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