from __future__ import (absolute_import, print_function, division) import traceback from netlib import tcp import netlib.http.http2 from ..exceptions import ProtocolException from .layer import Layer class TlsLayer(Layer): def __init__(self, ctx, client_tls, server_tls): super(TlsLayer, self).__init__(ctx) self._client_tls = client_tls self._server_tls = server_tls self.client_sni = None self._sni_from_server_change = None self.client_alpn_protos = None self.__server_tls_exception = None # foo alpn protos = [netlib.http.http1.HTTP1Protocol.ALPN_PROTO_HTTP1, netlib.http.http2.HTTP2Protocol.ALPN_PROTO_H2], # TODO: read this from client_conn first def __call__(self): """ The strategy for establishing SSL is as follows: First, we determine whether we need the server cert to establish ssl with the client. If so, we first connect to the server and then to the client. If not, we only connect to the client and do the server_ssl lazily on a Connect message. An additional complexity is that establish ssl with the server may require a SNI value from the client. In an ideal world, we'd do the following: 1. Start the SSL handshake with the client 2. Check if the client sends a SNI. 3. Pause the client handshake, establish SSL with the server. 4. Finish the client handshake with the certificate from the server. There's just one issue: We cannot get a callback from OpenSSL if the client doesn't send a SNI. :( Thus, we resort to the following workaround when establishing SSL with the server: 1. Try to establish SSL with the server without SNI. If this fails, we ignore it. 2. Establish SSL with client. - If there's a SNI callback, reconnect to the server with SNI. - If not and the server connect failed, raise the original exception. Further notes: - OpenSSL 1.0.2 introduces a callback that would help here: https://www.openssl.org/docs/ssl/SSL_CTX_set_cert_cb.html - The original mitmproxy issue is https://github.com/mitmproxy/mitmproxy/issues/427 """ client_tls_requires_server_cert = ( self._client_tls and self._server_tls and not self.config.no_upstream_cert ) if client_tls_requires_server_cert: self._establish_tls_with_client_and_server() elif self._client_tls: self._establish_tls_with_client() layer = self.ctx.next_layer(self) layer() def connect(self): if not self.server_conn: self.ctx.connect() if self._server_tls and not self._server_tls_established: self._establish_tls_with_server() def reconnect(self): self.ctx.reconnect() if self._server_tls and not self._server_tls_established: self._establish_tls_with_server() def set_server(self, address, server_tls, sni, depth=1): self.ctx.set_server(address, server_tls, sni, depth) if server_tls is not None: self._sni_from_server_change = sni self._server_tls = server_tls @property def _server_tls_established(self): return self.server_conn and self.server_conn.tls_established @property def sni_for_upstream_connection(self): if self._sni_from_server_change is False: return None else: return self._sni_from_server_change or self.client_sni def _establish_tls_with_client_and_server(self): """ This function deals with the problem that the server may require a SNI value from the client. """ # First, try to connect to the server. self.ctx.connect() server_err = None try: self._establish_tls_with_server() except ProtocolException as e: server_err = e self._establish_tls_with_client() if server_err and not self.client_sni: raise server_err def __handle_sni(self, connection): """ This callback gets called during the TLS handshake with the client. The client has just sent the Sever Name Indication (SNI). """ old_upstream_sni = self.sni_for_upstream_connection sn = connection.get_servername() if not sn: return self.client_sni = sn.decode("utf8").encode("idna") server_sni_changed = (old_upstream_sni != self.sni_for_upstream_connection) server_conn_with_tls_exists = (self.server_conn and self._server_tls) if server_sni_changed and server_conn_with_tls_exists: try: self.reconnect() except Exception as e: self.__server_tls_exception = e # Now, change client context to reflect possibly changed certificate: cert, key, chain_file = self._find_cert() new_context = self.client_conn.create_ssl_context( cert, key, method=self.config.openssl_method_client, options=self.config.openssl_options_client, cipher_list=self.config.ciphers_client, dhparams=self.config.certstore.dhparams, chain_file=chain_file, alpn_select_callback=self.__handle_alpn_select, ) connection.set_context(new_context) def __handle_alpn_select(self, conn_, options): # TODO: change to something meaningful? # alpn_preference = netlib.http.http1.HTTP1Protocol.ALPN_PROTO_HTTP1 alpn_preference = netlib.http.http2.HTTP2Protocol.ALPN_PROTO_H2 # TODO: Don't reconnect twice? upstream_alpn_changed = (self.client_alpn_protos != options) server_conn_with_tls_exists = (self.server_conn and self._server_tls) if upstream_alpn_changed and server_conn_with_tls_exists: try: self.reconnect() except Exception as e: self.__server_tls_exception = e self.client_alpn_protos = options if alpn_preference in options: return bytes(alpn_preference) else: # pragma no cover return options[0] def _establish_tls_with_client(self): self.log("Establish TLS with client", "debug") cert, key, chain_file = self._find_cert() try: self.client_conn.convert_to_ssl( cert, key, method=self.config.openssl_method_client, options=self.config.openssl_options_client, handle_sni=self.__handle_sni, cipher_list=self.config.ciphers_client, dhparams=self.config.certstore.dhparams, chain_file=chain_file, alpn_select_callback=self.__handle_alpn_select, ) except tcp.NetLibError as e: print("alpn: %s" % self.client_alpn_protos) raise ProtocolException(repr(e), e) # Do not raise server tls exceptions immediately. # We want to try to finish the client handshake so that other layers can send error messages over it. if self.__server_tls_exception: raise self.__server_tls_exception def _establish_tls_with_server(self): self.log("Establish TLS with server", "debug") try: self.server_conn.establish_ssl( self.config.clientcerts, self.sni_for_upstream_connection, method=self.config.openssl_method_server, options=self.config.openssl_options_server, verify_options=self.config.openssl_verification_mode_server, ca_path=self.config.openssl_trusted_cadir_server, ca_pemfile=self.config.openssl_trusted_ca_server, cipher_list=self.config.ciphers_server, alpn_protos=self.client_alpn_protos, ) tls_cert_err = self.server_conn.ssl_verification_error if tls_cert_err is not None: self.log( "TLS verification failed for upstream server at depth %s with error: %s" % (tls_cert_err['depth'], tls_cert_err['errno']), "error") self.log("Ignoring server verification error, continuing with connection", "error") except tcp.NetLibInvalidCertificateError as e: tls_cert_err = self.server_conn.ssl_verification_error self.log( "TLS verification failed for upstream server at depth %s with error: %s" % (tls_cert_err['depth'], tls_cert_err['errno']), "error") self.log("Aborting connection attempt", "error") raise ProtocolException(repr(e), e) except tcp.NetLibError as e: raise ProtocolException(repr(e), e) def _find_cert(self): host = self.server_conn.address.host sans = set() # Incorporate upstream certificate if self.server_conn and self.server_conn.tls_established and (not self.config.no_upstream_cert): upstream_cert = self.server_conn.cert sans.update(upstream_cert.altnames) if upstream_cert.cn: sans.add(host) host = upstream_cert.cn.decode("utf8").encode("idna") # Also add SNI values. if self.client_sni: sans.add(self.client_sni) if self._sni_from_server_change: sans.add(self._sni_from_server_change) sans.discard(host) return self.config.certstore.get_cert(host, list(sans))