synapse/tests/server.py

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import json
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import logging
from io import BytesIO
from six import text_type
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import attr
from zope.interface import implementer
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from twisted.internet import address, threads, udp
from twisted.internet._resolver import SimpleResolverComplexifier
from twisted.internet.defer import Deferred, fail, succeed
from twisted.internet.error import DNSLookupError
from twisted.internet.interfaces import IReactorPluggableNameResolver, IResolverSimple
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from twisted.python.failure import Failure
from twisted.test.proto_helpers import MemoryReactorClock
from twisted.web.http import unquote
from twisted.web.http_headers import Headers
from synapse.http.site import SynapseRequest
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from synapse.util import Clock
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from tests.utils import setup_test_homeserver as _sth
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logger = logging.getLogger(__name__)
class TimedOutException(Exception):
"""
A web query timed out.
"""
@attr.s
class FakeChannel(object):
"""
A fake Twisted Web Channel (the part that interfaces with the
wire).
"""
_reactor = attr.ib()
result = attr.ib(default=attr.Factory(dict))
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_producer = None
@property
def json_body(self):
if not self.result:
raise Exception("No result yet.")
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return json.loads(self.result["body"].decode('utf8'))
@property
def code(self):
if not self.result:
raise Exception("No result yet.")
return int(self.result["code"])
@property
def headers(self):
if not self.result:
raise Exception("No result yet.")
h = Headers()
for i in self.result["headers"]:
h.addRawHeader(*i)
return h
def writeHeaders(self, version, code, reason, headers):
self.result["version"] = version
self.result["code"] = code
self.result["reason"] = reason
self.result["headers"] = headers
def write(self, content):
assert isinstance(content, bytes), "Should be bytes! " + repr(content)
if "body" not in self.result:
self.result["body"] = b""
self.result["body"] += content
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def registerProducer(self, producer, streaming):
self._producer = producer
self.producerStreaming = streaming
def _produce():
if self._producer:
self._producer.resumeProducing()
self._reactor.callLater(0.1, _produce)
if not streaming:
self._reactor.callLater(0.0, _produce)
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def unregisterProducer(self):
if self._producer is None:
return
self._producer = None
def requestDone(self, _self):
self.result["done"] = True
def getPeer(self):
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# We give an address so that getClientIP returns a non null entry,
# causing us to record the MAU
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return address.IPv4Address("TCP", "127.0.0.1", 3423)
def getHost(self):
return None
@property
def transport(self):
return self
class FakeSite:
"""
A fake Twisted Web Site, with mocks of the extra things that
Synapse adds.
"""
server_version_string = b"1"
site_tag = "test"
@property
def access_logger(self):
class FakeLogger:
def info(self, *args, **kwargs):
pass
return FakeLogger()
def make_request(
reactor,
method,
path,
content=b"",
access_token=None,
request=SynapseRequest,
shorthand=True,
):
"""
Make a web request using the given method and path, feed it the
content, and return the Request and the Channel underneath.
Args:
method (bytes/unicode): The HTTP request method ("verb").
path (bytes/unicode): The HTTP path, suitably URL encoded (e.g.
escaped UTF-8 & spaces and such).
content (bytes or dict): The body of the request. JSON-encoded, if
a dict.
shorthand: Whether to try and be helpful and prefix the given URL
with the usual REST API path, if it doesn't contain it.
Returns:
A synapse.http.site.SynapseRequest.
"""
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if not isinstance(method, bytes):
method = method.encode('ascii')
if not isinstance(path, bytes):
path = path.encode('ascii')
# Decorate it to be the full path, if we're using shorthand
if shorthand and not path.startswith(b"/_matrix"):
path = b"/_matrix/client/r0/" + path
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path = path.replace(b"//", b"/")
if not path.startswith(b"/"):
path = b"/" + path
if isinstance(content, text_type):
content = content.encode('utf8')
site = FakeSite()
channel = FakeChannel(reactor)
req = request(site, channel)
req.process = lambda: b""
req.content = BytesIO(content)
req.postpath = list(map(unquote, path[1:].split(b'/')))
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if access_token:
req.requestHeaders.addRawHeader(
b"Authorization", b"Bearer " + access_token.encode('ascii')
)
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if content:
req.requestHeaders.addRawHeader(b"Content-Type", b"application/json")
req.requestReceived(method, path, b"1.1")
return req, channel
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def wait_until_result(clock, request, timeout=100):
"""
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Wait until the request is finished.
"""
clock.run()
x = 0
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while not request.finished:
# If there's a producer, tell it to resume producing so we get content
if request._channel._producer:
request._channel._producer.resumeProducing()
x += 1
if x > timeout:
raise TimedOutException("Timed out waiting for request to finish.")
clock.advance(0.1)
def render(request, resource, clock):
request.render(resource)
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wait_until_result(clock, request)
@implementer(IReactorPluggableNameResolver)
class ThreadedMemoryReactorClock(MemoryReactorClock):
"""
A MemoryReactorClock that supports callFromThread.
"""
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def __init__(self):
self._udp = []
lookups = self.lookups = {}
@implementer(IResolverSimple)
class FakeResolver(object):
def getHostByName(self, name, timeout=None):
if name not in lookups:
return fail(DNSLookupError("OH NO: unknown %s" % (name, )))
return succeed(lookups[name])
self.nameResolver = SimpleResolverComplexifier(FakeResolver())
super(ThreadedMemoryReactorClock, self).__init__()
def listenUDP(self, port, protocol, interface='', maxPacketSize=8196):
p = udp.Port(port, protocol, interface, maxPacketSize, self)
p.startListening()
self._udp.append(p)
return p
def callFromThread(self, callback, *args, **kwargs):
"""
Make the callback fire in the next reactor iteration.
"""
d = Deferred()
d.addCallback(lambda x: callback(*args, **kwargs))
self.callLater(0, d.callback, True)
return d
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def setup_test_homeserver(cleanup_func, *args, **kwargs):
"""
Set up a synchronous test server, driven by the reactor used by
the homeserver.
"""
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d = _sth(cleanup_func, *args, **kwargs).result
if isinstance(d, Failure):
d.raiseException()
# Make the thread pool synchronous.
clock = d.get_clock()
pool = d.get_db_pool()
def runWithConnection(func, *args, **kwargs):
return threads.deferToThreadPool(
pool._reactor,
pool.threadpool,
pool._runWithConnection,
func,
*args,
**kwargs
)
def runInteraction(interaction, *args, **kwargs):
return threads.deferToThreadPool(
pool._reactor,
pool.threadpool,
pool._runInteraction,
interaction,
*args,
**kwargs
)
pool.runWithConnection = runWithConnection
pool.runInteraction = runInteraction
class ThreadPool:
"""
Threadless thread pool.
"""
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def start(self):
pass
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def stop(self):
pass
def callInThreadWithCallback(self, onResult, function, *args, **kwargs):
def _(res):
if isinstance(res, Failure):
onResult(False, res)
else:
onResult(True, res)
d = Deferred()
d.addCallback(lambda x: function(*args, **kwargs))
d.addBoth(_)
clock._reactor.callLater(0, d.callback, True)
return d
clock.threadpool = ThreadPool()
pool.threadpool = ThreadPool()
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pool.running = True
return d
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def get_clock():
clock = ThreadedMemoryReactorClock()
hs_clock = Clock(clock)
return (clock, hs_clock)
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@attr.s(cmp=False)
class FakeTransport(object):
"""
A twisted.internet.interfaces.ITransport implementation which sends all its data
straight into an IProtocol object: it exists to connect two IProtocols together.
To use it, instantiate it with the receiving IProtocol, and then pass it to the
sending IProtocol's makeConnection method:
server = HTTPChannel()
client.makeConnection(FakeTransport(server, self.reactor))
If you want bidirectional communication, you'll need two instances.
"""
other = attr.ib()
"""The Protocol object which will receive any data written to this transport.
:type: twisted.internet.interfaces.IProtocol
"""
_reactor = attr.ib()
"""Test reactor
:type: twisted.internet.interfaces.IReactorTime
"""
_protocol = attr.ib(default=None)
"""The Protocol which is producing data for this transport. Optional, but if set
will get called back for connectionLost() notifications etc.
"""
disconnecting = False
disconnected = False
buffer = attr.ib(default=b'')
producer = attr.ib(default=None)
def getPeer(self):
return None
def getHost(self):
return None
def loseConnection(self, reason=None):
if not self.disconnecting:
logger.info("FakeTransport: loseConnection(%s)", reason)
self.disconnecting = True
if self._protocol:
self._protocol.connectionLost(reason)
self.disconnected = True
def abortConnection(self):
logger.info("FakeTransport: abortConnection()")
self.loseConnection()
def pauseProducing(self):
if not self.producer:
return
self.producer.pauseProducing()
def resumeProducing(self):
if not self.producer:
return
self.producer.resumeProducing()
def unregisterProducer(self):
if not self.producer:
return
self.producer = None
def registerProducer(self, producer, streaming):
self.producer = producer
self.producerStreaming = streaming
def _produce():
d = self.producer.resumeProducing()
d.addCallback(lambda x: self._reactor.callLater(0.1, _produce))
if not streaming:
self._reactor.callLater(0.0, _produce)
def write(self, byt):
self.buffer = self.buffer + byt
def _write():
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if not self.buffer:
# nothing to do. Don't write empty buffers: it upsets the
# TLSMemoryBIOProtocol
return
if self.disconnected:
return
logger.info("%s->%s: %s", self._protocol, self.other, self.buffer)
if getattr(self.other, "transport") is not None:
try:
self.other.dataReceived(self.buffer)
self.buffer = b""
except Exception as e:
logger.warning("Exception writing to protocol: %s", e)
return
self._reactor.callLater(0.0, _write)
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# always actually do the write asynchronously. Some protocols (notably the
# TLSMemoryBIOProtocol) get very confused if a read comes back while they are
# still doing a write. Doing a callLater here breaks the cycle.
self._reactor.callLater(0.0, _write)
def writeSequence(self, seq):
for x in seq:
self.write(x)