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The general idea here is that config examples should just have a hash and no extraneous whitespace, both to make it easier for people who don't understand yaml, and to make the examples stand out from the comments.
314 lines
13 KiB
Python
314 lines
13 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright 2014-2016 OpenMarket 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 logging
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import os
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import warnings
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from datetime import datetime
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from hashlib import sha256
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from unpaddedbase64 import encode_base64
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from OpenSSL import crypto
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from synapse.config._base import Config, ConfigError
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logger = logging.getLogger(__name__)
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class TlsConfig(Config):
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def read_config(self, config):
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acme_config = config.get("acme", None)
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if acme_config is None:
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acme_config = {}
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self.acme_enabled = acme_config.get("enabled", False)
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self.acme_url = acme_config.get(
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"url", u"https://acme-v01.api.letsencrypt.org/directory"
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)
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self.acme_port = acme_config.get("port", 80)
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self.acme_bind_addresses = acme_config.get("bind_addresses", ['::', '0.0.0.0'])
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self.acme_reprovision_threshold = acme_config.get("reprovision_threshold", 30)
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self.acme_domain = acme_config.get("domain", config.get("server_name"))
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self.tls_certificate_file = self.abspath(config.get("tls_certificate_path"))
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self.tls_private_key_file = self.abspath(config.get("tls_private_key_path"))
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if self.has_tls_listener():
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if not self.tls_certificate_file:
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raise ConfigError(
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"tls_certificate_path must be specified if TLS-enabled listeners are "
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"configured."
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)
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if not self.tls_private_key_file:
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raise ConfigError(
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"tls_certificate_path must be specified if TLS-enabled listeners are "
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"configured."
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)
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self._original_tls_fingerprints = config.get("tls_fingerprints", [])
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if self._original_tls_fingerprints is None:
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self._original_tls_fingerprints = []
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self.tls_fingerprints = list(self._original_tls_fingerprints)
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# This config option applies to non-federation HTTP clients
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# (e.g. for talking to recaptcha, identity servers, and such)
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# It should never be used in production, and is intended for
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# use only when running tests.
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self.use_insecure_ssl_client_just_for_testing_do_not_use = config.get(
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"use_insecure_ssl_client_just_for_testing_do_not_use"
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)
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self.tls_certificate = None
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self.tls_private_key = None
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def is_disk_cert_valid(self, allow_self_signed=True):
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"""
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Is the certificate we have on disk valid, and if so, for how long?
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Args:
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allow_self_signed (bool): Should we allow the certificate we
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read to be self signed?
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Returns:
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int: Days remaining of certificate validity.
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None: No certificate exists.
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"""
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if not os.path.exists(self.tls_certificate_file):
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return None
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try:
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with open(self.tls_certificate_file, 'rb') as f:
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cert_pem = f.read()
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except Exception:
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logger.exception("Failed to read existing certificate off disk!")
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raise
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try:
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tls_certificate = crypto.load_certificate(crypto.FILETYPE_PEM, cert_pem)
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except Exception:
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logger.exception("Failed to parse existing certificate off disk!")
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raise
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if not allow_self_signed:
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if tls_certificate.get_subject() == tls_certificate.get_issuer():
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raise ValueError(
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"TLS Certificate is self signed, and this is not permitted"
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)
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# YYYYMMDDhhmmssZ -- in UTC
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expires_on = datetime.strptime(
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tls_certificate.get_notAfter().decode('ascii'), "%Y%m%d%H%M%SZ"
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)
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now = datetime.utcnow()
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days_remaining = (expires_on - now).days
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return days_remaining
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def read_certificate_from_disk(self, require_cert_and_key):
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"""
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Read the certificates and private key from disk.
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Args:
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require_cert_and_key (bool): set to True to throw an error if the certificate
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and key file are not given
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"""
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if require_cert_and_key:
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self.tls_private_key = self.read_tls_private_key()
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self.tls_certificate = self.read_tls_certificate()
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elif self.tls_certificate_file:
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# we only need the certificate for the tls_fingerprints. Reload it if we
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# can, but it's not a fatal error if we can't.
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try:
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self.tls_certificate = self.read_tls_certificate()
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except Exception as e:
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logger.info(
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"Unable to read TLS certificate (%s). Ignoring as no "
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"tls listeners enabled.", e,
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)
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self.tls_fingerprints = list(self._original_tls_fingerprints)
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if self.tls_certificate:
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# Check that our own certificate is included in the list of fingerprints
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# and include it if it is not.
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x509_certificate_bytes = crypto.dump_certificate(
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crypto.FILETYPE_ASN1, self.tls_certificate
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)
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sha256_fingerprint = encode_base64(sha256(x509_certificate_bytes).digest())
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sha256_fingerprints = set(f["sha256"] for f in self.tls_fingerprints)
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if sha256_fingerprint not in sha256_fingerprints:
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self.tls_fingerprints.append({u"sha256": sha256_fingerprint})
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def default_config(self, config_dir_path, server_name, **kwargs):
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base_key_name = os.path.join(config_dir_path, server_name)
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tls_certificate_path = base_key_name + ".tls.crt"
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tls_private_key_path = base_key_name + ".tls.key"
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# this is to avoid the max line length. Sorrynotsorry
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proxypassline = (
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'ProxyPass /.well-known/acme-challenge '
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'http://localhost:8009/.well-known/acme-challenge'
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)
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return (
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"""\
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## TLS ##
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# PEM-encoded X509 certificate for TLS.
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# This certificate, as of Synapse 1.0, will need to be a valid and verifiable
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# certificate, signed by a recognised Certificate Authority.
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#
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# See 'ACME support' below to enable auto-provisioning this certificate via
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# Let's Encrypt.
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#
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#tls_certificate_path: "%(tls_certificate_path)s"
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# PEM-encoded private key for TLS
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#
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#tls_private_key_path: "%(tls_private_key_path)s"
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# ACME support: This will configure Synapse to request a valid TLS certificate
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# for your configured `server_name` via Let's Encrypt.
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#
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# Note that provisioning a certificate in this way requires port 80 to be
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# routed to Synapse so that it can complete the http-01 ACME challenge.
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# By default, if you enable ACME support, Synapse will attempt to listen on
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# port 80 for incoming http-01 challenges - however, this will likely fail
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# with 'Permission denied' or a similar error.
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#
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# There are a couple of potential solutions to this:
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#
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# * If you already have an Apache, Nginx, or similar listening on port 80,
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# you can configure Synapse to use an alternate port, and have your web
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# server forward the requests. For example, assuming you set 'port: 8009'
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# below, on Apache, you would write:
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#
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# %(proxypassline)s
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#
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# * Alternatively, you can use something like `authbind` to give Synapse
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# permission to listen on port 80.
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#
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acme:
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# ACME support is disabled by default. Uncomment the following line
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# (and tls_certificate_path and tls_private_key_path above) to enable it.
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#
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#enabled: true
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# Endpoint to use to request certificates. If you only want to test,
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# use Let's Encrypt's staging url:
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# https://acme-staging.api.letsencrypt.org/directory
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#
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#url: https://acme-v01.api.letsencrypt.org/directory
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# Port number to listen on for the HTTP-01 challenge. Change this if
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# you are forwarding connections through Apache/Nginx/etc.
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#
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#port: 80
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# Local addresses to listen on for incoming connections.
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# Again, you may want to change this if you are forwarding connections
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# through Apache/Nginx/etc.
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#
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#bind_addresses: ['::', '0.0.0.0']
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# How many days remaining on a certificate before it is renewed.
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#
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#reprovision_threshold: 30
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# The domain that the certificate should be for. Normally this
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# should be the same as your Matrix domain (i.e., 'server_name'), but,
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# by putting a file at 'https://<server_name>/.well-known/matrix/server',
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# you can delegate incoming traffic to another server. If you do that,
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# you should give the target of the delegation here.
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#
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# For example: if your 'server_name' is 'example.com', but
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# 'https://example.com/.well-known/matrix/server' delegates to
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# 'matrix.example.com', you should put 'matrix.example.com' here.
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#
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# If not set, defaults to your 'server_name'.
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#
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#domain: matrix.example.com
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# List of allowed TLS fingerprints for this server to publish along
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# with the signing keys for this server. Other matrix servers that
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# make HTTPS requests to this server will check that the TLS
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# certificates returned by this server match one of the fingerprints.
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#
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# Synapse automatically adds the fingerprint of its own certificate
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# to the list. So if federation traffic is handled directly by synapse
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# then no modification to the list is required.
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#
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# If synapse is run behind a load balancer that handles the TLS then it
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# will be necessary to add the fingerprints of the certificates used by
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# the loadbalancers to this list if they are different to the one
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# synapse is using.
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#
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# Homeservers are permitted to cache the list of TLS fingerprints
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# returned in the key responses up to the "valid_until_ts" returned in
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# key. It may be necessary to publish the fingerprints of a new
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# certificate and wait until the "valid_until_ts" of the previous key
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# responses have passed before deploying it.
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#
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# You can calculate a fingerprint from a given TLS listener via:
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# openssl s_client -connect $host:$port < /dev/null 2> /dev/null |
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# openssl x509 -outform DER | openssl sha256 -binary | base64 | tr -d '='
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# or by checking matrix.org/federationtester/api/report?server_name=$host
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#
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#tls_fingerprints: [{"sha256": "<base64_encoded_sha256_fingerprint>"}]
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"""
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% locals()
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)
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def read_tls_certificate(self):
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"""Reads the TLS certificate from the configured file, and returns it
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Also checks if it is self-signed, and warns if so
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Returns:
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OpenSSL.crypto.X509: the certificate
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"""
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cert_path = self.tls_certificate_file
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logger.info("Loading TLS certificate from %s", cert_path)
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cert_pem = self.read_file(cert_path, "tls_certificate_path")
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cert = crypto.load_certificate(crypto.FILETYPE_PEM, cert_pem)
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# Check if it is self-signed, and issue a warning if so.
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if cert.get_issuer() == cert.get_subject():
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warnings.warn(
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(
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"Self-signed TLS certificates will not be accepted by Synapse 1.0. "
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"Please either provide a valid certificate, or use Synapse's ACME "
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"support to provision one."
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)
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)
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return cert
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def read_tls_private_key(self):
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"""Reads the TLS private key from the configured file, and returns it
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Returns:
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OpenSSL.crypto.PKey: the private key
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"""
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private_key_path = self.tls_private_key_file
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logger.info("Loading TLS key from %s", private_key_path)
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private_key_pem = self.read_file(private_key_path, "tls_private_key_path")
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return crypto.load_privatekey(crypto.FILETYPE_PEM, private_key_pem)
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