Mercurial > hg
view mercurial/bundlerepo.py @ 52303:b422acba55f1
rust-dirstate: remove star exports
This makes the crate's imports confusing and muddies the discovery of the
code.
author | Raphaël Gomès <rgomes@octobus.net> |
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date | Mon, 04 Nov 2024 11:07:05 +0100 |
parents | cfd30df0f8e4 |
children |
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# bundlerepo.py - repository class for viewing uncompressed bundles # # Copyright 2006, 2007 Benoit Boissinot <bboissin@gmail.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. """Repository class for viewing uncompressed bundles. This provides a read-only repository interface to bundles as if they were part of the actual repository. """ from __future__ import annotations import contextlib import os import shutil import typing from .i18n import _ from .node import ( hex, nullrev, ) from . import ( bundle2, changegroup, changelog, cmdutil, discovery, encoding, error, exchange, filelog, localrepo, manifest, mdiff, pathutil, phases, pycompat, revlog, revlogutils, util, vfs as vfsmod, ) from .utils import ( urlutil, ) from .revlogutils import ( constants as revlog_constants, ) class bundlerevlog(revlog.revlog): def __init__( self, opener: typing.Any, target, radix, cgunpacker, linkmapper ): # TODO: figure out real type of opener # # How it works: # To retrieve a revision, we need to know the offset of the revision in # the bundle (an unbundle object). We store this offset in the index # (start). The base of the delta is stored in the base field. # # To differentiate a rev in the bundle from a rev in the revlog, we # check revision against repotiprev. opener = vfsmod.readonlyvfs(opener) revlog.revlog.__init__(self, opener, target=target, radix=radix) self.bundle = cgunpacker n = len(self) self.repotiprev = n - 1 self.bundlerevs = set() # used by 'bundle()' revset expression for deltadata in cgunpacker.deltaiter(): node, p1, p2, cs, deltabase, delta, flags, sidedata = deltadata size = len(delta) start = cgunpacker.tell() - size if self.index.has_node(node): # this can happen if two branches make the same change self.bundlerevs.add(self.index.rev(node)) continue if cs == node: linkrev = nullrev else: linkrev = linkmapper(cs) for p in (p1, p2): if not self.index.has_node(p): raise error.LookupError( p, self.display_id, _(b"unknown parent") ) if not self.index.has_node(deltabase): raise error.LookupError( deltabase, self.display_id, _(b'unknown delta base') ) baserev = self.rev(deltabase) # start, size, full unc. size, base (unused), link, p1, p2, node, sidedata_offset (unused), sidedata_size (unused) e = revlogutils.entry( flags=flags, data_offset=start, data_compressed_length=size, data_delta_base=baserev, link_rev=linkrev, parent_rev_1=self.rev(p1), parent_rev_2=self.rev(p2), node_id=node, ) self.index.append(e) self.bundlerevs.add(n) n += 1 @contextlib.contextmanager def reading(self): if self.repotiprev < 0: yield else: with super().reading() as x: yield x def _chunk(self, rev): # Warning: in case of bundle, the diff is against what we stored as # delta base, not against rev - 1 # XXX: could use some caching if rev <= self.repotiprev: return super(bundlerevlog, self)._inner._chunk(rev) self.bundle.seek(self.start(rev)) return self.bundle.read(self.length(rev)) def revdiff(self, rev1, rev2): """return or calculate a delta between two revisions""" if rev1 > self.repotiprev and rev2 > self.repotiprev: # hot path for bundle revb = self.index[rev2][3] if revb == rev1: return self._chunk(rev2) elif rev1 <= self.repotiprev and rev2 <= self.repotiprev: return revlog.revlog.revdiff(self, rev1, rev2) return mdiff.textdiff(self.rawdata(rev1), self.rawdata(rev2)) def _rawtext(self, node, rev): if rev is None: rev = self.rev(node) validated = False rawtext = None chain = [] iterrev = rev # reconstruct the revision if it is from a changegroup while iterrev > self.repotiprev: if ( self._inner._revisioncache and self._inner._revisioncache[1] == iterrev ): rawtext = self._inner._revisioncache[2] break chain.append(iterrev) iterrev = self.index[iterrev][3] if iterrev == nullrev: rawtext = b'' elif rawtext is None: r = super(bundlerevlog, self)._rawtext( self.node(iterrev), iterrev, ) __, rawtext, validated = r if chain: validated = False while chain: delta = self._chunk(chain.pop()) rawtext = mdiff.patches(rawtext, [delta]) return rev, rawtext, validated def addrevision(self, *args, **kwargs): raise NotImplementedError def addgroup(self, *args, **kwargs): raise NotImplementedError def strip(self, *args, **kwargs): raise NotImplementedError def checksize(self): raise NotImplementedError class bundlechangelog(bundlerevlog, changelog.changelog): def __init__(self, opener, cgunpacker): changelog.changelog.__init__(self, opener) linkmapper = lambda x: x bundlerevlog.__init__( self, opener, (revlog_constants.KIND_CHANGELOG, None), self.radix, cgunpacker, linkmapper, ) class bundlemanifest(bundlerevlog, manifest.manifestrevlog): def __init__( self, nodeconstants, opener, cgunpacker, linkmapper, dirlogstarts=None, dir=b'', ): # XXX manifestrevlog is not actually a revlog , so mixing it with # bundlerevlog is not a good idea. manifest.manifestrevlog.__init__(self, nodeconstants, opener, tree=dir) bundlerevlog.__init__( self, opener, (revlog_constants.KIND_MANIFESTLOG, dir), self._revlog.radix, cgunpacker, linkmapper, ) if dirlogstarts is None: dirlogstarts = {} if self.bundle.version == b"03": dirlogstarts = _getfilestarts(self.bundle) self._dirlogstarts = dirlogstarts self._linkmapper = linkmapper def dirlog(self, d): if d in self._dirlogstarts: self.bundle.seek(self._dirlogstarts[d]) return bundlemanifest( self.nodeconstants, self.opener, self.bundle, self._linkmapper, self._dirlogstarts, dir=d, ) return super(bundlemanifest, self).dirlog(d) class bundlefilelog(filelog.filelog): def __init__(self, opener, path, cgunpacker, linkmapper): filelog.filelog.__init__(self, opener, path) self._revlog = bundlerevlog( opener, # XXX should use the unencoded path target=(revlog_constants.KIND_FILELOG, path), radix=self._revlog.radix, cgunpacker=cgunpacker, linkmapper=linkmapper, ) class bundlepeer(localrepo.localpeer): def canpush(self): return False class bundlephasecache(phases.phasecache): def __init__(self, *args, **kwargs): super(bundlephasecache, self).__init__(*args, **kwargs) if hasattr(self, 'opener'): self.opener = vfsmod.readonlyvfs(self.opener) def write(self, repo): raise NotImplementedError def _write(self, repo, fp): raise NotImplementedError def _updateroots(self, repo, phase, newroots, tr, invalidate=True): self._phaseroots[phase] = newroots if invalidate: self.invalidate() self.dirty = True def _getfilestarts(cgunpacker): filespos = {} for chunkdata in iter(cgunpacker.filelogheader, {}): fname = chunkdata[b'filename'] filespos[fname] = cgunpacker.tell() for chunk in iter(lambda: cgunpacker.deltachunk(None), {}): pass return filespos _bundle_repo_baseclass = object if typing.TYPE_CHECKING: _bundle_repo_baseclass = localrepo.localrepository class bundlerepository(_bundle_repo_baseclass): """A repository instance that is a union of a local repo and a bundle. Instances represent a read-only repository composed of a local repository with the contents of a bundle file applied. The repository instance is conceptually similar to the state of a repository after an ``hg unbundle`` operation. However, the contents of the bundle are never applied to the actual base repository. Instances constructed directly are not usable as repository objects. Use instance() or makebundlerepository() to create instances. """ def __init__(self, bundlepath, url, tempparent): self._tempparent = tempparent self._url = url self.ui.setconfig(b'phases', b'publish', False, b'bundlerepo') # dict with the mapping 'filename' -> position in the changegroup. self._cgfilespos = {} self._bundlefile = None self._cgunpacker = None self.tempfile = None f = util.posixfile(bundlepath, b"rb") bundle = exchange.readbundle(self.ui, f, bundlepath) if isinstance(bundle, bundle2.unbundle20): self._bundlefile = bundle cgpart = None for part in bundle.iterparts(seekable=True): if part.type == b'phase-heads': self._handle_bundle2_phase_part(bundle, part) elif part.type == b'changegroup': if cgpart: raise NotImplementedError( b"can't process multiple changegroups" ) cgpart = part self._handle_bundle2_cg_part(bundle, part) if not cgpart: raise error.Abort(_(b"No changegroups found")) # This is required to placate a later consumer, which expects # the payload offset to be at the beginning of the changegroup. # We need to do this after the iterparts() generator advances # because iterparts() will seek to end of payload after the # generator returns control to iterparts(). cgpart.seek(0, os.SEEK_SET) elif isinstance(bundle, changegroup.cg1unpacker): self._handle_bundle1(bundle, bundlepath) else: raise error.Abort( _(b'bundle type %r cannot be read') % type(bundle) ) def _handle_bundle1(self, bundle, bundlepath): if bundle.compressed(): f = self._writetempbundle(bundle.read, b'.hg10un', header=b'HG10UN') bundle = exchange.readbundle(self.ui, f, bundlepath, self.vfs) self._bundlefile = bundle self._cgunpacker = bundle self.firstnewrev = self.changelog.repotiprev + 1 phases.retractboundary( self, None, phases.draft, [ctx.node() for ctx in self[self.firstnewrev :]], ) def _handle_bundle2_cg_part(self, bundle, part): assert part.type == b'changegroup' cgstream = part targetphase = part.params.get(b'targetphase') try: targetphase = int(targetphase) except TypeError: pass if targetphase is None: targetphase = phases.draft if targetphase not in phases.allphases: m = _(b'unsupported targetphase: %d') m %= targetphase raise error.Abort(m) version = part.params.get(b'version', b'01') legalcgvers = changegroup.supportedincomingversions(self) if version not in legalcgvers: msg = _(b'Unsupported changegroup version: %s') raise error.Abort(msg % version) if bundle.compressed(): cgstream = self._writetempbundle(part.read, b'.cg%sun' % version) self._cgunpacker = changegroup.getunbundler(version, cgstream, b'UN') self.firstnewrev = self.changelog.repotiprev + 1 phases.retractboundary( self, None, targetphase, [ctx.node() for ctx in self[self.firstnewrev :]], ) def _handle_bundle2_phase_part(self, bundle, part): assert part.type == b'phase-heads' unfi = self.unfiltered() headsbyphase = phases.binarydecode(part) phases.updatephases(unfi, lambda: None, headsbyphase) def _writetempbundle(self, readfn, suffix, header=b''): """Write a temporary file to disk""" fdtemp, temp = self.vfs.mkstemp(prefix=b"hg-bundle-", suffix=suffix) self.tempfile = temp with os.fdopen(fdtemp, 'wb') as fptemp: fptemp.write(header) while True: chunk = readfn(2**18) if not chunk: break fptemp.write(chunk) return self.vfs.open(self.tempfile, mode=b"rb") @localrepo.unfilteredpropertycache def _phasecache(self): return bundlephasecache(self, self._phasedefaults) @localrepo.unfilteredpropertycache def changelog(self): # consume the header if it exists self._cgunpacker.changelogheader() c = bundlechangelog(self.svfs, self._cgunpacker) self.manstart = self._cgunpacker.tell() return c def _refreshchangelog(self): # changelog for bundle repo are not filecache, this method is not # applicable. pass @localrepo.unfilteredpropertycache def manifestlog(self): self._cgunpacker.seek(self.manstart) # consume the header if it exists self._cgunpacker.manifestheader() linkmapper = self.unfiltered().changelog.rev rootstore = bundlemanifest( self.nodeconstants, self.svfs, self._cgunpacker, linkmapper ) self.filestart = self._cgunpacker.tell() return manifest.manifestlog( self.svfs, self, rootstore, self.narrowmatch() ) def _consumemanifest(self): """Consumes the manifest portion of the bundle, setting filestart so the file portion can be read.""" self._cgunpacker.seek(self.manstart) self._cgunpacker.manifestheader() for delta in self._cgunpacker.deltaiter(): pass self.filestart = self._cgunpacker.tell() @localrepo.unfilteredpropertycache def manstart(self): self.changelog return self.manstart @localrepo.unfilteredpropertycache def filestart(self): self.manifestlog # If filestart was not set by self.manifestlog, that means the # manifestlog implementation did not consume the manifests from the # changegroup (ex: it might be consuming trees from a separate bundle2 # part instead). So we need to manually consume it. if 'filestart' not in self.__dict__: self._consumemanifest() return self.filestart def url(self): return self._url def file(self, f): if not self._cgfilespos: self._cgunpacker.seek(self.filestart) self._cgfilespos = _getfilestarts(self._cgunpacker) if f in self._cgfilespos: self._cgunpacker.seek(self._cgfilespos[f]) linkmapper = self.unfiltered().changelog.rev return bundlefilelog(self.svfs, f, self._cgunpacker, linkmapper) else: return super(bundlerepository, self).file(f) def close(self): """Close assigned bundle file immediately.""" self._bundlefile.close() if self.tempfile is not None: self.vfs.unlink(self.tempfile) if self._tempparent: shutil.rmtree(self._tempparent, True) def cancopy(self): return False def peer(self, path=None, remotehidden=False): return bundlepeer(self, path=path, remotehidden=remotehidden) def getcwd(self): return encoding.getcwd() # always outside the repo # Check if parents exist in localrepo before setting def setparents(self, p1, p2=None): if p2 is None: p2 = self.nullid p1rev = self.changelog.rev(p1) p2rev = self.changelog.rev(p2) msg = _(b"setting parent to node %s that only exists in the bundle\n") if self.changelog.repotiprev < p1rev: self.ui.warn(msg % hex(p1)) if self.changelog.repotiprev < p2rev: self.ui.warn(msg % hex(p2)) return super(bundlerepository, self).setparents(p1, p2) def instance(ui, path, create, intents=None, createopts=None): if create: raise error.Abort(_(b'cannot create new bundle repository')) # internal config: bundle.mainreporoot parentpath = ui.config(b"bundle", b"mainreporoot") if not parentpath: # try to find the correct path to the working directory repo parentpath = cmdutil.findrepo(encoding.getcwd()) if parentpath is None: parentpath = b'' if parentpath: # Try to make the full path relative so we get a nice, short URL. # In particular, we don't want temp dir names in test outputs. cwd = encoding.getcwd() if parentpath == cwd: parentpath = b'' else: cwd = pathutil.normasprefix(cwd) if parentpath.startswith(cwd): parentpath = parentpath[len(cwd) :] u = urlutil.url(path) path = u.localpath() if u.scheme == b'bundle': s = path.split(b"+", 1) if len(s) == 1: repopath, bundlename = parentpath, s[0] else: repopath, bundlename = s else: repopath, bundlename = parentpath, path return makebundlerepository(ui, repopath, bundlename) def makebundlerepository(ui, repopath, bundlepath): """Make a bundle repository object based on repo and bundle paths.""" if repopath: url = b'bundle:%s+%s' % (util.expandpath(repopath), bundlepath) else: url = b'bundle:%s' % bundlepath # Because we can't make any guarantees about the type of the base # repository, we can't have a static class representing the bundle # repository. We also can't make any guarantees about how to even # call the base repository's constructor! # # So, our strategy is to go through ``localrepo.instance()`` to construct # a repo instance. Then, we dynamically create a new type derived from # both it and our ``bundlerepository`` class which overrides some # functionality. We then change the type of the constructed repository # to this new type and initialize the bundle-specific bits of it. try: repo = localrepo.instance(ui, repopath, create=False) tempparent = None except error.RequirementError: raise # no fallback if the backing repo is unsupported except error.RepoError: tempparent = pycompat.mkdtemp() try: repo = localrepo.instance(ui, tempparent, create=True) except Exception: shutil.rmtree(tempparent) raise class derivedbundlerepository(bundlerepository, repo.__class__): pass repo.__class__ = derivedbundlerepository bundlerepository.__init__(repo, bundlepath, url, tempparent) return repo class bundletransactionmanager: def transaction(self): return None def close(self): raise NotImplementedError def release(self): raise NotImplementedError def getremotechanges( ui, repo, peer, onlyheads=None, bundlename=None, force=False ): """obtains a bundle of changes incoming from peer "onlyheads" restricts the returned changes to those reachable from the specified heads. "bundlename", if given, stores the bundle to this file path permanently; otherwise it's stored to a temp file and gets deleted again when you call the returned "cleanupfn". "force" indicates whether to proceed on unrelated repos. Returns a tuple (local, csets, cleanupfn): "local" is a local repo from which to obtain the actual incoming changesets; it is a bundlerepo for the obtained bundle when the original "peer" is remote. "csets" lists the incoming changeset node ids. "cleanupfn" must be called without arguments when you're done processing the changes; it closes both the original "peer" and the one returned here. """ tmp = discovery.findcommonincoming(repo, peer, heads=onlyheads, force=force) common, incoming, rheads = tmp if not incoming: try: if bundlename: os.unlink(bundlename) except OSError: pass return repo, [], peer.close commonset = set(common) rheads = [x for x in rheads if x not in commonset] bundle = None bundlerepo = None localrepo = peer.local() if bundlename or not localrepo: # create a bundle (uncompressed if peer repo is not local) # developer config: devel.legacy.exchange legexc = ui.configlist(b'devel', b'legacy.exchange') forcebundle1 = b'bundle2' not in legexc and b'bundle1' in legexc canbundle2 = ( not forcebundle1 and peer.capable(b'getbundle') and peer.capable(b'bundle2') ) if canbundle2: with peer.commandexecutor() as e: b2 = e.callcommand( b'getbundle', { b'source': b'incoming', b'common': common, b'heads': rheads, b'bundlecaps': exchange.caps20to10( repo, role=b'client' ), b'cg': True, }, ).result() fname = bundle = changegroup.writechunks( ui, b2._forwardchunks(), bundlename ) else: if peer.capable(b'getbundle'): with peer.commandexecutor() as e: cg = e.callcommand( b'getbundle', { b'source': b'incoming', b'common': common, b'heads': rheads, }, ).result() elif onlyheads is None and not peer.capable(b'changegroupsubset'): # compat with older servers when pulling all remote heads with peer.commandexecutor() as e: cg = e.callcommand( b'changegroup', { b'nodes': incoming, b'source': b'incoming', }, ).result() rheads = None else: with peer.commandexecutor() as e: cg = e.callcommand( b'changegroupsubset', { b'bases': incoming, b'heads': rheads, b'source': b'incoming', }, ).result() if localrepo: bundletype = b"HG10BZ" else: bundletype = b"HG10UN" fname = bundle = bundle2.writebundle(ui, cg, bundlename, bundletype) # keep written bundle? if bundlename: bundle = None if not localrepo: # use the created uncompressed bundlerepo localrepo = bundlerepo = makebundlerepository( repo.baseui, repo.root, fname ) # this repo contains local and peer now, so filter out local again common = repo.heads() if localrepo: # Part of common may be remotely filtered # So use an unfiltered version # The discovery process probably need cleanup to avoid that localrepo = localrepo.unfiltered() csets = localrepo.changelog.findmissing(common, rheads) if bundlerepo: reponodes = [ctx.node() for ctx in bundlerepo[bundlerepo.firstnewrev :]] with peer.commandexecutor() as e: remotephases = e.callcommand( b'listkeys', { b'namespace': b'phases', }, ).result() pullop = exchange.pulloperation( bundlerepo, peer, path=None, heads=reponodes ) pullop.trmanager = bundletransactionmanager() exchange._pullapplyphases(pullop, remotephases) def cleanup(): if bundlerepo: bundlerepo.close() if bundle: os.unlink(bundle) peer.close() return (localrepo, csets, cleanup)