synapse-old/synapse/app/_base.py

388 lines
12 KiB
Python

# -*- coding: utf-8 -*-
# Copyright 2017 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 gc
import logging
import signal
import sys
import traceback
from daemonize import Daemonize
from twisted.internet import defer, error, reactor
from twisted.protocols.tls import TLSMemoryBIOFactory
import synapse
from synapse.app import check_bind_error
from synapse.crypto import context_factory
from synapse.logging.context import PreserveLoggingContext
from synapse.util.async_helpers import Linearizer
from synapse.util.rlimit import change_resource_limit
from synapse.util.versionstring import get_version_string
logger = logging.getLogger(__name__)
_sighup_callbacks = []
def register_sighup(func):
"""
Register a function to be called when a SIGHUP occurs.
Args:
func (function): Function to be called when sent a SIGHUP signal.
Will be called with a single argument, the homeserver.
"""
_sighup_callbacks.append(func)
def start_worker_reactor(appname, config, run_command=reactor.run):
""" Run the reactor in the main process
Daemonizes if necessary, and then configures some resources, before starting
the reactor. Pulls configuration from the 'worker' settings in 'config'.
Args:
appname (str): application name which will be sent to syslog
config (synapse.config.Config): config object
run_command (Callable[]): callable that actually runs the reactor
"""
logger = logging.getLogger(config.worker_app)
start_reactor(
appname,
soft_file_limit=config.soft_file_limit,
gc_thresholds=config.gc_thresholds,
pid_file=config.worker_pid_file,
daemonize=config.worker_daemonize,
print_pidfile=config.print_pidfile,
logger=logger,
run_command=run_command,
)
def start_reactor(
appname,
soft_file_limit,
gc_thresholds,
pid_file,
daemonize,
print_pidfile,
logger,
run_command=reactor.run,
):
""" Run the reactor in the main process
Daemonizes if necessary, and then configures some resources, before starting
the reactor
Args:
appname (str): application name which will be sent to syslog
soft_file_limit (int):
gc_thresholds:
pid_file (str): name of pid file to write to if daemonize is True
daemonize (bool): true to run the reactor in a background process
print_pidfile (bool): whether to print the pid file, if daemonize is True
logger (logging.Logger): logger instance to pass to Daemonize
run_command (Callable[]): callable that actually runs the reactor
"""
install_dns_limiter(reactor)
def run():
logger.info("Running")
change_resource_limit(soft_file_limit)
if gc_thresholds:
gc.set_threshold(*gc_thresholds)
run_command()
# make sure that we run the reactor with the sentinel log context,
# otherwise other PreserveLoggingContext instances will get confused
# and complain when they see the logcontext arbitrarily swapping
# between the sentinel and `run` logcontexts.
#
# We also need to drop the logcontext before forking if we're daemonizing,
# otherwise the cputime metrics get confused about the per-thread resource usage
# appearing to go backwards.
with PreserveLoggingContext():
if daemonize:
if print_pidfile:
print(pid_file)
daemon = Daemonize(
app=appname,
pid=pid_file,
action=run,
auto_close_fds=False,
verbose=True,
logger=logger,
)
daemon.start()
else:
run()
def quit_with_error(error_string):
message_lines = error_string.split("\n")
line_length = max([len(l) for l in message_lines if len(l) < 80]) + 2
sys.stderr.write("*" * line_length + "\n")
for line in message_lines:
sys.stderr.write(" %s\n" % (line.rstrip(),))
sys.stderr.write("*" * line_length + "\n")
sys.exit(1)
def listen_metrics(bind_addresses, port):
"""
Start Prometheus metrics server.
"""
from synapse.metrics import RegistryProxy, start_http_server
for host in bind_addresses:
logger.info("Starting metrics listener on %s:%d", host, port)
start_http_server(port, addr=host, registry=RegistryProxy)
def listen_tcp(bind_addresses, port, factory, reactor=reactor, backlog=50):
"""
Create a TCP socket for a port and several addresses
Returns:
list[twisted.internet.tcp.Port]: listening for TCP connections
"""
r = []
for address in bind_addresses:
try:
r.append(reactor.listenTCP(port, factory, backlog, address))
except error.CannotListenError as e:
check_bind_error(e, address, bind_addresses)
return r
def listen_ssl(
bind_addresses, port, factory, context_factory, reactor=reactor, backlog=50
):
"""
Create an TLS-over-TCP socket for a port and several addresses
Returns:
list of twisted.internet.tcp.Port listening for TLS connections
"""
r = []
for address in bind_addresses:
try:
r.append(
reactor.listenSSL(port, factory, context_factory, backlog, address)
)
except error.CannotListenError as e:
check_bind_error(e, address, bind_addresses)
return r
def refresh_certificate(hs):
"""
Refresh the TLS certificates that Synapse is using by re-reading them from
disk and updating the TLS context factories to use them.
"""
if not hs.config.has_tls_listener():
# attempt to reload the certs for the good of the tls_fingerprints
hs.config.read_certificate_from_disk(require_cert_and_key=False)
return
hs.config.read_certificate_from_disk(require_cert_and_key=True)
hs.tls_server_context_factory = context_factory.ServerContextFactory(hs.config)
if hs._listening_services:
logger.info("Updating context factories...")
for i in hs._listening_services:
# When you listenSSL, it doesn't make an SSL port but a TCP one with
# a TLS wrapping factory around the factory you actually want to get
# requests. This factory attribute is public but missing from
# Twisted's documentation.
if isinstance(i.factory, TLSMemoryBIOFactory):
addr = i.getHost()
logger.info(
"Replacing TLS context factory on [%s]:%i", addr.host, addr.port
)
# We want to replace TLS factories with a new one, with the new
# TLS configuration. We do this by reaching in and pulling out
# the wrappedFactory, and then re-wrapping it.
i.factory = TLSMemoryBIOFactory(
hs.tls_server_context_factory, False, i.factory.wrappedFactory
)
logger.info("Context factories updated.")
def start(hs, listeners=None):
"""
Start a Synapse server or worker.
Args:
hs (synapse.server.HomeServer)
listeners (list[dict]): Listener configuration ('listeners' in homeserver.yaml)
"""
try:
# Set up the SIGHUP machinery.
if hasattr(signal, "SIGHUP"):
def handle_sighup(*args, **kwargs):
for i in _sighup_callbacks:
i(hs)
signal.signal(signal.SIGHUP, handle_sighup)
register_sighup(refresh_certificate)
# Load the certificate from disk.
refresh_certificate(hs)
# Start the tracer
synapse.logging.opentracing.init_tracer(hs.config)
# It is now safe to start your Synapse.
hs.start_listening(listeners)
hs.get_datastore().start_profiling()
setup_sentry(hs)
except Exception:
traceback.print_exc(file=sys.stderr)
reactor = hs.get_reactor()
if reactor.running:
reactor.stop()
sys.exit(1)
def setup_sentry(hs):
"""Enable sentry integration, if enabled in configuration
Args:
hs (synapse.server.HomeServer)
"""
if not hs.config.sentry_enabled:
return
import sentry_sdk
sentry_sdk.init(dsn=hs.config.sentry_dsn, release=get_version_string(synapse))
# We set some default tags that give some context to this instance
with sentry_sdk.configure_scope() as scope:
scope.set_tag("matrix_server_name", hs.config.server_name)
app = hs.config.worker_app if hs.config.worker_app else "synapse.app.homeserver"
name = hs.config.worker_name if hs.config.worker_name else "master"
scope.set_tag("worker_app", app)
scope.set_tag("worker_name", name)
def install_dns_limiter(reactor, max_dns_requests_in_flight=100):
"""Replaces the resolver with one that limits the number of in flight DNS
requests.
This is to workaround https://twistedmatrix.com/trac/ticket/9620, where we
can run out of file descriptors and infinite loop if we attempt to do too
many DNS queries at once
"""
new_resolver = _LimitedHostnameResolver(
reactor.nameResolver, max_dns_requests_in_flight
)
reactor.installNameResolver(new_resolver)
class _LimitedHostnameResolver(object):
"""Wraps a IHostnameResolver, limiting the number of in-flight DNS lookups.
"""
def __init__(self, resolver, max_dns_requests_in_flight):
self._resolver = resolver
self._limiter = Linearizer(
name="dns_client_limiter", max_count=max_dns_requests_in_flight
)
def resolveHostName(
self,
resolutionReceiver,
hostName,
portNumber=0,
addressTypes=None,
transportSemantics="TCP",
):
# We need this function to return `resolutionReceiver` so we do all the
# actual logic involving deferreds in a separate function.
# even though this is happening within the depths of twisted, we need to drop
# our logcontext before starting _resolve, otherwise: (a) _resolve will drop
# the logcontext if it returns an incomplete deferred; (b) _resolve will
# call the resolutionReceiver *with* a logcontext, which it won't be expecting.
with PreserveLoggingContext():
self._resolve(
resolutionReceiver,
hostName,
portNumber,
addressTypes,
transportSemantics,
)
return resolutionReceiver
@defer.inlineCallbacks
def _resolve(
self,
resolutionReceiver,
hostName,
portNumber=0,
addressTypes=None,
transportSemantics="TCP",
):
with (yield self._limiter.queue(())):
# resolveHostName doesn't return a Deferred, so we need to hook into
# the receiver interface to get told when resolution has finished.
deferred = defer.Deferred()
receiver = _DeferredResolutionReceiver(resolutionReceiver, deferred)
self._resolver.resolveHostName(
receiver, hostName, portNumber, addressTypes, transportSemantics
)
yield deferred
class _DeferredResolutionReceiver(object):
"""Wraps a IResolutionReceiver and simply resolves the given deferred when
resolution is complete
"""
def __init__(self, receiver, deferred):
self._receiver = receiver
self._deferred = deferred
def resolutionBegan(self, resolutionInProgress):
self._receiver.resolutionBegan(resolutionInProgress)
def addressResolved(self, address):
self._receiver.addressResolved(address)
def resolutionComplete(self):
self._deferred.callback(())
self._receiver.resolutionComplete()