/* * TLS Client * (C) 2004-2011,2012,2015,2016 Jack Lloyd * 2016 Matthias Gierlings * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include #include #include #include #include namespace Botan { namespace TLS { namespace { class Client_Handshake_State : public Handshake_State { public: // using Handshake_State::Handshake_State; Client_Handshake_State(Handshake_IO* io, Callbacks& cb) : Handshake_State(io, cb) {} const Public_Key& get_server_public_Key() const { BOTAN_ASSERT(server_public_key, "Server sent us a certificate"); return *server_public_key.get(); } // Used during session resumption secure_vector resume_master_secret; std::unique_ptr server_public_key; }; } /* * TLS Client Constructor */ Client::Client(Callbacks& callbacks, Session_Manager& session_manager, Credentials_Manager& creds, const Policy& policy, RandomNumberGenerator& rng, const Server_Information& info, const Protocol_Version& offer_version, const std::vector& next_protos, size_t io_buf_sz) : Channel(callbacks, session_manager, rng, policy, offer_version.is_datagram_protocol(), io_buf_sz), m_creds(creds), m_info(info) { init(offer_version, next_protos); } Client::Client(output_fn output_fn, data_cb proc_cb, alert_cb alert_cb, handshake_cb handshake_cb, Session_Manager& session_manager, Credentials_Manager& creds, const Policy& policy, RandomNumberGenerator& rng, const Server_Information& info, const Protocol_Version& offer_version, const std::vector& next_protos, size_t io_buf_sz) : Channel(output_fn, proc_cb, alert_cb, handshake_cb, Channel::handshake_msg_cb(), session_manager, rng, policy, offer_version.is_datagram_protocol(), io_buf_sz), m_creds(creds), m_info(info) { init(offer_version, next_protos); } Client::Client(output_fn output_fn, data_cb proc_cb, alert_cb alert_cb, handshake_cb handshake_cb, handshake_msg_cb hs_msg_cb, Session_Manager& session_manager, Credentials_Manager& creds, const Policy& policy, RandomNumberGenerator& rng, const Server_Information& info, const Protocol_Version& offer_version, const std::vector& next_protos) : Channel(output_fn, proc_cb, alert_cb, handshake_cb, hs_msg_cb, session_manager, rng, policy, offer_version.is_datagram_protocol()), m_creds(creds), m_info(info) { init(offer_version, next_protos); } void Client::init(const Protocol_Version& protocol_version, const std::vector& next_protocols) { const std::string srp_identifier = m_creds.srp_identifier("tls-client", m_info.hostname()); Handshake_State& state = create_handshake_state(protocol_version); send_client_hello(state, false, protocol_version, srp_identifier, next_protocols); } Handshake_State* Client::new_handshake_state(Handshake_IO* io) { return new Client_Handshake_State(io, callbacks()); } std::vector Client::get_peer_cert_chain(const Handshake_State& state) const { if(state.server_certs()) return state.server_certs()->cert_chain(); return std::vector(); } /* * Send a new client hello to renegotiate */ void Client::initiate_handshake(Handshake_State& state, bool force_full_renegotiation) { send_client_hello(state, force_full_renegotiation, state.version()); } void Client::send_client_hello(Handshake_State& state_base, bool force_full_renegotiation, Protocol_Version version, const std::string& srp_identifier, const std::vector& next_protocols) { Client_Handshake_State& state = dynamic_cast(state_base); if(state.version().is_datagram_protocol()) state.set_expected_next(HELLO_VERIFY_REQUEST); // optional state.set_expected_next(SERVER_HELLO); if(!force_full_renegotiation && !m_info.empty()) { Session session_info; if(session_manager().load_from_server_info(m_info, session_info)) { /* Ensure that the session protocol type matches what we want to use If not skip the resume and establish a new session */ if(version == session_info.version()) { if(srp_identifier == "" || session_info.srp_identifier() == srp_identifier) { state.client_hello( new Client_Hello(state.handshake_io(), state.hash(), policy(), rng(), secure_renegotiation_data_for_client_hello(), session_info, next_protocols)); state.resume_master_secret = session_info.master_secret(); } } } } if(!state.client_hello()) // not resuming { Client_Hello::Settings client_settings(version, m_info.hostname(), srp_identifier); state.client_hello(new Client_Hello( state.handshake_io(), state.hash(), policy(), rng(), secure_renegotiation_data_for_client_hello(), client_settings, next_protocols)); } secure_renegotiation_check(state.client_hello()); } /* * Process a handshake message */ void Client::process_handshake_msg(const Handshake_State* active_state, Handshake_State& state_base, Handshake_Type type, const std::vector& contents) { Client_Handshake_State& state = dynamic_cast(state_base); if(type == HELLO_REQUEST && active_state) { Hello_Request hello_request(contents); // Ignore request entirely if we are currently negotiating a handshake if(state.client_hello()) return; if(policy().allow_server_initiated_renegotiation()) { if(!secure_renegotiation_supported() && policy().allow_insecure_renegotiation() == false) send_warning_alert(Alert::NO_RENEGOTIATION); else this->initiate_handshake(state, false); } else { // RFC 5746 section 4.2 send_warning_alert(Alert::NO_RENEGOTIATION); } return; } state.confirm_transition_to(type); if(type != HANDSHAKE_CCS && type != FINISHED && type != HELLO_VERIFY_REQUEST) state.hash().update(state.handshake_io().format(contents, type)); if(type == HELLO_VERIFY_REQUEST) { state.set_expected_next(SERVER_HELLO); state.set_expected_next(HELLO_VERIFY_REQUEST); // might get it again Hello_Verify_Request hello_verify_request(contents); state.hello_verify_request(hello_verify_request); } else if(type == SERVER_HELLO) { state.server_hello(new Server_Hello(contents)); if(!state.client_hello()->offered_suite(state.server_hello()->ciphersuite())) { throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Server replied with ciphersuite we didn't send"); } if(Ciphersuite::is_scsv(state.server_hello()->ciphersuite())) { throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Server replied with a signaling ciphersuite"); } if(!value_exists(state.client_hello()->compression_methods(), state.server_hello()->compression_method())) { throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Server replied with compression method we didn't send"); } auto client_extn = state.client_hello()->extension_types(); auto server_extn = state.server_hello()->extension_types(); std::vector diff; std::set_difference(server_extn.begin(), server_extn.end(), client_extn.begin(), client_extn.end(), std::back_inserter(diff)); if(!diff.empty()) { // Server sent us back an extension we did not send! std::ostringstream msg; msg << "Server replied with " << diff.size() << " unsupported extensions:"; for(auto&& d : diff) msg << " " << static_cast(d); throw TLS_Exception(Alert::HANDSHAKE_FAILURE, msg.str()); } if(u16bit srtp = state.server_hello()->srtp_profile()) { if(!value_exists(state.client_hello()->srtp_profiles(), srtp)) throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Server replied with DTLS-SRTP alg we did not send"); } state.set_version(state.server_hello()->version()); m_application_protocol = state.server_hello()->next_protocol(); secure_renegotiation_check(state.server_hello()); const bool server_returned_same_session_id = !state.server_hello()->session_id().empty() && (state.server_hello()->session_id() == state.client_hello()->session_id()); if(server_returned_same_session_id) { // successful resumption /* * In this case, we offered the version used in the original * session, and the server must resume with the same version. */ if(state.server_hello()->version() != state.client_hello()->version()) throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Server resumed session but with wrong version"); state.compute_session_keys(state.resume_master_secret); if(state.server_hello()->supports_session_ticket()) state.set_expected_next(NEW_SESSION_TICKET); else { state.set_expected_next(HANDSHAKE_CCS); } } else { // new session if(state.client_hello()->version().is_datagram_protocol() != state.server_hello()->version().is_datagram_protocol()) { throw TLS_Exception(Alert::PROTOCOL_VERSION, "Server replied with different protocol type than we offered"); } if(state.version() > state.client_hello()->version()) { throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Server replied with later version than in hello"); } if(!policy().acceptable_protocol_version(state.version())) { throw TLS_Exception(Alert::PROTOCOL_VERSION, "Server version " + state.version().to_string() + " is unacceptable by policy"); } if(state.ciphersuite().sig_algo() != "") { state.set_expected_next(CERTIFICATE); } else if(state.ciphersuite().kex_algo() == "PSK") { /* PSK is anonymous so no certificate/cert req message is ever sent. The server may or may not send a server kex, depending on if it has an identity hint for us. (EC)DHE_PSK always sends a server key exchange for the DH exchange portion. */ state.set_expected_next(SERVER_KEX); state.set_expected_next(SERVER_HELLO_DONE); } else if(state.ciphersuite().kex_algo() != "RSA") { state.set_expected_next(SERVER_KEX); } else { state.set_expected_next(CERTIFICATE_REQUEST); // optional state.set_expected_next(SERVER_HELLO_DONE); } } } else if(type == CERTIFICATE) { if(state.ciphersuite().kex_algo() != "RSA") { state.set_expected_next(SERVER_KEX); } else { state.set_expected_next(CERTIFICATE_REQUEST); // optional state.set_expected_next(SERVER_HELLO_DONE); } state.server_certs(new Certificate(contents, policy())); const std::vector& server_certs = state.server_certs()->cert_chain(); if(server_certs.empty()) throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Client: No certificates sent by server"); try { m_creds.verify_certificate_chain("tls-client", m_info.hostname(), server_certs); } catch(std::exception& e) { throw TLS_Exception(Alert::BAD_CERTIFICATE, e.what()); } std::unique_ptr peer_key(server_certs[0].subject_public_key()); if(peer_key->algo_name() != state.ciphersuite().sig_algo()) throw TLS_Exception(Alert::ILLEGAL_PARAMETER, "Certificate key type did not match ciphersuite"); state.server_public_key.reset(peer_key.release()); } else if(type == SERVER_KEX) { state.set_expected_next(CERTIFICATE_REQUEST); // optional state.set_expected_next(SERVER_HELLO_DONE); state.server_kex( new Server_Key_Exchange(contents, state.ciphersuite().kex_algo(), state.ciphersuite().sig_algo(), state.version()) ); if(state.ciphersuite().sig_algo() != "") { const Public_Key& server_key = state.get_server_public_Key(); if(!state.server_kex()->verify(server_key, state, policy())) { throw TLS_Exception(Alert::DECRYPT_ERROR, "Bad signature on server key exchange"); } } } else if(type == CERTIFICATE_REQUEST) { state.set_expected_next(SERVER_HELLO_DONE); state.cert_req(new Certificate_Req(contents, state.version())); } else if(type == SERVER_HELLO_DONE) { state.server_hello_done(new Server_Hello_Done(contents)); if(state.received_handshake_msg(CERTIFICATE_REQUEST)) { const auto& types = state.cert_req()->acceptable_cert_types(); std::vector client_certs = m_creds.cert_chain(types, "tls-client", m_info.hostname()); state.client_certs(new Certificate(state.handshake_io(), state.hash(), client_certs)); } state.client_kex( new Client_Key_Exchange(state.handshake_io(), state, policy(), m_creds, state.server_public_key.get(), m_info.hostname(), rng()) ); state.compute_session_keys(); if(state.received_handshake_msg(CERTIFICATE_REQUEST) && !state.client_certs()->empty()) { Private_Key* private_key = m_creds.private_key_for(state.client_certs()->cert_chain()[0], "tls-client", m_info.hostname()); state.client_verify( new Certificate_Verify(state.handshake_io(), state, policy(), rng(), private_key) ); } state.handshake_io().send(Change_Cipher_Spec()); change_cipher_spec_writer(CLIENT); state.client_finished(new Finished(state.handshake_io(), state, CLIENT)); if(state.server_hello()->supports_session_ticket()) state.set_expected_next(NEW_SESSION_TICKET); else state.set_expected_next(HANDSHAKE_CCS); } else if(type == NEW_SESSION_TICKET) { state.new_session_ticket(new New_Session_Ticket(contents)); state.set_expected_next(HANDSHAKE_CCS); } else if(type == HANDSHAKE_CCS) { state.set_expected_next(FINISHED); change_cipher_spec_reader(CLIENT); } else if(type == FINISHED) { state.server_finished(new Finished(contents)); if(!state.server_finished()->verify(state, SERVER)) throw TLS_Exception(Alert::DECRYPT_ERROR, "Finished message didn't verify"); state.hash().update(state.handshake_io().format(contents, type)); if(!state.client_finished()) // session resume case { state.handshake_io().send(Change_Cipher_Spec()); change_cipher_spec_writer(CLIENT); state.client_finished(new Finished(state.handshake_io(), state, CLIENT)); } std::vector session_id = state.server_hello()->session_id(); const std::vector& session_ticket = state.session_ticket(); if(session_id.empty() && !session_ticket.empty()) session_id = make_hello_random(rng(), policy()); Session session_info( session_id, state.session_keys().master_secret(), state.server_hello()->version(), state.server_hello()->ciphersuite(), state.server_hello()->compression_method(), CLIENT, state.server_hello()->supports_extended_master_secret(), state.server_hello()->supports_encrypt_then_mac(), get_peer_cert_chain(state), session_ticket, m_info, "", state.server_hello()->srtp_profile() ); const bool should_save = save_session(session_info); if(!session_id.empty()) { if(should_save) session_manager().save(session_info); else session_manager().remove_entry(session_info.session_id()); } activate_session(); } else throw Unexpected_Message("Unknown handshake message received"); } } }