mirror of
https://mau.dev/maunium/synapse.git
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322 lines
13 KiB
Python
322 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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import six
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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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# hyperlink complains on py2 if this is not a Unicode
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self.acme_url = six.text_type(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_private_key_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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# If supplying your own, be sure to use a `.pem` file that includes the
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# full certificate chain including any intermediate certificates (for
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# instance, if using certbot, use `fullchain.pem` as your certificate,
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# not `cert.pem`).
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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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