wireproto: add streams to frame-based protocol
Previously, the frame-based protocol was just a series of frames,
with each frame associated with a request ID.
In order to scale the protocol, we'll want to enable the use of
compression. While it is possible to enable compression at the
socket/pipe level, this has its disadvantages. The big one is it
undermines the point of frames being standalone, atomic units that
can be read and written: if you add compression above the framing
protocol, you are back to having a stream-based protocol as opposed
to something frame-based.
So in order to preserve frames, compression needs to occur at
the frame payload level.
Compressing each frame's payload individually will limit compression
ratios because the window size of the compressor will be limited
by the max frame size, which is 32-64kb as currently defined. It
will also add CPU overhead, as it is more efficient for compressors
to operate on fewer, larger blocks of data than more, smaller blocks.
So compressing each frame independently is out.
This means we need to compress each frame's payload as if it is part
of a larger stream.
The simplest approach is to have 1 stream per connection. This
could certainly work. However, it has disadvantages (documented below).
We could also have 1 stream per RPC/command invocation. (This is the
model HTTP/2 goes with.) This also has disadvantages.
The main disadvantage to one global stream is that it has the very
real potential to create CPU bottlenecks doing compression. Networks
are only getting faster and the performance of single CPU cores has
been relatively flat. Newer compression formats like zstandard offer
better CPU cycle efficiency than predecessors like zlib. But it still
all too common to saturate your CPU with compression overhead long
before you saturate the network pipe.
The main disadvantage with streams per request is that you can't
reap the benefits of the compression context for multiple requests.
For example, if you send 1000 RPC requests (or HTTP/2 requests for
that matter), the response to each would have its own compression
context. The overall size of the raw responses would be larger because
compression contexts wouldn't be able to reference data from another
request or response.
The approach for streams as implemented in this commit is to support
N streams per connection and for streams to potentially span requests
and responses. As explained by the added internals docs, this
facilitates servers and clients delegating independent streams and
compression to independent threads / CPU cores. This helps alleviate
the CPU bottleneck of compression. This design also allows compression
contexts to be reused across requests/responses. This can result in
improved compression ratios and less overhead for compressors and
decompressors having to build new contexts.
Another feature that was defined was the ability for individual frames
within a stream to declare whether that individual frame's payload
uses the content encoding (read: compression) defined by the stream.
The idea here is that some servers may serve data from a combination
of caches and dynamic resolution. Data coming from caches may be
pre-compressed. We want to facilitate servers being able to essentially
stream bytes from caches to the wire with minimal overhead. Being
able to mix and match with frames are compressed within a stream
enables these types of advanced server functionality.
This commit defines the new streams mechanism. Basic code for
supporting streams in frames has been added. But that code is
seriously lacking and doesn't fully conform to the defined protocol.
For example, we don't close any streams. And support for content
encoding within streams is not yet implemented. The change was
rather invasive and I didn't think it would be reasonable to implement
the entire feature in a single commit.
For the record, I would have loved to reuse an existing multiplexing
protocol to build the new wire protocol on top of. However, I couldn't
find a protocol that offers the performance and scaling characteristics
that I desired. Namely, it should support multiple compression
contexts to facilitate scaling out to multiple CPU cores and
compression contexts should be able to live longer than single RPC
requests. HTTP/2 *almost* fits the bill. But the semantics of HTTP
message exchange state that streams can only live for a single
request-response. We /could/ tunnel on top of HTTP/2 streams and
frames with HEADER and DATA frames. But there's no guarantee that
HTTP/2 libraries and proxies would allow us to use HTTP/2 streams
and frames without the HTTP message exchange semantics defined in
RFC 7540 Section 8. Other RPC protocols like gRPC tunnel are built
on top of HTTP/2 and thus preserve its semantics of stream per
RPC invocation. Even QUIC does this. We could attempt to invent a
higher-level stream that spans HTTP/2 streams. But this would be
violating HTTP/2 because there is no guarantee that HTTP/2 streams
are routed to the same server. The best we can do - which is what
this protocol does - is shoehorn all request and response data into
a single HTTP message and create streams within. At that point, we've
defined a Content-Type in HTTP parlance. It just so happens our
media type can also work as a standalone, stream-based protocol,
without leaning on HTTP or similar protocol.
Differential Revision: https://phab.mercurial-scm.org/D2907
# wireproto.py - generic wire protocol support functions
#
# 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 hashlib
import os
import tempfile
from .i18n import _
from .node import (
bin,
hex,
nullid,
)
from . import (
bundle2,
changegroup as changegroupmod,
discovery,
encoding,
error,
exchange,
peer,
pushkey as pushkeymod,
pycompat,
repository,
streamclone,
util,
wireprototypes,
)
from .utils import (
procutil,
stringutil,
)
urlerr = util.urlerr
urlreq = util.urlreq
bytesresponse = wireprototypes.bytesresponse
ooberror = wireprototypes.ooberror
pushres = wireprototypes.pushres
pusherr = wireprototypes.pusherr
streamres = wireprototypes.streamres
streamres_legacy = wireprototypes.streamreslegacy
bundle2requiredmain = _('incompatible Mercurial client; bundle2 required')
bundle2requiredhint = _('see https://www.mercurial-scm.org/wiki/'
'IncompatibleClient')
bundle2required = '%s\n(%s)\n' % (bundle2requiredmain, bundle2requiredhint)
class remoteiterbatcher(peer.iterbatcher):
def __init__(self, remote):
super(remoteiterbatcher, self).__init__()
self._remote = remote
def __getattr__(self, name):
# Validate this method is batchable, since submit() only supports
# batchable methods.
fn = getattr(self._remote, name)
if not getattr(fn, 'batchable', None):
raise error.ProgrammingError('Attempted to batch a non-batchable '
'call to %r' % name)
return super(remoteiterbatcher, self).__getattr__(name)
def submit(self):
"""Break the batch request into many patch calls and pipeline them.
This is mostly valuable over http where request sizes can be
limited, but can be used in other places as well.
"""
# 2-tuple of (command, arguments) that represents what will be
# sent over the wire.
requests = []
# 4-tuple of (command, final future, @batchable generator, remote
# future).
results = []
for command, args, opts, finalfuture in self.calls:
mtd = getattr(self._remote, command)
batchable = mtd.batchable(mtd.__self__, *args, **opts)
commandargs, fremote = next(batchable)
assert fremote
requests.append((command, commandargs))
results.append((command, finalfuture, batchable, fremote))
if requests:
self._resultiter = self._remote._submitbatch(requests)
self._results = results
def results(self):
for command, finalfuture, batchable, remotefuture in self._results:
# Get the raw result, set it in the remote future, feed it
# back into the @batchable generator so it can be decoded, and
# set the result on the final future to this value.
remoteresult = next(self._resultiter)
remotefuture.set(remoteresult)
finalfuture.set(next(batchable))
# Verify our @batchable generators only emit 2 values.
try:
next(batchable)
except StopIteration:
pass
else:
raise error.ProgrammingError('%s @batchable generator emitted '
'unexpected value count' % command)
yield finalfuture.value
# Forward a couple of names from peer to make wireproto interactions
# slightly more sensible.
batchable = peer.batchable
future = peer.future
# list of nodes encoding / decoding
def decodelist(l, sep=' '):
if l:
return [bin(v) for v in l.split(sep)]
return []
def encodelist(l, sep=' '):
try:
return sep.join(map(hex, l))
except TypeError:
raise
# batched call argument encoding
def escapearg(plain):
return (plain
.replace(':', ':c')
.replace(',', ':o')
.replace(';', ':s')
.replace('=', ':e'))
def unescapearg(escaped):
return (escaped
.replace(':e', '=')
.replace(':s', ';')
.replace(':o', ',')
.replace(':c', ':'))
def encodebatchcmds(req):
"""Return a ``cmds`` argument value for the ``batch`` command."""
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 = ','.join('%s=%s' % (escapearg(k), escapearg(v))
for k, v in argsdict.iteritems())
cmds.append('%s %s' % (op, args))
return ';'.join(cmds)
# mapping of options accepted by getbundle and their types
#
# Meant to be extended by extensions. It is extensions responsibility to ensure
# such options are properly processed in exchange.getbundle.
#
# supported types are:
#
# :nodes: list of binary nodes
# :csv: list of comma-separated values
# :scsv: list of comma-separated values return as set
# :plain: string with no transformation needed.
gboptsmap = {'heads': 'nodes',
'bookmarks': 'boolean',
'common': 'nodes',
'obsmarkers': 'boolean',
'phases': 'boolean',
'bundlecaps': 'scsv',
'listkeys': 'csv',
'cg': 'boolean',
'cbattempted': 'boolean',
'stream': 'boolean',
}
# client side
class wirepeer(repository.legacypeer):
"""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.
"""
# Begin of basewirepeer interface.
def iterbatch(self):
return remoteiterbatcher(self)
@batchable
def lookup(self, key):
self.requirecap('lookup', _('look up remote revision'))
f = future()
yield {'key': encoding.fromlocal(key)}, f
d = f.value
success, data = d[:-1].split(" ", 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 decodelist(d[:-1])
except ValueError:
self._abort(error.ResponseError(_("unexpected response:"), d))
@batchable
def known(self, nodes):
f = future()
yield {'nodes': encodelist(nodes)}, f
d = f.value
try:
yield [bool(int(b)) for b in d]
except ValueError:
self._abort(error.ResponseError(_("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(' ', 1)
branchname = encoding.tolocal(urlreq.unquote(branchname))
branchheads = decodelist(branchheads)
branchmap[branchname] = branchheads
yield branchmap
except TypeError:
self._abort(error.ResponseError(_("unexpected response:"), d))
@batchable
def listkeys(self, namespace):
if not self.capable('pushkey'):
yield {}, None
f = future()
self.ui.debug('preparing listkeys for "%s"\n' % namespace)
yield {'namespace': encoding.fromlocal(namespace)}, f
d = f.value
self.ui.debug('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('pushkey'):
yield False, None
f = future()
self.ui.debug('preparing pushkey for "%s:%s"\n' % (namespace, key))
yield {'namespace': encoding.fromlocal(namespace),
'key': encoding.fromlocal(key),
'old': encoding.fromlocal(old),
'new': encoding.fromlocal(new)}, f
d = f.value
d, output = d.split('\n', 1)
try:
d = bool(int(d))
except ValueError:
raise error.ResponseError(
_('push failed (unexpected response):'), d)
for l in output.splitlines(True):
self.ui.status(_('remote: '), l)
yield d
def stream_out(self):
return self._callstream('stream_out')
def getbundle(self, source, **kwargs):
kwargs = pycompat.byteskwargs(kwargs)
self.requirecap('getbundle', _('look up remote changes'))
opts = {}
bundlecaps = kwargs.get('bundlecaps')
if bundlecaps is not None:
kwargs['bundlecaps'] = sorted(bundlecaps)
else:
bundlecaps = () # kwargs could have it to None
for key, value in kwargs.iteritems():
if value is None:
continue
keytype = gboptsmap.get(key)
if keytype is None:
raise error.ProgrammingError(
'Unexpectedly None keytype for key %s' % key)
elif keytype == 'nodes':
value = encodelist(value)
elif keytype in ('csv', 'scsv'):
value = ','.join(value)
elif keytype == 'boolean':
value = '%i' % bool(value)
elif keytype != 'plain':
raise KeyError('unknown getbundle option type %s'
% keytype)
opts[key] = value
f = self._callcompressable("getbundle", **pycompat.strkwargs(opts))
if any((cap.startswith('HG2') for cap in bundlecaps)):
return bundle2.getunbundler(self.ui, f)
else:
return changegroupmod.cg1unpacker(f, 'UN')
def unbundle(self, cg, 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 != ['force'] and self.capable('unbundlehash'):
heads = encodelist(['hashed',
hashlib.sha1(''.join(sorted(heads))).digest()])
else:
heads = encodelist(heads)
if util.safehasattr(cg, 'deltaheader'):
# this a bundle10, do the old style call sequence
ret, output = self._callpush("unbundle", cg, heads=heads)
if ret == "":
raise error.ResponseError(
_('push failed:'), output)
try:
ret = int(ret)
except ValueError:
raise error.ResponseError(
_('push failed (unexpected response):'), ret)
for l in output.splitlines(True):
self.ui.status(_('remote: '), l)
else:
# bundle2 push. Send a stream, fetch a stream.
stream = self._calltwowaystream('unbundle', cg, heads=heads)
ret = bundle2.getunbundler(self.ui, stream)
return ret
# End of basewirepeer interface.
# Begin of baselegacywirepeer interface.
def branches(self, nodes):
n = encodelist(nodes)
d = self._call("branches", nodes=n)
try:
br = [tuple(decodelist(b)) for b in d.splitlines()]
return br
except ValueError:
self._abort(error.ResponseError(_("unexpected response:"), d))
def between(self, pairs):
batch = 8 # avoid giant requests
r = []
for i in xrange(0, len(pairs), batch):
n = " ".join([encodelist(p, '-') for p in pairs[i:i + batch]])
d = self._call("between", pairs=n)
try:
r.extend(l and decodelist(l) or [] for l in d.splitlines())
except ValueError:
self._abort(error.ResponseError(_("unexpected response:"), d))
return r
def changegroup(self, nodes, kind):
n = encodelist(nodes)
f = self._callcompressable("changegroup", roots=n)
return changegroupmod.cg1unpacker(f, 'UN')
def changegroupsubset(self, bases, heads, kind):
self.requirecap('changegroupsubset', _('look up remote changes'))
bases = encodelist(bases)
heads = encodelist(heads)
f = self._callcompressable("changegroupsubset",
bases=bases, heads=heads)
return changegroupmod.cg1unpacker(f, 'UN')
# End of baselegacywirepeer 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('devel', 'debug.peer-request'):
ui.debug('devel-peer-request: batched-content\n')
for op, args in req:
msg = 'devel-peer-request: - %s (%d arguments)\n'
ui.debug(msg % (op, len(args)))
rsp = self._callstream("batch", cmds=encodebatchcmds(req))
chunk = rsp.read(1024)
work = [chunk]
while chunk:
while ';' not in chunk and chunk:
chunk = rsp.read(1024)
work.append(chunk)
merged = ''.join(work)
while ';' in merged:
one, merged = merged.split(';', 1)
yield unescapearg(one)
chunk = rsp.read(1024)
work = [merged, chunk]
yield unescapearg(''.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[r'three'] = three
if four is not None:
opts[r'four'] = four
return self._call('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()
# server side
# wire protocol command can either return a string or one of these classes.
def getdispatchrepo(repo, proto, command):
"""Obtain the repo used for processing wire protocol commands.
The intent of this function is to serve as a monkeypatch point for
extensions that need commands to operate on different repo views under
specialized circumstances.
"""
return repo.filtered('served')
def dispatch(repo, proto, command):
repo = getdispatchrepo(repo, proto, command)
func, spec = commands[command]
args = proto.getargs(spec)
return func(repo, proto, *args)
def options(cmd, keys, others):
opts = {}
for k in keys:
if k in others:
opts[k] = others[k]
del others[k]
if others:
procutil.stderr.write("warning: %s ignored unexpected arguments %s\n"
% (cmd, ",".join(others)))
return opts
def bundle1allowed(repo, action):
"""Whether a bundle1 operation is allowed from the server.
Priority is:
1. server.bundle1gd.<action> (if generaldelta active)
2. server.bundle1.<action>
3. server.bundle1gd (if generaldelta active)
4. server.bundle1
"""
ui = repo.ui
gd = 'generaldelta' in repo.requirements
if gd:
v = ui.configbool('server', 'bundle1gd.%s' % action)
if v is not None:
return v
v = ui.configbool('server', 'bundle1.%s' % action)
if v is not None:
return v
if gd:
v = ui.configbool('server', 'bundle1gd')
if v is not None:
return v
return ui.configbool('server', 'bundle1')
def supportedcompengines(ui, role):
"""Obtain the list of supported compression engines for a request."""
assert role in (util.CLIENTROLE, util.SERVERROLE)
compengines = util.compengines.supportedwireengines(role)
# Allow config to override default list and ordering.
if role == util.SERVERROLE:
configengines = ui.configlist('server', 'compressionengines')
config = 'server.compressionengines'
else:
# This is currently implemented mainly to facilitate testing. In most
# cases, the server should be in charge of choosing a compression engine
# because a server has the most to lose from a sub-optimal choice. (e.g.
# CPU DoS due to an expensive engine or a network DoS due to poor
# compression ratio).
configengines = ui.configlist('experimental',
'clientcompressionengines')
config = 'experimental.clientcompressionengines'
# No explicit config. Filter out the ones that aren't supposed to be
# advertised and return default ordering.
if not configengines:
attr = 'serverpriority' if role == util.SERVERROLE else 'clientpriority'
return [e for e in compengines
if getattr(e.wireprotosupport(), attr) > 0]
# If compression engines are listed in the config, assume there is a good
# reason for it (like server operators wanting to achieve specific
# performance characteristics). So fail fast if the config references
# unusable compression engines.
validnames = set(e.name() for e in compengines)
invalidnames = set(e for e in configengines if e not in validnames)
if invalidnames:
raise error.Abort(_('invalid compression engine defined in %s: %s') %
(config, ', '.join(sorted(invalidnames))))
compengines = [e for e in compengines if e.name() in configengines]
compengines = sorted(compengines,
key=lambda e: configengines.index(e.name()))
if not compengines:
raise error.Abort(_('%s config option does not specify any known '
'compression engines') % config,
hint=_('usable compression engines: %s') %
', '.sorted(validnames))
return compengines
class commandentry(object):
"""Represents a declared wire protocol command."""
def __init__(self, func, args='', transports=None,
permission='push'):
self.func = func
self.args = args
self.transports = transports or set()
self.permission = permission
def _merge(self, func, args):
"""Merge this instance with an incoming 2-tuple.
This is called when a caller using the old 2-tuple API attempts
to replace an instance. The incoming values are merged with
data not captured by the 2-tuple and a new instance containing
the union of the two objects is returned.
"""
return commandentry(func, args=args, transports=set(self.transports),
permission=self.permission)
# Old code treats instances as 2-tuples. So expose that interface.
def __iter__(self):
yield self.func
yield self.args
def __getitem__(self, i):
if i == 0:
return self.func
elif i == 1:
return self.args
else:
raise IndexError('can only access elements 0 and 1')
class commanddict(dict):
"""Container for registered wire protocol commands.
It behaves like a dict. But __setitem__ is overwritten to allow silent
coercion of values from 2-tuples for API compatibility.
"""
def __setitem__(self, k, v):
if isinstance(v, commandentry):
pass
# Cast 2-tuples to commandentry instances.
elif isinstance(v, tuple):
if len(v) != 2:
raise ValueError('command tuples must have exactly 2 elements')
# It is common for extensions to wrap wire protocol commands via
# e.g. ``wireproto.commands[x] = (newfn, args)``. Because callers
# doing this aren't aware of the new API that uses objects to store
# command entries, we automatically merge old state with new.
if k in self:
v = self[k]._merge(v[0], v[1])
else:
# Use default values from @wireprotocommand.
v = commandentry(v[0], args=v[1],
transports=set(wireprototypes.TRANSPORTS),
permission='push')
else:
raise ValueError('command entries must be commandentry instances '
'or 2-tuples')
return super(commanddict, self).__setitem__(k, v)
def commandavailable(self, command, proto):
"""Determine if a command is available for the requested protocol."""
assert proto.name in wireprototypes.TRANSPORTS
entry = self.get(command)
if not entry:
return False
if proto.name not in entry.transports:
return False
return True
# Constants specifying which transports a wire protocol command should be
# available on. For use with @wireprotocommand.
POLICY_ALL = 'all'
POLICY_V1_ONLY = 'v1-only'
POLICY_V2_ONLY = 'v2-only'
commands = commanddict()
def wireprotocommand(name, args='', transportpolicy=POLICY_ALL,
permission='push'):
"""Decorator to declare a wire protocol command.
``name`` is the name of the wire protocol command being provided.
``args`` is a space-delimited list of named arguments that the command
accepts. ``*`` is a special value that says to accept all arguments.
``transportpolicy`` is a POLICY_* constant denoting which transports
this wire protocol command should be exposed to. By default, commands
are exposed to all wire protocol transports.
``permission`` defines the permission type needed to run this command.
Can be ``push`` or ``pull``. These roughly map to read-write and read-only,
respectively. Default is to assume command requires ``push`` permissions
because otherwise commands not declaring their permissions could modify
a repository that is supposed to be read-only.
"""
if transportpolicy == POLICY_ALL:
transports = set(wireprototypes.TRANSPORTS)
elif transportpolicy == POLICY_V1_ONLY:
transports = {k for k, v in wireprototypes.TRANSPORTS.items()
if v['version'] == 1}
elif transportpolicy == POLICY_V2_ONLY:
transports = {k for k, v in wireprototypes.TRANSPORTS.items()
if v['version'] == 2}
else:
raise error.ProgrammingError('invalid transport policy value: %s' %
transportpolicy)
# Because SSHv2 is a mirror of SSHv1, we allow "batch" commands through to
# SSHv2.
# TODO undo this hack when SSH is using the unified frame protocol.
if name == b'batch':
transports.add(wireprototypes.SSHV2)
if permission not in ('push', 'pull'):
raise error.ProgrammingError('invalid wire protocol permission; '
'got %s; expected "push" or "pull"' %
permission)
def register(func):
commands[name] = commandentry(func, args=args, transports=transports,
permission=permission)
return func
return register
# TODO define a more appropriate permissions type to use for this.
@wireprotocommand('batch', 'cmds *', permission='pull',
transportpolicy=POLICY_V1_ONLY)
def batch(repo, proto, cmds, others):
repo = repo.filtered("served")
res = []
for pair in cmds.split(';'):
op, args = pair.split(' ', 1)
vals = {}
for a in args.split(','):
if a:
n, v = a.split('=')
vals[unescapearg(n)] = unescapearg(v)
func, spec = commands[op]
# Validate that client has permissions to perform this command.
perm = commands[op].permission
assert perm in ('push', 'pull')
proto.checkperm(perm)
if spec:
keys = spec.split()
data = {}
for k in keys:
if k == '*':
star = {}
for key in vals.keys():
if key not in keys:
star[key] = vals[key]
data['*'] = star
else:
data[k] = vals[k]
result = func(repo, proto, *[data[k] for k in keys])
else:
result = func(repo, proto)
if isinstance(result, ooberror):
return result
# For now, all batchable commands must return bytesresponse or
# raw bytes (for backwards compatibility).
assert isinstance(result, (bytesresponse, bytes))
if isinstance(result, bytesresponse):
result = result.data
res.append(escapearg(result))
return bytesresponse(';'.join(res))
@wireprotocommand('between', 'pairs', transportpolicy=POLICY_V1_ONLY,
permission='pull')
def between(repo, proto, pairs):
pairs = [decodelist(p, '-') for p in pairs.split(" ")]
r = []
for b in repo.between(pairs):
r.append(encodelist(b) + "\n")
return bytesresponse(''.join(r))
@wireprotocommand('branchmap', permission='pull')
def branchmap(repo, proto):
branchmap = repo.branchmap()
heads = []
for branch, nodes in branchmap.iteritems():
branchname = urlreq.quote(encoding.fromlocal(branch))
branchnodes = encodelist(nodes)
heads.append('%s %s' % (branchname, branchnodes))
return bytesresponse('\n'.join(heads))
@wireprotocommand('branches', 'nodes', transportpolicy=POLICY_V1_ONLY,
permission='pull')
def branches(repo, proto, nodes):
nodes = decodelist(nodes)
r = []
for b in repo.branches(nodes):
r.append(encodelist(b) + "\n")
return bytesresponse(''.join(r))
@wireprotocommand('clonebundles', '', permission='pull')
def clonebundles(repo, proto):
"""Server command for returning info for available bundles to seed clones.
Clients will parse this response and determine what bundle to fetch.
Extensions may wrap this command to filter or dynamically emit data
depending on the request. e.g. you could advertise URLs for the closest
data center given the client's IP address.
"""
return bytesresponse(repo.vfs.tryread('clonebundles.manifest'))
wireprotocaps = ['lookup', 'branchmap', 'pushkey',
'known', 'getbundle', 'unbundlehash']
def _capabilities(repo, proto):
"""return a list of capabilities for a repo
This function exists to allow extensions to easily wrap capabilities
computation
- returns a lists: easy to alter
- change done here will be propagated to both `capabilities` and `hello`
command without any other action needed.
"""
# copy to prevent modification of the global list
caps = list(wireprotocaps)
# Command of same name as capability isn't exposed to version 1 of
# transports. So conditionally add it.
if commands.commandavailable('changegroupsubset', proto):
caps.append('changegroupsubset')
if streamclone.allowservergeneration(repo):
if repo.ui.configbool('server', 'preferuncompressed'):
caps.append('stream-preferred')
requiredformats = repo.requirements & repo.supportedformats
# if our local revlogs are just revlogv1, add 'stream' cap
if not requiredformats - {'revlogv1'}:
caps.append('stream')
# otherwise, add 'streamreqs' detailing our local revlog format
else:
caps.append('streamreqs=%s' % ','.join(sorted(requiredformats)))
if repo.ui.configbool('experimental', 'bundle2-advertise'):
capsblob = bundle2.encodecaps(bundle2.getrepocaps(repo, role='server'))
caps.append('bundle2=' + urlreq.quote(capsblob))
caps.append('unbundle=%s' % ','.join(bundle2.bundlepriority))
return proto.addcapabilities(repo, caps)
# If you are writing an extension and consider wrapping this function. Wrap
# `_capabilities` instead.
@wireprotocommand('capabilities', permission='pull')
def capabilities(repo, proto):
return bytesresponse(' '.join(_capabilities(repo, proto)))
@wireprotocommand('changegroup', 'roots', transportpolicy=POLICY_V1_ONLY,
permission='pull')
def changegroup(repo, proto, roots):
nodes = decodelist(roots)
outgoing = discovery.outgoing(repo, missingroots=nodes,
missingheads=repo.heads())
cg = changegroupmod.makechangegroup(repo, outgoing, '01', 'serve')
gen = iter(lambda: cg.read(32768), '')
return streamres(gen=gen)
@wireprotocommand('changegroupsubset', 'bases heads',
transportpolicy=POLICY_V1_ONLY,
permission='pull')
def changegroupsubset(repo, proto, bases, heads):
bases = decodelist(bases)
heads = decodelist(heads)
outgoing = discovery.outgoing(repo, missingroots=bases,
missingheads=heads)
cg = changegroupmod.makechangegroup(repo, outgoing, '01', 'serve')
gen = iter(lambda: cg.read(32768), '')
return streamres(gen=gen)
@wireprotocommand('debugwireargs', 'one two *',
permission='pull')
def debugwireargs(repo, proto, one, two, others):
# only accept optional args from the known set
opts = options('debugwireargs', ['three', 'four'], others)
return bytesresponse(repo.debugwireargs(one, two,
**pycompat.strkwargs(opts)))
@wireprotocommand('getbundle', '*', permission='pull')
def getbundle(repo, proto, others):
opts = options('getbundle', gboptsmap.keys(), others)
for k, v in opts.iteritems():
keytype = gboptsmap[k]
if keytype == 'nodes':
opts[k] = decodelist(v)
elif keytype == 'csv':
opts[k] = list(v.split(','))
elif keytype == 'scsv':
opts[k] = set(v.split(','))
elif keytype == 'boolean':
# Client should serialize False as '0', which is a non-empty string
# so it evaluates as a True bool.
if v == '0':
opts[k] = False
else:
opts[k] = bool(v)
elif keytype != 'plain':
raise KeyError('unknown getbundle option type %s'
% keytype)
if not bundle1allowed(repo, 'pull'):
if not exchange.bundle2requested(opts.get('bundlecaps')):
if proto.name == 'http-v1':
return ooberror(bundle2required)
raise error.Abort(bundle2requiredmain,
hint=bundle2requiredhint)
prefercompressed = True
try:
if repo.ui.configbool('server', 'disablefullbundle'):
# Check to see if this is a full clone.
clheads = set(repo.changelog.heads())
changegroup = opts.get('cg', True)
heads = set(opts.get('heads', set()))
common = set(opts.get('common', set()))
common.discard(nullid)
if changegroup and not common and clheads == heads:
raise error.Abort(
_('server has pull-based clones disabled'),
hint=_('remove --pull if specified or upgrade Mercurial'))
info, chunks = exchange.getbundlechunks(repo, 'serve',
**pycompat.strkwargs(opts))
prefercompressed = info.get('prefercompressed', True)
except error.Abort as exc:
# cleanly forward Abort error to the client
if not exchange.bundle2requested(opts.get('bundlecaps')):
if proto.name == 'http-v1':
return ooberror(pycompat.bytestr(exc) + '\n')
raise # cannot do better for bundle1 + ssh
# bundle2 request expect a bundle2 reply
bundler = bundle2.bundle20(repo.ui)
manargs = [('message', pycompat.bytestr(exc))]
advargs = []
if exc.hint is not None:
advargs.append(('hint', exc.hint))
bundler.addpart(bundle2.bundlepart('error:abort',
manargs, advargs))
chunks = bundler.getchunks()
prefercompressed = False
return streamres(gen=chunks, prefer_uncompressed=not prefercompressed)
@wireprotocommand('heads', permission='pull')
def heads(repo, proto):
h = repo.heads()
return bytesresponse(encodelist(h) + '\n')
@wireprotocommand('hello', permission='pull')
def hello(repo, proto):
"""Called as part of SSH handshake to obtain server info.
Returns a list of lines describing interesting things about the
server, in an RFC822-like format.
Currently, the only one defined is ``capabilities``, which consists of a
line of space separated tokens describing server abilities:
capabilities: <token0> <token1> <token2>
"""
caps = capabilities(repo, proto).data
return bytesresponse('capabilities: %s\n' % caps)
@wireprotocommand('listkeys', 'namespace', permission='pull')
def listkeys(repo, proto, namespace):
d = sorted(repo.listkeys(encoding.tolocal(namespace)).items())
return bytesresponse(pushkeymod.encodekeys(d))
@wireprotocommand('lookup', 'key', permission='pull')
def lookup(repo, proto, key):
try:
k = encoding.tolocal(key)
c = repo[k]
r = c.hex()
success = 1
except Exception as inst:
r = stringutil.forcebytestr(inst)
success = 0
return bytesresponse('%d %s\n' % (success, r))
@wireprotocommand('known', 'nodes *', permission='pull')
def known(repo, proto, nodes, others):
v = ''.join(b and '1' or '0' for b in repo.known(decodelist(nodes)))
return bytesresponse(v)
@wireprotocommand('pushkey', 'namespace key old new', permission='push')
def pushkey(repo, proto, namespace, key, old, new):
# compatibility with pre-1.8 clients which were accidentally
# sending raw binary nodes rather than utf-8-encoded hex
if len(new) == 20 and stringutil.escapestr(new) != new:
# looks like it could be a binary node
try:
new.decode('utf-8')
new = encoding.tolocal(new) # but cleanly decodes as UTF-8
except UnicodeDecodeError:
pass # binary, leave unmodified
else:
new = encoding.tolocal(new) # normal path
with proto.mayberedirectstdio() as output:
r = repo.pushkey(encoding.tolocal(namespace), encoding.tolocal(key),
encoding.tolocal(old), new) or False
output = output.getvalue() if output else ''
return bytesresponse('%d\n%s' % (int(r), output))
@wireprotocommand('stream_out', permission='pull')
def stream(repo, proto):
'''If the server supports streaming clone, it advertises the "stream"
capability with a value representing the version and flags of the repo
it is serving. Client checks to see if it understands the format.
'''
return streamres_legacy(streamclone.generatev1wireproto(repo))
@wireprotocommand('unbundle', 'heads', permission='push')
def unbundle(repo, proto, heads):
their_heads = decodelist(heads)
with proto.mayberedirectstdio() as output:
try:
exchange.check_heads(repo, their_heads, 'preparing changes')
# write bundle data to temporary file because it can be big
fd, tempname = tempfile.mkstemp(prefix='hg-unbundle-')
fp = os.fdopen(fd, r'wb+')
r = 0
try:
proto.forwardpayload(fp)
fp.seek(0)
gen = exchange.readbundle(repo.ui, fp, None)
if (isinstance(gen, changegroupmod.cg1unpacker)
and not bundle1allowed(repo, 'push')):
if proto.name == 'http-v1':
# need to special case http because stderr do not get to
# the http client on failed push so we need to abuse
# some other error type to make sure the message get to
# the user.
return ooberror(bundle2required)
raise error.Abort(bundle2requiredmain,
hint=bundle2requiredhint)
r = exchange.unbundle(repo, gen, their_heads, 'serve',
proto.client())
if util.safehasattr(r, 'addpart'):
# The return looks streamable, we are in the bundle2 case
# and should return a stream.
return streamres_legacy(gen=r.getchunks())
return pushres(r, output.getvalue() if output else '')
finally:
fp.close()
os.unlink(tempname)
except (error.BundleValueError, error.Abort, error.PushRaced) as exc:
# handle non-bundle2 case first
if not getattr(exc, 'duringunbundle2', False):
try:
raise
except error.Abort:
# The old code we moved used procutil.stderr directly.
# We did not change it to minimise code change.
# This need to be moved to something proper.
# Feel free to do it.
procutil.stderr.write("abort: %s\n" % exc)
if exc.hint is not None:
procutil.stderr.write("(%s)\n" % exc.hint)
procutil.stderr.flush()
return pushres(0, output.getvalue() if output else '')
except error.PushRaced:
return pusherr(pycompat.bytestr(exc),
output.getvalue() if output else '')
bundler = bundle2.bundle20(repo.ui)
for out in getattr(exc, '_bundle2salvagedoutput', ()):
bundler.addpart(out)
try:
try:
raise
except error.PushkeyFailed as exc:
# check client caps
remotecaps = getattr(exc, '_replycaps', None)
if (remotecaps is not None
and 'pushkey' not in remotecaps.get('error', ())):
# no support remote side, fallback to Abort handler.
raise
part = bundler.newpart('error:pushkey')
part.addparam('in-reply-to', exc.partid)
if exc.namespace is not None:
part.addparam('namespace', exc.namespace,
mandatory=False)
if exc.key is not None:
part.addparam('key', exc.key, mandatory=False)
if exc.new is not None:
part.addparam('new', exc.new, mandatory=False)
if exc.old is not None:
part.addparam('old', exc.old, mandatory=False)
if exc.ret is not None:
part.addparam('ret', exc.ret, mandatory=False)
except error.BundleValueError as exc:
errpart = bundler.newpart('error:unsupportedcontent')
if exc.parttype is not None:
errpart.addparam('parttype', exc.parttype)
if exc.params:
errpart.addparam('params', '\0'.join(exc.params))
except error.Abort as exc:
manargs = [('message', stringutil.forcebytestr(exc))]
advargs = []
if exc.hint is not None:
advargs.append(('hint', exc.hint))
bundler.addpart(bundle2.bundlepart('error:abort',
manargs, advargs))
except error.PushRaced as exc:
bundler.newpart('error:pushraced',
[('message', stringutil.forcebytestr(exc))])
return streamres_legacy(gen=bundler.getchunks())