 'copied') return dst # Files of interest # Used to check if the repository has changed looking at mtime and size of # these files. foi = [ ('spath', '00changelog.i'), ('spath', 'phaseroots'), # ! phase can change content at the same size ('spath', 'obsstore'), ('path', 'bookmarks'), # ! bookmark can change content at the same size ] class cachedlocalrepo(object): """Holds a localrepository that can be cached and reused.""" def __init__(self, repo): """Create a new cached repo from an existing repo. We assume the passed in repo was recently created. If the repo has changed between when it was created and when it was turned into a cache, it may not refresh properly. """ assert isinstance(repo, localrepo.localrepository) self._repo = repo self._state, self.mtime = self._repostate() self._filtername = repo.filtername def fetch(self): """Refresh (if necessary) and return a repository. If the cached instance is out of date, it will be recreated automatically and returned. Returns a tuple of the repo and a boolean indicating whether a new repo instance was created. """ # We compare the mtimes and sizes of some well-known files to # determine if the repo changed. This is not precise, as mtimes # are susceptible to clock skew and imprecise filesystems and # file content can change while maintaining the same size. state, mtime = self._repostate() if state == self._state: return self._repo, False repo = repository(self._repo.baseui, self._repo.url()) if self._filtername: self._repo = repo.filtered(self._filtername) else: self._repo = repo.unfiltered() self._state = state self.mtime = mtime return self._repo, True def _repostate(self): state = [] maxmtime = -1 for attr, fname in foi: prefix = getattr(self._repo, attr) p = os.path.join(prefix, fname) try: st = os.stat(p) except OSError: st = os.stat(prefix) state.append((st[stat.ST_MTIME], st.st_size)) maxmtime = max(maxmtime, st[stat.ST_MTIME]) return tuple(state), maxmtime def copy(self): """Obtain a copy of this class instance. A new localrepository instance is obtained. The new instance should be completely independent of the original. """ repo = repository(self._repo.baseui, self._repo.origroot) if self._filtername: repo = repo.filtered(self._filtername) else: repo = repo.unfiltered() c = cachedlocalrepo(repo) c._state = self._state c.mtime = self.mtime return c