forked-synapse/tests/http/federation/test_matrix_federation_agent.py
Eric Eastwood 887fa4b66b
Switch from matrix:// to matrix-federation:// scheme for internal Synapse routing of outbound federation traffic (#15806)
`matrix://` is a registered specced scheme nowadays and doesn't make sense for
our internal to Synapse use case anymore. ([discussion]
(https://github.com/matrix-org/synapse/pull/15773#discussion_r1227598679))
2023-06-20 10:05:31 +01:00

1591 lines
57 KiB
Python

# Copyright 2019 New Vector Ltd
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import base64
import logging
import os
from typing import Any, Awaitable, Callable, Generator, List, Optional, cast
from unittest.mock import Mock, patch
import treq
from netaddr import IPSet
from service_identity import VerificationError
from zope.interface import implementer
from twisted.internet import defer
from twisted.internet._sslverify import ClientTLSOptions, OpenSSLCertificateOptions
from twisted.internet.defer import Deferred
from twisted.internet.endpoints import _WrappingProtocol
from twisted.internet.interfaces import (
IOpenSSLClientConnectionCreator,
IProtocolFactory,
)
from twisted.internet.protocol import Factory, Protocol
from twisted.protocols.tls import TLSMemoryBIOFactory, TLSMemoryBIOProtocol
from twisted.web._newclient import ResponseNeverReceived
from twisted.web.client import Agent
from twisted.web.http import HTTPChannel, Request
from twisted.web.http_headers import Headers
from twisted.web.iweb import IPolicyForHTTPS, IResponse
from synapse.config.homeserver import HomeServerConfig
from synapse.crypto.context_factory import FederationPolicyForHTTPS
from synapse.http.federation.matrix_federation_agent import MatrixFederationAgent
from synapse.http.federation.srv_resolver import Server
from synapse.http.federation.well_known_resolver import (
WELL_KNOWN_MAX_SIZE,
WellKnownResolver,
_cache_period_from_headers,
)
from synapse.logging.context import (
SENTINEL_CONTEXT,
LoggingContext,
LoggingContextOrSentinel,
current_context,
)
from synapse.types import ISynapseReactor
from synapse.util.caches.ttlcache import TTLCache
from tests import unittest
from tests.http import (
TestServerTLSConnectionFactory,
dummy_address,
get_test_ca_cert_file,
)
from tests.server import FakeTransport, ThreadedMemoryReactorClock
from tests.utils import checked_cast, default_config
logger = logging.getLogger(__name__)
# Once Async Mocks or lambdas are supported this can go away.
def generate_resolve_service(
result: List[Server],
) -> Callable[[Any], Awaitable[List[Server]]]:
async def resolve_service(_: Any) -> List[Server]:
return result
return resolve_service
class MatrixFederationAgentTests(unittest.TestCase):
def setUp(self) -> None:
self.reactor = ThreadedMemoryReactorClock()
self.mock_resolver = Mock()
config_dict = default_config("test", parse=False)
config_dict["federation_custom_ca_list"] = [get_test_ca_cert_file()]
self._config = config = HomeServerConfig()
config.parse_config_dict(config_dict, "", "")
self.tls_factory = FederationPolicyForHTTPS(config)
self.well_known_cache: TTLCache[bytes, Optional[bytes]] = TTLCache(
"test_cache", timer=self.reactor.seconds
)
self.had_well_known_cache: TTLCache[bytes, bool] = TTLCache(
"test_cache", timer=self.reactor.seconds
)
self.well_known_resolver = WellKnownResolver(
self.reactor,
Agent(self.reactor, contextFactory=self.tls_factory),
b"test-agent",
well_known_cache=self.well_known_cache,
had_well_known_cache=self.had_well_known_cache,
)
def _make_connection(
self,
client_factory: IProtocolFactory,
ssl: bool = True,
expected_sni: Optional[bytes] = None,
tls_sanlist: Optional[List[bytes]] = None,
) -> HTTPChannel:
"""Builds a test server, and completes the outgoing client connection
Args:
client_factory: the the factory that the
application is trying to use to make the outbound connection. We will
invoke it to build the client Protocol
ssl: If true, we will expect an ssl connection and wrap
server_factory with a TLSMemoryBIOFactory
False is set only for when proxy expect http connection.
Otherwise federation requests use always https.
expected_sni: the expected SNI value
tls_sanlist: list of SAN entries for the TLS cert presented by the server.
Returns:
the server Protocol returned by server_factory
"""
# build the test server
server_factory = _get_test_protocol_factory()
if ssl:
server_factory = _wrap_server_factory_for_tls(server_factory, tls_sanlist)
server_protocol = server_factory.buildProtocol(dummy_address)
assert server_protocol is not None
# now, tell the client protocol factory to build the client protocol (it will be a
# _WrappingProtocol, around a TLSMemoryBIOProtocol, around an
# HTTP11ClientProtocol) and wire the output of said protocol up to the server via
# a FakeTransport.
#
# Normally this would be done by the TCP socket code in Twisted, but we are
# stubbing that out here.
# NB: we use a checked_cast here to workaround https://github.com/Shoobx/mypy-zope/issues/91)
client_protocol = checked_cast(
_WrappingProtocol, client_factory.buildProtocol(dummy_address)
)
client_protocol.makeConnection(
FakeTransport(server_protocol, self.reactor, client_protocol)
)
# tell the server protocol to send its stuff back to the client, too
server_protocol.makeConnection(
FakeTransport(client_protocol, self.reactor, server_protocol)
)
if ssl:
assert isinstance(server_protocol, TLSMemoryBIOProtocol)
# fish the test server back out of the server-side TLS protocol.
http_protocol = server_protocol.wrappedProtocol
# grab a hold of the TLS connection, in case it gets torn down
tls_connection = server_protocol._tlsConnection
else:
http_protocol = server_protocol
tls_connection = None
assert isinstance(http_protocol, HTTPChannel)
# give the reactor a pump to get the TLS juices flowing (if needed)
self.reactor.advance(0)
# check the SNI
if expected_sni is not None:
server_name = tls_connection.get_servername()
self.assertEqual(
server_name,
expected_sni,
f"Expected SNI {expected_sni!s} but got {server_name!s}",
)
return http_protocol
@defer.inlineCallbacks
def _make_get_request(
self, uri: bytes
) -> Generator["Deferred[object]", object, IResponse]:
"""
Sends a simple GET request via the agent, and checks its logcontext management
"""
with LoggingContext("one") as context:
fetch_d: Deferred[IResponse] = self.agent.request(b"GET", uri)
# Nothing happened yet
self.assertNoResult(fetch_d)
# should have reset logcontext to the sentinel
_check_logcontext(SENTINEL_CONTEXT)
fetch_res: IResponse
try:
fetch_res = yield fetch_d # type: ignore[misc, assignment]
return fetch_res
except Exception as e:
logger.info("Fetch of %s failed: %s", uri.decode("ascii"), e)
raise
finally:
_check_logcontext(context)
def _handle_well_known_connection(
self,
client_factory: IProtocolFactory,
expected_sni: bytes,
content: bytes,
response_headers: Optional[dict] = None,
) -> HTTPChannel:
"""Handle an outgoing HTTPs connection: wire it up to a server, check that the
request is for a .well-known, and send the response.
Args:
client_factory: outgoing connection
expected_sni: SNI that we expect the outgoing connection to send
content: content to send back as the .well-known
Returns:
server impl
"""
# make the connection for .well-known
well_known_server = self._make_connection(
client_factory, expected_sni=expected_sni
)
# check the .well-known request and send a response
self.assertEqual(len(well_known_server.requests), 1)
request = well_known_server.requests[0]
self.assertEqual(
request.requestHeaders.getRawHeaders(b"user-agent"), [b"test-agent"]
)
self._send_well_known_response(request, content, headers=response_headers or {})
return well_known_server
def _send_well_known_response(
self,
request: Request,
content: bytes,
headers: Optional[dict] = None,
) -> None:
"""Check that an incoming request looks like a valid .well-known request, and
send back the response.
"""
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/.well-known/matrix/server")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"testserv"])
# send back a response
for k, v in (headers or {}).items():
request.setHeader(k, v)
request.write(content)
request.finish()
self.reactor.pump((0.1,))
def _make_agent(self) -> MatrixFederationAgent:
"""
If a proxy server is set, the MatrixFederationAgent must be created again
because it is created too early during setUp
"""
return MatrixFederationAgent(
reactor=cast(ISynapseReactor, self.reactor),
tls_client_options_factory=self.tls_factory,
user_agent=b"test-agent", # Note that this is unused since _well_known_resolver is provided.
ip_allowlist=IPSet(),
ip_blocklist=IPSet(),
_srv_resolver=self.mock_resolver,
_well_known_resolver=self.well_known_resolver,
)
def test_get(self) -> None:
"""happy-path test of a GET request with an explicit port"""
self._do_get()
@patch.dict(
os.environ,
{"https_proxy": "proxy.com", "no_proxy": "testserv"},
)
def test_get_bypass_proxy(self) -> None:
"""test of a GET request with an explicit port and bypass proxy"""
self._do_get()
def _do_get(self) -> None:
"""test of a GET request with an explicit port"""
self.agent = self._make_agent()
self.reactor.lookups["testserv"] = "1.2.3.4"
test_d = self._make_get_request(b"matrix-federation://testserv:8448/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=b"testserv")
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(
request.requestHeaders.getRawHeaders(b"host"), [b"testserv:8448"]
)
self.assertEqual(
request.requestHeaders.getRawHeaders(b"user-agent"), [b"test-agent"]
)
content = request.content.read()
self.assertEqual(content, b"")
# Deferred is still without a result
self.assertNoResult(test_d)
# send the headers
request.responseHeaders.setRawHeaders(b"Content-Type", [b"application/json"])
request.write("")
self.reactor.pump((0.1,))
response = self.successResultOf(test_d)
# that should give us a Response object
self.assertEqual(response.code, 200)
# Send the body
request.write(b'{ "a": 1 }')
request.finish()
self.reactor.pump((0.1,))
# check it can be read
json = self.successResultOf(treq.json_content(response))
self.assertEqual(json, {"a": 1})
@patch.dict(
os.environ, {"https_proxy": "http://proxy.com", "no_proxy": "unused.com"}
)
def test_get_via_http_proxy(self) -> None:
"""test for federation request through a http proxy"""
self._do_get_via_proxy(expect_proxy_ssl=False, expected_auth_credentials=None)
@patch.dict(
os.environ,
{"https_proxy": "http://user:pass@proxy.com", "no_proxy": "unused.com"},
)
def test_get_via_http_proxy_with_auth(self) -> None:
"""test for federation request through a http proxy with authentication"""
self._do_get_via_proxy(
expect_proxy_ssl=False, expected_auth_credentials=b"user:pass"
)
@patch.dict(
os.environ, {"https_proxy": "https://proxy.com", "no_proxy": "unused.com"}
)
def test_get_via_https_proxy(self) -> None:
"""test for federation request through a https proxy"""
self._do_get_via_proxy(expect_proxy_ssl=True, expected_auth_credentials=None)
@patch.dict(
os.environ,
{"https_proxy": "https://user:pass@proxy.com", "no_proxy": "unused.com"},
)
def test_get_via_https_proxy_with_auth(self) -> None:
"""test for federation request through a https proxy with authentication"""
self._do_get_via_proxy(
expect_proxy_ssl=True, expected_auth_credentials=b"user:pass"
)
def _do_get_via_proxy(
self,
expect_proxy_ssl: bool = False,
expected_auth_credentials: Optional[bytes] = None,
) -> None:
"""Send a https federation request via an agent and check that it is correctly
received at the proxy and client. The proxy can use either http or https.
Args:
expect_proxy_ssl: True if we expect the request to connect to the proxy via https.
expected_auth_credentials: credentials we expect to be presented to authenticate at the proxy
"""
self.agent = self._make_agent()
self.reactor.lookups["testserv"] = "1.2.3.4"
self.reactor.lookups["proxy.com"] = "9.9.9.9"
test_d = self._make_get_request(b"matrix-federation://testserv:8448/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
# make sure we are connecting to the proxy
self.assertEqual(host, "9.9.9.9")
self.assertEqual(port, 1080)
# make a test server to act as the proxy, and wire up the client
proxy_server = self._make_connection(
client_factory,
ssl=expect_proxy_ssl,
tls_sanlist=[b"DNS:proxy.com"] if expect_proxy_ssl else None,
expected_sni=b"proxy.com" if expect_proxy_ssl else None,
)
assert isinstance(proxy_server, HTTPChannel)
# now there should be a pending CONNECT request
self.assertEqual(len(proxy_server.requests), 1)
request = proxy_server.requests[0]
self.assertEqual(request.method, b"CONNECT")
self.assertEqual(request.path, b"testserv:8448")
# Check whether auth credentials have been supplied to the proxy
proxy_auth_header_values = request.requestHeaders.getRawHeaders(
b"Proxy-Authorization"
)
if expected_auth_credentials is not None:
# Compute the correct header value for Proxy-Authorization
encoded_credentials = base64.b64encode(expected_auth_credentials)
expected_header_value = b"Basic " + encoded_credentials
# Validate the header's value
self.assertIn(expected_header_value, proxy_auth_header_values)
else:
# Check that the Proxy-Authorization header has not been supplied to the proxy
self.assertIsNone(proxy_auth_header_values)
# tell the proxy server not to close the connection
proxy_server.persistent = True
request.finish()
# now we make another test server to act as the upstream HTTP server.
server_ssl_protocol = _wrap_server_factory_for_tls(
_get_test_protocol_factory()
).buildProtocol(dummy_address)
# Tell the HTTP server to send outgoing traffic back via the proxy's transport.
proxy_server_transport = proxy_server.transport
assert proxy_server_transport is not None
server_ssl_protocol.makeConnection(proxy_server_transport)
# ... and replace the protocol on the proxy's transport with the
# TLSMemoryBIOProtocol for the test server, so that incoming traffic
# to the proxy gets sent over to the HTTP(s) server.
# See also comment at `_do_https_request_via_proxy`
# in ../test_proxyagent.py for more details
if expect_proxy_ssl:
assert isinstance(proxy_server_transport, TLSMemoryBIOProtocol)
proxy_server_transport.wrappedProtocol = server_ssl_protocol
else:
assert isinstance(proxy_server_transport, FakeTransport)
client_protocol = proxy_server_transport.other
assert isinstance(client_protocol, Protocol)
c2s_transport = checked_cast(FakeTransport, client_protocol.transport)
c2s_transport.other = server_ssl_protocol
self.reactor.advance(0)
server_name = server_ssl_protocol._tlsConnection.get_servername()
expected_sni = b"testserv"
self.assertEqual(
server_name,
expected_sni,
f"Expected SNI {expected_sni!s} but got {server_name!s}",
)
# now there should be a pending request
http_server = server_ssl_protocol.wrappedProtocol
assert isinstance(http_server, HTTPChannel)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(
request.requestHeaders.getRawHeaders(b"host"), [b"testserv:8448"]
)
self.assertEqual(
request.requestHeaders.getRawHeaders(b"user-agent"), [b"test-agent"]
)
# Check that the destination server DID NOT receive proxy credentials
self.assertIsNone(request.requestHeaders.getRawHeaders(b"Proxy-Authorization"))
content = request.content.read()
self.assertEqual(content, b"")
# Deferred is still without a result
self.assertNoResult(test_d)
# send the headers
request.responseHeaders.setRawHeaders(b"Content-Type", [b"application/json"])
request.write("")
self.reactor.pump((0.1,))
response = self.successResultOf(test_d)
# that should give us a Response object
self.assertEqual(response.code, 200)
# Send the body
request.write('{ "a": 1 }'.encode("ascii"))
request.finish()
self.reactor.pump((0.1,))
# check it can be read
json = self.successResultOf(treq.json_content(response))
self.assertEqual(json, {"a": 1})
def test_get_ip_address(self) -> None:
"""
Test the behaviour when the server name contains an explicit IP (with no port)
"""
self.agent = self._make_agent()
# there will be a getaddrinfo on the IP
self.reactor.lookups["1.2.3.4"] = "1.2.3.4"
test_d = self._make_get_request(b"matrix-federation://1.2.3.4/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=None)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"1.2.3.4"])
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_get_ipv6_address(self) -> None:
"""
Test the behaviour when the server name contains an explicit IPv6 address
(with no port)
"""
self.agent = self._make_agent()
# there will be a getaddrinfo on the IP
self.reactor.lookups["::1"] = "::1"
test_d = self._make_get_request(b"matrix-federation://[::1]/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "::1")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=None)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"[::1]"])
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_get_ipv6_address_with_port(self) -> None:
"""
Test the behaviour when the server name contains an explicit IPv6 address
(with explicit port)
"""
self.agent = self._make_agent()
# there will be a getaddrinfo on the IP
self.reactor.lookups["::1"] = "::1"
test_d = self._make_get_request(b"matrix-federation://[::1]:80/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "::1")
self.assertEqual(port, 80)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=None)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"[::1]:80"])
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_get_hostname_bad_cert(self) -> None:
"""
Test the behaviour when the certificate on the server doesn't match the hostname
"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service([])
self.reactor.lookups["testserv1"] = "1.2.3.4"
test_d = self._make_get_request(b"matrix-federation://testserv1/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# No SRV record lookup yet
self.mock_resolver.resolve_service.assert_not_called()
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
# fonx the connection
client_factory.clientConnectionFailed(None, Exception("nope"))
# attemptdelay on the hostnameendpoint is 0.3, so takes that long before the
# .well-known request fails.
self.reactor.pump((0.4,))
# now there should be a SRV lookup
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.testserv1"
)
# we should fall back to a direct connection
self.assertEqual(len(clients), 2)
(host, port, client_factory, _timeout, _bindAddress) = clients[1]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=b"testserv1")
# there should be no requests
self.assertEqual(len(http_server.requests), 0)
# ... and the request should have failed
e = self.failureResultOf(test_d, ResponseNeverReceived)
failure_reason = e.value.reasons[0]
self.assertIsInstance(failure_reason.value, VerificationError)
def test_get_ip_address_bad_cert(self) -> None:
"""
Test the behaviour when the server name contains an explicit IP, but
the server cert doesn't cover it
"""
self.agent = self._make_agent()
# there will be a getaddrinfo on the IP
self.reactor.lookups["1.2.3.5"] = "1.2.3.5"
test_d = self._make_get_request(b"matrix-federation://1.2.3.5/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.5")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=None)
# there should be no requests
self.assertEqual(len(http_server.requests), 0)
# ... and the request should have failed
e = self.failureResultOf(test_d, ResponseNeverReceived)
failure_reason = e.value.reasons[0]
self.assertIsInstance(failure_reason.value, VerificationError)
def test_get_no_srv_no_well_known(self) -> None:
"""
Test the behaviour when the server name has no port, no SRV, and no well-known
"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service([])
self.reactor.lookups["testserv"] = "1.2.3.4"
test_d = self._make_get_request(b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# No SRV record lookup yet
self.mock_resolver.resolve_service.assert_not_called()
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
# fonx the connection
client_factory.clientConnectionFailed(None, Exception("nope"))
# attemptdelay on the hostnameendpoint is 0.3, so takes that long before the
# .well-known request fails.
self.reactor.pump((0.4,))
# now there should be a SRV lookup
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.testserv"
)
# we should fall back to a direct connection
self.assertEqual(len(clients), 2)
(host, port, client_factory, _timeout, _bindAddress) = clients[1]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=b"testserv")
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"testserv"])
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_get_well_known(self) -> None:
"""Test the behaviour when the .well-known delegates elsewhere"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service([])
self.reactor.lookups["testserv"] = "1.2.3.4"
self.reactor.lookups["target-server"] = "1::f"
test_d = self._make_get_request(b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
self._handle_well_known_connection(
client_factory,
expected_sni=b"testserv",
content=b'{ "m.server": "target-server" }',
)
# there should be a SRV lookup
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.target-server"
)
# now we should get a connection to the target server
self.assertEqual(len(clients), 2)
(host, port, client_factory, _timeout, _bindAddress) = clients[1]
self.assertEqual(host, "1::f")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(
client_factory, expected_sni=b"target-server"
)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(
request.requestHeaders.getRawHeaders(b"host"), [b"target-server"]
)
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
self.assertEqual(self.well_known_cache[b"testserv"], b"target-server")
# check the cache expires
self.reactor.pump((48 * 3600,))
self.well_known_cache.expire()
self.assertNotIn(b"testserv", self.well_known_cache)
def test_get_well_known_redirect(self) -> None:
"""Test the behaviour when the server name has no port and no SRV record, but
the .well-known has a 300 redirect
"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service([])
self.reactor.lookups["testserv"] = "1.2.3.4"
self.reactor.lookups["target-server"] = "1::f"
test_d = self._make_get_request(b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop()
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
redirect_server = self._make_connection(
client_factory, expected_sni=b"testserv"
)
# send a 302 redirect
self.assertEqual(len(redirect_server.requests), 1)
request = redirect_server.requests[0]
request.redirect(b"https://testserv/even_better_known")
request.finish()
self.reactor.pump((0.1,))
# now there should be another connection
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop()
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
well_known_server = self._make_connection(
client_factory, expected_sni=b"testserv"
)
self.assertEqual(len(well_known_server.requests), 1, "No request after 302")
request = well_known_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/even_better_known")
request.write(b'{ "m.server": "target-server" }')
request.finish()
self.reactor.pump((0.1,))
# there should be a SRV lookup
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.target-server"
)
# now we should get a connection to the target server
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1::f")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(
client_factory, expected_sni=b"target-server"
)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(
request.requestHeaders.getRawHeaders(b"host"), [b"target-server"]
)
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
self.assertEqual(self.well_known_cache[b"testserv"], b"target-server")
# check the cache expires
self.reactor.pump((48 * 3600,))
self.well_known_cache.expire()
self.assertNotIn(b"testserv", self.well_known_cache)
def test_get_invalid_well_known(self) -> None:
"""
Test the behaviour when the server name has an *invalid* well-known (and no SRV)
"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service([])
self.reactor.lookups["testserv"] = "1.2.3.4"
test_d = self._make_get_request(b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# No SRV record lookup yet
self.mock_resolver.resolve_service.assert_not_called()
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop()
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
self._handle_well_known_connection(
client_factory, expected_sni=b"testserv", content=b"NOT JSON"
)
# now there should be a SRV lookup
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.testserv"
)
# we should fall back to a direct connection
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop()
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=b"testserv")
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"testserv"])
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_get_well_known_unsigned_cert(self) -> None:
"""Test the behaviour when the .well-known server presents a cert
not signed by a CA
"""
# we use the same test server as the other tests, but use an agent with
# the config left to the default, which will not trust it (since the
# presented cert is signed by a test CA)
self.mock_resolver.resolve_service.side_effect = generate_resolve_service([])
self.reactor.lookups["testserv"] = "1.2.3.4"
config = default_config("test", parse=True)
# Build a new agent and WellKnownResolver with a different tls factory
tls_factory = FederationPolicyForHTTPS(config)
agent = MatrixFederationAgent(
reactor=self.reactor,
tls_client_options_factory=tls_factory,
user_agent=b"test-agent", # This is unused since _well_known_resolver is passed below.
ip_allowlist=IPSet(),
ip_blocklist=IPSet(),
_srv_resolver=self.mock_resolver,
_well_known_resolver=WellKnownResolver(
cast(ISynapseReactor, self.reactor),
Agent(self.reactor, contextFactory=tls_factory),
b"test-agent",
well_known_cache=self.well_known_cache,
had_well_known_cache=self.had_well_known_cache,
),
)
test_d = agent.request(b"GET", b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
http_proto = self._make_connection(client_factory, expected_sni=b"testserv")
# there should be no requests
self.assertEqual(len(http_proto.requests), 0)
# and there should be a SRV lookup instead
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.testserv"
)
def test_get_hostname_srv(self) -> None:
"""
Test the behaviour when there is a single SRV record
"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service(
[Server(host=b"srvtarget", port=8443)]
)
self.reactor.lookups["srvtarget"] = "1.2.3.4"
test_d = self._make_get_request(b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# the request for a .well-known will have failed with a DNS lookup error.
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.testserv"
)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8443)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=b"testserv")
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"testserv"])
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_get_well_known_srv(self) -> None:
"""Test the behaviour when the .well-known redirects to a place where there
is a SRV.
"""
self.agent = self._make_agent()
self.reactor.lookups["testserv"] = "1.2.3.4"
self.reactor.lookups["srvtarget"] = "5.6.7.8"
test_d = self._make_get_request(b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
self.mock_resolver.resolve_service.side_effect = generate_resolve_service(
[Server(host=b"srvtarget", port=8443)]
)
self._handle_well_known_connection(
client_factory,
expected_sni=b"testserv",
content=b'{ "m.server": "target-server" }',
)
# there should be a SRV lookup
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.target-server"
)
# now we should get a connection to the target of the SRV record
self.assertEqual(len(clients), 2)
(host, port, client_factory, _timeout, _bindAddress) = clients[1]
self.assertEqual(host, "5.6.7.8")
self.assertEqual(port, 8443)
# make a test server, and wire up the client
http_server = self._make_connection(
client_factory, expected_sni=b"target-server"
)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(
request.requestHeaders.getRawHeaders(b"host"), [b"target-server"]
)
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_idna_servername(self) -> None:
"""test the behaviour when the server name has idna chars in"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service([])
# the resolver is always called with the IDNA hostname as a native string.
self.reactor.lookups["xn--bcher-kva.com"] = "1.2.3.4"
# this is idna for bücher.com
test_d = self._make_get_request(
b"matrix-federation://xn--bcher-kva.com/foo/bar"
)
# Nothing happened yet
self.assertNoResult(test_d)
# No SRV record lookup yet
self.mock_resolver.resolve_service.assert_not_called()
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
# fonx the connection
client_factory.clientConnectionFailed(None, Exception("nope"))
# attemptdelay on the hostnameendpoint is 0.3, so takes that long before the
# .well-known request fails.
self.reactor.pump((0.4,))
# now there should have been a SRV lookup
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.xn--bcher-kva.com"
)
# We should fall back to port 8448
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 2)
(host, port, client_factory, _timeout, _bindAddress) = clients[1]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8448)
# make a test server, and wire up the client
http_server = self._make_connection(
client_factory, expected_sni=b"xn--bcher-kva.com"
)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(
request.requestHeaders.getRawHeaders(b"host"), [b"xn--bcher-kva.com"]
)
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_idna_srv_target(self) -> None:
"""test the behaviour when the target of a SRV record has idna chars"""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service(
[Server(host=b"xn--trget-3qa.com", port=8443)] # târget.com
)
self.reactor.lookups["xn--trget-3qa.com"] = "1.2.3.4"
test_d = self._make_get_request(
b"matrix-federation://xn--bcher-kva.com/foo/bar"
)
# Nothing happened yet
self.assertNoResult(test_d)
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.xn--bcher-kva.com"
)
# Make sure treq is trying to connect
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients[0]
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8443)
# make a test server, and wire up the client
http_server = self._make_connection(
client_factory, expected_sni=b"xn--bcher-kva.com"
)
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(
request.requestHeaders.getRawHeaders(b"host"), [b"xn--bcher-kva.com"]
)
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
def test_well_known_cache(self) -> None:
self.reactor.lookups["testserv"] = "1.2.3.4"
fetch_d = defer.ensureDeferred(
self.well_known_resolver.get_well_known(b"testserv")
)
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
well_known_server = self._handle_well_known_connection(
client_factory,
expected_sni=b"testserv",
response_headers={b"Cache-Control": b"max-age=1000"},
content=b'{ "m.server": "target-server" }',
)
r = self.successResultOf(fetch_d)
self.assertEqual(r.delegated_server, b"target-server")
# close the tcp connection
well_known_server.loseConnection()
# repeat the request: it should hit the cache
fetch_d = defer.ensureDeferred(
self.well_known_resolver.get_well_known(b"testserv")
)
r = self.successResultOf(fetch_d)
self.assertEqual(r.delegated_server, b"target-server")
# expire the cache
self.reactor.pump((1000.0,))
# now it should connect again
fetch_d = defer.ensureDeferred(
self.well_known_resolver.get_well_known(b"testserv")
)
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
self._handle_well_known_connection(
client_factory,
expected_sni=b"testserv",
content=b'{ "m.server": "other-server" }',
)
r = self.successResultOf(fetch_d)
self.assertEqual(r.delegated_server, b"other-server")
def test_well_known_cache_with_temp_failure(self) -> None:
"""Test that we refetch well-known before the cache expires, and that
it ignores transient errors.
"""
self.reactor.lookups["testserv"] = "1.2.3.4"
fetch_d = defer.ensureDeferred(
self.well_known_resolver.get_well_known(b"testserv")
)
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
well_known_server = self._handle_well_known_connection(
client_factory,
expected_sni=b"testserv",
response_headers={b"Cache-Control": b"max-age=1000"},
content=b'{ "m.server": "target-server" }',
)
r = self.successResultOf(fetch_d)
self.assertEqual(r.delegated_server, b"target-server")
# close the tcp connection
well_known_server.loseConnection()
# Get close to the cache expiry, this will cause the resolver to do
# another lookup.
self.reactor.pump((900.0,))
fetch_d = defer.ensureDeferred(
self.well_known_resolver.get_well_known(b"testserv")
)
# The resolver may retry a few times, so fonx all requests that come along
attempts = 0
while self.reactor.tcpClients:
clients = self.reactor.tcpClients
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
attempts += 1
# fonx the connection attempt, this will be treated as a temporary
# failure.
client_factory.clientConnectionFailed(None, Exception("nope"))
# There's a few sleeps involved, so we have to pump the reactor a
# bit.
self.reactor.pump((1.0, 1.0))
# We expect to see more than one attempt as there was previously a valid
# well known.
self.assertGreater(attempts, 1)
# Resolver should return cached value, despite the lookup failing.
r = self.successResultOf(fetch_d)
self.assertEqual(r.delegated_server, b"target-server")
# Expire both caches and repeat the request
self.reactor.pump((10000.0,))
# Repeat the request, this time it should fail if the lookup fails.
fetch_d = defer.ensureDeferred(
self.well_known_resolver.get_well_known(b"testserv")
)
clients = self.reactor.tcpClients
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
client_factory.clientConnectionFailed(None, Exception("nope"))
self.reactor.pump((0.4,))
r = self.successResultOf(fetch_d)
self.assertEqual(r.delegated_server, None)
def test_well_known_too_large(self) -> None:
"""A well-known query that returns a result which is too large should be rejected."""
self.reactor.lookups["testserv"] = "1.2.3.4"
fetch_d = defer.ensureDeferred(
self.well_known_resolver.get_well_known(b"testserv")
)
# there should be an attempt to connect on port 443 for the .well-known
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 443)
self._handle_well_known_connection(
client_factory,
expected_sni=b"testserv",
response_headers={b"Cache-Control": b"max-age=1000"},
content=b'{ "m.server": "' + (b"a" * WELL_KNOWN_MAX_SIZE) + b'" }',
)
# The result is successful, but disabled delegation.
r = self.successResultOf(fetch_d)
self.assertIsNone(r.delegated_server)
def test_srv_fallbacks(self) -> None:
"""Test that other SRV results are tried if the first one fails."""
self.agent = self._make_agent()
self.mock_resolver.resolve_service.side_effect = generate_resolve_service(
[
Server(host=b"target.com", port=8443),
Server(host=b"target.com", port=8444),
]
)
self.reactor.lookups["target.com"] = "1.2.3.4"
test_d = self._make_get_request(b"matrix-federation://testserv/foo/bar")
# Nothing happened yet
self.assertNoResult(test_d)
self.mock_resolver.resolve_service.assert_called_once_with(
b"_matrix._tcp.testserv"
)
# We should see an attempt to connect to the first server
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8443)
# Fonx the connection
client_factory.clientConnectionFailed(None, Exception("nope"))
# There's a 300ms delay in HostnameEndpoint
self.reactor.pump((0.4,))
# Hasn't failed yet
self.assertNoResult(test_d)
# We shouldnow see an attempt to connect to the second server
clients = self.reactor.tcpClients
self.assertEqual(len(clients), 1)
(host, port, client_factory, _timeout, _bindAddress) = clients.pop(0)
self.assertEqual(host, "1.2.3.4")
self.assertEqual(port, 8444)
# make a test server, and wire up the client
http_server = self._make_connection(client_factory, expected_sni=b"testserv")
self.assertEqual(len(http_server.requests), 1)
request = http_server.requests[0]
self.assertEqual(request.method, b"GET")
self.assertEqual(request.path, b"/foo/bar")
self.assertEqual(request.requestHeaders.getRawHeaders(b"host"), [b"testserv"])
# finish the request
request.finish()
self.reactor.pump((0.1,))
self.successResultOf(test_d)
class TestCachePeriodFromHeaders(unittest.TestCase):
def test_cache_control(self) -> None:
# uppercase
self.assertEqual(
_cache_period_from_headers(
Headers({b"Cache-Control": [b"foo, Max-Age = 100, bar"]})
),
100,
)
# missing value
self.assertIsNone(
_cache_period_from_headers(Headers({b"Cache-Control": [b"max-age=, bar"]}))
)
# hackernews: bogus due to semicolon
self.assertIsNone(
_cache_period_from_headers(
Headers({b"Cache-Control": [b"private; max-age=0"]})
)
)
# github
self.assertEqual(
_cache_period_from_headers(
Headers({b"Cache-Control": [b"max-age=0, private, must-revalidate"]})
),
0,
)
# google
self.assertEqual(
_cache_period_from_headers(
Headers({b"cache-control": [b"private, max-age=0"]})
),
0,
)
def test_expires(self) -> None:
self.assertEqual(
_cache_period_from_headers(
Headers({b"Expires": [b"Wed, 30 Jan 2019 07:35:33 GMT"]}),
time_now=lambda: 1548833700,
),
33,
)
# cache-control overrides expires
self.assertEqual(
_cache_period_from_headers(
Headers(
{
b"cache-control": [b"max-age=10"],
b"Expires": [b"Wed, 30 Jan 2019 07:35:33 GMT"],
}
),
time_now=lambda: 1548833700,
),
10,
)
# invalid expires means immediate expiry
self.assertEqual(_cache_period_from_headers(Headers({b"Expires": [b"0"]})), 0)
def _check_logcontext(context: LoggingContextOrSentinel) -> None:
current = current_context()
if current is not context:
raise AssertionError("Expected logcontext %s but was %s" % (context, current))
def _wrap_server_factory_for_tls(
factory: IProtocolFactory, sanlist: Optional[List[bytes]] = None
) -> TLSMemoryBIOFactory:
"""Wrap an existing Protocol Factory with a test TLSMemoryBIOFactory
The resultant factory will create a TLS server which presents a certificate
signed by our test CA, valid for the domains in `sanlist`
Args:
factory: protocol factory to wrap
sanlist: list of domains the cert should be valid for
Returns:
interfaces.IProtocolFactory
"""
if sanlist is None:
sanlist = [
b"DNS:testserv",
b"DNS:target-server",
b"DNS:xn--bcher-kva.com",
b"IP:1.2.3.4",
b"IP:::1",
]
connection_creator = TestServerTLSConnectionFactory(sanlist=sanlist)
return TLSMemoryBIOFactory(
connection_creator, isClient=False, wrappedFactory=factory
)
def _get_test_protocol_factory() -> IProtocolFactory:
"""Get a protocol Factory which will build an HTTPChannel
Returns:
interfaces.IProtocolFactory
"""
server_factory = Factory.forProtocol(HTTPChannel)
# Request.finish expects the factory to have a 'log' method.
server_factory.log = _log_request
return server_factory
def _log_request(request: str) -> None:
"""Implements Factory.log, which is expected by Request.finish"""
logger.info(f"Completed request {request}")
@implementer(IPolicyForHTTPS)
class TrustingTLSPolicyForHTTPS:
"""An IPolicyForHTTPS which checks that the certificate belongs to the
right server, but doesn't check the certificate chain."""
def creatorForNetloc(
self, hostname: bytes, port: int
) -> IOpenSSLClientConnectionCreator:
certificateOptions = OpenSSLCertificateOptions()
return ClientTLSOptions(hostname, certificateOptions.getContext())