Mercurial > hg
view tests/test-batching.py @ 44412:edc8504bc26b
exchange: turn on option that makes concurrent pushes work better
The motivation is simply to make hg work better out of the box.
This is a slight backwards compatibility break, because client
extensions could have assumed that the list of heads the client sees
during discovery will be the list of heads during the entirety of the
push. It seems unlikely to matter, and not worth mentioning.
There's a fair amount of diff in tests, but this is just due to
sending a few more bytes on the wire, except for test-acl.t.
The extra "invalid branch cache" lines in test-acl.t don't seem to
indicate a problem: the branchcache now get computed during the bundle
application (because of the check:updated-heads bundle part), but
doesn't get rolled back when transactions rollback, thus causing a
message in the next operation computing the branch cache. Before this
change, I assume the branchcache was only computed on transaction
commit, so not computed at all when the transactions roll back, thus
no messages.
Differential Revision: https://phab.mercurial-scm.org/D8202
| author | Valentin Gatien-Baron <valentin.gatienbaron@gmail.com> |
|---|---|
| date | Tue, 25 Feb 2020 20:27:39 -0500 |
| parents | 2372284d9457 |
| children | 89a2afe31e82 |
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# test-batching.py - tests for transparent command batching # # Copyright 2011 Peter Arrenbrecht <peter@arrenbrecht.ch> # # 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, print_function import contextlib from mercurial import ( localrepo, pycompat, wireprotov1peer, ) def bprint(*bs): print(*[pycompat.sysstr(b) for b in bs]) # equivalent of repo.repository class thing(object): def hello(self): return b"Ready." # equivalent of localrepo.localrepository class localthing(thing): def foo(self, one, two=None): if one: return b"%s and %s" % (one, two,) return b"Nope" def bar(self, b, a): return b"%s und %s" % (b, a,) def greet(self, name=None): return b"Hello, %s" % name @contextlib.contextmanager def commandexecutor(self): e = localrepo.localcommandexecutor(self) try: yield e finally: e.close() # usage of "thing" interface def use(it): # Direct call to base method shared between client and server. bprint(it.hello()) # Direct calls to proxied methods. They cause individual roundtrips. bprint(it.foo(b"Un", two=b"Deux")) bprint(it.bar(b"Eins", b"Zwei")) # Batched call to a couple of proxied methods. with it.commandexecutor() as e: ffoo = e.callcommand(b'foo', {b'one': b'One', b'two': b'Two'}) fbar = e.callcommand(b'bar', {b'b': b'Eins', b'a': b'Zwei'}) fbar2 = e.callcommand(b'bar', {b'b': b'Uno', b'a': b'Due'}) bprint(ffoo.result()) bprint(fbar.result()) bprint(fbar2.result()) # local usage mylocal = localthing() print() bprint(b"== Local") use(mylocal) # demo remoting; mimicks what wireproto and HTTP/SSH do # shared def escapearg(plain): return ( plain.replace(b':', b'::') .replace(b',', b':,') .replace(b';', b':;') .replace(b'=', b':=') ) def unescapearg(escaped): return ( escaped.replace(b':=', b'=') .replace(b':;', b';') .replace(b':,', b',') .replace(b'::', b':') ) # server side # equivalent of wireproto's global functions class server(object): def __init__(self, local): self.local = local def _call(self, name, args): args = dict(arg.split(b'=', 1) for arg in args) return getattr(self, name)(**args) def perform(self, req): bprint(b"REQ:", req) name, args = req.split(b'?', 1) args = args.split(b'&') vals = dict(arg.split(b'=', 1) for arg in args) res = getattr(self, pycompat.sysstr(name))(**pycompat.strkwargs(vals)) bprint(b" ->", res) return res def batch(self, cmds): res = [] for pair in cmds.split(b';'): name, args = pair.split(b':', 1) vals = {} for a in args.split(b','): if a: n, v = a.split(b'=') vals[n] = unescapearg(v) res.append( escapearg( getattr(self, pycompat.sysstr(name))( **pycompat.strkwargs(vals) ) ) ) return b';'.join(res) def foo(self, one, two): return mangle(self.local.foo(unmangle(one), unmangle(two))) def bar(self, b, a): return mangle(self.local.bar(unmangle(b), unmangle(a))) def greet(self, name): return mangle(self.local.greet(unmangle(name))) myserver = server(mylocal) # local side # equivalent of wireproto.encode/decodelist, that is, type-specific marshalling # here we just transform the strings a bit to check we're properly en-/decoding def mangle(s): return b''.join(pycompat.bytechr(ord(c) + 1) for c in pycompat.bytestr(s)) def unmangle(s): return b''.join(pycompat.bytechr(ord(c) - 1) for c in pycompat.bytestr(s)) # equivalent of wireproto.wirerepository and something like http's wire format class remotething(thing): def __init__(self, server): self.server = server def _submitone(self, name, args): req = name + b'?' + b'&'.join([b'%s=%s' % (n, v) for n, v in args]) return self.server.perform(req) def _submitbatch(self, cmds): req = [] for name, args in cmds: args = b','.join(n + b'=' + escapearg(v) for n, v in args) req.append(name + b':' + args) req = b';'.join(req) res = self._submitone(b'batch', [(b'cmds', req,)]) for r in res.split(b';'): yield r @contextlib.contextmanager def commandexecutor(self): e = wireprotov1peer.peerexecutor(self) try: yield e finally: e.close() @wireprotov1peer.batchable def foo(self, one, two=None): encargs = [(b'one', mangle(one),), (b'two', mangle(two),)] encresref = wireprotov1peer.future() yield encargs, encresref yield unmangle(encresref.value) @wireprotov1peer.batchable def bar(self, b, a): encresref = wireprotov1peer.future() yield [(b'b', mangle(b),), (b'a', mangle(a),)], encresref yield unmangle(encresref.value) # greet is coded directly. It therefore does not support batching. If it # does appear in a batch, the batch is split around greet, and the call to # greet is done in its own roundtrip. def greet(self, name=None): return unmangle(self._submitone(b'greet', [(b'name', mangle(name),)])) # demo remote usage myproxy = remotething(myserver) print() bprint(b"== Remote") use(myproxy)