Mercurial > hg
view mercurial/phases.py @ 52148:1dbbb957bbe6 stable
run-tests: add a --hg-wheel options to test a pre-built wheel
This will be useful to test the wheel we intend to publish.
A future changeset will integrate this in the CI.
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
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date | Sun, 27 Oct 2024 08:54:48 +0100 |
parents | f4733654f144 |
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""" Mercurial phases support code --- Copyright 2011 Pierre-Yves David <pierre-yves.david@ens-lyon.org> Logilab SA <contact@logilab.fr> Augie Fackler <durin42@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. --- This module implements most phase logic in mercurial. Basic Concept ============= A 'changeset phase' is an indicator that tells us how a changeset is manipulated and communicated. The details of each phase is described below, here we describe the properties they have in common. Like bookmarks, phases are not stored in history and thus are not permanent and leave no audit trail. First, no changeset can be in two phases at once. Phases are ordered, so they can be considered from lowest to highest. The default, lowest phase is 'public' - this is the normal phase of existing changesets. A child changeset can not be in a lower phase than its parents. These phases share a hierarchy of traits: immutable shared public: X X draft: X secret: Local commits are draft by default. Phase Movement and Exchange =========================== Phase data is exchanged by pushkey on pull and push. Some servers have a publish option set, we call such a server a "publishing server". Pushing a draft changeset to a publishing server changes the phase to public. A small list of fact/rules define the exchange of phase: * old client never changes server states * pull never changes server states * publish and old server changesets are seen as public by client * any secret changeset seen in another repository is lowered to at least draft Here is the final table summing up the 49 possible use cases of phase exchange: server old publish non-publish N X N D P N D P old client pull N - X/X - X/D X/P - X/D X/P X - X/X - X/D X/P - X/D X/P push X X/X X/X X/P X/P X/P X/D X/D X/P new client pull N - P/X - P/D P/P - D/D P/P D - P/X - P/D P/P - D/D P/P P - P/X - P/D P/P - P/D P/P push D P/X P/X P/P P/P P/P D/D D/D P/P P P/X P/X P/P P/P P/P P/P P/P P/P Legend: A/B = final state on client / state on server * N = new/not present, * P = public, * D = draft, * X = not tracked (i.e., the old client or server has no internal way of recording the phase.) passive = only pushes A cell here can be read like this: "When a new client pushes a draft changeset (D) to a publishing server where it's not present (N), it's marked public on both sides (P/P)." Note: old client behave as a publishing server with draft only content - other people see it as public - content is pushed as draft """ from __future__ import annotations import heapq import struct import typing import weakref from typing import ( Any, Callable, Collection, Dict, Iterable, List, Optional, Set, Tuple, overload, ) from .i18n import _ from .node import ( bin, hex, nullrev, short, wdirrev, ) from . import ( error, requirements, smartset, txnutil, util, ) Phaseroots = Dict[int, Set[int]] PhaseSets = Dict[int, Set[int]] if typing.TYPE_CHECKING: from typing_extensions import ( Literal, # py3.8+ ) from . import ( localrepo, ui as uimod, ) # keeps pyflakes happy assert [uimod] Phasedefaults = List[ Callable[[localrepo.localrepository, Phaseroots], Phaseroots] ] _fphasesentry = struct.Struct(b'>i20s') # record phase index public: int = 0 draft: int = 1 secret: int = 2 archived = 32 # non-continuous for compatibility internal = 96 # non-continuous for compatibility allphases = (public, draft, secret, archived, internal) trackedphases = (draft, secret, archived, internal) not_public_phases = trackedphases # record phase names cmdphasenames = [b'public', b'draft', b'secret'] # known to `hg phase` command phasenames = dict(enumerate(cmdphasenames)) phasenames[archived] = b'archived' phasenames[internal] = b'internal' # map phase name to phase number phasenumber = {name: phase for phase, name in phasenames.items()} # like phasenumber, but also include maps for the numeric and binary # phase number to the phase number phasenumber2 = phasenumber.copy() phasenumber2.update({phase: phase for phase in phasenames}) phasenumber2.update({b'%i' % phase: phase for phase in phasenames}) # record phase property mutablephases = (draft, secret, archived, internal) relevant_mutable_phases = (draft, secret) # could be obsolete or unstable remotehiddenphases = (secret, archived, internal) localhiddenphases = (internal, archived) all_internal_phases = tuple(p for p in allphases if p & internal) # We do not want any internal content to exit the repository, ever. no_bundle_phases = all_internal_phases def supportinternal(repo: "localrepo.localrepository") -> bool: """True if the internal phase can be used on a repository""" return requirements.INTERNAL_PHASE_REQUIREMENT in repo.requirements def supportarchived(repo: "localrepo.localrepository") -> bool: """True if the archived phase can be used on a repository""" return requirements.ARCHIVED_PHASE_REQUIREMENT in repo.requirements def _readroots( repo: "localrepo.localrepository", phasedefaults: Optional["Phasedefaults"] = None, ) -> Tuple[Phaseroots, bool]: """Read phase roots from disk phasedefaults is a list of fn(repo, roots) callable, which are executed if the phase roots file does not exist. When phases are being initialized on an existing repository, this could be used to set selected changesets phase to something else than public. Return (roots, dirty) where dirty is true if roots differ from what is being stored. """ repo = repo.unfiltered() dirty = False roots = {i: set() for i in allphases} to_rev = repo.changelog.index.get_rev unknown_msg = b'removing unknown node %s from %i-phase boundary\n' try: f, pending = txnutil.trypending(repo.root, repo.svfs, b'phaseroots') try: for line in f: str_phase, hex_node = line.split() phase = int(str_phase) node = bin(hex_node) rev = to_rev(node) if rev is None: repo.ui.debug(unknown_msg % (short(hex_node), phase)) dirty = True else: roots[phase].add(rev) finally: f.close() except FileNotFoundError: if phasedefaults: for f in phasedefaults: roots = f(repo, roots) dirty = True return roots, dirty def binaryencode(phasemapping: Dict[int, List[bytes]]) -> bytes: """encode a 'phase -> nodes' mapping into a binary stream The revision lists are encoded as (phase, root) pairs. """ binarydata = [] for phase, nodes in phasemapping.items(): for head in nodes: binarydata.append(_fphasesentry.pack(phase, head)) return b''.join(binarydata) def binarydecode(stream) -> Dict[int, List[bytes]]: """decode a binary stream into a 'phase -> nodes' mapping The (phase, root) pairs are turned back into a dictionary with the phase as index and the aggregated roots of that phase as value.""" headsbyphase = {i: [] for i in allphases} entrysize = _fphasesentry.size while True: entry = stream.read(entrysize) if len(entry) < entrysize: if entry: raise error.Abort(_(b'bad phase-heads stream')) break phase, node = _fphasesentry.unpack(entry) headsbyphase[phase].append(node) return headsbyphase def _sortedrange_insert(data, idx, rev, t): merge_before = False if idx: r1, t1 = data[idx - 1] merge_before = r1[-1] + 1 == rev and t1 == t merge_after = False if idx < len(data): r2, t2 = data[idx] merge_after = r2[0] == rev + 1 and t2 == t if merge_before and merge_after: data[idx - 1] = (range(r1[0], r2[-1] + 1), t) data.pop(idx) elif merge_before: data[idx - 1] = (range(r1[0], rev + 1), t) elif merge_after: data[idx] = (range(rev, r2[-1] + 1), t) else: data.insert(idx, (range(rev, rev + 1), t)) def _sortedrange_split(data, idx, rev, t): r1, t1 = data[idx] if t == t1: return t = (t1[0], t[1]) if len(r1) == 1: data.pop(idx) _sortedrange_insert(data, idx, rev, t) elif r1[0] == rev: data[idx] = (range(rev + 1, r1[-1] + 1), t1) _sortedrange_insert(data, idx, rev, t) elif r1[-1] == rev: data[idx] = (range(r1[0], rev), t1) _sortedrange_insert(data, idx + 1, rev, t) else: data[idx : idx + 1] = [ (range(r1[0], rev), t1), (range(rev, rev + 1), t), (range(rev + 1, r1[-1] + 1), t1), ] def _trackphasechange(data, rev, old, new): """add a phase move to the <data> list of ranges If data is None, nothing happens. """ if data is None: return # If data is empty, create a one-revision range and done if not data: data.insert(0, (range(rev, rev + 1), (old, new))) return low = 0 high = len(data) t = (old, new) while low < high: mid = (low + high) // 2 revs = data[mid][0] revs_low = revs[0] revs_high = revs[-1] if rev >= revs_low and rev <= revs_high: _sortedrange_split(data, mid, rev, t) return if revs_low == rev + 1: if mid and data[mid - 1][0][-1] == rev: _sortedrange_split(data, mid - 1, rev, t) else: _sortedrange_insert(data, mid, rev, t) return if revs_high == rev - 1: if mid + 1 < len(data) and data[mid + 1][0][0] == rev: _sortedrange_split(data, mid + 1, rev, t) else: _sortedrange_insert(data, mid + 1, rev, t) return if revs_low > rev: high = mid else: low = mid + 1 if low == len(data): data.append((range(rev, rev + 1), t)) return r1, t1 = data[low] if r1[0] > rev: data.insert(low, (range(rev, rev + 1), t)) else: data.insert(low + 1, (range(rev, rev + 1), t)) # consider incrementaly updating the phase set the update set is not bigger # than this size # # Be warned, this number is picked arbitrarily, without any benchmark. It # should blindly pickup "small update" INCREMENTAL_PHASE_SETS_UPDATE_MAX_UPDATE = 100 class phasecache: if typing.TYPE_CHECKING: @overload def __init__( self, repo: Any, phasedefaults: Any, _load: Literal[False], ) -> None: pass @overload def __init__( self, repo: "localrepo.localrepository", phasedefaults: Optional["Phasedefaults"], _load: bool = True, ) -> None: pass def __init__( self, repo, phasedefaults, _load=True, ): if _load: # Cheap trick to allow shallow-copy without copy module loaded = _readroots(repo, phasedefaults) self._phaseroots: Phaseroots = loaded[0] self.dirty: bool = loaded[1] self._loadedrevslen = 0 self._phasesets: Optional[PhaseSets] = None def hasnonpublicphases(self, repo: "localrepo.localrepository") -> bool: """detect if there are revisions with non-public phase""" # XXX deprecate the unused repo argument return any( revs for phase, revs in self._phaseroots.items() if phase != public ) def nonpublicphaseroots( self, repo: "localrepo.localrepository" ) -> Set[int]: """returns the roots of all non-public phases The roots are not minimized, so if the secret revisions are descendants of draft revisions, their roots will still be present. """ repo = repo.unfiltered() self._ensure_phase_sets(repo) return set().union( *[ revs for phase, revs in self._phaseroots.items() if phase != public ] ) def get_raw_set( self, repo: "localrepo.localrepository", phase: int, ) -> Set[int]: """return the set of revision in that phase The returned set is not filtered and might contains revision filtered for the passed repoview. The returned set might be the internal one and MUST NOT be mutated to avoid side effect. """ if phase == public: raise error.ProgrammingError("cannot get_set for public phase") self._ensure_phase_sets(repo.unfiltered()) revs = self._phasesets.get(phase) if revs is None: return set() return revs def getrevset( self, repo: "localrepo.localrepository", phases: Iterable[int], subset: Optional[Any] = None, ) -> Any: # TODO: finish typing this """return a smartset for the given phases""" self._ensure_phase_sets(repo.unfiltered()) phases = set(phases) publicphase = public in phases if publicphase: # In this case, phases keeps all the *other* phases. phases = set(allphases).difference(phases) if not phases: return smartset.fullreposet(repo) # fast path: _phasesets contains the interesting sets, # might only need a union and post-filtering. revsneedscopy = False if len(phases) == 1: [p] = phases revs = self._phasesets[p] revsneedscopy = True # Don't modify _phasesets else: # revs has the revisions in all *other* phases. revs = set.union(*[self._phasesets[p] for p in phases]) def _addwdir(wdirsubset, wdirrevs): if wdirrev in wdirsubset and repo[None].phase() in phases: if revsneedscopy: wdirrevs = wdirrevs.copy() # The working dir would never be in the # cache, but it was in # the subset being filtered for its phase (or filtered out, # depending on publicphase), so add it to the output to be # included (or filtered out). wdirrevs.add(wdirrev) return wdirrevs if not publicphase: if repo.changelog.filteredrevs: revs = revs - repo.changelog.filteredrevs if subset is None: return smartset.baseset(revs) else: revs = _addwdir(subset, revs) return subset & smartset.baseset(revs) else: if subset is None: subset = smartset.fullreposet(repo) revs = _addwdir(subset, revs) if not revs: return subset return subset.filter(lambda r: r not in revs) def copy(self): # Shallow copy meant to ensure isolation in # advance/retractboundary(), nothing more. ph = self.__class__(None, None, _load=False) ph._phaseroots = self._phaseroots.copy() ph.dirty = self.dirty ph._loadedrevslen = self._loadedrevslen if self._phasesets is None: ph._phasesets = None else: ph._phasesets = self._phasesets.copy() return ph def replace(self, phcache): """replace all values in 'self' with content of phcache""" for a in ( '_phaseroots', 'dirty', '_loadedrevslen', '_phasesets', ): setattr(self, a, getattr(phcache, a)) def _getphaserevsnative(self, repo): repo = repo.unfiltered() return repo.changelog.computephases(self._phaseroots) def _computephaserevspure(self, repo): repo = repo.unfiltered() cl = repo.changelog self._phasesets = {phase: set() for phase in allphases} lowerroots = set() for phase in reversed(trackedphases): roots = self._phaseroots[phase] if roots: ps = set(cl.descendants(roots)) for root in roots: ps.add(root) ps.difference_update(lowerroots) lowerroots.update(ps) self._phasesets[phase] = ps self._loadedrevslen = len(cl) def _ensure_phase_sets(self, repo: "localrepo.localrepository") -> None: """ensure phase information is loaded in the object""" assert repo.filtername is None update = -1 cl = repo.changelog cl_size = len(cl) if self._phasesets is None: update = 0 else: if cl_size > self._loadedrevslen: # check if an incremental update is worth it. # note we need a tradeoff here because the whole logic is not # stored and implemented in native code nd datastructure. # Otherwise the incremental update woul always be a win. missing = cl_size - self._loadedrevslen if missing <= INCREMENTAL_PHASE_SETS_UPDATE_MAX_UPDATE: update = self._loadedrevslen else: update = 0 if update == 0: try: res = self._getphaserevsnative(repo) self._loadedrevslen, self._phasesets = res except AttributeError: self._computephaserevspure(repo) assert self._loadedrevslen == len(repo.changelog) elif update > 0: # good candidate for native code assert update == self._loadedrevslen if self.hasnonpublicphases(repo): start = self._loadedrevslen get_phase = self.phase rev_phases = [0] * missing parents = cl.parentrevs sets = {phase: set() for phase in self._phasesets} for phase, roots in self._phaseroots.items(): # XXX should really store the max somewhere for r in roots: if r >= start: rev_phases[r - start] = phase for rev in range(start, cl_size): phase = rev_phases[rev - start] p1, p2 = parents(rev) if p1 == nullrev: p1_phase = public elif p1 >= start: p1_phase = rev_phases[p1 - start] else: p1_phase = max(phase, get_phase(repo, p1)) if p2 == nullrev: p2_phase = public elif p2 >= start: p2_phase = rev_phases[p2 - start] else: p2_phase = max(phase, get_phase(repo, p2)) phase = max(phase, p1_phase, p2_phase) if phase > public: rev_phases[rev - start] = phase sets[phase].add(rev) # Be careful to preserve shallow-copied values: do not update # phaseroots values, replace them. for phase, extra in sets.items(): if extra: self._phasesets[phase] = self._phasesets[phase] | extra self._loadedrevslen = cl_size def invalidate(self): self._loadedrevslen = 0 self._phasesets = None def phase(self, repo: "localrepo.localrepository", rev: int) -> int: # We need a repo argument here to be able to build _phasesets # if necessary. The repository instance is not stored in # phasecache to avoid reference cycles. The changelog instance # is not stored because it is a filecache() property and can # be replaced without us being notified. if rev == nullrev: return public if rev < nullrev: raise ValueError(_(b'cannot lookup negative revision')) # double check self._loadedrevslen to avoid an extra method call as # python is slow for that. if rev >= self._loadedrevslen: self._ensure_phase_sets(repo.unfiltered()) for phase in trackedphases: if rev in self._phasesets[phase]: return phase return public def write(self, repo): if not self.dirty: return f = repo.svfs(b'phaseroots', b'w', atomictemp=True, checkambig=True) try: self._write(repo.unfiltered(), f) finally: f.close() def _write(self, repo, fp): assert repo.filtername is None to_node = repo.changelog.node for phase, roots in self._phaseroots.items(): for r in sorted(roots): h = to_node(r) fp.write(b'%i %s\n' % (phase, hex(h))) self.dirty = False def _updateroots(self, repo, phase, newroots, tr, invalidate=True): self._phaseroots[phase] = newroots self.dirty = True if invalidate: self.invalidate() assert repo.filtername is None wrepo = weakref.ref(repo) def tr_write(fp): repo = wrepo() assert repo is not None self._write(repo, fp) tr.addfilegenerator(b'phase', (b'phaseroots',), tr_write) tr.hookargs[b'phases_moved'] = b'1' def registernew(self, repo, tr, targetphase, revs): repo = repo.unfiltered() self._retractboundary(repo, tr, targetphase, [], revs=revs) if tr is not None and b'phases' in tr.changes: phasetracking = tr.changes[b'phases'] phase = self.phase for rev in sorted(revs): revphase = phase(repo, rev) _trackphasechange(phasetracking, rev, None, revphase) repo.invalidatevolatilesets() def advanceboundary( self, repo, tr, targetphase, nodes=None, revs=None, dryrun=None ): """Set all 'nodes' to phase 'targetphase' Nodes with a phase lower than 'targetphase' are not affected. If dryrun is True, no actions will be performed Returns a set of revs whose phase is changed or should be changed """ if targetphase == public and not self.hasnonpublicphases(repo): return set() repo = repo.unfiltered() cl = repo.changelog torev = cl.index.rev # Be careful to preserve shallow-copied values: do not update # phaseroots values, replace them. new_revs = set() if revs is not None: new_revs.update(revs) if nodes is not None: new_revs.update(torev(node) for node in nodes) if not new_revs: # bail out early to avoid the loadphaserevs call return ( set() ) # note: why do people call advanceboundary with nothing? if tr is None: phasetracking = None else: phasetracking = tr.changes.get(b'phases') affectable_phases = sorted( p for p in allphases if p > targetphase and self._phaseroots[p] ) # filter revision already in the right phases candidates = new_revs new_revs = set() self._ensure_phase_sets(repo) for phase in affectable_phases: found = candidates & self._phasesets[phase] new_revs |= found candidates -= found if not candidates: break if not new_revs: return set() # search for affected high phase changesets and roots seen = set(new_revs) push = heapq.heappush pop = heapq.heappop parents = cl.parentrevs get_phase = self.phase changed = {} # set of revisions to be changed # set of root deleted by this path delroots = set() new_roots = {p: set() for p in affectable_phases} new_target_roots = set() # revision to walk down revs = [-r for r in new_revs] heapq.heapify(revs) while revs: current = -pop(revs) current_phase = get_phase(repo, current) changed[current] = current_phase p1, p2 = parents(current) if p1 == nullrev: p1_phase = public else: p1_phase = get_phase(repo, p1) if p2 == nullrev: p2_phase = public else: p2_phase = get_phase(repo, p2) # do we have a root ? if current_phase != p1_phase and current_phase != p2_phase: # do not record phase, because we could have "duplicated" # roots, were one root is shadowed by the very same roots of an # higher phases delroots.add(current) # schedule a walk down if needed if p1_phase > targetphase and p1 not in seen: seen.add(p1) push(revs, -p1) if p2_phase > targetphase and p2 not in seen: seen.add(p2) push(revs, -p2) if p1_phase < targetphase and p2_phase < targetphase: new_target_roots.add(current) # the last iteration was done with the smallest value min_current = current # do we have unwalked children that might be new roots if (min_current + len(changed)) < len(cl): for r in range(min_current, len(cl)): if r in changed: continue phase = get_phase(repo, r) if phase <= targetphase: continue p1, p2 = parents(r) if not (p1 in changed or p2 in changed): continue # not affected if p1 != nullrev and p1 not in changed: p1_phase = get_phase(repo, p1) if p1_phase == phase: continue # not a root if p2 != nullrev and p2 not in changed: p2_phase = get_phase(repo, p2) if p2_phase == phase: continue # not a root new_roots[phase].add(r) # apply the changes if not dryrun: for r, p in changed.items(): _trackphasechange(phasetracking, r, p, targetphase) if targetphase > public: self._phasesets[targetphase].update(changed) for phase in affectable_phases: roots = self._phaseroots[phase] removed = roots & delroots if removed or new_roots[phase]: self._phasesets[phase].difference_update(changed) # Be careful to preserve shallow-copied values: do not # update phaseroots values, replace them. final_roots = roots - delroots | new_roots[phase] self._updateroots( repo, phase, final_roots, tr, invalidate=False ) if new_target_roots: # Thanks for previous filtering, we can't replace existing # roots new_target_roots |= self._phaseroots[targetphase] self._updateroots( repo, targetphase, new_target_roots, tr, invalidate=False ) repo.invalidatevolatilesets() return changed def retractboundary(self, repo, tr, targetphase, nodes): if tr is None: phasetracking = None else: phasetracking = tr.changes.get(b'phases') repo = repo.unfiltered() retracted = self._retractboundary(repo, tr, targetphase, nodes) if retracted and phasetracking is not None: for r, old_phase in sorted(retracted.items()): _trackphasechange(phasetracking, r, old_phase, targetphase) repo.invalidatevolatilesets() def _retractboundary(self, repo, tr, targetphase, nodes=None, revs=None): if targetphase == public: return {} if ( targetphase == internal and not supportinternal(repo) or targetphase == archived and not supportarchived(repo) ): name = phasenames[targetphase] msg = b'this repository does not support the %s phase' % name raise error.ProgrammingError(msg) assert repo.filtername is None cl = repo.changelog torev = cl.index.rev new_revs = set() if revs is not None: new_revs.update(revs) if nodes is not None: new_revs.update(torev(node) for node in nodes) if not new_revs: # bail out early to avoid the loadphaserevs call return {} # note: why do people call retractboundary with nothing ? if nullrev in new_revs: raise error.Abort(_(b'cannot change null revision phase')) # Filter revision that are already in the right phase self._ensure_phase_sets(repo) for phase, revs in self._phasesets.items(): if phase >= targetphase: new_revs -= revs if not new_revs: # all revisions already in the right phases return {} # Compute change in phase roots by walking the graph # # note: If we had a cheap parent → children mapping we could do # something even cheaper/more-bounded # # The idea would be to walk from item in new_revs stopping at # descendant with phases >= target_phase. # # 1) This detect new_revs that are not new_roots (either already >= # target_phase or reachable though another new_revs # 2) This detect replaced current_roots as we reach them # 3) This can avoid walking to the tip if we retract over a small # branch. # # So instead, we do a variation of this, we walk from the smaller new # revision to the tip to avoid missing any potential children. # # The following code would be a good candidate for native code… if only # we could knew the phase of a changeset efficiently in native code. parents = cl.parentrevs phase = self.phase new_roots = set() # roots added by this phases changed_revs = {} # revision affected by this call replaced_roots = set() # older roots replaced by this call currentroots = self._phaseroots[targetphase] start = min(new_revs) end = len(cl) rev_phases = [None] * (end - start) this_phase_set = self._phasesets[targetphase] for r in range(start, end): # gather information about the current_rev r_phase = phase(repo, r) p_phase = None # phase inherited from parents p1, p2 = parents(r) if p1 >= start: p1_phase = rev_phases[p1 - start] if p1_phase is not None: p_phase = p1_phase if p2 >= start: p2_phase = rev_phases[p2 - start] if p2_phase is not None: if p_phase is not None: p_phase = max(p_phase, p2_phase) else: p_phase = p2_phase # assess the situation if r in new_revs and r_phase < targetphase: if p_phase is None or p_phase < targetphase: new_roots.add(r) rev_phases[r - start] = targetphase changed_revs[r] = r_phase this_phase_set.add(r) elif p_phase is None: rev_phases[r - start] = r_phase else: if p_phase > r_phase: rev_phases[r - start] = p_phase else: rev_phases[r - start] = r_phase if p_phase == targetphase: if p_phase > r_phase: changed_revs[r] = r_phase this_phase_set.add(r) elif r in currentroots: replaced_roots.add(r) sets = self._phasesets if targetphase > draft: for r, old in changed_revs.items(): if old > public: sets[old].discard(r) if new_roots: assert changed_revs final_roots = new_roots | currentroots - replaced_roots self._updateroots( repo, targetphase, final_roots, tr, invalidate=False, ) if targetphase > 1: retracted = set(changed_revs) for lower_phase in range(1, targetphase): lower_roots = self._phaseroots.get(lower_phase) if lower_roots is None: continue if lower_roots & retracted: simpler_roots = lower_roots - retracted self._updateroots( repo, lower_phase, simpler_roots, tr, invalidate=False, ) return changed_revs else: assert not changed_revs assert not replaced_roots return {} def register_strip( self, repo, tr, strip_rev: int, ): """announce a strip to the phase cache Any roots higher than the stripped revision should be dropped. """ for targetphase, roots in list(self._phaseroots.items()): filtered = {r for r in roots if r >= strip_rev} if filtered: self._updateroots(repo, targetphase, roots - filtered, tr) self.invalidate() def advanceboundary(repo, tr, targetphase, nodes, revs=None, dryrun=None): """Add nodes to a phase changing other nodes phases if necessary. This function move boundary *forward* this means that all nodes are set in the target phase or kept in a *lower* phase. Simplify boundary to contains phase roots only. If dryrun is True, no actions will be performed Returns a set of revs whose phase is changed or should be changed """ if revs is None: revs = [] phcache = repo._phasecache.copy() changes = phcache.advanceboundary( repo, tr, targetphase, nodes, revs=revs, dryrun=dryrun ) if not dryrun: repo._phasecache.replace(phcache) return changes def retractboundary(repo, tr, targetphase, nodes): """Set nodes back to a phase changing other nodes phases if necessary. This function move boundary *backward* this means that all nodes are set in the target phase or kept in a *higher* phase. Simplify boundary to contains phase roots only.""" phcache = repo._phasecache.copy() phcache.retractboundary(repo, tr, targetphase, nodes) repo._phasecache.replace(phcache) def registernew(repo, tr, targetphase, revs): """register a new revision and its phase Code adding revisions to the repository should use this function to set new changeset in their target phase (or higher). """ phcache = repo._phasecache.copy() phcache.registernew(repo, tr, targetphase, revs) repo._phasecache.replace(phcache) def listphases(repo: "localrepo.localrepository") -> Dict[bytes, bytes]: """List phases root for serialization over pushkey""" # Use ordered dictionary so behavior is deterministic. keys = util.sortdict() value = b'%i' % draft cl = repo.unfiltered().changelog to_node = cl.node for root in repo._phasecache._phaseroots[draft]: if repo._phasecache.phase(repo, root) <= draft: keys[hex(to_node(root))] = value if repo.publishing(): # Add an extra data to let remote know we are a publishing # repo. Publishing repo can't just pretend they are old repo. # When pushing to a publishing repo, the client still need to # push phase boundary # # Push do not only push changeset. It also push phase data. # New phase data may apply to common changeset which won't be # push (as they are common). Here is a very simple example: # # 1) repo A push changeset X as draft to repo B # 2) repo B make changeset X public # 3) repo B push to repo A. X is not pushed but the data that # X as now public should # # The server can't handle it on it's own as it has no idea of # client phase data. keys[b'publishing'] = b'True' return keys def pushphase( repo: "localrepo.localrepository", nhex: bytes, oldphasestr: bytes, newphasestr: bytes, ) -> bool: """List phases root for serialization over pushkey""" repo = repo.unfiltered() with repo.lock(): currentphase = repo[nhex].phase() newphase = abs(int(newphasestr)) # let's avoid negative index surprise oldphase = abs(int(oldphasestr)) # let's avoid negative index surprise if currentphase == oldphase and newphase < oldphase: with repo.transaction(b'pushkey-phase') as tr: advanceboundary(repo, tr, newphase, [bin(nhex)]) return True elif currentphase == newphase: # raced, but got correct result return True else: return False def subsetphaseheads(repo, subset): """Finds the phase heads for a subset of a history Returns a list indexed by phase number where each item is a list of phase head nodes. """ cl = repo.changelog headsbyphase = {i: [] for i in allphases} for phase in allphases: revset = b"heads(%%ln & _phase(%d))" % phase headsbyphase[phase] = [cl.node(r) for r in repo.revs(revset, subset)] return headsbyphase def updatephases(repo, trgetter, headsbyphase): """Updates the repo with the given phase heads""" # Now advance phase boundaries of all phases # # run the update (and fetch transaction) only if there are actually things # to update. This avoid creating empty transaction during no-op operation. for phase in allphases: revset = b'%ln - _phase(%s)' heads = [c.node() for c in repo.set(revset, headsbyphase[phase], phase)] if heads: advanceboundary(repo, trgetter(), phase, heads) def analyze_remote_phases( repo, subset: Collection[int], roots: Dict[bytes, bytes], ) -> Tuple[Collection[int], Collection[int]]: """Compute phases heads and root in a subset of node from root dict * subset is heads of the subset * roots is {<nodeid> => phase} mapping. key and value are string. Accept unknown element input """ repo = repo.unfiltered() # build list from dictionary draft_roots = [] to_rev = repo.changelog.index.get_rev for nhex, phase in roots.items(): if nhex == b'publishing': # ignore data related to publish option continue node = bin(nhex) phase = int(phase) if phase == public: if node != repo.nullid: msg = _(b'ignoring inconsistent public root from remote: %s\n') repo.ui.warn(msg % nhex) elif phase == draft: rev = to_rev(node) if rev is not None: # to filter unknown nodes draft_roots.append(rev) else: msg = _(b'ignoring unexpected root from remote: %i %s\n') repo.ui.warn(msg % (phase, nhex)) # compute heads public_heads = new_heads(repo, subset, draft_roots) return public_heads, draft_roots class RemotePhasesSummary: """summarize phase information on the remote side :publishing: True is the remote is publishing :public_heads: list of remote public phase heads (revs) :draft_heads: list of remote draft phase heads (revs) :draft_roots: list of remote draft phase root (revs) """ def __init__( self, repo, remote_subset: Collection[int], remote_roots: Dict[bytes, bytes], ): unfi = repo.unfiltered() self._allremoteroots: Dict[bytes, bytes] = remote_roots self.publishing: bool = bool(remote_roots.get(b'publishing', False)) heads, roots = analyze_remote_phases(repo, remote_subset, remote_roots) self.public_heads: Collection[int] = heads self.draft_roots: Collection[int] = roots # Get the list of all "heads" revs draft on remote dheads = unfi.revs(b'heads(%ld::%ld)', roots, remote_subset) self.draft_heads: Collection[int] = dheads def new_heads( repo, heads: Collection[int], roots: Collection[int], ) -> Collection[int]: """compute new head of a subset minus another * `heads`: define the first subset * `roots`: define the second we subtract from the first""" # prevent an import cycle # phases > dagop > patch > copies > scmutil > obsolete > obsutil > phases from . import dagop if not roots: return heads if not heads or heads == [nullrev]: return [] # The logic operated on revisions, convert arguments early for convenience # PERF-XXX: maybe heads could directly comes as a set without impacting # other user of that value new_heads = set(heads) new_heads.discard(nullrev) # compute the area we need to remove affected_zone = repo.revs(b"(%ld::%ld)", roots, new_heads) # heads in the area are no longer heads new_heads.difference_update(affected_zone) # revisions in the area have children outside of it, # They might be new heads candidates = repo.revs( b"parents(%ld + (%ld and merge())) and not null", roots, affected_zone ) candidates -= affected_zone if new_heads or candidates: # remove candidate that are ancestors of other heads new_heads.update(candidates) prunestart = repo.revs(b"parents(%ld) and not null", new_heads) pruned = dagop.reachableroots(repo, candidates, prunestart) new_heads.difference_update(pruned) # PERF-XXX: do we actually need a sorted list here? Could we simply return # a set? return sorted(new_heads) def newcommitphase(ui: "uimod.ui") -> int: """helper to get the target phase of new commit Handle all possible values for the phases.new-commit options. """ v = ui.config(b'phases', b'new-commit') try: return phasenumber2[v] except KeyError: raise error.ConfigError( _(b"phases.new-commit: not a valid phase name ('%s')") % v ) def hassecret(repo: "localrepo.localrepository") -> bool: """utility function that check if a repo have any secret changeset.""" return bool(repo._phasecache._phaseroots[secret]) def preparehookargs( node: bytes, old: Optional[int], new: Optional[int], ) -> Dict[bytes, bytes]: if old is None: old = b'' else: old = phasenames[old] return {b'node': node, b'oldphase': old, b'phase': phasenames[new]}