##// END OF EJS Templates
wireprotov2peer: stream decoded responses...
wireprotov2peer: stream decoded responses Previously, wire protocol version 2 would buffer all response data. Only once all data was received did we CBOR decode it and resolve the future associated with the command. This was obviously not desirable. In future commits that introduce large response payloads, this caused significant memory bloat and slowed down client operations due to waiting on the server. This commit refactors the response handling code so that response data can be streamed. Command response objects now contain a buffered CBOR decoder. As new data arrives, it is fed into the decoder. Decoded objects are made available to the generator as they are decoded. Because there is a separate thread processing incoming frames and feeding data into the response object, there is the potential for race conditions when mutating response objects. So a lock has been added to guard access to critical state variables. Because the generator emitting decoded objects needs to wait on those objects to become available, we've added an Event for the generator to wait on so it doesn't busy loop. This does mean there is the potential for deadlocks. And I'm pretty sure they can occur in some scenarios. We already have a handful of TODOs around this. But I've added some more. Fixing this will likely require moving the background thread receiving frames into clienthandler. We likely would have done this anyway when implementing the client bits for the SSH transport. Test output changes because the initial CBOR map holding the overall response state is now always handled internally by the response object. Differential Revision: https://phab.mercurial-scm.org/D4474

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subrepoutil.py
396 lines | 14.9 KiB | text/x-python | PythonLexer
Yuya Nishihara
subrepo: split non-core functions to new module...
r36026 # subrepoutil.py - sub-repository operations and substate handling
#
# Copyright 2009-2010 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 __future__ import absolute_import
import errno
import os
import posixpath
import re
from .i18n import _
from . import (
config,
error,
filemerge,
pathutil,
phases,
util,
)
Yuya Nishihara
stringutil: bulk-replace call sites to point to new module...
r37102 from .utils import (
stringutil,
)
Yuya Nishihara
subrepo: split non-core functions to new module...
r36026
nullstate = ('', '', 'empty')
def state(ctx, ui):
"""return a state dict, mapping subrepo paths configured in .hgsub
to tuple: (source from .hgsub, revision from .hgsubstate, kind
(key in types dict))
"""
p = config.config()
repo = ctx.repo()
def read(f, sections=None, remap=None):
if f in ctx:
try:
data = ctx[f].data()
except IOError as err:
if err.errno != errno.ENOENT:
raise
# handle missing subrepo spec files as removed
ui.warn(_("warning: subrepo spec file \'%s\' not found\n") %
repo.pathto(f))
return
p.parse(f, data, sections, remap, read)
else:
raise error.Abort(_("subrepo spec file \'%s\' not found") %
repo.pathto(f))
if '.hgsub' in ctx:
read('.hgsub')
for path, src in ui.configitems('subpaths'):
p.set('subpaths', path, src, ui.configsource('subpaths', path))
rev = {}
if '.hgsubstate' in ctx:
try:
for i, l in enumerate(ctx['.hgsubstate'].data().splitlines()):
l = l.lstrip()
if not l:
continue
try:
revision, path = l.split(" ", 1)
except ValueError:
raise error.Abort(_("invalid subrepository revision "
"specifier in \'%s\' line %d")
% (repo.pathto('.hgsubstate'), (i + 1)))
rev[path] = revision
except IOError as err:
if err.errno != errno.ENOENT:
raise
def remap(src):
for pattern, repl in p.items('subpaths'):
# Turn r'C:\foo\bar' into r'C:\\foo\\bar' since re.sub
# does a string decode.
Yuya Nishihara
stringutil: bulk-replace call sites to point to new module...
r37102 repl = stringutil.escapestr(repl)
Yuya Nishihara
subrepo: split non-core functions to new module...
r36026 # However, we still want to allow back references to go
# through unharmed, so we turn r'\\1' into r'\1'. Again,
# extra escapes are needed because re.sub string decodes.
repl = re.sub(br'\\\\([0-9]+)', br'\\\1', repl)
try:
src = re.sub(pattern, repl, src, 1)
except re.error as e:
raise error.Abort(_("bad subrepository pattern in %s: %s")
Pulkit Goyal
py3: use stringutil.forcebytestr() to convert error messages to bytes...
r37603 % (p.source('subpaths', pattern),
stringutil.forcebytestr(e)))
Yuya Nishihara
subrepo: split non-core functions to new module...
r36026 return src
state = {}
for path, src in p[''].items():
kind = 'hg'
if src.startswith('['):
if ']' not in src:
raise error.Abort(_('missing ] in subrepository source'))
kind, src = src.split(']', 1)
kind = kind[1:]
src = src.lstrip() # strip any extra whitespace after ']'
if not util.url(src).isabs():
parent = _abssource(repo, abort=False)
if parent:
parent = util.url(parent)
parent.path = posixpath.join(parent.path or '', src)
parent.path = posixpath.normpath(parent.path)
Pulkit Goyal
py3: use bytes() instead of str() on util.url()...
r37604 joined = bytes(parent)
Yuya Nishihara
subrepo: split non-core functions to new module...
r36026 # Remap the full joined path and use it if it changes,
# else remap the original source.
remapped = remap(joined)
if remapped == joined:
src = remap(src)
else:
src = remapped
src = remap(src)
state[util.pconvert(path)] = (src.strip(), rev.get(path, ''), kind)
return state
def writestate(repo, state):
"""rewrite .hgsubstate in (outer) repo with these subrepo states"""
lines = ['%s %s\n' % (state[s][1], s) for s in sorted(state)
if state[s][1] != nullstate[1]]
repo.wwrite('.hgsubstate', ''.join(lines), '')
def submerge(repo, wctx, mctx, actx, overwrite, labels=None):
"""delegated from merge.applyupdates: merging of .hgsubstate file
in working context, merging context and ancestor context"""
if mctx == actx: # backwards?
actx = wctx.p1()
s1 = wctx.substate
s2 = mctx.substate
sa = actx.substate
sm = {}
repo.ui.debug("subrepo merge %s %s %s\n" % (wctx, mctx, actx))
def debug(s, msg, r=""):
if r:
r = "%s:%s:%s" % r
repo.ui.debug(" subrepo %s: %s %s\n" % (s, msg, r))
promptssrc = filemerge.partextras(labels)
for s, l in sorted(s1.iteritems()):
prompts = None
a = sa.get(s, nullstate)
ld = l # local state with possible dirty flag for compares
if wctx.sub(s).dirty():
ld = (l[0], l[1] + "+")
if wctx == actx: # overwrite
a = ld
prompts = promptssrc.copy()
prompts['s'] = s
if s in s2:
r = s2[s]
if ld == r or r == a: # no change or local is newer
sm[s] = l
continue
elif ld == a: # other side changed
debug(s, "other changed, get", r)
wctx.sub(s).get(r, overwrite)
sm[s] = r
elif ld[0] != r[0]: # sources differ
prompts['lo'] = l[0]
prompts['ro'] = r[0]
if repo.ui.promptchoice(
_(' subrepository sources for %(s)s differ\n'
'use (l)ocal%(l)s source (%(lo)s)'
' or (r)emote%(o)s source (%(ro)s)?'
'$$ &Local $$ &Remote') % prompts, 0):
debug(s, "prompt changed, get", r)
wctx.sub(s).get(r, overwrite)
sm[s] = r
elif ld[1] == a[1]: # local side is unchanged
debug(s, "other side changed, get", r)
wctx.sub(s).get(r, overwrite)
sm[s] = r
else:
debug(s, "both sides changed")
srepo = wctx.sub(s)
prompts['sl'] = srepo.shortid(l[1])
prompts['sr'] = srepo.shortid(r[1])
option = repo.ui.promptchoice(
_(' subrepository %(s)s diverged (local revision: %(sl)s, '
'remote revision: %(sr)s)\n'
'(M)erge, keep (l)ocal%(l)s or keep (r)emote%(o)s?'
'$$ &Merge $$ &Local $$ &Remote')
% prompts, 0)
if option == 0:
wctx.sub(s).merge(r)
sm[s] = l
debug(s, "merge with", r)
elif option == 1:
sm[s] = l
debug(s, "keep local subrepo revision", l)
else:
wctx.sub(s).get(r, overwrite)
sm[s] = r
debug(s, "get remote subrepo revision", r)
elif ld == a: # remote removed, local unchanged
debug(s, "remote removed, remove")
wctx.sub(s).remove()
elif a == nullstate: # not present in remote or ancestor
debug(s, "local added, keep")
sm[s] = l
continue
else:
if repo.ui.promptchoice(
_(' local%(l)s changed subrepository %(s)s'
' which remote%(o)s removed\n'
'use (c)hanged version or (d)elete?'
'$$ &Changed $$ &Delete') % prompts, 0):
debug(s, "prompt remove")
wctx.sub(s).remove()
for s, r in sorted(s2.items()):
prompts = None
if s in s1:
continue
elif s not in sa:
debug(s, "remote added, get", r)
mctx.sub(s).get(r)
sm[s] = r
elif r != sa[s]:
prompts = promptssrc.copy()
prompts['s'] = s
if repo.ui.promptchoice(
_(' remote%(o)s changed subrepository %(s)s'
' which local%(l)s removed\n'
'use (c)hanged version or (d)elete?'
'$$ &Changed $$ &Delete') % prompts, 0) == 0:
debug(s, "prompt recreate", r)
mctx.sub(s).get(r)
sm[s] = r
# record merged .hgsubstate
writestate(repo, sm)
return sm
def precommit(ui, wctx, status, match, force=False):
"""Calculate .hgsubstate changes that should be applied before committing
Returns (subs, commitsubs, newstate) where
- subs: changed subrepos (including dirty ones)
- commitsubs: dirty subrepos which the caller needs to commit recursively
- newstate: new state dict which the caller must write to .hgsubstate
This also updates the given status argument.
"""
subs = []
commitsubs = set()
newstate = wctx.substate.copy()
# only manage subrepos and .hgsubstate if .hgsub is present
if '.hgsub' in wctx:
# we'll decide whether to track this ourselves, thanks
for c in status.modified, status.added, status.removed:
if '.hgsubstate' in c:
c.remove('.hgsubstate')
# compare current state to last committed state
# build new substate based on last committed state
oldstate = wctx.p1().substate
for s in sorted(newstate.keys()):
if not match(s):
# ignore working copy, use old state if present
if s in oldstate:
newstate[s] = oldstate[s]
continue
if not force:
raise error.Abort(
_("commit with new subrepo %s excluded") % s)
dirtyreason = wctx.sub(s).dirtyreason(True)
if dirtyreason:
if not ui.configbool('ui', 'commitsubrepos'):
raise error.Abort(dirtyreason,
hint=_("use --subrepos for recursive commit"))
subs.append(s)
commitsubs.add(s)
else:
bs = wctx.sub(s).basestate()
newstate[s] = (newstate[s][0], bs, newstate[s][2])
if oldstate.get(s, (None, None, None))[1] != bs:
subs.append(s)
# check for removed subrepos
for p in wctx.parents():
r = [s for s in p.substate if s not in newstate]
subs += [s for s in r if match(s)]
if subs:
if (not match('.hgsub') and
'.hgsub' in (wctx.modified() + wctx.added())):
raise error.Abort(_("can't commit subrepos without .hgsub"))
status.modified.insert(0, '.hgsubstate')
elif '.hgsub' in status.removed:
# clean up .hgsubstate when .hgsub is removed
if ('.hgsubstate' in wctx and
'.hgsubstate' not in (status.modified + status.added +
status.removed)):
status.removed.insert(0, '.hgsubstate')
return subs, commitsubs, newstate
def reporelpath(repo):
"""return path to this (sub)repo as seen from outermost repo"""
parent = repo
while util.safehasattr(parent, '_subparent'):
parent = parent._subparent
return repo.root[len(pathutil.normasprefix(parent.root)):]
def subrelpath(sub):
"""return path to this subrepo as seen from outermost repo"""
return sub._relpath
def _abssource(repo, push=False, abort=True):
"""return pull/push path of repo - either based on parent repo .hgsub info
or on the top repo config. Abort or return None if no source found."""
if util.safehasattr(repo, '_subparent'):
source = util.url(repo._subsource)
if source.isabs():
return bytes(source)
source.path = posixpath.normpath(source.path)
parent = _abssource(repo._subparent, push, abort=False)
if parent:
parent = util.url(util.pconvert(parent))
parent.path = posixpath.join(parent.path or '', source.path)
parent.path = posixpath.normpath(parent.path)
return bytes(parent)
else: # recursion reached top repo
path = None
if util.safehasattr(repo, '_subtoppath'):
path = repo._subtoppath
elif push and repo.ui.config('paths', 'default-push'):
path = repo.ui.config('paths', 'default-push')
elif repo.ui.config('paths', 'default'):
path = repo.ui.config('paths', 'default')
elif repo.shared():
# chop off the .hg component to get the default path form. This has
# already run through vfsmod.vfs(..., realpath=True), so it doesn't
# have problems with 'C:'
return os.path.dirname(repo.sharedpath)
if path:
# issue5770: 'C:\' and 'C:' are not equivalent paths. The former is
# as expected: an absolute path to the root of the C: drive. The
# latter is a relative path, and works like so:
#
# C:\>cd C:\some\path
# C:\>D:
# D:\>python -c "import os; print os.path.abspath('C:')"
# C:\some\path
#
# D:\>python -c "import os; print os.path.abspath('C:relative')"
# C:\some\path\relative
if util.hasdriveletter(path):
if len(path) == 2 or path[2:3] not in br'\/':
path = os.path.abspath(path)
return path
if abort:
raise error.Abort(_("default path for subrepository not found"))
def newcommitphase(ui, ctx):
commitphase = phases.newcommitphase(ui)
substate = getattr(ctx, "substate", None)
if not substate:
return commitphase
check = ui.config('phases', 'checksubrepos')
if check not in ('ignore', 'follow', 'abort'):
raise error.Abort(_('invalid phases.checksubrepos configuration: %s')
% (check))
if check == 'ignore':
return commitphase
maxphase = phases.public
maxsub = None
for s in sorted(substate):
sub = ctx.sub(s)
subphase = sub.phase(substate[s][1])
if maxphase < subphase:
maxphase = subphase
maxsub = s
if commitphase < maxphase:
if check == 'abort':
raise error.Abort(_("can't commit in %s phase"
" conflicting %s from subrepository %s") %
(phases.phasenames[commitphase],
phases.phasenames[maxphase], maxsub))
ui.warn(_("warning: changes are committed in"
" %s phase from subrepository %s\n") %
(phases.phasenames[maxphase], maxsub))
return maxphase
return commitphase