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watcha-synapse/synapse/http/federation/matrix_federation_agent.py

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