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https://git.anonymousland.org/anonymousland/synapse-product.git
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463 lines
17 KiB
Python
463 lines
17 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright 2019 New Vector Ltd
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import json
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import logging
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import random
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import time
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import attr
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from netaddr import IPAddress
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from zope.interface import implementer
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from twisted.internet import defer
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from twisted.internet.endpoints import HostnameEndpoint, wrapClientTLS
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from twisted.internet.interfaces import IStreamClientEndpoint
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from twisted.web.client import URI, Agent, HTTPConnectionPool, RedirectAgent, readBody
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from twisted.web.http import stringToDatetime
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from twisted.web.http_headers import Headers
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from twisted.web.iweb import IAgent
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from synapse.http.federation.srv_resolver import SrvResolver, pick_server_from_list
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from synapse.logging.context import make_deferred_yieldable
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from synapse.util import Clock
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from synapse.util.caches.ttlcache import TTLCache
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from synapse.util.metrics import Measure
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# period to cache .well-known results for by default
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WELL_KNOWN_DEFAULT_CACHE_PERIOD = 24 * 3600
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# jitter to add to the .well-known default cache ttl
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WELL_KNOWN_DEFAULT_CACHE_PERIOD_JITTER = 10 * 60
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# period to cache failure to fetch .well-known for
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WELL_KNOWN_INVALID_CACHE_PERIOD = 1 * 3600
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# cap for .well-known cache period
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WELL_KNOWN_MAX_CACHE_PERIOD = 48 * 3600
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logger = logging.getLogger(__name__)
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well_known_cache = TTLCache("well-known")
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@implementer(IAgent)
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class MatrixFederationAgent(object):
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"""An Agent-like thing which provides a `request` method which will look up a matrix
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server and send an HTTP request to it.
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Doesn't implement any retries. (Those are done in MatrixFederationHttpClient.)
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Args:
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reactor (IReactor): twisted reactor to use for underlying requests
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tls_client_options_factory (ClientTLSOptionsFactory|None):
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factory to use for fetching client tls options, or none to disable TLS.
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_well_known_tls_policy (IPolicyForHTTPS|None):
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TLS policy to use for fetching .well-known files. None to use a default
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(browser-like) implementation.
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_srv_resolver (SrvResolver|None):
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SRVResolver impl to use for looking up SRV records. None to use a default
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implementation.
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_well_known_cache (TTLCache|None):
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TTLCache impl for storing cached well-known lookups. None to use a default
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implementation.
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"""
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def __init__(
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self,
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reactor,
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tls_client_options_factory,
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_well_known_tls_policy=None,
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_srv_resolver=None,
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_well_known_cache=well_known_cache,
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):
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self._reactor = reactor
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self._clock = Clock(reactor)
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self._tls_client_options_factory = tls_client_options_factory
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if _srv_resolver is None:
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_srv_resolver = SrvResolver()
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self._srv_resolver = _srv_resolver
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self._pool = HTTPConnectionPool(reactor)
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self._pool.retryAutomatically = False
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self._pool.maxPersistentPerHost = 5
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self._pool.cachedConnectionTimeout = 2 * 60
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agent_args = {}
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if _well_known_tls_policy is not None:
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# the param is called 'contextFactory', but actually passing a
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# contextfactory is deprecated, and it expects an IPolicyForHTTPS.
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agent_args["contextFactory"] = _well_known_tls_policy
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_well_known_agent = RedirectAgent(
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Agent(self._reactor, pool=self._pool, **agent_args)
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)
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self._well_known_agent = _well_known_agent
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# our cache of .well-known lookup results, mapping from server name
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# to delegated name. The values can be:
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# `bytes`: a valid server-name
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# `None`: there is no (valid) .well-known here
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self._well_known_cache = _well_known_cache
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@defer.inlineCallbacks
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def request(self, method, uri, headers=None, bodyProducer=None):
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"""
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Args:
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method (bytes): HTTP method: GET/POST/etc
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uri (bytes): Absolute URI to be retrieved
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headers (twisted.web.http_headers.Headers|None):
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HTTP headers to send with the request, or None to
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send no extra headers.
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bodyProducer (twisted.web.iweb.IBodyProducer|None):
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An object which can generate bytes to make up the
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body of this request (for example, the properly encoded contents of
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a file for a file upload). Or None if the request is to have
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no body.
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Returns:
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Deferred[twisted.web.iweb.IResponse]:
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fires when the header of the response has been received (regardless of the
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response status code). Fails if there is any problem which prevents that
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response from being received (including problems that prevent the request
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from being sent).
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"""
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parsed_uri = URI.fromBytes(uri, defaultPort=-1)
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res = yield self._route_matrix_uri(parsed_uri)
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# set up the TLS connection params
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#
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# XXX disabling TLS is really only supported here for the benefit of the
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# unit tests. We should make the UTs cope with TLS rather than having to make
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# the code support the unit tests.
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if self._tls_client_options_factory is None:
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tls_options = None
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else:
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tls_options = self._tls_client_options_factory.get_options(
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res.tls_server_name.decode("ascii")
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)
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# make sure that the Host header is set correctly
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if headers is None:
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headers = Headers()
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else:
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headers = headers.copy()
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if not headers.hasHeader(b"host"):
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headers.addRawHeader(b"host", res.host_header)
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class EndpointFactory(object):
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@staticmethod
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def endpointForURI(_uri):
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ep = LoggingHostnameEndpoint(
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self._reactor, res.target_host, res.target_port
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)
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if tls_options is not None:
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ep = wrapClientTLS(tls_options, ep)
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return ep
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agent = Agent.usingEndpointFactory(self._reactor, EndpointFactory(), self._pool)
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res = yield make_deferred_yieldable(
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agent.request(method, uri, headers, bodyProducer)
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)
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return res
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@defer.inlineCallbacks
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def _route_matrix_uri(self, parsed_uri, lookup_well_known=True):
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"""Helper for `request`: determine the routing for a Matrix URI
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Args:
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parsed_uri (twisted.web.client.URI): uri to route. Note that it should be
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parsed with URI.fromBytes(uri, defaultPort=-1) to set the `port` to -1
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if there is no explicit port given.
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lookup_well_known (bool): True if we should look up the .well-known file if
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there is no SRV record.
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Returns:
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Deferred[_RoutingResult]
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"""
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# check for an IP literal
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try:
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ip_address = IPAddress(parsed_uri.host.decode("ascii"))
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except Exception:
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# not an IP address
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ip_address = None
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if ip_address:
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port = parsed_uri.port
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if port == -1:
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port = 8448
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return _RoutingResult(
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host_header=parsed_uri.netloc,
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tls_server_name=parsed_uri.host,
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target_host=parsed_uri.host,
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target_port=port,
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)
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if parsed_uri.port != -1:
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# there is an explicit port
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return _RoutingResult(
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host_header=parsed_uri.netloc,
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tls_server_name=parsed_uri.host,
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target_host=parsed_uri.host,
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target_port=parsed_uri.port,
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)
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if lookup_well_known:
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# try a .well-known lookup
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well_known_server = yield self._get_well_known(parsed_uri.host)
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if well_known_server:
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# if we found a .well-known, start again, but don't do another
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# .well-known lookup.
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# parse the server name in the .well-known response into host/port.
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# (This code is lifted from twisted.web.client.URI.fromBytes).
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if b":" in well_known_server:
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well_known_host, well_known_port = well_known_server.rsplit(b":", 1)
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try:
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well_known_port = int(well_known_port)
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except ValueError:
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# the part after the colon could not be parsed as an int
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# - we assume it is an IPv6 literal with no port (the closing
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# ']' stops it being parsed as an int)
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well_known_host, well_known_port = well_known_server, -1
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else:
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well_known_host, well_known_port = well_known_server, -1
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new_uri = URI(
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scheme=parsed_uri.scheme,
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netloc=well_known_server,
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host=well_known_host,
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port=well_known_port,
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path=parsed_uri.path,
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params=parsed_uri.params,
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query=parsed_uri.query,
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fragment=parsed_uri.fragment,
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)
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res = yield self._route_matrix_uri(new_uri, lookup_well_known=False)
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return res
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# try a SRV lookup
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service_name = b"_matrix._tcp.%s" % (parsed_uri.host,)
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server_list = yield self._srv_resolver.resolve_service(service_name)
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if not server_list:
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target_host = parsed_uri.host
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port = 8448
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logger.debug(
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"No SRV record for %s, using %s:%i",
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parsed_uri.host.decode("ascii"),
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target_host.decode("ascii"),
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port,
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)
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else:
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target_host, port = pick_server_from_list(server_list)
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logger.debug(
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"Picked %s:%i from SRV records for %s",
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target_host.decode("ascii"),
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port,
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parsed_uri.host.decode("ascii"),
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)
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return _RoutingResult(
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host_header=parsed_uri.netloc,
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tls_server_name=parsed_uri.host,
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target_host=target_host,
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target_port=port,
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)
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@defer.inlineCallbacks
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def _get_well_known(self, server_name):
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"""Attempt to fetch and parse a .well-known file for the given server
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Args:
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server_name (bytes): name of the server, from the requested url
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Returns:
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Deferred[bytes|None]: either the new server name, from the .well-known, or
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None if there was no .well-known file.
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"""
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try:
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result = self._well_known_cache[server_name]
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except KeyError:
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# TODO: should we linearise so that we don't end up doing two .well-known
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# requests for the same server in parallel?
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with Measure(self._clock, "get_well_known"):
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result, cache_period = yield self._do_get_well_known(server_name)
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if cache_period > 0:
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self._well_known_cache.set(server_name, result, cache_period)
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return result
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@defer.inlineCallbacks
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def _do_get_well_known(self, server_name):
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"""Actually fetch and parse a .well-known, without checking the cache
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Args:
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server_name (bytes): name of the server, from the requested url
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Returns:
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Deferred[Tuple[bytes|None|object],int]:
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result, cache period, where result is one of:
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- the new server name from the .well-known (as a `bytes`)
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- None if there was no .well-known file.
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- INVALID_WELL_KNOWN if the .well-known was invalid
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"""
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uri = b"https://%s/.well-known/matrix/server" % (server_name,)
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uri_str = uri.decode("ascii")
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logger.info("Fetching %s", uri_str)
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try:
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response = yield make_deferred_yieldable(
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self._well_known_agent.request(b"GET", uri)
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)
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body = yield make_deferred_yieldable(readBody(response))
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if response.code != 200:
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raise Exception("Non-200 response %s" % (response.code,))
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parsed_body = json.loads(body.decode("utf-8"))
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logger.info("Response from .well-known: %s", parsed_body)
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if not isinstance(parsed_body, dict):
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raise Exception("not a dict")
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if "m.server" not in parsed_body:
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raise Exception("Missing key 'm.server'")
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except Exception as e:
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logger.info("Error fetching %s: %s", uri_str, e)
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# add some randomness to the TTL to avoid a stampeding herd every hour
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# after startup
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cache_period = WELL_KNOWN_INVALID_CACHE_PERIOD
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cache_period += random.uniform(0, WELL_KNOWN_DEFAULT_CACHE_PERIOD_JITTER)
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return (None, cache_period)
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result = parsed_body["m.server"].encode("ascii")
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cache_period = _cache_period_from_headers(
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response.headers, time_now=self._reactor.seconds
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)
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if cache_period is None:
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cache_period = WELL_KNOWN_DEFAULT_CACHE_PERIOD
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# add some randomness to the TTL to avoid a stampeding herd every 24 hours
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# after startup
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cache_period += random.uniform(0, WELL_KNOWN_DEFAULT_CACHE_PERIOD_JITTER)
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else:
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cache_period = min(cache_period, WELL_KNOWN_MAX_CACHE_PERIOD)
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return (result, cache_period)
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@implementer(IStreamClientEndpoint)
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class LoggingHostnameEndpoint(object):
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"""A wrapper for HostnameEndpint which logs when it connects"""
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def __init__(self, reactor, host, port, *args, **kwargs):
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self.host = host
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self.port = port
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self.ep = HostnameEndpoint(reactor, host, port, *args, **kwargs)
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def connect(self, protocol_factory):
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logger.info("Connecting to %s:%i", self.host.decode("ascii"), self.port)
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return self.ep.connect(protocol_factory)
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def _cache_period_from_headers(headers, time_now=time.time):
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cache_controls = _parse_cache_control(headers)
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if b"no-store" in cache_controls:
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return 0
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if b"max-age" in cache_controls:
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try:
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max_age = int(cache_controls[b"max-age"])
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return max_age
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except ValueError:
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pass
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expires = headers.getRawHeaders(b"expires")
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if expires is not None:
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try:
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expires_date = stringToDatetime(expires[-1])
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return expires_date - time_now()
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except ValueError:
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# RFC7234 says 'A cache recipient MUST interpret invalid date formats,
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# especially the value "0", as representing a time in the past (i.e.,
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# "already expired").
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return 0
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return None
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def _parse_cache_control(headers):
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cache_controls = {}
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for hdr in headers.getRawHeaders(b"cache-control", []):
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for directive in hdr.split(b","):
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splits = [x.strip() for x in directive.split(b"=", 1)]
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k = splits[0].lower()
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v = splits[1] if len(splits) > 1 else None
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cache_controls[k] = v
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return cache_controls
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@attr.s
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class _RoutingResult(object):
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"""The result returned by `_route_matrix_uri`.
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Contains the parameters needed to direct a federation connection to a particular
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server.
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Where a SRV record points to several servers, this object contains a single server
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chosen from the list.
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"""
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host_header = attr.ib()
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"""
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The value we should assign to the Host header (host:port from the matrix
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URI, or .well-known).
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:type: bytes
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"""
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tls_server_name = attr.ib()
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"""
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The server name we should set in the SNI (typically host, without port, from the
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matrix URI or .well-known)
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:type: bytes
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"""
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target_host = attr.ib()
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"""
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The hostname (or IP literal) we should route the TCP connection to (the target of the
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SRV record, or the hostname from the URL/.well-known)
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:type: bytes
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"""
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target_port = attr.ib()
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"""
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The port we should route the TCP connection to (the target of the SRV record, or
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the port from the URL/.well-known, or 8448)
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:type: int
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"""
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