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# setdiscovery.py - improved discovery of common nodeset for mercurial
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#
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# Copyright 2010 Benoit Boissinot <bboissin@gmail.com>
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# and Peter Arrenbrecht <peter@arrenbrecht.ch>
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#
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# This software may be used and distributed according to the terms of the
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# GNU General Public License version 2 or any later version.
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"""
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Algorithm works in the following way. You have two repository: local and
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remote. They both contains a DAG of changelists.
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The goal of the discovery protocol is to find one set of node *common*,
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the set of nodes shared by local and remote.
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One of the issue with the original protocol was latency, it could
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potentially require lots of roundtrips to discover that the local repo was a
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subset of remote (which is a very common case, you usually have few changes
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compared to upstream, while upstream probably had lots of development).
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The new protocol only requires one interface for the remote repo: `known()`,
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which given a set of changelists tells you if they are present in the DAG.
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The algorithm then works as follow:
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- We will be using three sets, `common`, `missing`, `unknown`. Originally
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all nodes are in `unknown`.
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- Take a sample from `unknown`, call `remote.known(sample)`
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- For each node that remote knows, move it and all its ancestors to `common`
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- For each node that remote doesn't know, move it and all its descendants
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to `missing`
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- Iterate until `unknown` is empty
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There are a couple optimizations, first is instead of starting with a random
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sample of missing, start by sending all heads, in the case where the local
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repo is a subset, you computed the answer in one round trip.
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Then you can do something similar to the bisecting strategy used when
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finding faulty changesets. Instead of random samples, you can try picking
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nodes that will maximize the number of nodes that will be
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classified with it (since all ancestors or descendants will be marked as well).
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"""
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from __future__ import absolute_import
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import collections
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import random
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from .i18n import _
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from .node import (
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nullid,
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nullrev,
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)
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from . import (
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error,
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util,
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)
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def _updatesample(revs, heads, sample, parentfn, quicksamplesize=0):
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"""update an existing sample to match the expected size
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The sample is updated with revs exponentially distant from each head of the
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<revs> set. (H~1, H~2, H~4, H~8, etc).
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If a target size is specified, the sampling will stop once this size is
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reached. Otherwise sampling will happen until roots of the <revs> set are
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reached.
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:revs: set of revs we want to discover (if None, assume the whole dag)
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:heads: set of DAG head revs
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:sample: a sample to update
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:parentfn: a callable to resolve parents for a revision
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:quicksamplesize: optional target size of the sample"""
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dist = {}
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visit = collections.deque(heads)
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seen = set()
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factor = 1
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while visit:
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curr = visit.popleft()
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if curr in seen:
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continue
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d = dist.setdefault(curr, 1)
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if d > factor:
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factor *= 2
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if d == factor:
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sample.add(curr)
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if quicksamplesize and (len(sample) >= quicksamplesize):
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return
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seen.add(curr)
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for p in parentfn(curr):
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if p != nullrev and (not revs or p in revs):
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dist.setdefault(p, d + 1)
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visit.append(p)
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def _limitsample(sample, desiredlen):
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"""return a random subset of sample of at most desiredlen item"""
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if len(sample) > desiredlen:
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sample = set(random.sample(sample, desiredlen))
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return sample
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class partialdiscovery(object):
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"""an object representing ongoing discovery
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Feed with data from the remote repository, this object keep track of the
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current set of changeset in various states:
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- common: revs also known remotely
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- undecided: revs we don't have information on yet
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- missing: revs missing remotely
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(all tracked revisions are known locally)
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"""
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def __init__(self, repo, targetheads, respectsize):
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self._repo = repo
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self._targetheads = targetheads
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self._common = repo.changelog.incrementalmissingrevs()
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self._undecided = None
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self.missing = set()
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self._childrenmap = None
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self._respectsize = respectsize
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def addcommons(self, commons):
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"""register nodes known as common"""
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self._common.addbases(commons)
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if self._undecided is not None:
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self._common.removeancestorsfrom(self._undecided)
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def addmissings(self, missings):
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"""register some nodes as missing"""
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newmissing = self._repo.revs('%ld::%ld', missings, self.undecided)
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if newmissing:
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self.missing.update(newmissing)
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self.undecided.difference_update(newmissing)
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def addinfo(self, sample):
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"""consume an iterable of (rev, known) tuples"""
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common = set()
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missing = set()
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for rev, known in sample:
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if known:
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common.add(rev)
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else:
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missing.add(rev)
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if common:
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self.addcommons(common)
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if missing:
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self.addmissings(missing)
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def hasinfo(self):
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"""return True is we have any clue about the remote state"""
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return self._common.hasbases()
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def iscomplete(self):
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"""True if all the necessary data have been gathered"""
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return self._undecided is not None and not self._undecided
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@property
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def undecided(self):
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if self._undecided is not None:
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return self._undecided
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self._undecided = set(self._common.missingancestors(self._targetheads))
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return self._undecided
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def stats(self):
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return {
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'undecided': len(self.undecided),
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}
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def commonheads(self):
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"""the heads of the known common set"""
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# heads(common) == heads(common.bases) since common represents
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# common.bases and all its ancestors
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return self._common.basesheads()
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def _parentsgetter(self):
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getrev = self._repo.changelog.index.__getitem__
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def getparents(r):
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return getrev(r)[5:7]
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return getparents
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def _childrengetter(self):
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if self._childrenmap is not None:
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# During discovery, the `undecided` set keep shrinking.
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# Therefore, the map computed for an iteration N will be
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# valid for iteration N+1. Instead of computing the same
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# data over and over we cached it the first time.
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return self._childrenmap.__getitem__
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# _updatesample() essentially does interaction over revisions to look
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# up their children. This lookup is expensive and doing it in a loop is
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# quadratic. We precompute the children for all relevant revisions and
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# make the lookup in _updatesample() a simple dict lookup.
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self._childrenmap = children = {}
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parentrevs = self._parentsgetter()
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revs = self.undecided
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for rev in sorted(revs):
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# Always ensure revision has an entry so we don't need to worry
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# about missing keys.
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children[rev] = []
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for prev in parentrevs(rev):
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if prev == nullrev:
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continue
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c = children.get(prev)
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if c is not None:
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c.append(rev)
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return children.__getitem__
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def takequicksample(self, headrevs, size):
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"""takes a quick sample of size <size>
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It is meant for initial sampling and focuses on querying heads and close
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ancestors of heads.
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:headrevs: set of head revisions in local DAG to consider
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:size: the maximum size of the sample"""
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revs = self.undecided
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if len(revs) <= size:
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return list(revs)
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sample = set(self._repo.revs('heads(%ld)', revs))
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if len(sample) >= size:
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return _limitsample(sample, size)
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_updatesample(None, headrevs, sample, self._parentsgetter(),
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quicksamplesize=size)
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return sample
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def takefullsample(self, headrevs, size):
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revs = self.undecided
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if len(revs) <= size:
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return list(revs)
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repo = self._repo
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sample = set(repo.revs('heads(%ld)', revs))
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parentrevs = self._parentsgetter()
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# update from heads
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revsheads = sample.copy()
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_updatesample(revs, revsheads, sample, parentrevs)
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# update from roots
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revsroots = set(repo.revs('roots(%ld)', revs))
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if not self._respectsize:
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size = max(size, len(revsroots))
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childrenrevs = self._childrengetter()
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_updatesample(revs, revsroots, sample, childrenrevs)
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assert sample
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sample = _limitsample(sample, size)
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if len(sample) < size:
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more = size - len(sample)
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sample.update(random.sample(list(revs - sample), more))
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return sample
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def findcommonheads(ui, local, remote,
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initialsamplesize=100,
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fullsamplesize=200,
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abortwhenunrelated=True,
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ancestorsof=None,
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samplegrowth=1.05):
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'''Return a tuple (common, anyincoming, remoteheads) used to identify
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missing nodes from or in remote.
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'''
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start = util.timer()
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roundtrips = 0
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cl = local.changelog
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clnode = cl.node
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clrev = cl.rev
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if ancestorsof is not None:
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ownheads = [clrev(n) for n in ancestorsof]
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else:
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ownheads = [rev for rev in cl.headrevs() if rev != nullrev]
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# early exit if we know all the specified remote heads already
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ui.debug("query 1; heads\n")
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roundtrips += 1
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# We also ask remote about all the local heads. That set can be arbitrarily
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# large, so we used to limit it size to `initialsamplesize`. We no longer
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# do as it proved counter productive. The skipped heads could lead to a
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# large "undecided" set, slower to be clarified than if we asked the
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# question for all heads right away.
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#
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# We are already fetching all server heads using the `heads` commands,
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# sending a equivalent number of heads the other way should not have a
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# significant impact. In addition, it is very likely that we are going to
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# have to issue "known" request for an equivalent amount of revisions in
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# order to decide if theses heads are common or missing.
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#
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# find a detailled analysis below.
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#
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# Case A: local and server both has few heads
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#
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# Ownheads is below initialsamplesize, limit would not have any effect.
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#
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# Case B: local has few heads and server has many
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#
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# Ownheads is below initialsamplesize, limit would not have any effect.
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#
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# Case C: local and server both has many heads
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#
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# We now transfert some more data, but not significantly more than is
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# already transfered to carry the server heads.
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#
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# Case D: local has many heads, server has few
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#
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# D.1 local heads are mostly known remotely
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#
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# All the known head will have be part of a `known` request at some
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# point for the discovery to finish. Sending them all earlier is
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# actually helping.
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#
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# (This case is fairly unlikely, it requires the numerous heads to all
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# be merged server side in only a few heads)
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#
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# D.2 local heads are mostly missing remotely
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#
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# To determine that the heads are missing, we'll have to issue `known`
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# request for them or one of their ancestors. This amount of `known`
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# request will likely be in the same order of magnitude than the amount
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# of local heads.
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#
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# The only case where we can be more efficient using `known` request on
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# ancestors are case were all the "missing" local heads are based on a
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# few changeset, also "missing". This means we would have a "complex"
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# graph (with many heads) attached to, but very independant to a the
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# "simple" graph on the server. This is a fairly usual case and have
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# not been met in the wild so far.
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if remote.limitedarguments:
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sample = _limitsample(ownheads, initialsamplesize)
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# indices between sample and externalized version must match
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sample = list(sample)
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else:
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sample = ownheads
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with remote.commandexecutor() as e:
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fheads = e.callcommand('heads', {})
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fknown = e.callcommand('known', {
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'nodes': [clnode(r) for r in sample],
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})
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srvheadhashes, yesno = fheads.result(), fknown.result()
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if cl.tip() == nullid:
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if srvheadhashes != [nullid]:
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return [nullid], True, srvheadhashes
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return [nullid], False, []
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# start actual discovery (we note this before the next "if" for
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# compatibility reasons)
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ui.status(_("searching for changes\n"))
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knownsrvheads = [] # revnos of remote heads that are known locally
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for node in srvheadhashes:
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if node == nullid:
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continue
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try:
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knownsrvheads.append(clrev(node))
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# Catches unknown and filtered nodes.
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except error.LookupError:
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continue
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if len(knownsrvheads) == len(srvheadhashes):
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ui.debug("all remote heads known locally\n")
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return srvheadhashes, False, srvheadhashes
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if len(sample) == len(ownheads) and all(yesno):
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ui.note(_("all local heads known remotely\n"))
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ownheadhashes = [clnode(r) for r in ownheads]
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return ownheadhashes, True, srvheadhashes
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# full blown discovery
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disco = partialdiscovery(local, ownheads, remote.limitedarguments)
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# treat remote heads (and maybe own heads) as a first implicit sample
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# response
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disco.addcommons(knownsrvheads)
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disco.addinfo(zip(sample, yesno))
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full = False
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progress = ui.makeprogress(_('searching'), unit=_('queries'))
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while not disco.iscomplete():
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if full or disco.hasinfo():
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if full:
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ui.note(_("sampling from both directions\n"))
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else:
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ui.debug("taking initial sample\n")
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samplefunc = disco.takefullsample
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targetsize = fullsamplesize
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if not remote.limitedarguments:
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fullsamplesize = int(fullsamplesize * samplegrowth)
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else:
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# use even cheaper initial sample
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ui.debug("taking quick initial sample\n")
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samplefunc = disco.takequicksample
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targetsize = initialsamplesize
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sample = samplefunc(ownheads, targetsize)
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roundtrips += 1
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progress.update(roundtrips)
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stats = disco.stats()
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ui.debug("query %i; still undecided: %i, sample size is: %i\n"
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% (roundtrips, stats['undecided'], len(sample)))
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# indices between sample and externalized version must match
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sample = list(sample)
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with remote.commandexecutor() as e:
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yesno = e.callcommand('known', {
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'nodes': [clnode(r) for r in sample],
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}).result()
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full = True
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disco.addinfo(zip(sample, yesno))
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result = disco.commonheads()
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elapsed = util.timer() - start
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progress.complete()
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ui.debug("%d total queries in %.4fs\n" % (roundtrips, elapsed))
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msg = ('found %d common and %d unknown server heads,'
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' %d roundtrips in %.4fs\n')
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missing = set(result) - set(knownsrvheads)
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ui.log('discovery', msg, len(result), len(missing), roundtrips,
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elapsed)
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if not result and srvheadhashes != [nullid]:
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if abortwhenunrelated:
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raise error.Abort(_("repository is unrelated"))
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else:
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ui.warn(_("warning: repository is unrelated\n"))
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return ({nullid}, True, srvheadhashes,)
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anyincoming = (srvheadhashes != [nullid])
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result = {clnode(r) for r in result}
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return result, anyincoming, srvheadhashes
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