Mercurial > hg
view mercurial/dirstatemap.py @ 48095:20d0149b8a0a
dirstate-item: use `tracked` instead of `state` in context.matches
Differential Revision: https://phab.mercurial-scm.org/D11532
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
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date | Wed, 29 Sep 2021 15:07:21 +0200 |
parents | bf8837e3d7ce |
children | d4e715d2be0b |
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# dirstatemap.py # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import errno from .i18n import _ from . import ( error, pathutil, policy, pycompat, txnutil, util, ) from .dirstateutils import ( docket as docketmod, ) parsers = policy.importmod('parsers') rustmod = policy.importrust('dirstate') propertycache = util.propertycache if rustmod is None: DirstateItem = parsers.DirstateItem else: DirstateItem = rustmod.DirstateItem rangemask = 0x7FFFFFFF class dirstatemap(object): """Map encapsulating the dirstate's contents. The dirstate contains the following state: - `identity` is the identity of the dirstate file, which can be used to detect when changes have occurred to the dirstate file. - `parents` is a pair containing the parents of the working copy. The parents are updated by calling `setparents`. - the state map maps filenames to tuples of (state, mode, size, mtime), where state is a single character representing 'normal', 'added', 'removed', or 'merged'. It is read by treating the dirstate as a dict. File state is updated by calling various methods (see each documentation for details): - `reset_state`, - `set_tracked` - `set_untracked` - `set_clean` - `set_possibly_dirty` - `copymap` maps destination filenames to their source filename. The dirstate also provides the following views onto the state: - `filefoldmap` is a dict mapping normalized filenames to the denormalized form that they appear as in the dirstate. - `dirfoldmap` is a dict mapping normalized directory names to the denormalized form that they appear as in the dirstate. """ def __init__(self, ui, opener, root, nodeconstants, use_dirstate_v2): self._ui = ui self._opener = opener self._root = root self._filename = b'dirstate' self._nodelen = 20 self._nodeconstants = nodeconstants assert ( not use_dirstate_v2 ), "should have detected unsupported requirement" self._parents = None self._dirtyparents = False # for consistent view between _pl() and _read() invocations self._pendingmode = None @propertycache def _map(self): self._map = {} self.read() return self._map @propertycache def copymap(self): self.copymap = {} self._map return self.copymap def clear(self): self._map.clear() self.copymap.clear() self.setparents(self._nodeconstants.nullid, self._nodeconstants.nullid) util.clearcachedproperty(self, b"_dirs") util.clearcachedproperty(self, b"_alldirs") util.clearcachedproperty(self, b"filefoldmap") util.clearcachedproperty(self, b"dirfoldmap") def items(self): return pycompat.iteritems(self._map) # forward for python2,3 compat iteritems = items def debug_iter(self, all): """ Return an iterator of (filename, state, mode, size, mtime) tuples `all` is unused when Rust is not enabled """ for (filename, item) in self.items(): yield (filename, item.state, item.mode, item.size, item.mtime) def __len__(self): return len(self._map) def __iter__(self): return iter(self._map) def get(self, key, default=None): return self._map.get(key, default) def __contains__(self, key): return key in self._map def __getitem__(self, key): return self._map[key] def keys(self): return self._map.keys() def preload(self): """Loads the underlying data, if it's not already loaded""" self._map def _dirs_incr(self, filename, old_entry=None): """incremente the dirstate counter if applicable""" if ( old_entry is None or old_entry.removed ) and "_dirs" in self.__dict__: self._dirs.addpath(filename) if old_entry is None and "_alldirs" in self.__dict__: self._alldirs.addpath(filename) def _dirs_decr(self, filename, old_entry=None, remove_variant=False): """decremente the dirstate counter if applicable""" if old_entry is not None: if "_dirs" in self.__dict__ and not old_entry.removed: self._dirs.delpath(filename) if "_alldirs" in self.__dict__ and not remove_variant: self._alldirs.delpath(filename) elif remove_variant and "_alldirs" in self.__dict__: self._alldirs.addpath(filename) if "filefoldmap" in self.__dict__: normed = util.normcase(filename) self.filefoldmap.pop(normed, None) def set_possibly_dirty(self, filename): """record that the current state of the file on disk is unknown""" self[filename].set_possibly_dirty() def set_clean(self, filename, mode, size, mtime): """mark a file as back to a clean state""" entry = self[filename] mtime = mtime & rangemask size = size & rangemask entry.set_clean(mode, size, mtime) self.copymap.pop(filename, None) def reset_state( self, filename, wc_tracked=False, p1_tracked=False, p2_tracked=False, merged=False, clean_p1=False, clean_p2=False, possibly_dirty=False, parentfiledata=None, ): """Set a entry to a given state, diregarding all previous state This is to be used by the part of the dirstate API dedicated to adjusting the dirstate after a update/merge. note: calling this might result to no entry existing at all if the dirstate map does not see any point at having one for this file anymore. """ if merged and (clean_p1 or clean_p2): msg = b'`merged` argument incompatible with `clean_p1`/`clean_p2`' raise error.ProgrammingError(msg) # copy information are now outdated # (maybe new information should be in directly passed to this function) self.copymap.pop(filename, None) if not (p1_tracked or p2_tracked or wc_tracked): old_entry = self._map.pop(filename, None) self._dirs_decr(filename, old_entry=old_entry) self.copymap.pop(filename, None) return elif merged: # XXX might be merged and removed ? entry = self.get(filename) if entry is None or not entry.tracked: # XXX mostly replicate dirstate.other parent. We should get # the higher layer to pass us more reliable data where `merged` # actually mean merged. Dropping this clause will show failure # in `test-graft.t` merged = False clean_p2 = True elif not (p1_tracked or p2_tracked) and wc_tracked: pass # file is added, nothing special to adjust elif (p1_tracked or p2_tracked) and not wc_tracked: pass elif clean_p2 and wc_tracked: if p1_tracked or self.get(filename) is not None: # XXX the `self.get` call is catching some case in # `test-merge-remove.t` where the file is tracked in p1, the # p1_tracked argument is False. # # In addition, this seems to be a case where the file is marked # as merged without actually being the result of a merge # action. So thing are not ideal here. merged = True clean_p2 = False elif not p1_tracked and p2_tracked and wc_tracked: clean_p2 = True elif possibly_dirty: pass elif wc_tracked: # this is a "normal" file if parentfiledata is None: msg = b'failed to pass parentfiledata for a normal file: %s' msg %= filename raise error.ProgrammingError(msg) else: assert False, 'unreachable' old_entry = self._map.get(filename) self._dirs_incr(filename, old_entry) entry = DirstateItem( wc_tracked=wc_tracked, p1_tracked=p1_tracked, p2_tracked=p2_tracked, merged=merged, clean_p1=clean_p1, clean_p2=clean_p2, possibly_dirty=possibly_dirty, parentfiledata=parentfiledata, ) self._map[filename] = entry def set_tracked(self, filename): new = False entry = self.get(filename) if entry is None: self._dirs_incr(filename) entry = DirstateItem( p1_tracked=False, p2_tracked=False, wc_tracked=True, merged=False, clean_p1=False, clean_p2=False, possibly_dirty=False, parentfiledata=None, ) self._map[filename] = entry new = True elif not entry.tracked: self._dirs_incr(filename, entry) entry.set_tracked() new = True else: # XXX This is probably overkill for more case, but we need this to # fully replace the `normallookup` call with `set_tracked` one. # Consider smoothing this in the future. self.set_possibly_dirty(filename) return new def set_untracked(self, f): """Mark a file as no longer tracked in the dirstate map""" entry = self.get(f) if entry is None: return False else: self._dirs_decr(f, old_entry=entry, remove_variant=not entry.added) if not entry.merged: self.copymap.pop(f, None) if entry.added: self._map.pop(f, None) else: entry.set_untracked() return True @propertycache def filefoldmap(self): """Returns a dictionary mapping normalized case paths to their non-normalized versions. """ try: makefilefoldmap = parsers.make_file_foldmap except AttributeError: pass else: return makefilefoldmap( self._map, util.normcasespec, util.normcasefallback ) f = {} normcase = util.normcase for name, s in pycompat.iteritems(self._map): if not s.removed: f[normcase(name)] = name f[b'.'] = b'.' # prevents useless util.fspath() invocation return f def hastrackeddir(self, d): """ Returns True if the dirstate contains a tracked (not removed) file in this directory. """ return d in self._dirs def hasdir(self, d): """ Returns True if the dirstate contains a file (tracked or removed) in this directory. """ return d in self._alldirs @propertycache def _dirs(self): return pathutil.dirs(self._map, only_tracked=True) @propertycache def _alldirs(self): return pathutil.dirs(self._map) def _opendirstatefile(self): fp, mode = txnutil.trypending(self._root, self._opener, self._filename) if self._pendingmode is not None and self._pendingmode != mode: fp.close() raise error.Abort( _(b'working directory state may be changed parallelly') ) self._pendingmode = mode return fp def parents(self): if not self._parents: try: fp = self._opendirstatefile() st = fp.read(2 * self._nodelen) fp.close() except IOError as err: if err.errno != errno.ENOENT: raise # File doesn't exist, so the current state is empty st = b'' l = len(st) if l == self._nodelen * 2: self._parents = ( st[: self._nodelen], st[self._nodelen : 2 * self._nodelen], ) elif l == 0: self._parents = ( self._nodeconstants.nullid, self._nodeconstants.nullid, ) else: raise error.Abort( _(b'working directory state appears damaged!') ) return self._parents def setparents(self, p1, p2, fold_p2=False): self._parents = (p1, p2) self._dirtyparents = True copies = {} if fold_p2: for f, s in pycompat.iteritems(self._map): # Discard "merged" markers when moving away from a merge state if s.merged or s.from_p2: source = self.copymap.pop(f, None) if source: copies[f] = source s.drop_merge_data() return copies def read(self): # ignore HG_PENDING because identity is used only for writing self.identity = util.filestat.frompath( self._opener.join(self._filename) ) try: fp = self._opendirstatefile() try: st = fp.read() finally: fp.close() except IOError as err: if err.errno != errno.ENOENT: raise return if not st: return if util.safehasattr(parsers, b'dict_new_presized'): # Make an estimate of the number of files in the dirstate based on # its size. This trades wasting some memory for avoiding costly # resizes. Each entry have a prefix of 17 bytes followed by one or # two path names. Studies on various large-scale real-world repositories # found 54 bytes a reasonable upper limit for the average path names. # Copy entries are ignored for the sake of this estimate. self._map = parsers.dict_new_presized(len(st) // 71) # Python's garbage collector triggers a GC each time a certain number # of container objects (the number being defined by # gc.get_threshold()) are allocated. parse_dirstate creates a tuple # for each file in the dirstate. The C version then immediately marks # them as not to be tracked by the collector. However, this has no # effect on when GCs are triggered, only on what objects the GC looks # into. This means that O(number of files) GCs are unavoidable. # Depending on when in the process's lifetime the dirstate is parsed, # this can get very expensive. As a workaround, disable GC while # parsing the dirstate. # # (we cannot decorate the function directly since it is in a C module) parse_dirstate = util.nogc(parsers.parse_dirstate) p = parse_dirstate(self._map, self.copymap, st) if not self._dirtyparents: self.setparents(*p) # Avoid excess attribute lookups by fast pathing certain checks self.__contains__ = self._map.__contains__ self.__getitem__ = self._map.__getitem__ self.get = self._map.get def write(self, _tr, st, now): st.write( parsers.pack_dirstate(self._map, self.copymap, self.parents(), now) ) st.close() self._dirtyparents = False @propertycache def identity(self): self._map return self.identity @propertycache def dirfoldmap(self): f = {} normcase = util.normcase for name in self._dirs: f[normcase(name)] = name return f if rustmod is not None: class dirstatemap(object): def __init__(self, ui, opener, root, nodeconstants, use_dirstate_v2): self._use_dirstate_v2 = use_dirstate_v2 self._nodeconstants = nodeconstants self._ui = ui self._opener = opener self._root = root self._filename = b'dirstate' self._nodelen = 20 # Also update Rust code when changing this! self._parents = None self._dirtyparents = False self._docket = None # for consistent view between _pl() and _read() invocations self._pendingmode = None def addfile( self, f, mode=0, size=None, mtime=None, added=False, merged=False, from_p2=False, possibly_dirty=False, ): if added: assert not possibly_dirty assert not from_p2 item = DirstateItem.new_added() elif merged: assert not possibly_dirty assert not from_p2 item = DirstateItem.new_merged() elif from_p2: assert not possibly_dirty item = DirstateItem.new_from_p2() elif possibly_dirty: item = DirstateItem.new_possibly_dirty() else: assert size is not None assert mtime is not None size = size & rangemask mtime = mtime & rangemask item = DirstateItem.new_normal(mode, size, mtime) self._rustmap.addfile(f, item) if added: self.copymap.pop(f, None) def reset_state( self, filename, wc_tracked=False, p1_tracked=False, p2_tracked=False, merged=False, clean_p1=False, clean_p2=False, possibly_dirty=False, parentfiledata=None, ): """Set a entry to a given state, disregarding all previous state This is to be used by the part of the dirstate API dedicated to adjusting the dirstate after a update/merge. note: calling this might result to no entry existing at all if the dirstate map does not see any point at having one for this file anymore. """ if merged and (clean_p1 or clean_p2): msg = ( b'`merged` argument incompatible with `clean_p1`/`clean_p2`' ) raise error.ProgrammingError(msg) # copy information are now outdated # (maybe new information should be in directly passed to this function) self.copymap.pop(filename, None) if not (p1_tracked or p2_tracked or wc_tracked): self._rustmap.drop_item_and_copy_source(filename) elif merged: # XXX might be merged and removed ? entry = self.get(filename) if entry is not None and entry.tracked: # XXX mostly replicate dirstate.other parent. We should get # the higher layer to pass us more reliable data where `merged` # actually mean merged. Dropping the else clause will show # failure in `test-graft.t` self.addfile(filename, merged=True) else: self.addfile(filename, from_p2=True) elif not (p1_tracked or p2_tracked) and wc_tracked: self.addfile( filename, added=True, possibly_dirty=possibly_dirty ) elif (p1_tracked or p2_tracked) and not wc_tracked: # XXX might be merged and removed ? self[filename] = DirstateItem.from_v1_data(b'r', 0, 0, 0) elif clean_p2 and wc_tracked: if p1_tracked or self.get(filename) is not None: # XXX the `self.get` call is catching some case in # `test-merge-remove.t` where the file is tracked in p1, the # p1_tracked argument is False. # # In addition, this seems to be a case where the file is marked # as merged without actually being the result of a merge # action. So thing are not ideal here. self.addfile(filename, merged=True) else: self.addfile(filename, from_p2=True) elif not p1_tracked and p2_tracked and wc_tracked: self.addfile( filename, from_p2=True, possibly_dirty=possibly_dirty ) elif possibly_dirty: self.addfile(filename, possibly_dirty=possibly_dirty) elif wc_tracked: # this is a "normal" file if parentfiledata is None: msg = b'failed to pass parentfiledata for a normal file: %s' msg %= filename raise error.ProgrammingError(msg) mode, size, mtime = parentfiledata self.addfile(filename, mode=mode, size=size, mtime=mtime) else: assert False, 'unreachable' def set_tracked(self, filename): new = False entry = self.get(filename) if entry is None: self.addfile(filename, added=True) new = True elif not entry.tracked: entry.set_tracked() self._rustmap.set_dirstate_item(filename, entry) new = True else: # XXX This is probably overkill for more case, but we need this to # fully replace the `normallookup` call with `set_tracked` one. # Consider smoothing this in the future. self.set_possibly_dirty(filename) return new def set_untracked(self, f): """Mark a file as no longer tracked in the dirstate map""" # in merge is only trigger more logic, so it "fine" to pass it. # # the inner rust dirstate map code need to be adjusted once the API # for dirstate/dirstatemap/DirstateItem is a bit more settled entry = self.get(f) if entry is None: return False else: if entry.added: self._rustmap.drop_item_and_copy_source(f) else: self._rustmap.removefile(f, in_merge=True) return True def removefile(self, *args, **kwargs): return self._rustmap.removefile(*args, **kwargs) def get(self, *args, **kwargs): return self._rustmap.get(*args, **kwargs) @property def copymap(self): return self._rustmap.copymap() def debug_iter(self, all): """ Return an iterator of (filename, state, mode, size, mtime) tuples `all`: also include with `state == b' '` dirstate tree nodes that don't have an associated `DirstateItem`. """ return self._rustmap.debug_iter(all) def preload(self): self._rustmap def clear(self): self._rustmap.clear() self.setparents( self._nodeconstants.nullid, self._nodeconstants.nullid ) util.clearcachedproperty(self, b"_dirs") util.clearcachedproperty(self, b"_alldirs") util.clearcachedproperty(self, b"dirfoldmap") def items(self): return self._rustmap.items() def keys(self): return iter(self._rustmap) def __contains__(self, key): return key in self._rustmap def __getitem__(self, item): return self._rustmap[item] def __len__(self): return len(self._rustmap) def __iter__(self): return iter(self._rustmap) # forward for python2,3 compat iteritems = items def _opendirstatefile(self): fp, mode = txnutil.trypending( self._root, self._opener, self._filename ) if self._pendingmode is not None and self._pendingmode != mode: fp.close() raise error.Abort( _(b'working directory state may be changed parallelly') ) self._pendingmode = mode return fp def _readdirstatefile(self, size=-1): try: with self._opendirstatefile() as fp: return fp.read(size) except IOError as err: if err.errno != errno.ENOENT: raise # File doesn't exist, so the current state is empty return b'' def setparents(self, p1, p2, fold_p2=False): self._parents = (p1, p2) self._dirtyparents = True copies = {} if fold_p2: # Collect into an intermediate list to avoid a `RuntimeError` # exception due to mutation during iteration. # TODO: move this the whole loop to Rust where `iter_mut` # enables in-place mutation of elements of a collection while # iterating it, without mutating the collection itself. candidatefiles = [ (f, s) for f, s in self._rustmap.items() if s.merged or s.from_p2 ] for f, s in candidatefiles: # Discard "merged" markers when moving away from a merge state if s.merged: source = self.copymap.get(f) if source: copies[f] = source self.reset_state( f, wc_tracked=True, p1_tracked=True, possibly_dirty=True, ) # Also fix up otherparent markers elif s.from_p2: source = self.copymap.get(f) if source: copies[f] = source self.reset_state( f, p1_tracked=False, wc_tracked=True, ) return copies def parents(self): if not self._parents: if self._use_dirstate_v2: self._parents = self.docket.parents else: read_len = self._nodelen * 2 st = self._readdirstatefile(read_len) l = len(st) if l == read_len: self._parents = ( st[: self._nodelen], st[self._nodelen : 2 * self._nodelen], ) elif l == 0: self._parents = ( self._nodeconstants.nullid, self._nodeconstants.nullid, ) else: raise error.Abort( _(b'working directory state appears damaged!') ) return self._parents @property def docket(self): if not self._docket: if not self._use_dirstate_v2: raise error.ProgrammingError( b'dirstate only has a docket in v2 format' ) self._docket = docketmod.DirstateDocket.parse( self._readdirstatefile(), self._nodeconstants ) return self._docket @propertycache def _rustmap(self): """ Fills the Dirstatemap when called. """ # ignore HG_PENDING because identity is used only for writing self.identity = util.filestat.frompath( self._opener.join(self._filename) ) if self._use_dirstate_v2: if self.docket.uuid: # TODO: use mmap when possible data = self._opener.read(self.docket.data_filename()) else: data = b'' self._rustmap = rustmod.DirstateMap.new_v2( data, self.docket.data_size, self.docket.tree_metadata ) parents = self.docket.parents else: self._rustmap, parents = rustmod.DirstateMap.new_v1( self._readdirstatefile() ) if parents and not self._dirtyparents: self.setparents(*parents) self.__contains__ = self._rustmap.__contains__ self.__getitem__ = self._rustmap.__getitem__ self.get = self._rustmap.get return self._rustmap def write(self, tr, st, now): if not self._use_dirstate_v2: p1, p2 = self.parents() packed = self._rustmap.write_v1(p1, p2, now) st.write(packed) st.close() self._dirtyparents = False return # We can only append to an existing data file if there is one can_append = self.docket.uuid is not None packed, meta, append = self._rustmap.write_v2(now, can_append) if append: docket = self.docket data_filename = docket.data_filename() if tr: tr.add(data_filename, docket.data_size) with self._opener(data_filename, b'r+b') as fp: fp.seek(docket.data_size) assert fp.tell() == docket.data_size written = fp.write(packed) if written is not None: # py2 may return None assert written == len(packed), (written, len(packed)) docket.data_size += len(packed) docket.parents = self.parents() docket.tree_metadata = meta st.write(docket.serialize()) st.close() else: old_docket = self.docket new_docket = docketmod.DirstateDocket.with_new_uuid( self.parents(), len(packed), meta ) data_filename = new_docket.data_filename() if tr: tr.add(data_filename, 0) self._opener.write(data_filename, packed) # Write the new docket after the new data file has been # written. Because `st` was opened with `atomictemp=True`, # the actual `.hg/dirstate` file is only affected on close. st.write(new_docket.serialize()) st.close() # Remove the old data file after the new docket pointing to # the new data file was written. if old_docket.uuid: data_filename = old_docket.data_filename() unlink = lambda _tr=None: self._opener.unlink(data_filename) if tr: category = b"dirstate-v2-clean-" + old_docket.uuid tr.addpostclose(category, unlink) else: unlink() self._docket = new_docket # Reload from the newly-written file util.clearcachedproperty(self, b"_rustmap") self._dirtyparents = False @propertycache def filefoldmap(self): """Returns a dictionary mapping normalized case paths to their non-normalized versions. """ return self._rustmap.filefoldmapasdict() def hastrackeddir(self, d): return self._rustmap.hastrackeddir(d) def hasdir(self, d): return self._rustmap.hasdir(d) @propertycache def identity(self): self._rustmap return self.identity @propertycache def dirfoldmap(self): f = {} normcase = util.normcase for name in self._rustmap.tracked_dirs(): f[normcase(name)] = name return f def set_possibly_dirty(self, filename): """record that the current state of the file on disk is unknown""" entry = self[filename] entry.set_possibly_dirty() self._rustmap.set_dirstate_item(filename, entry) def set_clean(self, filename, mode, size, mtime): """mark a file as back to a clean state""" entry = self[filename] mtime = mtime & rangemask size = size & rangemask entry.set_clean(mode, size, mtime) self._rustmap.set_dirstate_item(filename, entry) self._rustmap.copymap().pop(filename, None) def __setitem__(self, key, value): assert isinstance(value, DirstateItem) self._rustmap.set_dirstate_item(key, value)