# localrepo.py - read/write repository class for mercurial
#
# Copyright 2005-2007 Matt Mackall <mpm@selenic.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 node import bin, hex, nullid, nullrev, short
from i18n import _
import repo, changegroup, subrepo
import changelog, dirstate, filelog, manifest, context
import lock, transaction, store, encoding
import util, extensions, hook, error
import match as match_
import merge as merge_
import tags as tags_
from lock import release
import weakref, stat, errno, os, time, inspect
propertycache = util.propertycache
class localrepository(repo.repository):
capabilities = set(('lookup', 'changegroupsubset', 'branchmap'))
supported = set('revlogv1 store fncache shared'.split())
def __init__(self, baseui, path=None, create=0):
repo.repository.__init__(self)
self.root = os.path.realpath(path)
self.path = os.path.join(self.root, ".hg")
self.origroot = path
self.opener = util.opener(self.path)
self.wopener = util.opener(self.root)
self.baseui = baseui
self.ui = baseui.copy()
try:
self.ui.readconfig(self.join("hgrc"), self.root)
extensions.loadall(self.ui)
except IOError:
pass
if not os.path.isdir(self.path):
if create:
if not os.path.exists(path):
os.mkdir(path)
os.mkdir(self.path)
requirements = ["revlogv1"]
if self.ui.configbool('format', 'usestore', True):
os.mkdir(os.path.join(self.path, "store"))
requirements.append("store")
if self.ui.configbool('format', 'usefncache', True):
requirements.append("fncache")
# create an invalid changelog
self.opener("00changelog.i", "a").write(
'\0\0\0\2' # represents revlogv2
' dummy changelog to prevent using the old repo layout'
)
reqfile = self.opener("requires", "w")
for r in requirements:
reqfile.write("%s\n" % r)
reqfile.close()
else:
raise error.RepoError(_("repository %s not found") % path)
elif create:
raise error.RepoError(_("repository %s already exists") % path)
else:
# find requirements
requirements = set()
try:
requirements = set(self.opener("requires").read().splitlines())
except IOError, inst:
if inst.errno != errno.ENOENT:
raise
for r in requirements - self.supported:
raise error.RepoError(_("requirement '%s' not supported") % r)
self.sharedpath = self.path
try:
s = os.path.realpath(self.opener("sharedpath").read())
if not os.path.exists(s):
raise error.RepoError(
_('.hg/sharedpath points to nonexistent directory %s') % s)
self.sharedpath = s
except IOError, inst:
if inst.errno != errno.ENOENT:
raise
self.store = store.store(requirements, self.sharedpath, util.opener)
self.spath = self.store.path
self.sopener = self.store.opener
self.sjoin = self.store.join
self.opener.createmode = self.store.createmode
# These two define the set of tags for this repository. _tags
# maps tag name to node; _tagtypes maps tag name to 'global' or
# 'local'. (Global tags are defined by .hgtags across all
# heads, and local tags are defined in .hg/localtags.) They
# constitute the in-memory cache of tags.
self._tags = None
self._tagtypes = None
self._branchcache = None # in UTF-8
self._branchcachetip = None
self.nodetagscache = None
self.filterpats = {}
self._datafilters = {}
self._transref = self._lockref = self._wlockref = None
@propertycache
def changelog(self):
c = changelog.changelog(self.sopener)
if 'HG_PENDING' in os.environ:
p = os.environ['HG_PENDING']
if p.startswith(self.root):
c.readpending('00changelog.i.a')
self.sopener.defversion = c.version
return c
@propertycache
def manifest(self):
return manifest.manifest(self.sopener)
@propertycache
def dirstate(self):
return dirstate.dirstate(self.opener, self.ui, self.root)
def __getitem__(self, changeid):
if changeid is None:
return context.workingctx(self)
return context.changectx(self, changeid)
def __nonzero__(self):
return True
def __len__(self):
return len(self.changelog)
def __iter__(self):
for i in xrange(len(self)):
yield i
def url(self):
return 'file:' + self.root
def hook(self, name, throw=False, **args):
return hook.hook(self.ui, self, name, throw, **args)
tag_disallowed = ':\r\n'
def _tag(self, names, node, message, local, user, date, extra={}):
if isinstance(names, str):
allchars = names
names = (names,)
else:
allchars = ''.join(names)
for c in self.tag_disallowed:
if c in allchars:
raise util.Abort(_('%r cannot be used in a tag name') % c)
for name in names:
self.hook('pretag', throw=True, node=hex(node), tag=name,
local=local)
def writetags(fp, names, munge, prevtags):
fp.seek(0, 2)
if prevtags and prevtags[-1] != '\n':
fp.write('\n')
for name in names:
m = munge and munge(name) or name
if self._tagtypes and name in self._tagtypes:
old = self._tags.get(name, nullid)
fp.write('%s %s\n' % (hex(old), m))
fp.write('%s %s\n' % (hex(node), m))
fp.close()
prevtags = ''
if local:
try:
fp = self.opener('localtags', 'r+')
except IOError:
fp = self.opener('localtags', 'a')
else:
prevtags = fp.read()
# local tags are stored in the current charset
writetags(fp, names, None, prevtags)
for name in names:
self.hook('tag', node=hex(node), tag=name, local=local)
return
try:
fp = self.wfile('.hgtags', 'rb+')
except IOError:
fp = self.wfile('.hgtags', 'ab')
else:
prevtags = fp.read()
# committed tags are stored in UTF-8
writetags(fp, names, encoding.fromlocal, prevtags)
if '.hgtags' not in self.dirstate:
self.add(['.hgtags'])
m = match_.exact(self.root, '', ['.hgtags'])
tagnode = self.commit(message, user, date, extra=extra, match=m)
for name in names:
self.hook('tag', node=hex(node), tag=name, local=local)
return tagnode
def tag(self, names, node, message, local, user, date):
'''tag a revision with one or more symbolic names.
names is a list of strings or, when adding a single tag, names may be a
string.
if local is True, the tags are stored in a per-repository file.
otherwise, they are stored in the .hgtags file, and a new
changeset is committed with the change.
keyword arguments:
local: whether to store tags in non-version-controlled file
(default False)
message: commit message to use if committing
user: name of user to use if committing
date: date tuple to use if committing'''
for x in self.status()[:5]:
if '.hgtags' in x:
raise util.Abort(_('working copy of .hgtags is changed '
'(please commit .hgtags manually)'))
self.tags() # instantiate the cache
self._tag(names, node, message, local, user, date)
def tags(self):
'''return a mapping of tag to node'''
if self._tags is None:
(self._tags, self._tagtypes) = self._findtags()
return self._tags
def _findtags(self):
'''Do the hard work of finding tags. Return a pair of dicts
(tags, tagtypes) where tags maps tag name to node, and tagtypes
maps tag name to a string like \'global\' or \'local\'.
Subclasses or extensions are free to add their own tags, but
should be aware that the returned dicts will be retained for the
duration of the localrepo object.'''
# XXX what tagtype should subclasses/extensions use? Currently
# mq and bookmarks add tags, but do not set the tagtype at all.
# Should each extension invent its own tag type? Should there
# be one tagtype for all such "virtual" tags? Or is the status
# quo fine?
alltags = {} # map tag name to (node, hist)
tagtypes = {}
tags_.findglobaltags(self.ui, self, alltags, tagtypes)
tags_.readlocaltags(self.ui, self, alltags, tagtypes)
# Build the return dicts. Have to re-encode tag names because
# the tags module always uses UTF-8 (in order not to lose info
# writing to the cache), but the rest of Mercurial wants them in
# local encoding.
tags = {}
for (name, (node, hist)) in alltags.iteritems():
if node != nullid:
tags[encoding.tolocal(name)] = node
tags['tip'] = self.changelog.tip()
tagtypes = dict([(encoding.tolocal(name), value)
for (name, value) in tagtypes.iteritems()])
return (tags, tagtypes)
def tagtype(self, tagname):
'''
return the type of the given tag. result can be:
'local' : a local tag
'global' : a global tag
None : tag does not exist
'''
self.tags()
return self._tagtypes.get(tagname)
def tagslist(self):
'''return a list of tags ordered by revision'''
l = []
for t, n in self.tags().iteritems():
try:
r = self.changelog.rev(n)
except:
r = -2 # sort to the beginning of the list if unknown
l.append((r, t, n))
return [(t, n) for r, t, n in sorted(l)]
def nodetags(self, node):
'''return the tags associated with a node'''
if not self.nodetagscache:
self.nodetagscache = {}
for t, n in self.tags().iteritems():
self.nodetagscache.setdefault(n, []).append(t)
return self.nodetagscache.get(node, [])
def _branchtags(self, partial, lrev):
# TODO: rename this function?
tiprev = len(self) - 1
if lrev != tiprev:
self._updatebranchcache(partial, lrev+1, tiprev+1)
self._writebranchcache(partial, self.changelog.tip(), tiprev)
return partial
def branchmap(self):
tip = self.changelog.tip()
if self._branchcache is not None and self._branchcachetip == tip:
return self._branchcache
oldtip = self._branchcachetip
self._branchcachetip = tip
if oldtip is None or oldtip not in self.changelog.nodemap:
partial, last, lrev = self._readbranchcache()
else:
lrev = self.changelog.rev(oldtip)
partial = self._branchcache
self._branchtags(partial, lrev)
# this private cache holds all heads (not just tips)
self._branchcache = partial
return self._branchcache
def branchtags(self):
'''return a dict where branch names map to the tipmost head of
the branch, open heads come before closed'''
bt = {}
for bn, heads in self.branchmap().iteritems():
head = None
for i in range(len(heads)-1, -1, -1):
h = heads[i]
if 'close' not in self.changelog.read(h)[5]:
head = h
break
# no open heads were found
if head is None:
head = heads[-1]
bt[bn] = head
return bt
def _readbranchcache(self):
partial = {}
try:
f = self.opener("branchheads.cache")
lines = f.read().split('\n')
f.close()
except (IOError, OSError):
return {}, nullid, nullrev
try:
last, lrev = lines.pop(0).split(" ", 1)
last, lrev = bin(last), int(lrev)
if lrev >= len(self) or self[lrev].node() != last:
# invalidate the cache
raise ValueError('invalidating branch cache (tip differs)')
for l in lines:
if not l: continue
node, label = l.split(" ", 1)
partial.setdefault(label.strip(), []).append(bin(node))
except KeyboardInterrupt:
raise
except Exception, inst:
if self.ui.debugflag:
self.ui.warn(str(inst), '\n')
partial, last, lrev = {}, nullid, nullrev
return partial, last, lrev
def _writebranchcache(self, branches, tip, tiprev):
try:
f = self.opener("branchheads.cache", "w", atomictemp=True)
f.write("%s %s\n" % (hex(tip), tiprev))
for label, nodes in branches.iteritems():
for node in nodes:
f.write("%s %s\n" % (hex(node), label))
f.rename()
except (IOError, OSError):
pass
def _updatebranchcache(self, partial, start, end):
# collect new branch entries
newbranches = {}
for r in xrange(start, end):
c = self[r]
newbranches.setdefault(c.branch(), []).append(c.node())
# if older branchheads are reachable from new ones, they aren't
# really branchheads. Note checking parents is insufficient:
# 1 (branch a) -> 2 (branch b) -> 3 (branch a)
for branch, newnodes in newbranches.iteritems():
bheads = partial.setdefault(branch, [])
bheads.extend(newnodes)
if len(bheads) < 2:
continue
newbheads = []
# starting from tip means fewer passes over reachable
while newnodes:
latest = newnodes.pop()
if latest not in bheads:
continue
minbhrev = self[min([self[bh].rev() for bh in bheads])].node()
reachable = self.changelog.reachable(latest, minbhrev)
bheads = [b for b in bheads if b not in reachable]
newbheads.insert(0, latest)
bheads.extend(newbheads)
partial[branch] = bheads
def lookup(self, key):
if isinstance(key, int):
return self.changelog.node(key)
elif key == '.':
return self.dirstate.parents()[0]
elif key == 'null':
return nullid
elif key == 'tip':
return self.changelog.tip()
n = self.changelog._match(key)
if n:
return n
if key in self.tags():
return self.tags()[key]
if key in self.branchtags():
return self.branchtags()[key]
n = self.changelog._partialmatch(key)
if n:
return n
# can't find key, check if it might have come from damaged dirstate
if key in self.dirstate.parents():
raise error.Abort(_("working directory has unknown parent '%s'!")
% short(key))
try:
if len(key) == 20:
key = hex(key)
except:
pass
raise error.RepoLookupError(_("unknown revision '%s'") % key)
def local(self):
return True
def join(self, f):
return os.path.join(self.path, f)
def wjoin(self, f):
return os.path.join(self.root, f)
def rjoin(self, f):
return os.path.join(self.root, util.pconvert(f))
def file(self, f):
if f[0] == '/':
f = f[1:]
return filelog.filelog(self.sopener, f)
def changectx(self, changeid):
return self[changeid]
def parents(self, changeid=None):
'''get list of changectxs for parents of changeid'''
return self[changeid].parents()
def filectx(self, path, changeid=None, fileid=None):
"""changeid can be a changeset revision, node, or tag.
fileid can be a file revision or node."""
return context.filectx(self, path, changeid, fileid)
def getcwd(self):
return self.dirstate.getcwd()
def pathto(self, f, cwd=None):
return self.dirstate.pathto(f, cwd)
def wfile(self, f, mode='r'):
return self.wopener(f, mode)
def _link(self, f):
return os.path.islink(self.wjoin(f))
def _filter(self, filter, filename, data):
if filter not in self.filterpats:
l = []
for pat, cmd in self.ui.configitems(filter):
if cmd == '!':
continue
mf = match_.match(self.root, '', [pat])
fn = None
params = cmd
for name, filterfn in self._datafilters.iteritems():
if cmd.startswith(name):
fn = filterfn
params = cmd[len(name):].lstrip()
break
if not fn:
fn = lambda s, c, **kwargs: util.filter(s, c)
# Wrap old filters not supporting keyword arguments
if not inspect.getargspec(fn)[2]:
oldfn = fn
fn = lambda s, c, **kwargs: oldfn(s, c)
l.append((mf, fn, params))
self.filterpats[filter] = l
for mf, fn, cmd in self.filterpats[filter]:
if mf(filename):
self.ui.debug("filtering %s through %s\n" % (filename, cmd))
data = fn(data, cmd, ui=self.ui, repo=self, filename=filename)
break
return data
def adddatafilter(self, name, filter):
self._datafilters[name] = filter
def wread(self, filename):
if self._link(filename):
data = os.readlink(self.wjoin(filename))
else:
data = self.wopener(filename, 'r').read()
return self._filter("encode", filename, data)
def wwrite(self, filename, data, flags):
data = self._filter("decode", filename, data)
try:
os.unlink(self.wjoin(filename))
except OSError:
pass
if 'l' in flags:
self.wopener.symlink(data, filename)
else:
self.wopener(filename, 'w').write(data)
if 'x' in flags:
util.set_flags(self.wjoin(filename), False, True)
def wwritedata(self, filename, data):
return self._filter("decode", filename, data)
def transaction(self):
tr = self._transref and self._transref() or None
if tr and tr.running():
return tr.nest()
# abort here if the journal already exists
if os.path.exists(self.sjoin("journal")):
raise error.RepoError(_("abandoned transaction found - run hg recover"))
# save dirstate for rollback
try:
ds = self.opener("dirstate").read()
except IOError:
ds = ""
self.opener("journal.dirstate", "w").write(ds)
self.opener("journal.branch", "w").write(self.dirstate.branch())
renames = [(self.sjoin("journal"), self.sjoin("undo")),
(self.join("journal.dirstate"), self.join("undo.dirstate")),
(self.join("journal.branch"), self.join("undo.branch"))]
tr = transaction.transaction(self.ui.warn, self.sopener,
self.sjoin("journal"),
aftertrans(renames),
self.store.createmode)
self._transref = weakref.ref(tr)
return tr
def recover(self):
lock = self.lock()
try:
if os.path.exists(self.sjoin("journal")):
self.ui.status(_("rolling back interrupted transaction\n"))
transaction.rollback(self.sopener, self.sjoin("journal"), self.ui.warn)
self.invalidate()
return True
else:
self.ui.warn(_("no interrupted transaction available\n"))
return False
finally:
lock.release()
def rollback(self):
wlock = lock = None
try:
wlock = self.wlock()
lock = self.lock()
if os.path.exists(self.sjoin("undo")):
self.ui.status(_("rolling back last transaction\n"))
transaction.rollback(self.sopener, self.sjoin("undo"), self.ui.warn)
util.rename(self.join("undo.dirstate"), self.join("dirstate"))
try:
branch = self.opener("undo.branch").read()
self.dirstate.setbranch(branch)
except IOError:
self.ui.warn(_("Named branch could not be reset, "
"current branch still is: %s\n")
% encoding.tolocal(self.dirstate.branch()))
self.invalidate()
self.dirstate.invalidate()
self.destroyed()
else:
self.ui.warn(_("no rollback information available\n"))
finally:
release(lock, wlock)
def invalidate(self):
for a in "changelog manifest".split():
if a in self.__dict__:
delattr(self, a)
self._tags = None
self._tagtypes = None
self.nodetagscache = None
self._branchcache = None # in UTF-8
self._branchcachetip = None
def _lock(self, lockname, wait, releasefn, acquirefn, desc):
try:
l = lock.lock(lockname, 0, releasefn, desc=desc)
except error.LockHeld, inst:
if not wait:
raise
self.ui.warn(_("waiting for lock on %s held by %r\n") %
(desc, inst.locker))
# default to 600 seconds timeout
l = lock.lock(lockname, int(self.ui.config("ui", "timeout", "600")),
releasefn, desc=desc)
if acquirefn:
acquirefn()
return l
def lock(self, wait=True):
'''Lock the repository store (.hg/store) and return a weak reference
to the lock. Use this before modifying the store (e.g. committing or
stripping). If you are opening a transaction, get a lock as well.)'''
l = self._lockref and self._lockref()
if l is not None and l.held:
l.lock()
return l
l = self._lock(self.sjoin("lock"), wait, None, self.invalidate,
_('repository %s') % self.origroot)
self._lockref = weakref.ref(l)
return l
def wlock(self, wait=True):
'''Lock the non-store parts of the repository (everything under
.hg except .hg/store) and return a weak reference to the lock.
Use this before modifying files in .hg.'''
l = self._wlockref and self._wlockref()
if l is not None and l.held:
l.lock()
return l
l = self._lock(self.join("wlock"), wait, self.dirstate.write,
self.dirstate.invalidate, _('working directory of %s') %
self.origroot)
self._wlockref = weakref.ref(l)
return l
def _filecommit(self, fctx, manifest1, manifest2, linkrev, tr, changelist):
"""
commit an individual file as part of a larger transaction
"""
fname = fctx.path()
text = fctx.data()
flog = self.file(fname)
fparent1 = manifest1.get(fname, nullid)
fparent2 = fparent2o = manifest2.get(fname, nullid)
meta = {}
copy = fctx.renamed()
if copy and copy[0] != fname:
# Mark the new revision of this file as a copy of another
# file. This copy data will effectively act as a parent
# of this new revision. If this is a merge, the first
# parent will be the nullid (meaning "look up the copy data")
# and the second one will be the other parent. For example:
#
# 0 --- 1 --- 3 rev1 changes file foo
# \ / rev2 renames foo to bar and changes it
# \- 2 -/ rev3 should have bar with all changes and
# should record that bar descends from
# bar in rev2 and foo in rev1
#
# this allows this merge to succeed:
#
# 0 --- 1 --- 3 rev4 reverts the content change from rev2
# \ / merging rev3 and rev4 should use bar@rev2
# \- 2 --- 4 as the merge base
#
cfname = copy[0]
crev = manifest1.get(cfname)
newfparent = fparent2
if manifest2: # branch merge
if fparent2 == nullid or crev is None: # copied on remote side
if cfname in manifest2:
crev = manifest2[cfname]
newfparent = fparent1
# find source in nearest ancestor if we've lost track
if not crev:
self.ui.debug(" %s: searching for copy revision for %s\n" %
(fname, cfname))
for ancestor in self['.'].ancestors():
if cfname in ancestor:
crev = ancestor[cfname].filenode()
break
self.ui.debug(" %s: copy %s:%s\n" % (fname, cfname, hex(crev)))
meta["copy"] = cfname
meta["copyrev"] = hex(crev)
fparent1, fparent2 = nullid, newfparent
elif fparent2 != nullid:
# is one parent an ancestor of the other?
fparentancestor = flog.ancestor(fparent1, fparent2)
if fparentancestor == fparent1:
fparent1, fparent2 = fparent2, nullid
elif fparentancestor == fparent2:
fparent2 = nullid
# is the file changed?
if fparent2 != nullid or flog.cmp(fparent1, text) or meta:
changelist.append(fname)
return flog.add(text, meta, tr, linkrev, fparent1, fparent2)
# are just the flags changed during merge?
if fparent1 != fparent2o and manifest1.flags(fname) != fctx.flags():
changelist.append(fname)
return fparent1
def commit(self, text="", user=None, date=None, match=None, force=False,
editor=False, extra={}):
"""Add a new revision to current repository.
Revision information is gathered from the working directory,
match can be used to filter the committed files. If editor is
supplied, it is called to get a commit message.
"""
def fail(f, msg):
raise util.Abort('%s: %s' % (f, msg))
if not match:
match = match_.always(self.root, '')
if not force:
vdirs = []
match.dir = vdirs.append
match.bad = fail
wlock = self.wlock()
try:
p1, p2 = self.dirstate.parents()
wctx = self[None]
if (not force and p2 != nullid and match and
(match.files() or match.anypats())):
raise util.Abort(_('cannot partially commit a merge '
'(do not specify files or patterns)'))
changes = self.status(match=match, clean=force)
if force:
changes[0].extend(changes[6]) # mq may commit unchanged files
# check subrepos
subs = []
for s in wctx.substate:
if match(s) and wctx.sub(s).dirty():
subs.append(s)
if subs and '.hgsubstate' not in changes[0]:
changes[0].insert(0, '.hgsubstate')
# make sure all explicit patterns are matched
if not force and match.files():
matched = set(changes[0] + changes[1] + changes[2])
for f in match.files():
if f == '.' or f in matched or f in wctx.substate:
continue
if f in changes[3]: # missing
fail(f, _('file not found!'))
if f in vdirs: # visited directory
d = f + '/'
for mf in matched:
if mf.startswith(d):
break
else:
fail(f, _("no match under directory!"))
elif f not in self.dirstate:
fail(f, _("file not tracked!"))
if (not force and not extra.get("close") and p2 == nullid
and not (changes[0] or changes[1] or changes[2])
and self[None].branch() == self['.'].branch()):
return None
ms = merge_.mergestate(self)
for f in changes[0]:
if f in ms and ms[f] == 'u':
raise util.Abort(_("unresolved merge conflicts "
"(see hg resolve)"))
cctx = context.workingctx(self, (p1, p2), text, user, date,
extra, changes)
if editor:
cctx._text = editor(self, cctx, subs)
# commit subs
if subs:
state = wctx.substate.copy()
for s in subs:
self.ui.status(_('committing subrepository %s\n') % s)
sr = wctx.sub(s).commit(cctx._text, user, date)
state[s] = (state[s][0], sr)
subrepo.writestate(self, state)
ret = self.commitctx(cctx, True)
# update dirstate and mergestate
for f in changes[0] + changes[1]:
self.dirstate.normal(f)
for f in changes[2]:
self.dirstate.forget(f)
self.dirstate.setparents(ret)
ms.reset()
return ret
finally:
wlock.release()
def commitctx(self, ctx, error=False):
"""Add a new revision to current repository.
Revision information is passed via the context argument.
"""
tr = lock = None
removed = ctx.removed()
p1, p2 = ctx.p1(), ctx.p2()
m1 = p1.manifest().copy()
m2 = p2.manifest()
user = ctx.user()
xp1, xp2 = p1.hex(), p2 and p2.hex() or ''
self.hook("precommit", throw=True, parent1=xp1, parent2=xp2)
lock = self.lock()
try:
tr = self.transaction()
trp = weakref.proxy(tr)
# check in files
new = {}
changed = []
linkrev = len(self)
for f in sorted(ctx.modified() + ctx.added()):
self.ui.note(f + "\n")
try:
fctx = ctx[f]
new[f] = self._filecommit(fctx, m1, m2, linkrev, trp,
changed)
m1.set(f, fctx.flags())
except (OSError, IOError):
if error:
self.ui.warn(_("trouble committing %s!\n") % f)
raise
else:
removed.append(f)
# update manifest
m1.update(new)
removed = [f for f in sorted(removed) if f in m1 or f in m2]
drop = [f for f in removed if f in m1]
for f in drop:
del m1[f]
mn = self.manifest.add(m1, trp, linkrev, p1.manifestnode(),
p2.manifestnode(), (new, drop))
# update changelog
self.changelog.delayupdate()
n = self.changelog.add(mn, changed + removed, ctx.description(),
trp, p1.node(), p2.node(),
user, ctx.date(), ctx.extra().copy())
p = lambda: self.changelog.writepending() and self.root or ""
self.hook('pretxncommit', throw=True, node=hex(n), parent1=xp1,
parent2=xp2, pending=p)
self.changelog.finalize(trp)
tr.close()
if self._branchcache:
self.branchtags()
self.hook("commit", node=hex(n), parent1=xp1, parent2=xp2)
return n
finally:
del tr
lock.release()
def destroyed(self):
'''Inform the repository that nodes have been destroyed.
Intended for use by strip and rollback, so there's a common
place for anything that has to be done after destroying history.'''
# XXX it might be nice if we could take the list of destroyed
# nodes, but I don't see an easy way for rollback() to do that
# Ensure the persistent tag cache is updated. Doing it now
# means that the tag cache only has to worry about destroyed
# heads immediately after a strip/rollback. That in turn
# guarantees that "cachetip == currenttip" (comparing both rev
# and node) always means no nodes have been added or destroyed.
# XXX this is suboptimal when qrefresh'ing: we strip the current
# head, refresh the tag cache, then immediately add a new head.
# But I think doing it this way is necessary for the "instant
# tag cache retrieval" case to work.
tags_.findglobaltags(self.ui, self, {}, {})
def walk(self, match, node=None):
'''
walk recursively through the directory tree or a given
changeset, finding all files matched by the match
function
'''
return self[node].walk(match)
def status(self, node1='.', node2=None, match=None,
ignored=False, clean=False, unknown=False):
"""return status of files between two nodes or node and working directory
If node1 is None, use the first dirstate parent instead.
If node2 is None, compare node1 with working directory.
"""
def mfmatches(ctx):
mf = ctx.manifest().copy()
for fn in mf.keys():
if not match(fn):
del mf[fn]
return mf
if isinstance(node1, context.changectx):
ctx1 = node1
else:
ctx1 = self[node1]
if isinstance(node2, context.changectx):
ctx2 = node2
else:
ctx2 = self[node2]
working = ctx2.rev() is None
parentworking = working and ctx1 == self['.']
match = match or match_.always(self.root, self.getcwd())
listignored, listclean, listunknown = ignored, clean, unknown
# load earliest manifest first for caching reasons
if not working and ctx2.rev() < ctx1.rev():
ctx2.manifest()
if not parentworking:
def bad(f, msg):
if f not in ctx1:
self.ui.warn('%s: %s\n' % (self.dirstate.pathto(f), msg))
match.bad = bad
if working: # we need to scan the working dir
s = self.dirstate.status(match, listignored, listclean, listunknown)
cmp, modified, added, removed, deleted, unknown, ignored, clean = s
# check for any possibly clean files
if parentworking and cmp:
fixup = []
# do a full compare of any files that might have changed
for f in sorted(cmp):
if (f not in ctx1 or ctx2.flags(f) != ctx1.flags(f)
or ctx1[f].cmp(ctx2[f].data())):
modified.append(f)
else:
fixup.append(f)
if listclean:
clean += fixup
# update dirstate for files that are actually clean
if fixup:
try:
# updating the dirstate is optional
# so we don't wait on the lock
wlock = self.wlock(False)
try:
for f in fixup:
self.dirstate.normal(f)
finally:
wlock.release()
except error.LockError:
pass
if not parentworking:
mf1 = mfmatches(ctx1)
if working:
# we are comparing working dir against non-parent
# generate a pseudo-manifest for the working dir
mf2 = mfmatches(self['.'])
for f in cmp + modified + added:
mf2[f] = None
mf2.set(f, ctx2.flags(f))
for f in removed:
if f in mf2:
del mf2[f]
else:
# we are comparing two revisions
deleted, unknown, ignored = [], [], []
mf2 = mfmatches(ctx2)
modified, added, clean = [], [], []
for fn in mf2:
if fn in mf1:
if (mf1.flags(fn) != mf2.flags(fn) or
(mf1[fn] != mf2[fn] and
(mf2[fn] or ctx1[fn].cmp(ctx2[fn].data())))):
modified.append(fn)
elif listclean:
clean.append(fn)
del mf1[fn]
else:
added.append(fn)
removed = mf1.keys()
r = modified, added, removed, deleted, unknown, ignored, clean
[l.sort() for l in r]
return r
def add(self, list):
wlock = self.wlock()
try:
rejected = []
for f in list:
p = self.wjoin(f)
try:
st = os.lstat(p)
except:
self.ui.warn(_("%s does not exist!\n") % f)
rejected.append(f)
continue
if st.st_size > 10000000:
self.ui.warn(_("%s: files over 10MB may cause memory and"
" performance problems\n"
"(use 'hg revert %s' to unadd the file)\n")
% (f, f))
if not (stat.S_ISREG(st.st_mode) or stat.S_ISLNK(st.st_mode)):
self.ui.warn(_("%s not added: only files and symlinks "
"supported currently\n") % f)
rejected.append(p)
elif self.dirstate[f] in 'amn':
self.ui.warn(_("%s already tracked!\n") % f)
elif self.dirstate[f] == 'r':
self.dirstate.normallookup(f)
else:
self.dirstate.add(f)
return rejected
finally:
wlock.release()
def forget(self, list):
wlock = self.wlock()
try:
for f in list:
if self.dirstate[f] != 'a':
self.ui.warn(_("%s not added!\n") % f)
else:
self.dirstate.forget(f)
finally:
wlock.release()
def remove(self, list, unlink=False):
if unlink:
for f in list:
try:
util.unlink(self.wjoin(f))
except OSError, inst:
if inst.errno != errno.ENOENT:
raise
wlock = self.wlock()
try:
for f in list:
if unlink and os.path.exists(self.wjoin(f)):
self.ui.warn(_("%s still exists!\n") % f)
elif self.dirstate[f] == 'a':
self.dirstate.forget(f)
elif f not in self.dirstate:
self.ui.warn(_("%s not tracked!\n") % f)
else:
self.dirstate.remove(f)
finally:
wlock.release()
def undelete(self, list):
manifests = [self.manifest.read(self.changelog.read(p)[0])
for p in self.dirstate.parents() if p != nullid]
wlock = self.wlock()
try:
for f in list:
if self.dirstate[f] != 'r':
self.ui.warn(_("%s not removed!\n") % f)
else:
m = f in manifests[0] and manifests[0] or manifests[1]
t = self.file(f).read(m[f])
self.wwrite(f, t, m.flags(f))
self.dirstate.normal(f)
finally:
wlock.release()
def copy(self, source, dest):
p = self.wjoin(dest)
if not (os.path.exists(p) or os.path.islink(p)):
self.ui.warn(_("%s does not exist!\n") % dest)
elif not (os.path.isfile(p) or os.path.islink(p)):
self.ui.warn(_("copy failed: %s is not a file or a "
"symbolic link\n") % dest)
else:
wlock = self.wlock()
try:
if self.dirstate[dest] in '?r':
self.dirstate.add(dest)
self.dirstate.copy(source, dest)
finally:
wlock.release()
def heads(self, start=None):
heads = self.changelog.heads(start)
# sort the output in rev descending order
heads = [(-self.changelog.rev(h), h) for h in heads]
return [n for (r, n) in sorted(heads)]
def branchheads(self, branch=None, start=None, closed=False):
'''return a (possibly filtered) list of heads for the given branch
Heads are returned in topological order, from newest to oldest.
If branch is None, use the dirstate branch.
If start is not None, return only heads reachable from start.
If closed is True, return heads that are marked as closed as well.
'''
if branch is None:
branch = self[None].branch()
branches = self.branchmap()
if branch not in branches:
return []
# the cache returns heads ordered lowest to highest
bheads = list(reversed(branches[branch]))
if start is not None:
# filter out the heads that cannot be reached from startrev
fbheads = set(self.changelog.nodesbetween([start], bheads)[2])
bheads = [h for h in bheads if h in fbheads]
if not closed:
bheads = [h for h in bheads if
('close' not in self.changelog.read(h)[5])]
return bheads
def branches(self, nodes):
if not nodes:
nodes = [self.changelog.tip()]
b = []
for n in nodes:
t = n
while 1:
p = self.changelog.parents(n)
if p[1] != nullid or p[0] == nullid:
b.append((t, n, p[0], p[1]))
break
n = p[0]
return b
def between(self, pairs):
r = []
for top, bottom in pairs:
n, l, i = top, [], 0
f = 1
while n != bottom and n != nullid:
p = self.changelog.parents(n)[0]
if i == f:
l.append(n)
f = f * 2
n = p
i += 1
r.append(l)
return r
def findincoming(self, remote, base=None, heads=None, force=False):
"""Return list of roots of the subsets of missing nodes from remote
If base dict is specified, assume that these nodes and their parents
exist on the remote side and that no child of a node of base exists
in both remote and self.
Furthermore base will be updated to include the nodes that exists
in self and remote but no children exists in self and remote.
If a list of heads is specified, return only nodes which are heads
or ancestors of these heads.
All the ancestors of base are in self and in remote.
All the descendants of the list returned are missing in self.
(and so we know that the rest of the nodes are missing in remote, see
outgoing)
"""
return self.findcommonincoming(remote, base, heads, force)[1]
def findcommonincoming(self, remote, base=None, heads=None, force=False):
"""Return a tuple (common, missing roots, heads) used to identify
missing nodes from remote.
If base dict is specified, assume that these nodes and their parents
exist on the remote side and that no child of a node of base exists
in both remote and self.
Furthermore base will be updated to include the nodes that exists
in self and remote but no children exists in self and remote.
If a list of heads is specified, return only nodes which are heads
or ancestors of these heads.
All the ancestors of base are in self and in remote.
"""
m = self.changelog.nodemap
search = []
fetch = set()
seen = set()
seenbranch = set()
if base is None:
base = {}
if not heads:
heads = remote.heads()
if self.changelog.tip() == nullid:
base[nullid] = 1
if heads != [nullid]:
return [nullid], [nullid], list(heads)
return [nullid], [], []
# assume we're closer to the tip than the root
# and start by examining the heads
self.ui.status(_("searching for changes\n"))
unknown = []
for h in heads:
if h not in m:
unknown.append(h)
else:
base[h] = 1
heads = unknown
if not unknown:
return base.keys(), [], []
req = set(unknown)
reqcnt = 0
# search through remote branches
# a 'branch' here is a linear segment of history, with four parts:
# head, root, first parent, second parent
# (a branch always has two parents (or none) by definition)
unknown = remote.branches(unknown)
while unknown:
r = []
while unknown:
n = unknown.pop(0)
if n[0] in seen:
continue
self.ui.debug("examining %s:%s\n"
% (short(n[0]), short(n[1])))
if n[0] == nullid: # found the end of the branch
pass
elif n in seenbranch:
self.ui.debug("branch already found\n")
continue
elif n[1] and n[1] in m: # do we know the base?
self.ui.debug("found incomplete branch %s:%s\n"
% (short(n[0]), short(n[1])))
search.append(n[0:2]) # schedule branch range for scanning
seenbranch.add(n)
else:
if n[1] not in seen and n[1] not in fetch:
if n[2] in m and n[3] in m:
self.ui.debug("found new changeset %s\n" %
short(n[1]))
fetch.add(n[1]) # earliest unknown
for p in n[2:4]:
if p in m:
base[p] = 1 # latest known
for p in n[2:4]:
if p not in req and p not in m:
r.append(p)
req.add(p)
seen.add(n[0])
if r:
reqcnt += 1
self.ui.debug("request %d: %s\n" %
(reqcnt, " ".join(map(short, r))))
for p in xrange(0, len(r), 10):
for b in remote.branches(r[p:p+10]):
self.ui.debug("received %s:%s\n" %
(short(b[0]), short(b[1])))
unknown.append(b)
# do binary search on the branches we found
while search:
newsearch = []
reqcnt += 1
for n, l in zip(search, remote.between(search)):
l.append(n[1])
p = n[0]
f = 1
for i in l:
self.ui.debug("narrowing %d:%d %s\n" % (f, len(l), short(i)))
if i in m:
if f <= 2:
self.ui.debug("found new branch changeset %s\n" %
short(p))
fetch.add(p)
base[i] = 1
else:
self.ui.debug("narrowed branch search to %s:%s\n"
% (short(p), short(i)))
newsearch.append((p, i))
break
p, f = i, f * 2
search = newsearch
# sanity check our fetch list
for f in fetch:
if f in m:
raise error.RepoError(_("already have changeset ")
+ short(f[:4]))
if base.keys() == [nullid]:
if force:
self.ui.warn(_("warning: repository is unrelated\n"))
else:
raise util.Abort(_("repository is unrelated"))
self.ui.debug("found new changesets starting at " +
" ".join([short(f) for f in fetch]) + "\n")
self.ui.debug("%d total queries\n" % reqcnt)
return base.keys(), list(fetch), heads
def findoutgoing(self, remote, base=None, heads=None, force=False):
"""Return list of nodes that are roots of subsets not in remote
If base dict is specified, assume that these nodes and their parents
exist on the remote side.
If a list of heads is specified, return only nodes which are heads
or ancestors of these heads, and return a second element which
contains all remote heads which get new children.
"""
if base is None:
base = {}
self.findincoming(remote, base, heads, force=force)
self.ui.debug("common changesets up to "
+ " ".join(map(short, base.keys())) + "\n")
remain = set(self.changelog.nodemap)
# prune everything remote has from the tree
remain.remove(nullid)
remove = base.keys()
while remove:
n = remove.pop(0)
if n in remain:
remain.remove(n)
for p in self.changelog.parents(n):
remove.append(p)
# find every node whose parents have been pruned
subset = []
# find every remote head that will get new children
updated_heads = set()
for n in remain:
p1, p2 = self.changelog.parents(n)
if p1 not in remain and p2 not in remain:
subset.append(n)
if heads:
if p1 in heads:
updated_heads.add(p1)
if p2 in heads:
updated_heads.add(p2)
# this is the set of all roots we have to push
if heads:
return subset, list(updated_heads)
else:
return subset
def pull(self, remote, heads=None, force=False):
lock = self.lock()
try:
common, fetch, rheads = self.findcommonincoming(remote, heads=heads,
force=force)
if fetch == [nullid]:
self.ui.status(_("requesting all changes\n"))
if not fetch:
self.ui.status(_("no changes found\n"))
return 0
if heads is None and remote.capable('changegroupsubset'):
heads = rheads
if heads is None:
cg = remote.changegroup(fetch, 'pull')
else:
if not remote.capable('changegroupsubset'):
raise util.Abort(_("Partial pull cannot be done because "
"other repository doesn't support "
"changegroupsubset."))
cg = remote.changegroupsubset(fetch, heads, 'pull')
return self.addchangegroup(cg, 'pull', remote.url())
finally:
lock.release()
def push(self, remote, force=False, revs=None):
# there are two ways to push to remote repo:
#
# addchangegroup assumes local user can lock remote
# repo (local filesystem, old ssh servers).
#
# unbundle assumes local user cannot lock remote repo (new ssh
# servers, http servers).
if remote.capable('unbundle'):
return self.push_unbundle(remote, force, revs)
return self.push_addchangegroup(remote, force, revs)
def prepush(self, remote, force, revs):
'''Analyze the local and remote repositories and determine which
changesets need to be pushed to the remote. Return a tuple
(changegroup, remoteheads). changegroup is a readable file-like
object whose read() returns successive changegroup chunks ready to
be sent over the wire. remoteheads is the list of remote heads.
'''
common = {}
remote_heads = remote.heads()
inc = self.findincoming(remote, common, remote_heads, force=force)
update, updated_heads = self.findoutgoing(remote, common, remote_heads)
msng_cl, bases, heads = self.changelog.nodesbetween(update, revs)
def checkbranch(lheads, rheads, updatelb):
'''
check whether there are more local heads than remote heads on
a specific branch.
lheads: local branch heads
rheads: remote branch heads
updatelb: outgoing local branch bases
'''
warn = 0
if not revs and len(lheads) > len(rheads):
warn = 1
else:
# add local heads involved in the push
updatelheads = [self.changelog.heads(x, lheads)
for x in updatelb]
newheads = set(sum(updatelheads, [])) & set(lheads)
if not newheads:
return True
# add heads we don't have or that are not involved in the push
for r in rheads:
if r in self.changelog.nodemap:
desc = self.changelog.heads(r, heads)
l = [h for h in heads if h in desc]
if not l:
newheads.add(r)
else:
newheads.add(r)
if len(newheads) > len(rheads):
warn = 1
if warn:
if not rheads: # new branch requires --force
self.ui.warn(_("abort: push creates new"
" remote branch '%s'!\n") %
self[lheads[0]].branch())
else:
self.ui.warn(_("abort: push creates new remote heads!\n"))
self.ui.status(_("(did you forget to merge?"
" use push -f to force)\n"))
return False
return True
if not bases:
self.ui.status(_("no changes found\n"))
return None, 1
elif not force:
# Check for each named branch if we're creating new remote heads.
# To be a remote head after push, node must be either:
# - unknown locally
# - a local outgoing head descended from update
# - a remote head that's known locally and not
# ancestral to an outgoing head
#
# New named branches cannot be created without --force.
if remote_heads != [nullid]:
if remote.capable('branchmap'):
localhds = {}
if not revs:
localhds = self.branchmap()
else:
for n in heads:
branch = self[n].branch()
if branch in localhds:
localhds[branch].append(n)
else:
localhds[branch] = [n]
remotehds = remote.branchmap()
for lh in localhds:
if lh in remotehds:
rheads = remotehds[lh]
else:
rheads = []
lheads = localhds[lh]
if not checkbranch(lheads, rheads, update):
return None, 0
else:
if not checkbranch(heads, remote_heads, update):
return None, 0
if inc:
self.ui.warn(_("note: unsynced remote changes!\n"))
if revs is None:
# use the fast path, no race possible on push
nodes = self.changelog.findmissing(common.keys())
cg = self._changegroup(nodes, 'push')
else:
cg = self.changegroupsubset(update, revs, 'push')
return cg, remote_heads
def push_addchangegroup(self, remote, force, revs):
lock = remote.lock()
try:
ret = self.prepush(remote, force, revs)
if ret[0] is not None:
cg, remote_heads = ret
return remote.addchangegroup(cg, 'push', self.url())
return ret[1]
finally:
lock.release()
def push_unbundle(self, remote, force, revs):
# local repo finds heads on server, finds out what revs it
# must push. once revs transferred, if server finds it has
# different heads (someone else won commit/push race), server
# aborts.
ret = self.prepush(remote, force, revs)
if ret[0] is not None:
cg, remote_heads = ret
if force: remote_heads = ['force']
return remote.unbundle(cg, remote_heads, 'push')
return ret[1]
def changegroupinfo(self, nodes, source):
if self.ui.verbose or source == 'bundle':
self.ui.status(_("%d changesets found\n") % len(nodes))
if self.ui.debugflag:
self.ui.debug("list of changesets:\n")
for node in nodes:
self.ui.debug("%s\n" % hex(node))
def changegroupsubset(self, bases, heads, source, extranodes=None):
"""Compute a changegroup consisting of all the nodes that are
descendents of any of the bases and ancestors of any of the heads.
Return a chunkbuffer object whose read() method will return
successive changegroup chunks.
It is fairly complex as determining which filenodes and which
manifest nodes need to be included for the changeset to be complete
is non-trivial.
Another wrinkle is doing the reverse, figuring out which changeset in
the changegroup a particular filenode or manifestnode belongs to.
The caller can specify some nodes that must be included in the
changegroup using the extranodes argument. It should be a dict
where the keys are the filenames (or 1 for the manifest), and the
values are lists of (node, linknode) tuples, where node is a wanted
node and linknode is the changelog node that should be transmitted as
the linkrev.
"""
# Set up some initial variables
# Make it easy to refer to self.changelog
cl = self.changelog
# msng is short for missing - compute the list of changesets in this
# changegroup.
if not bases:
bases = [nullid]
msng_cl_lst, bases, heads = cl.nodesbetween(bases, heads)
if extranodes is None:
# can we go through the fast path ?
heads.sort()
allheads = self.heads()
allheads.sort()
if heads == allheads:
return self._changegroup(msng_cl_lst, source)
# slow path
self.hook('preoutgoing', throw=True, source=source)
self.changegroupinfo(msng_cl_lst, source)
# Some bases may turn out to be superfluous, and some heads may be
# too. nodesbetween will return the minimal set of bases and heads
# necessary to re-create the changegroup.
# Known heads are the list of heads that it is assumed the recipient
# of this changegroup will know about.
knownheads = set()
# We assume that all parents of bases are known heads.
for n in bases:
knownheads.update(cl.parents(n))
knownheads.discard(nullid)
knownheads = list(knownheads)
if knownheads:
# Now that we know what heads are known, we can compute which
# changesets are known. The recipient must know about all
# changesets required to reach the known heads from the null
# changeset.
has_cl_set, junk, junk = cl.nodesbetween(None, knownheads)
junk = None
# Transform the list into a set.
has_cl_set = set(has_cl_set)
else:
# If there were no known heads, the recipient cannot be assumed to
# know about any changesets.
has_cl_set = set()
# Make it easy to refer to self.manifest
mnfst = self.manifest
# We don't know which manifests are missing yet
msng_mnfst_set = {}
# Nor do we know which filenodes are missing.
msng_filenode_set = {}
junk = mnfst.index[len(mnfst) - 1] # Get around a bug in lazyindex
junk = None
# A changeset always belongs to itself, so the changenode lookup
# function for a changenode is identity.
def identity(x):
return x
# If we determine that a particular file or manifest node must be a
# node that the recipient of the changegroup will already have, we can
# also assume the recipient will have all the parents. This function
# prunes them from the set of missing nodes.
def prune_parents(revlog, hasset, msngset):
haslst = list(hasset)
haslst.sort(key=revlog.rev)
for node in haslst:
parentlst = [p for p in revlog.parents(node) if p != nullid]
while parentlst:
n = parentlst.pop()
if n not in hasset:
hasset.add(n)
p = [p for p in revlog.parents(n) if p != nullid]
parentlst.extend(p)
for n in hasset:
msngset.pop(n, None)
# This is a function generating function used to set up an environment
# for the inner function to execute in.
def manifest_and_file_collector(changedfileset):
# This is an information gathering function that gathers
# information from each changeset node that goes out as part of
# the changegroup. The information gathered is a list of which
# manifest nodes are potentially required (the recipient may
# already have them) and total list of all files which were
# changed in any changeset in the changegroup.
#
# We also remember the first changenode we saw any manifest
# referenced by so we can later determine which changenode 'owns'
# the manifest.
def collect_manifests_and_files(clnode):
c = cl.read(clnode)
for f in c[3]:
# This is to make sure we only have one instance of each
# filename string for each filename.
changedfileset.setdefault(f, f)
msng_mnfst_set.setdefault(c[0], clnode)
return collect_manifests_and_files
# Figure out which manifest nodes (of the ones we think might be part
# of the changegroup) the recipient must know about and remove them
# from the changegroup.
def prune_manifests():
has_mnfst_set = set()
for n in msng_mnfst_set:
# If a 'missing' manifest thinks it belongs to a changenode
# the recipient is assumed to have, obviously the recipient
# must have that manifest.
linknode = cl.node(mnfst.linkrev(mnfst.rev(n)))
if linknode in has_cl_set:
has_mnfst_set.add(n)
prune_parents(mnfst, has_mnfst_set, msng_mnfst_set)
# Use the information collected in collect_manifests_and_files to say
# which changenode any manifestnode belongs to.
def lookup_manifest_link(mnfstnode):
return msng_mnfst_set[mnfstnode]
# A function generating function that sets up the initial environment
# the inner function.
def filenode_collector(changedfiles):
next_rev = [0]
# This gathers information from each manifestnode included in the
# changegroup about which filenodes the manifest node references
# so we can include those in the changegroup too.
#
# It also remembers which changenode each filenode belongs to. It
# does this by assuming the a filenode belongs to the changenode
# the first manifest that references it belongs to.
def collect_msng_filenodes(mnfstnode):
r = mnfst.rev(mnfstnode)
if r == next_rev[0]:
# If the last rev we looked at was the one just previous,
# we only need to see a diff.
deltamf = mnfst.readdelta(mnfstnode)
# For each line in the delta
for f, fnode in deltamf.iteritems():
f = changedfiles.get(f, None)
# And if the file is in the list of files we care
# about.
if f is not None:
# Get the changenode this manifest belongs to
clnode = msng_mnfst_set[mnfstnode]
# Create the set of filenodes for the file if
# there isn't one already.
ndset = msng_filenode_set.setdefault(f, {})
# And set the filenode's changelog node to the
# manifest's if it hasn't been set already.
ndset.setdefault(fnode, clnode)
else:
# Otherwise we need a full manifest.
m = mnfst.read(mnfstnode)
# For every file in we care about.
for f in changedfiles:
fnode = m.get(f, None)
# If it's in the manifest
if fnode is not None:
# See comments above.
clnode = msng_mnfst_set[mnfstnode]
ndset = msng_filenode_set.setdefault(f, {})
ndset.setdefault(fnode, clnode)
# Remember the revision we hope to see next.
next_rev[0] = r + 1
return collect_msng_filenodes
# We have a list of filenodes we think we need for a file, lets remove
# all those we know the recipient must have.
def prune_filenodes(f, filerevlog):
msngset = msng_filenode_set[f]
hasset = set()
# If a 'missing' filenode thinks it belongs to a changenode we
# assume the recipient must have, then the recipient must have
# that filenode.
for n in msngset:
clnode = cl.node(filerevlog.linkrev(filerevlog.rev(n)))
if clnode in has_cl_set:
hasset.add(n)
prune_parents(filerevlog, hasset, msngset)
# A function generator function that sets up the a context for the
# inner function.
def lookup_filenode_link_func(fname):
msngset = msng_filenode_set[fname]
# Lookup the changenode the filenode belongs to.
def lookup_filenode_link(fnode):
return msngset[fnode]
return lookup_filenode_link
# Add the nodes that were explicitly requested.
def add_extra_nodes(name, nodes):
if not extranodes or name not in extranodes:
return
for node, linknode in extranodes[name]:
if node not in nodes:
nodes[node] = linknode
# Now that we have all theses utility functions to help out and
# logically divide up the task, generate the group.
def gengroup():
# The set of changed files starts empty.
changedfiles = {}
# Create a changenode group generator that will call our functions
# back to lookup the owning changenode and collect information.
group = cl.group(msng_cl_lst, identity,
manifest_and_file_collector(changedfiles))
for chnk in group:
yield chnk
# The list of manifests has been collected by the generator
# calling our functions back.
prune_manifests()
add_extra_nodes(1, msng_mnfst_set)
msng_mnfst_lst = msng_mnfst_set.keys()
# Sort the manifestnodes by revision number.
msng_mnfst_lst.sort(key=mnfst.rev)
# Create a generator for the manifestnodes that calls our lookup
# and data collection functions back.
group = mnfst.group(msng_mnfst_lst, lookup_manifest_link,
filenode_collector(changedfiles))
for chnk in group:
yield chnk
# These are no longer needed, dereference and toss the memory for
# them.
msng_mnfst_lst = None
msng_mnfst_set.clear()
if extranodes:
for fname in extranodes:
if isinstance(fname, int):
continue
msng_filenode_set.setdefault(fname, {})
changedfiles[fname] = 1
# Go through all our files in order sorted by name.
for fname in sorted(changedfiles):
filerevlog = self.file(fname)
if not len(filerevlog):
raise util.Abort(_("empty or missing revlog for %s") % fname)
# Toss out the filenodes that the recipient isn't really
# missing.
if fname in msng_filenode_set:
prune_filenodes(fname, filerevlog)
add_extra_nodes(fname, msng_filenode_set[fname])
msng_filenode_lst = msng_filenode_set[fname].keys()
else:
msng_filenode_lst = []
# If any filenodes are left, generate the group for them,
# otherwise don't bother.
if len(msng_filenode_lst) > 0:
yield changegroup.chunkheader(len(fname))
yield fname
# Sort the filenodes by their revision #
msng_filenode_lst.sort(key=filerevlog.rev)
# Create a group generator and only pass in a changenode
# lookup function as we need to collect no information
# from filenodes.
group = filerevlog.group(msng_filenode_lst,
lookup_filenode_link_func(fname))
for chnk in group:
yield chnk
if fname in msng_filenode_set:
# Don't need this anymore, toss it to free memory.
del msng_filenode_set[fname]
# Signal that no more groups are left.
yield changegroup.closechunk()
if msng_cl_lst:
self.hook('outgoing', node=hex(msng_cl_lst[0]), source=source)
return util.chunkbuffer(gengroup())
def changegroup(self, basenodes, source):
# to avoid a race we use changegroupsubset() (issue1320)
return self.changegroupsubset(basenodes, self.heads(), source)
def _changegroup(self, nodes, source):
"""Compute the changegroup of all nodes that we have that a recipient
doesn't. Return a chunkbuffer object whose read() method will return
successive changegroup chunks.
This is much easier than the previous function as we can assume that
the recipient has any changenode we aren't sending them.
nodes is the set of nodes to send"""
self.hook('preoutgoing', throw=True, source=source)
cl = self.changelog
revset = set([cl.rev(n) for n in nodes])
self.changegroupinfo(nodes, source)
def identity(x):
return x
def gennodelst(log):
for r in log:
if log.linkrev(r) in revset:
yield log.node(r)
def changed_file_collector(changedfileset):
def collect_changed_files(clnode):
c = cl.read(clnode)
changedfileset.update(c[3])
return collect_changed_files
def lookuprevlink_func(revlog):
def lookuprevlink(n):
return cl.node(revlog.linkrev(revlog.rev(n)))
return lookuprevlink
def gengroup():
'''yield a sequence of changegroup chunks (strings)'''
# construct a list of all changed files
changedfiles = set()
for chnk in cl.group(nodes, identity,
changed_file_collector(changedfiles)):
yield chnk
mnfst = self.manifest
nodeiter = gennodelst(mnfst)
for chnk in mnfst.group(nodeiter, lookuprevlink_func(mnfst)):
yield chnk
for fname in sorted(changedfiles):
filerevlog = self.file(fname)
if not len(filerevlog):
raise util.Abort(_("empty or missing revlog for %s") % fname)
nodeiter = gennodelst(filerevlog)
nodeiter = list(nodeiter)
if nodeiter:
yield changegroup.chunkheader(len(fname))
yield fname
lookup = lookuprevlink_func(filerevlog)
for chnk in filerevlog.group(nodeiter, lookup):
yield chnk
yield changegroup.closechunk()
if nodes:
self.hook('outgoing', node=hex(nodes[0]), source=source)
return util.chunkbuffer(gengroup())
def addchangegroup(self, source, srctype, url, emptyok=False):
"""add changegroup to repo.
return values:
- nothing changed or no source: 0
- more heads than before: 1+added heads (2..n)
- less heads than before: -1-removed heads (-2..-n)
- number of heads stays the same: 1
"""
def csmap(x):
self.ui.debug("add changeset %s\n" % short(x))
return len(cl)
def revmap(x):
return cl.rev(x)
if not source:
return 0
self.hook('prechangegroup', throw=True, source=srctype, url=url)
changesets = files = revisions = 0
# write changelog data to temp files so concurrent readers will not see
# inconsistent view
cl = self.changelog
cl.delayupdate()
oldheads = len(cl.heads())
tr = self.transaction()
try:
trp = weakref.proxy(tr)
# pull off the changeset group
self.ui.status(_("adding changesets\n"))
clstart = len(cl)
chunkiter = changegroup.chunkiter(source)
if cl.addgroup(chunkiter, csmap, trp) is None and not emptyok:
raise util.Abort(_("received changelog group is empty"))
clend = len(cl)
changesets = clend - clstart
# pull off the manifest group
self.ui.status(_("adding manifests\n"))
chunkiter = changegroup.chunkiter(source)
# no need to check for empty manifest group here:
# if the result of the merge of 1 and 2 is the same in 3 and 4,
# no new manifest will be created and the manifest group will
# be empty during the pull
self.manifest.addgroup(chunkiter, revmap, trp)
# process the files
self.ui.status(_("adding file changes\n"))
while 1:
f = changegroup.getchunk(source)
if not f:
break
self.ui.debug("adding %s revisions\n" % f)
fl = self.file(f)
o = len(fl)
chunkiter = changegroup.chunkiter(source)
if fl.addgroup(chunkiter, revmap, trp) is None:
raise util.Abort(_("received file revlog group is empty"))
revisions += len(fl) - o
files += 1
newheads = len(cl.heads())
heads = ""
if oldheads and newheads != oldheads:
heads = _(" (%+d heads)") % (newheads - oldheads)
self.ui.status(_("added %d changesets"
" with %d changes to %d files%s\n")
% (changesets, revisions, files, heads))
if changesets > 0:
p = lambda: cl.writepending() and self.root or ""
self.hook('pretxnchangegroup', throw=True,
node=hex(cl.node(clstart)), source=srctype,
url=url, pending=p)
# make changelog see real files again
cl.finalize(trp)
tr.close()
finally:
del tr
if changesets > 0:
# forcefully update the on-disk branch cache
self.ui.debug("updating the branch cache\n")
self.branchtags()
self.hook("changegroup", node=hex(cl.node(clstart)),
source=srctype, url=url)
for i in xrange(clstart, clend):
self.hook("incoming", node=hex(cl.node(i)),
source=srctype, url=url)
# never return 0 here:
if newheads < oldheads:
return newheads - oldheads - 1
else:
return newheads - oldheads + 1
def stream_in(self, remote):
fp = remote.stream_out()
l = fp.readline()
try:
resp = int(l)
except ValueError:
raise error.ResponseError(
_('Unexpected response from remote server:'), l)
if resp == 1:
raise util.Abort(_('operation forbidden by server'))
elif resp == 2:
raise util.Abort(_('locking the remote repository failed'))
elif resp != 0:
raise util.Abort(_('the server sent an unknown error code'))
self.ui.status(_('streaming all changes\n'))
l = fp.readline()
try:
total_files, total_bytes = map(int, l.split(' ', 1))
except (ValueError, TypeError):
raise error.ResponseError(
_('Unexpected response from remote server:'), l)
self.ui.status(_('%d files to transfer, %s of data\n') %
(total_files, util.bytecount(total_bytes)))
start = time.time()
for i in xrange(total_files):
# XXX doesn't support '\n' or '\r' in filenames
l = fp.readline()
try:
name, size = l.split('\0', 1)
size = int(size)
except (ValueError, TypeError):
raise error.ResponseError(
_('Unexpected response from remote server:'), l)
self.ui.debug('adding %s (%s)\n' % (name, util.bytecount(size)))
# for backwards compat, name was partially encoded
ofp = self.sopener(store.decodedir(name), 'w')
for chunk in util.filechunkiter(fp, limit=size):
ofp.write(chunk)
ofp.close()
elapsed = time.time() - start
if elapsed <= 0:
elapsed = 0.001
self.ui.status(_('transferred %s in %.1f seconds (%s/sec)\n') %
(util.bytecount(total_bytes), elapsed,
util.bytecount(total_bytes / elapsed)))
self.invalidate()
return len(self.heads()) + 1
def clone(self, remote, heads=[], stream=False):
'''clone remote repository.
keyword arguments:
heads: list of revs to clone (forces use of pull)
stream: use streaming clone if possible'''
# now, all clients that can request uncompressed clones can
# read repo formats supported by all servers that can serve
# them.
# if revlog format changes, client will have to check version
# and format flags on "stream" capability, and use
# uncompressed only if compatible.
if stream and not heads and remote.capable('stream'):
return self.stream_in(remote)
return self.pull(remote, heads)
# used to avoid circular references so destructors work
def aftertrans(files):
renamefiles = [tuple(t) for t in files]
def a():
for src, dest in renamefiles:
util.rename(src, dest)
return a
def instance(ui, path, create):
return localrepository(ui, util.drop_scheme('file', path), create)
def islocal(path):
return True