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wireprotov1peer.py
660 lines | 21.7 KiB | text/x-python | PythonLexer
# wireprotov1peer.py - Client-side functionality for wire protocol version 1.
#
# Copyright 2005-2010 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 sys
import weakref
from .i18n import _
from .node import bin
from .pycompat import (
getattr,
setattr,
)
from . import (
bundle2,
changegroup as changegroupmod,
encoding,
error,
pushkey as pushkeymod,
pycompat,
util,
wireprototypes,
)
from .interfaces import (
repository,
util as interfaceutil,
)
from .utils import hashutil
urlreq = util.urlreq
def batchable(f):
'''annotation for batchable methods
Such methods must implement a coroutine as follows:
@batchable
def sample(self, one, two=None):
# Build list of encoded arguments suitable for your wire protocol:
encargs = [('one', encode(one),), ('two', encode(two),)]
# Create future for injection of encoded result:
encresref = future()
# Return encoded arguments and future:
yield encargs, encresref
# Assuming the future to be filled with the result from the batched
# request now. Decode it:
yield decode(encresref.value)
The decorator returns a function which wraps this coroutine as a plain
method, but adds the original method as an attribute called "batchable",
which is used by remotebatch to split the call into separate encoding and
decoding phases.
'''
def plain(*args, **opts):
batchable = f(*args, **opts)
encargsorres, encresref = next(batchable)
if not encresref:
return encargsorres # a local result in this case
self = args[0]
cmd = pycompat.bytesurl(f.__name__) # ensure cmd is ascii bytestr
encresref.set(self._submitone(cmd, encargsorres))
return next(batchable)
setattr(plain, 'batchable', f)
setattr(plain, '__name__', f.__name__)
return plain
class future(object):
'''placeholder for a value to be set later'''
def set(self, value):
if util.safehasattr(self, b'value'):
raise error.RepoError(b"future is already set")
self.value = value
def encodebatchcmds(req):
"""Return a ``cmds`` argument value for the ``batch`` command."""
escapearg = wireprototypes.escapebatcharg
cmds = []
for op, argsdict in req:
# Old servers didn't properly unescape argument names. So prevent
# the sending of argument names that may not be decoded properly by
# servers.
assert all(escapearg(k) == k for k in argsdict)
args = b','.join(
b'%s=%s' % (escapearg(k), escapearg(v))
for k, v in pycompat.iteritems(argsdict)
)
cmds.append(b'%s %s' % (op, args))
return b';'.join(cmds)
class unsentfuture(pycompat.futures.Future):
"""A Future variation to represent an unsent command.
Because we buffer commands and don't submit them immediately, calling
``result()`` on an unsent future could deadlock. Futures for buffered
commands are represented by this type, which wraps ``result()`` to
call ``sendcommands()``.
"""
def result(self, timeout=None):
if self.done():
return pycompat.futures.Future.result(self, timeout)
self._peerexecutor.sendcommands()
# This looks like it will infinitely recurse. However,
# sendcommands() should modify __class__. This call serves as a check
# on that.
return self.result(timeout)
@interfaceutil.implementer(repository.ipeercommandexecutor)
class peerexecutor(object):
def __init__(self, peer):
self._peer = peer
self._sent = False
self._closed = False
self._calls = []
self._futures = weakref.WeakSet()
self._responseexecutor = None
self._responsef = None
def __enter__(self):
return self
def __exit__(self, exctype, excvalee, exctb):
self.close()
def callcommand(self, command, args):
if self._sent:
raise error.ProgrammingError(
b'callcommand() cannot be used after commands are sent'
)
if self._closed:
raise error.ProgrammingError(
b'callcommand() cannot be used after close()'
)
# Commands are dispatched through methods on the peer.
fn = getattr(self._peer, pycompat.sysstr(command), None)
if not fn:
raise error.ProgrammingError(
b'cannot call command %s: method of same name not available '
b'on peer' % command
)
# Commands are either batchable or they aren't. If a command
# isn't batchable, we send it immediately because the executor
# can no longer accept new commands after a non-batchable command.
# If a command is batchable, we queue it for later. But we have
# to account for the case of a non-batchable command arriving after
# a batchable one and refuse to service it.
def addcall():
f = pycompat.futures.Future()
self._futures.add(f)
self._calls.append((command, args, fn, f))
return f
if getattr(fn, 'batchable', False):
f = addcall()
# But since we don't issue it immediately, we wrap its result()
# to trigger sending so we avoid deadlocks.
f.__class__ = unsentfuture
f._peerexecutor = self
else:
if self._calls:
raise error.ProgrammingError(
b'%s is not batchable and cannot be called on a command '
b'executor along with other commands' % command
)
f = addcall()
# Non-batchable commands can never coexist with another command
# in this executor. So send the command immediately.
self.sendcommands()
return f
def sendcommands(self):
if self._sent:
return
if not self._calls:
return
self._sent = True
# Unhack any future types so caller seens a clean type and to break
# cycle between us and futures.
for f in self._futures:
if isinstance(f, unsentfuture):
f.__class__ = pycompat.futures.Future
f._peerexecutor = None
calls = self._calls
# Mainly to destroy references to futures.
self._calls = None
# Simple case of a single command. We call it synchronously.
if len(calls) == 1:
command, args, fn, f = calls[0]
# Future was cancelled. Ignore it.
if not f.set_running_or_notify_cancel():
return
try:
result = fn(**pycompat.strkwargs(args))
except Exception:
pycompat.future_set_exception_info(f, sys.exc_info()[1:])
else:
f.set_result(result)
return
# Batch commands are a bit harder. First, we have to deal with the
# @batchable coroutine. That's a bit annoying. Furthermore, we also
# need to preserve streaming. i.e. it should be possible for the
# futures to resolve as data is coming in off the wire without having
# to wait for the final byte of the final response. We do this by
# spinning up a thread to read the responses.
requests = []
states = []
for command, args, fn, f in calls:
# Future was cancelled. Ignore it.
if not f.set_running_or_notify_cancel():
continue
try:
batchable = fn.batchable(
fn.__self__, **pycompat.strkwargs(args)
)
except Exception:
pycompat.future_set_exception_info(f, sys.exc_info()[1:])
return
# Encoded arguments and future holding remote result.
try:
encargsorres, fremote = next(batchable)
except Exception:
pycompat.future_set_exception_info(f, sys.exc_info()[1:])
return
if not fremote:
f.set_result(encargsorres)
else:
requests.append((command, encargsorres))
states.append((command, f, batchable, fremote))
if not requests:
return
# This will emit responses in order they were executed.
wireresults = self._peer._submitbatch(requests)
# The use of a thread pool executor here is a bit weird for something
# that only spins up a single thread. However, thread management is
# hard and it is easy to encounter race conditions, deadlocks, etc.
# concurrent.futures already solves these problems and its thread pool
# executor has minimal overhead. So we use it.
self._responseexecutor = pycompat.futures.ThreadPoolExecutor(1)
self._responsef = self._responseexecutor.submit(
self._readbatchresponse, states, wireresults
)
def close(self):
self.sendcommands()
if self._closed:
return
self._closed = True
if not self._responsef:
return
# We need to wait on our in-flight response and then shut down the
# executor once we have a result.
try:
self._responsef.result()
finally:
self._responseexecutor.shutdown(wait=True)
self._responsef = None
self._responseexecutor = None
# If any of our futures are still in progress, mark them as
# errored. Otherwise a result() could wait indefinitely.
for f in self._futures:
if not f.done():
f.set_exception(
error.ResponseError(
_(b'unfulfilled batch command response')
)
)
self._futures = None
def _readbatchresponse(self, states, wireresults):
# Executes in a thread to read data off the wire.
for command, f, batchable, fremote in states:
# Grab raw result off the wire and teach the internal future
# about it.
remoteresult = next(wireresults)
fremote.set(remoteresult)
# And ask the coroutine to decode that value.
try:
result = next(batchable)
except Exception:
pycompat.future_set_exception_info(f, sys.exc_info()[1:])
else:
f.set_result(result)
@interfaceutil.implementer(
repository.ipeercommands, repository.ipeerlegacycommands
)
class wirepeer(repository.peer):
"""Client-side interface for communicating with a peer repository.
Methods commonly call wire protocol commands of the same name.
See also httppeer.py and sshpeer.py for protocol-specific
implementations of this interface.
"""
def commandexecutor(self):
return peerexecutor(self)
# Begin of ipeercommands interface.
def clonebundles(self):
self.requirecap(b'clonebundles', _(b'clone bundles'))
return self._call(b'clonebundles')
@batchable
def lookup(self, key):
self.requirecap(b'lookup', _(b'look up remote revision'))
f = future()
yield {b'key': encoding.fromlocal(key)}, f
d = f.value
success, data = d[:-1].split(b" ", 1)
if int(success):
yield bin(data)
else:
self._abort(error.RepoError(data))
@batchable
def heads(self):
f = future()
yield {}, f
d = f.value
try:
yield wireprototypes.decodelist(d[:-1])
except ValueError:
self._abort(error.ResponseError(_(b"unexpected response:"), d))
@batchable
def known(self, nodes):
f = future()
yield {b'nodes': wireprototypes.encodelist(nodes)}, f
d = f.value
try:
yield [bool(int(b)) for b in pycompat.iterbytestr(d)]
except ValueError:
self._abort(error.ResponseError(_(b"unexpected response:"), d))
@batchable
def branchmap(self):
f = future()
yield {}, f
d = f.value
try:
branchmap = {}
for branchpart in d.splitlines():
branchname, branchheads = branchpart.split(b' ', 1)
branchname = encoding.tolocal(urlreq.unquote(branchname))
branchheads = wireprototypes.decodelist(branchheads)
branchmap[branchname] = branchheads
yield branchmap
except TypeError:
self._abort(error.ResponseError(_(b"unexpected response:"), d))
@batchable
def listkeys(self, namespace):
if not self.capable(b'pushkey'):
yield {}, None
f = future()
self.ui.debug(b'preparing listkeys for "%s"\n' % namespace)
yield {b'namespace': encoding.fromlocal(namespace)}, f
d = f.value
self.ui.debug(
b'received listkey for "%s": %i bytes\n' % (namespace, len(d))
)
yield pushkeymod.decodekeys(d)
@batchable
def pushkey(self, namespace, key, old, new):
if not self.capable(b'pushkey'):
yield False, None
f = future()
self.ui.debug(b'preparing pushkey for "%s:%s"\n' % (namespace, key))
yield {
b'namespace': encoding.fromlocal(namespace),
b'key': encoding.fromlocal(key),
b'old': encoding.fromlocal(old),
b'new': encoding.fromlocal(new),
}, f
d = f.value
d, output = d.split(b'\n', 1)
try:
d = bool(int(d))
except ValueError:
raise error.ResponseError(
_(b'push failed (unexpected response):'), d
)
for l in output.splitlines(True):
self.ui.status(_(b'remote: '), l)
yield d
def stream_out(self):
return self._callstream(b'stream_out')
def getbundle(self, source, **kwargs):
kwargs = pycompat.byteskwargs(kwargs)
self.requirecap(b'getbundle', _(b'look up remote changes'))
opts = {}
bundlecaps = kwargs.get(b'bundlecaps') or set()
for key, value in pycompat.iteritems(kwargs):
if value is None:
continue
keytype = wireprototypes.GETBUNDLE_ARGUMENTS.get(key)
if keytype is None:
raise error.ProgrammingError(
b'Unexpectedly None keytype for key %s' % key
)
elif keytype == b'nodes':
value = wireprototypes.encodelist(value)
elif keytype == b'csv':
value = b','.join(value)
elif keytype == b'scsv':
value = b','.join(sorted(value))
elif keytype == b'boolean':
value = b'%i' % bool(value)
elif keytype != b'plain':
raise KeyError(b'unknown getbundle option type %s' % keytype)
opts[key] = value
f = self._callcompressable(b"getbundle", **pycompat.strkwargs(opts))
if any((cap.startswith(b'HG2') for cap in bundlecaps)):
return bundle2.getunbundler(self.ui, f)
else:
return changegroupmod.cg1unpacker(f, b'UN')
def unbundle(self, bundle, heads, url):
'''Send cg (a readable file-like object representing the
changegroup to push, typically a chunkbuffer object) to the
remote server as a bundle.
When pushing a bundle10 stream, return an integer indicating the
result of the push (see changegroup.apply()).
When pushing a bundle20 stream, return a bundle20 stream.
`url` is the url the client thinks it's pushing to, which is
visible to hooks.
'''
if heads != [b'force'] and self.capable(b'unbundlehash'):
heads = wireprototypes.encodelist(
[b'hashed', hashutil.sha1(b''.join(sorted(heads))).digest()]
)
else:
heads = wireprototypes.encodelist(heads)
if util.safehasattr(bundle, b'deltaheader'):
# this a bundle10, do the old style call sequence
ret, output = self._callpush(b"unbundle", bundle, heads=heads)
if ret == b"":
raise error.ResponseError(_(b'push failed:'), output)
try:
ret = int(ret)
except ValueError:
raise error.ResponseError(
_(b'push failed (unexpected response):'), ret
)
for l in output.splitlines(True):
self.ui.status(_(b'remote: '), l)
else:
# bundle2 push. Send a stream, fetch a stream.
stream = self._calltwowaystream(b'unbundle', bundle, heads=heads)
ret = bundle2.getunbundler(self.ui, stream)
return ret
# End of ipeercommands interface.
# Begin of ipeerlegacycommands interface.
def branches(self, nodes):
n = wireprototypes.encodelist(nodes)
d = self._call(b"branches", nodes=n)
try:
br = [tuple(wireprototypes.decodelist(b)) for b in d.splitlines()]
return br
except ValueError:
self._abort(error.ResponseError(_(b"unexpected response:"), d))
def between(self, pairs):
batch = 8 # avoid giant requests
r = []
for i in pycompat.xrange(0, len(pairs), batch):
n = b" ".join(
[
wireprototypes.encodelist(p, b'-')
for p in pairs[i : i + batch]
]
)
d = self._call(b"between", pairs=n)
try:
r.extend(
l and wireprototypes.decodelist(l) or []
for l in d.splitlines()
)
except ValueError:
self._abort(error.ResponseError(_(b"unexpected response:"), d))
return r
def changegroup(self, nodes, source):
n = wireprototypes.encodelist(nodes)
f = self._callcompressable(b"changegroup", roots=n)
return changegroupmod.cg1unpacker(f, b'UN')
def changegroupsubset(self, bases, heads, source):
self.requirecap(b'changegroupsubset', _(b'look up remote changes'))
bases = wireprototypes.encodelist(bases)
heads = wireprototypes.encodelist(heads)
f = self._callcompressable(
b"changegroupsubset", bases=bases, heads=heads
)
return changegroupmod.cg1unpacker(f, b'UN')
# End of ipeerlegacycommands interface.
def _submitbatch(self, req):
"""run batch request <req> on the server
Returns an iterator of the raw responses from the server.
"""
ui = self.ui
if ui.debugflag and ui.configbool(b'devel', b'debug.peer-request'):
ui.debug(b'devel-peer-request: batched-content\n')
for op, args in req:
msg = b'devel-peer-request: - %s (%d arguments)\n'
ui.debug(msg % (op, len(args)))
unescapearg = wireprototypes.unescapebatcharg
rsp = self._callstream(b"batch", cmds=encodebatchcmds(req))
chunk = rsp.read(1024)
work = [chunk]
while chunk:
while b';' not in chunk and chunk:
chunk = rsp.read(1024)
work.append(chunk)
merged = b''.join(work)
while b';' in merged:
one, merged = merged.split(b';', 1)
yield unescapearg(one)
chunk = rsp.read(1024)
work = [merged, chunk]
yield unescapearg(b''.join(work))
def _submitone(self, op, args):
return self._call(op, **pycompat.strkwargs(args))
def debugwireargs(self, one, two, three=None, four=None, five=None):
# don't pass optional arguments left at their default value
opts = {}
if three is not None:
opts['three'] = three
if four is not None:
opts['four'] = four
return self._call(b'debugwireargs', one=one, two=two, **opts)
def _call(self, cmd, **args):
"""execute <cmd> on the server
The command is expected to return a simple string.
returns the server reply as a string."""
raise NotImplementedError()
def _callstream(self, cmd, **args):
"""execute <cmd> on the server
The command is expected to return a stream. Note that if the
command doesn't return a stream, _callstream behaves
differently for ssh and http peers.
returns the server reply as a file like object.
"""
raise NotImplementedError()
def _callcompressable(self, cmd, **args):
"""execute <cmd> on the server
The command is expected to return a stream.
The stream may have been compressed in some implementations. This
function takes care of the decompression. This is the only difference
with _callstream.
returns the server reply as a file like object.
"""
raise NotImplementedError()
def _callpush(self, cmd, fp, **args):
"""execute a <cmd> on server
The command is expected to be related to a push. Push has a special
return method.
returns the server reply as a (ret, output) tuple. ret is either
empty (error) or a stringified int.
"""
raise NotImplementedError()
def _calltwowaystream(self, cmd, fp, **args):
"""execute <cmd> on server
The command will send a stream to the server and get a stream in reply.
"""
raise NotImplementedError()
def _abort(self, exception):
"""clearly abort the wire protocol connection and raise the exception
"""
raise NotImplementedError()