Mercurial > hg
view mercurial/exchangev2.py @ 40042:208303a8172c
obsolete: explicitly track folds inside the markers
We now record information to be able to recognize "fold" event from
obsolescence markers. To do so, we track the following pieces of information:
a) a fold ID. Unique to that fold (per successor),
b) the number of predecessors,
c) the index of the predecessor in that fold.
We will now be able to create an algorithm able to find "predecessorssets".
We now store this data in the generic "metadata" field of the markers.
Updating the format to have a more compact storage for this would be useful.
This way of tracking a fold through multiple markers could be applied to split
too. This would have two advantages:
1) We get a simpler format, since number of successors is limited to [0-1].
2) We can better deal with situations where only some of the split successors
are pushed to a remote repository.
We should look into the relevance of such a change before updating the on-disk
format.
note: unlike splits, folds do not have to deal with cases where only some of
the markers have been synchronized. As they all share the same successor
changesets, they are all relevant to the same nodes.
| author | Boris Feld <boris.feld@octobus.net> |
|---|---|
| date | Wed, 26 Sep 2018 23:50:14 +0200 |
| parents | 7a347d362a45 |
| children | b797150a1ab9 |
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# exchangev2.py - repository exchange for wire protocol version 2 # # Copyright 2018 Gregory Szorc <gregory.szorc@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. from __future__ import absolute_import import collections import weakref from .i18n import _ from .node import ( nullid, short, ) from . import ( bookmarks, error, mdiff, phases, pycompat, setdiscovery, ) def pull(pullop): """Pull using wire protocol version 2.""" repo = pullop.repo remote = pullop.remote tr = pullop.trmanager.transaction() # Figure out what needs to be fetched. common, fetch, remoteheads = _pullchangesetdiscovery( repo, remote, pullop.heads, abortwhenunrelated=pullop.force) # And fetch the data. pullheads = pullop.heads or remoteheads csetres = _fetchchangesets(repo, tr, remote, common, fetch, pullheads) # New revisions are written to the changelog. But all other updates # are deferred. Do those now. # Ensure all new changesets are draft by default. If the repo is # publishing, the phase will be adjusted by the loop below. if csetres['added']: phases.registernew(repo, tr, phases.draft, csetres['added']) # And adjust the phase of all changesets accordingly. for phase in phases.phasenames: if phase == b'secret' or not csetres['nodesbyphase'][phase]: continue phases.advanceboundary(repo, tr, phases.phasenames.index(phase), csetres['nodesbyphase'][phase]) # Write bookmark updates. bookmarks.updatefromremote(repo.ui, repo, csetres['bookmarks'], remote.url(), pullop.gettransaction, explicit=pullop.explicitbookmarks) manres = _fetchmanifests(repo, tr, remote, csetres['manifestnodes']) # Find all file nodes referenced by added manifests and fetch those # revisions. fnodes = _derivefilesfrommanifests(repo, manres['added']) _fetchfiles(repo, tr, remote, fnodes, manres['linkrevs']) def _pullchangesetdiscovery(repo, remote, heads, abortwhenunrelated=True): """Determine which changesets need to be pulled.""" if heads: knownnode = repo.changelog.hasnode if all(knownnode(head) for head in heads): return heads, False, heads # TODO wire protocol version 2 is capable of more efficient discovery # than setdiscovery. Consider implementing something better. common, fetch, remoteheads = setdiscovery.findcommonheads( repo.ui, repo, remote, abortwhenunrelated=abortwhenunrelated) common = set(common) remoteheads = set(remoteheads) # If a remote head is filtered locally, put it back in the common set. # See the comment in exchange._pulldiscoverychangegroup() for more. if fetch and remoteheads: nodemap = repo.unfiltered().changelog.nodemap common |= {head for head in remoteheads if head in nodemap} if set(remoteheads).issubset(common): fetch = [] common.discard(nullid) return common, fetch, remoteheads def _fetchchangesets(repo, tr, remote, common, fetch, remoteheads): # TODO consider adding a step here where we obtain the DAG shape first # (or ask the server to slice changesets into chunks for us) so that # we can perform multiple fetches in batches. This will facilitate # resuming interrupted clones, higher server-side cache hit rates due # to smaller segments, etc. with remote.commandexecutor() as e: objs = e.callcommand(b'changesetdata', { b'noderange': [sorted(common), sorted(remoteheads)], b'fields': {b'bookmarks', b'parents', b'phase', b'revision'}, }).result() # The context manager waits on all response data when exiting. So # we need to remain in the context manager in order to stream data. return _processchangesetdata(repo, tr, objs) def _processchangesetdata(repo, tr, objs): repo.hook('prechangegroup', throw=True, **pycompat.strkwargs(tr.hookargs)) urepo = repo.unfiltered() cl = urepo.changelog cl.delayupdate(tr) # The first emitted object is a header describing the data that # follows. meta = next(objs) progress = repo.ui.makeprogress(_('changesets'), unit=_('chunks'), total=meta.get(b'totalitems')) manifestnodes = {} def linkrev(node): repo.ui.debug('add changeset %s\n' % short(node)) # Linkrev for changelog is always self. return len(cl) def onchangeset(cl, node): progress.increment() revision = cl.changelogrevision(node) # We need to preserve the mapping of changelog revision to node # so we can set the linkrev accordingly when manifests are added. manifestnodes[cl.rev(node)] = revision.manifest nodesbyphase = {phase: set() for phase in phases.phasenames} remotebookmarks = {} # addgroup() expects a 7-tuple describing revisions. This normalizes # the wire data to that format. # # This loop also aggregates non-revision metadata, such as phase # data. def iterrevisions(): for cset in objs: node = cset[b'node'] if b'phase' in cset: nodesbyphase[cset[b'phase']].add(node) for mark in cset.get(b'bookmarks', []): remotebookmarks[mark] = node # TODO add mechanism for extensions to examine records so they # can siphon off custom data fields. extrafields = {} for field, size in cset.get(b'fieldsfollowing', []): extrafields[field] = next(objs) # Some entries might only be metadata only updates. if b'revision' not in extrafields: continue data = extrafields[b'revision'] yield ( node, cset[b'parents'][0], cset[b'parents'][1], # Linknode is always itself for changesets. cset[b'node'], # We always send full revisions. So delta base is not set. nullid, mdiff.trivialdiffheader(len(data)) + data, # Flags not yet supported. 0, ) added = cl.addgroup(iterrevisions(), linkrev, weakref.proxy(tr), addrevisioncb=onchangeset) progress.complete() return { 'added': added, 'nodesbyphase': nodesbyphase, 'bookmarks': remotebookmarks, 'manifestnodes': manifestnodes, } def _fetchmanifests(repo, tr, remote, manifestnodes): rootmanifest = repo.manifestlog.getstorage(b'') # Some manifests can be shared between changesets. Filter out revisions # we already know about. fetchnodes = [] linkrevs = {} seen = set() for clrev, node in sorted(manifestnodes.iteritems()): if node in seen: continue try: rootmanifest.rev(node) except error.LookupError: fetchnodes.append(node) linkrevs[node] = clrev seen.add(node) # TODO handle tree manifests # addgroup() expects 7-tuple describing revisions. This normalizes # the wire data to that format. def iterrevisions(objs, progress): for manifest in objs: node = manifest[b'node'] extrafields = {} for field, size in manifest.get(b'fieldsfollowing', []): extrafields[field] = next(objs) if b'delta' in extrafields: basenode = manifest[b'deltabasenode'] delta = extrafields[b'delta'] elif b'revision' in extrafields: basenode = nullid revision = extrafields[b'revision'] delta = mdiff.trivialdiffheader(len(revision)) + revision else: continue yield ( node, manifest[b'parents'][0], manifest[b'parents'][1], # The value passed in is passed to the lookup function passed # to addgroup(). We already have a map of manifest node to # changelog revision number. So we just pass in the # manifest node here and use linkrevs.__getitem__ as the # resolution function. node, basenode, delta, # Flags not yet supported. 0 ) progress.increment() progress = repo.ui.makeprogress(_('manifests'), unit=_('chunks'), total=len(fetchnodes)) # Fetch manifests 10,000 per command. # TODO have server advertise preferences? # TODO make size configurable on client? batchsize = 10000 # We send commands 1 at a time to the remote. This is not the most # efficient because we incur a round trip at the end of each batch. # However, the existing frame-based reactor keeps consuming server # data in the background. And this results in response data buffering # in memory. This can consume gigabytes of memory. # TODO send multiple commands in a request once background buffering # issues are resolved. added = [] for i in pycompat.xrange(0, len(fetchnodes), batchsize): batch = [node for node in fetchnodes[i:i + batchsize]] if not batch: continue with remote.commandexecutor() as e: objs = e.callcommand(b'manifestdata', { b'tree': b'', b'nodes': batch, b'fields': {b'parents', b'revision'}, b'haveparents': True, }).result() # Chomp off header object. next(objs) added.extend(rootmanifest.addgroup( iterrevisions(objs, progress), linkrevs.__getitem__, weakref.proxy(tr))) progress.complete() return { 'added': added, 'linkrevs': linkrevs, } def _derivefilesfrommanifests(repo, manifestnodes): """Determine what file nodes are relevant given a set of manifest nodes. Returns a dict mapping file paths to dicts of file node to first manifest node. """ ml = repo.manifestlog fnodes = collections.defaultdict(dict) progress = repo.ui.makeprogress( _('scanning manifests'), total=len(manifestnodes)) with progress: for manifestnode in manifestnodes: m = ml.get(b'', manifestnode) # TODO this will pull in unwanted nodes because it takes the storage # delta into consideration. What we really want is something that # takes the delta between the manifest's parents. And ideally we # would ignore file nodes that are known locally. For now, ignore # both these limitations. This will result in incremental fetches # requesting data we already have. So this is far from ideal. md = m.readfast() for path, fnode in md.items(): fnodes[path].setdefault(fnode, manifestnode) progress.increment() return fnodes def _fetchfiles(repo, tr, remote, fnodes, linkrevs): def iterrevisions(objs, progress): for filerevision in objs: node = filerevision[b'node'] extrafields = {} for field, size in filerevision.get(b'fieldsfollowing', []): extrafields[field] = next(objs) if b'delta' in extrafields: basenode = filerevision[b'deltabasenode'] delta = extrafields[b'delta'] elif b'revision' in extrafields: basenode = nullid revision = extrafields[b'revision'] delta = mdiff.trivialdiffheader(len(revision)) + revision else: continue yield ( node, filerevision[b'parents'][0], filerevision[b'parents'][1], node, basenode, delta, # Flags not yet supported. 0, ) progress.increment() progress = repo.ui.makeprogress( _('files'), unit=_('chunks'), total=sum(len(v) for v in fnodes.itervalues())) # TODO make batch size configurable batchsize = 10000 fnodeslist = [x for x in sorted(fnodes.items())] for i in pycompat.xrange(0, len(fnodeslist), batchsize): batch = [x for x in fnodeslist[i:i + batchsize]] if not batch: continue with remote.commandexecutor() as e: fs = [] locallinkrevs = {} for path, nodes in batch: fs.append((path, e.callcommand(b'filedata', { b'path': path, b'nodes': sorted(nodes), b'fields': {b'parents', b'revision'}, b'haveparents': True, }))) locallinkrevs[path] = { node: linkrevs[manifestnode] for node, manifestnode in nodes.iteritems()} for path, f in fs: objs = f.result() # Chomp off header objects. next(objs) store = repo.file(path) store.addgroup( iterrevisions(objs, progress), locallinkrevs[path].__getitem__, weakref.proxy(tr))