stable-branch: setup tests to use a specific method by default
This will make future test simpler.
"""enable a minimal verison of topic for server
Non publishing repository will see topic as "branch:topic" in the branch field.
In addition to adding the extensions, the feature must be manually enabled in the config:
[experimental]
server-mini-topic = yes
"""
import hashlib
import contextlib
from mercurial import (
branchmap,
context,
encoding,
extensions,
node,
registrar,
util,
wireproto,
)
if util.safehasattr(registrar, 'configitem'):
configtable = {}
configitem = registrar.configitem(configtable)
configitem('experimental', 'server-mini-topic',
default=False,
)
def hasminitopic(repo):
"""true if minitopic is enabled on the repository
(The value is cached on the repository)
"""
enabled = getattr(repo, '_hasminitopic', None)
if enabled is None:
enabled = (repo.ui.configbool('experimental', 'server-mini-topic')
and not repo.publishing())
repo._hasminitopic = enabled
return enabled
### make topic visible though "ctx.branch()"
class topicchangectx(context.changectx):
"""a sunclass of changectx that add topic to the branch name"""
def branch(self):
branch = super(topicchangectx, self).branch()
if hasminitopic(self._repo) and self.phase():
topic = self._changeset.extra.get('topic')
if topic is not None:
topic = encoding.tolocal(topic)
branch = '%s:%s' % (branch, topic)
return branch
### avoid caching topic data in rev-branch-cache
class revbranchcacheoverlay(object):
"""revbranch mixin that don't use the cache for non public changeset"""
def _init__(self, *args, **kwargs):
super(revbranchcacheoverlay, self).__init__(*args, **kwargs)
if 'branchinfo' in vars(self):
del self.branchinfo
def branchinfo(self, rev):
"""return branch name and close flag for rev, using and updating
persistent cache."""
phase = self._repo._phasecache.phase(self, rev)
if phase:
ctx = self._repo[rev]
return ctx.branch(), ctx.closesbranch()
return super(revbranchcacheoverlay, self).branchinfo(rev)
def reposetup(ui, repo):
"""install a repo class with a special revbranchcache"""
if hasminitopic(repo):
repo = repo.unfiltered()
class minitopicrepo(repo.__class__):
"""repository subclass that install the modified cache"""
def revbranchcache(self):
if self._revbranchcache is None:
cache = super(minitopicrepo, self).revbranchcache()
class topicawarerbc(revbranchcacheoverlay, cache.__class__):
pass
cache.__class__ = topicawarerbc
if 'branchinfo' in vars(cache):
del cache.branchinfo
self._revbranchcache = cache
return self._revbranchcache
repo.__class__ = minitopicrepo
### topic aware branch head cache
def _phaseshash(repo, maxrev):
"""uniq ID for a phase matching a set of rev"""
revs = set()
cl = repo.changelog
fr = cl.filteredrevs
nm = cl.nodemap
for roots in repo._phasecache.phaseroots[1:]:
for n in roots:
r = nm.get(n)
if r not in fr and r < maxrev:
revs.add(r)
key = node.nullid
revs = sorted(revs)
if revs:
s = hashlib.sha1()
for rev in revs:
s.update('%s;' % rev)
key = s.digest()
return key
# needed to prevent reference used for 'super()' call using in branchmap.py to
# no go into cycle. (yes, URG)
_oldbranchmap = branchmap.branchcache
@contextlib.contextmanager
def oldbranchmap():
previous = branchmap.branchcache
try:
branchmap.branchcache = _oldbranchmap
yield
finally:
branchmap.branchcache = previous
_publiconly = set([
'base',
'immutable',
])
def mighttopic(repo):
return hasminitopic(repo) and repo.filtername not in _publiconly
class _topiccache(branchmap.branchcache): # combine me with branchmap.branchcache
def __init__(self, *args, **kwargs):
# super() call may fail otherwise
with oldbranchmap():
super(_topiccache, self).__init__(*args, **kwargs)
self.phaseshash = None
def copy(self):
"""return an deep copy of the branchcache object"""
new = self.__class__(self, self.tipnode, self.tiprev, self.filteredhash,
self._closednodes)
new.phaseshash = self.phaseshash
return new
def validfor(self, repo):
"""Is the cache content valid regarding a repo
- False when cached tipnode is unknown or if we detect a strip.
- True when cache is up to date or a subset of current repo."""
valid = super(_topiccache, self).validfor(repo)
if not valid:
return False
elif not mighttopic(repo) and self.phaseshash is None:
# phasehash at None means this is a branchmap
# coming from a public only set
return True
else:
try:
valid = self.phaseshash == _phaseshash(repo, self.tiprev)
return valid
except IndexError:
return False
def write(self, repo):
# we expect (hope) mutable set to be small enough to be that computing
# it all the time will be fast enough
if not mighttopic(repo):
super(_topiccache, self).write(repo)
def update(self, repo, revgen):
"""Given a branchhead cache, self, that may have extra nodes or be
missing heads, and a generator of nodes that are strictly a superset of
heads missing, this function updates self to be correct.
"""
super(_topiccache, self).update(repo, revgen)
if mighttopic(repo):
self.phaseshash = _phaseshash(repo, self.tiprev)
def wrapread(orig, repo):
# Avoiding to write cache for filter where topic applies is a good step,
# but we need to also avoid reading it. Existing branchmap cache might
# exists before the turned the feature on.
if mighttopic(repo):
return None
return orig(repo)
# advertise topic capabilities
def wireprotocaps(orig, repo, proto):
caps = orig(repo, proto)
if hasminitopic(repo):
caps.append('topics')
return caps
# wrap the necessary bit
def wrapclass(container, oldname, new):
old = getattr(container, oldname)
if not issubclass(old, new):
targetclass = new
# check if someone else already wrapped the class and handle that
if not issubclass(new, old):
class targetclass(new, old):
pass
setattr(container, oldname, targetclass)
current = getattr(container, oldname)
assert issubclass(current, new), (current, new, targetclass)
def uisetup(ui):
wrapclass(context, 'changectx', topicchangectx)
wrapclass(branchmap, 'branchcache', _topiccache)
extensions.wrapfunction(branchmap, 'read', wrapread)
extensions.wrapfunction(wireproto, '_capabilities', wireprotocaps)