/* * Copyright (C) 2010 Martin Willi * Copyright (C) 2010 revosec AG * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ #include "tls_peer.h" #include #include #include typedef struct private_tls_peer_t private_tls_peer_t; typedef enum { STATE_INIT, STATE_HELLO_SENT, STATE_HELLO_RECEIVED, STATE_HELLO_DONE, STATE_CERT_SENT, STATE_CERT_RECEIVED, STATE_KEY_EXCHANGE_RECEIVED, STATE_CERTREQ_RECEIVED, STATE_KEY_EXCHANGE_SENT, STATE_VERIFY_SENT, STATE_CIPHERSPEC_CHANGED_OUT, STATE_FINISHED_SENT, STATE_CIPHERSPEC_CHANGED_IN, STATE_FINISHED_RECEIVED, } peer_state_t; /** * Private data of an tls_peer_t object. */ struct private_tls_peer_t { /** * Public tls_peer_t interface. */ tls_peer_t public; /** * TLS stack */ tls_t *tls; /** * TLS crypto context */ tls_crypto_t *crypto; /** * TLS alert handler */ tls_alert_t *alert; /** * Peer identity, NULL for no client authentication */ identification_t *peer; /** * Server identity */ identification_t *server; /** * State we are in */ peer_state_t state; /** * Hello random data selected by client */ char client_random[32]; /** * Hello random data selected by server */ char server_random[32]; /** * Auth helper for peer authentication */ auth_cfg_t *peer_auth; /** * Auth helper for server authentication */ auth_cfg_t *server_auth; /** * Peer private key */ private_key_t *private; /** * DHE exchange */ diffie_hellman_t *dh; /** * Resuming a session? */ bool resume; /** * TLS session identifier */ chunk_t session; /** * List of server-supported hashsig algorithms */ chunk_t hashsig; /** * List of server-supported client certificate types */ chunk_t cert_types; }; /** * Process a server hello message */ static status_t process_server_hello(private_tls_peer_t *this, bio_reader_t *reader) { u_int8_t compression; u_int16_t version, cipher; chunk_t random, session, ext = chunk_empty; tls_cipher_suite_t suite = 0; this->crypto->append_handshake(this->crypto, TLS_SERVER_HELLO, reader->peek(reader)); if (!reader->read_uint16(reader, &version) || !reader->read_data(reader, sizeof(this->server_random), &random) || !reader->read_data8(reader, &session) || !reader->read_uint16(reader, &cipher) || !reader->read_uint8(reader, &compression) || (reader->remaining(reader) && !reader->read_data16(reader, &ext))) { DBG1(DBG_TLS, "received invalid ServerHello"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } memcpy(this->server_random, random.ptr, sizeof(this->server_random)); if (!this->tls->set_version(this->tls, version)) { DBG1(DBG_TLS, "negotiated version %N not supported", tls_version_names, version); this->alert->add(this->alert, TLS_FATAL, TLS_PROTOCOL_VERSION); return NEED_MORE; } if (chunk_equals(this->session, session)) { suite = this->crypto->resume_session(this->crypto, session, this->server, chunk_from_thing(this->client_random), chunk_from_thing(this->server_random)); if (suite) { DBG1(DBG_TLS, "resumed %N using suite %N", tls_version_names, version, tls_cipher_suite_names, suite); this->resume = TRUE; } } if (!suite) { suite = cipher; if (!this->crypto->select_cipher_suite(this->crypto, &suite, 1, KEY_ANY)) { DBG1(DBG_TLS, "received TLS cipher suite %N inacceptable", tls_cipher_suite_names, suite); this->alert->add(this->alert, TLS_FATAL, TLS_HANDSHAKE_FAILURE); return NEED_MORE; } DBG1(DBG_TLS, "negotiated %N using suite %N", tls_version_names, version, tls_cipher_suite_names, suite); free(this->session.ptr); this->session = chunk_clone(session); } this->state = STATE_HELLO_RECEIVED; return NEED_MORE; } /** * Check if a server certificate is acceptable for the given server identity */ static bool check_certificate(private_tls_peer_t *this, certificate_t *cert) { identification_t *id; if (cert->has_subject(cert, this->server)) { return TRUE; } id = cert->get_subject(cert); if (id->matches(id, this->server)) { return TRUE; } if (cert->get_type(cert) == CERT_X509) { x509_t *x509 = (x509_t*)cert; enumerator_t *enumerator; enumerator = x509->create_subjectAltName_enumerator(x509); while (enumerator->enumerate(enumerator, &id)) { if (id->matches(id, this->server)) { enumerator->destroy(enumerator); return TRUE; } } enumerator->destroy(enumerator); } DBG1(DBG_TLS, "server certificate does not match to '%Y'", this->server); return FALSE; } /** * Process a Certificate message */ static status_t process_certificate(private_tls_peer_t *this, bio_reader_t *reader) { certificate_t *cert; bio_reader_t *certs; chunk_t data; bool first = TRUE; this->crypto->append_handshake(this->crypto, TLS_CERTIFICATE, reader->peek(reader)); if (!reader->read_data24(reader, &data)) { DBG1(DBG_TLS, "certificate message header invalid"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } certs = bio_reader_create(data); while (certs->remaining(certs)) { if (!certs->read_data24(certs, &data)) { DBG1(DBG_TLS, "certificate message invalid"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); certs->destroy(certs); return NEED_MORE; } cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_BLOB_ASN1_DER, data, BUILD_END); if (cert) { if (first) { if (!check_certificate(this, cert)) { cert->destroy(cert); certs->destroy(certs); this->alert->add(this->alert, TLS_FATAL, TLS_ACCESS_DENIED); return NEED_MORE; } this->server_auth->add(this->server_auth, AUTH_HELPER_SUBJECT_CERT, cert); DBG1(DBG_TLS, "received TLS server certificate '%Y'", cert->get_subject(cert)); first = FALSE; } else { DBG1(DBG_TLS, "received TLS intermediate certificate '%Y'", cert->get_subject(cert)); this->server_auth->add(this->server_auth, AUTH_HELPER_IM_CERT, cert); } } else { DBG1(DBG_TLS, "parsing TLS certificate failed, skipped"); this->alert->add(this->alert, TLS_WARNING, TLS_BAD_CERTIFICATE); } } certs->destroy(certs); this->state = STATE_CERT_RECEIVED; return NEED_MORE; } /** * Find a trusted public key to encrypt/verify key exchange data */ static public_key_t *find_public_key(private_tls_peer_t *this) { public_key_t *public = NULL, *current; certificate_t *cert; enumerator_t *enumerator; auth_cfg_t *auth; cert = this->server_auth->get(this->server_auth, AUTH_HELPER_SUBJECT_CERT); if (cert) { enumerator = lib->credmgr->create_public_enumerator(lib->credmgr, KEY_ANY, cert->get_subject(cert), this->server_auth); while (enumerator->enumerate(enumerator, ¤t, &auth)) { public = current->get_ref(current); break; } enumerator->destroy(enumerator); } return public; } /** * Process a Key Exchange message using MODP Diffie Hellman */ static status_t process_modp_key_exchange(private_tls_peer_t *this, bio_reader_t *reader) { chunk_t prime, generator, pub, chunk; public_key_t *public; chunk = reader->peek(reader); if (!reader->read_data16(reader, &prime) || !reader->read_data16(reader, &generator) || !reader->read_data16(reader, &pub)) { DBG1(DBG_TLS, "received invalid Server Key Exchange"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } public = find_public_key(this); if (!public) { DBG1(DBG_TLS, "no TLS public key found for server '%Y'", this->server); this->alert->add(this->alert, TLS_FATAL, TLS_CERTIFICATE_UNKNOWN); return NEED_MORE; } chunk.len = 2 + prime.len + 2 + generator.len + 2 + pub.len; chunk = chunk_cat("ccc", chunk_from_thing(this->client_random), chunk_from_thing(this->server_random), chunk); if (!this->crypto->verify(this->crypto, public, reader, chunk)) { public->destroy(public); free(chunk.ptr); DBG1(DBG_TLS, "verifying DH parameters failed"); this->alert->add(this->alert, TLS_FATAL, TLS_BAD_CERTIFICATE); return NEED_MORE; } public->destroy(public); free(chunk.ptr); this->dh = lib->crypto->create_dh(lib->crypto, MODP_CUSTOM, generator, prime); if (!this->dh) { DBG1(DBG_TLS, "custom DH parameters not supported"); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } this->dh->set_other_public_value(this->dh, pub); this->state = STATE_KEY_EXCHANGE_RECEIVED; return NEED_MORE; } /** * Get the EC group for a TLS named curve */ static diffie_hellman_group_t curve_to_ec_group(private_tls_peer_t *this, tls_named_curve_t curve) { diffie_hellman_group_t group; tls_named_curve_t current; enumerator_t *enumerator; enumerator = this->crypto->create_ec_enumerator(this->crypto); while (enumerator->enumerate(enumerator, &group, ¤t)) { if (current == curve) { enumerator->destroy(enumerator); return group; } } enumerator->destroy(enumerator); return 0; } /** * Process a Key Exchange message using EC Diffie Hellman */ static status_t process_ec_key_exchange(private_tls_peer_t *this, bio_reader_t *reader) { diffie_hellman_group_t group; public_key_t *public; u_int8_t type; u_int16_t curve; chunk_t pub, chunk; chunk = reader->peek(reader); if (!reader->read_uint8(reader, &type)) { DBG1(DBG_TLS, "received invalid Server Key Exchange"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } if (type != TLS_ECC_NAMED_CURVE) { DBG1(DBG_TLS, "ECDH curve type %N not supported", tls_ecc_curve_type_names, type); this->alert->add(this->alert, TLS_FATAL, TLS_HANDSHAKE_FAILURE); return NEED_MORE; } if (!reader->read_uint16(reader, &curve) || !reader->read_data8(reader, &pub) || pub.len == 0) { DBG1(DBG_TLS, "received invalid Server Key Exchange"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } group = curve_to_ec_group(this, curve); if (!group) { DBG1(DBG_TLS, "ECDH curve %N not supported", tls_named_curve_names, curve); this->alert->add(this->alert, TLS_FATAL, TLS_HANDSHAKE_FAILURE); return NEED_MORE; } public = find_public_key(this); if (!public) { DBG1(DBG_TLS, "no TLS public key found for server '%Y'", this->server); this->alert->add(this->alert, TLS_FATAL, TLS_CERTIFICATE_UNKNOWN); return NEED_MORE; } chunk.len = 4 + pub.len; chunk = chunk_cat("ccc", chunk_from_thing(this->client_random), chunk_from_thing(this->server_random), chunk); if (!this->crypto->verify(this->crypto, public, reader, chunk)) { public->destroy(public); free(chunk.ptr); DBG1(DBG_TLS, "verifying DH parameters failed"); this->alert->add(this->alert, TLS_FATAL, TLS_BAD_CERTIFICATE); return NEED_MORE; } public->destroy(public); free(chunk.ptr); this->dh = lib->crypto->create_dh(lib->crypto, group); if (!this->dh) { DBG1(DBG_TLS, "DH group %N not supported", diffie_hellman_group_names, group); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } if (pub.ptr[0] != TLS_ANSI_UNCOMPRESSED) { DBG1(DBG_TLS, "DH point format '%N' not supported", tls_ansi_point_format_names, pub.ptr[0]); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } this->dh->set_other_public_value(this->dh, chunk_skip(pub, 1)); this->state = STATE_KEY_EXCHANGE_RECEIVED; return NEED_MORE; } /** * Process a Server Key Exchange */ static status_t process_key_exchange(private_tls_peer_t *this, bio_reader_t *reader) { diffie_hellman_group_t group; this->crypto->append_handshake(this->crypto, TLS_SERVER_KEY_EXCHANGE, reader->peek(reader)); group = this->crypto->get_dh_group(this->crypto); if (group == MODP_NONE) { DBG1(DBG_TLS, "received Server Key Exchange, but not required " "for current suite"); this->alert->add(this->alert, TLS_FATAL, TLS_HANDSHAKE_FAILURE); return NEED_MORE; } if (diffie_hellman_group_is_ec(group)) { return process_ec_key_exchange(this, reader); } return process_modp_key_exchange(this, reader); } /** * Process a Certificate Request message */ static status_t process_certreq(private_tls_peer_t *this, bio_reader_t *reader) { chunk_t types, hashsig, data; bio_reader_t *authorities; identification_t *id; certificate_t *cert; if (!this->peer) { DBG1(DBG_TLS, "server requested a certificate, but client " "authentication disabled"); } this->crypto->append_handshake(this->crypto, TLS_CERTIFICATE_REQUEST, reader->peek(reader)); if (!reader->read_data8(reader, &types)) { DBG1(DBG_TLS, "certreq message header invalid"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } this->cert_types = chunk_clone(types); if (this->tls->get_version(this->tls) >= TLS_1_2) { if (!reader->read_data16(reader, &hashsig)) { DBG1(DBG_TLS, "certreq message invalid"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } this->hashsig = chunk_clone(hashsig); } if (!reader->read_data16(reader, &data)) { DBG1(DBG_TLS, "certreq message invalid"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } authorities = bio_reader_create(data); while (authorities->remaining(authorities)) { if (!authorities->read_data16(authorities, &data)) { DBG1(DBG_TLS, "certreq message invalid"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); authorities->destroy(authorities); return NEED_MORE; } if (this->peer) { id = identification_create_from_encoding(ID_DER_ASN1_DN, data); cert = lib->credmgr->get_cert(lib->credmgr, CERT_X509, KEY_ANY, id, TRUE); if (cert) { DBG1(DBG_TLS, "received TLS cert request for '%Y", id); this->peer_auth->add(this->peer_auth, AUTH_RULE_CA_CERT, cert); } else { DBG1(DBG_TLS, "received TLS cert request for unknown CA '%Y'", id); } id->destroy(id); } } authorities->destroy(authorities); this->state = STATE_CERTREQ_RECEIVED; return NEED_MORE; } /** * Process Hello Done message */ static status_t process_hello_done(private_tls_peer_t *this, bio_reader_t *reader) { this->crypto->append_handshake(this->crypto, TLS_SERVER_HELLO_DONE, reader->peek(reader)); this->state = STATE_HELLO_DONE; return NEED_MORE; } /** * Process finished message */ static status_t process_finished(private_tls_peer_t *this, bio_reader_t *reader) { chunk_t received; char buf[12]; if (!reader->read_data(reader, sizeof(buf), &received)) { DBG1(DBG_TLS, "received server finished too short"); this->alert->add(this->alert, TLS_FATAL, TLS_DECODE_ERROR); return NEED_MORE; } if (!this->crypto->calculate_finished(this->crypto, "server finished", buf)) { DBG1(DBG_TLS, "calculating server finished failed"); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } if (!chunk_equals(received, chunk_from_thing(buf))) { DBG1(DBG_TLS, "received server finished invalid"); this->alert->add(this->alert, TLS_FATAL, TLS_DECRYPT_ERROR); return NEED_MORE; } this->state = STATE_FINISHED_RECEIVED; this->crypto->append_handshake(this->crypto, TLS_FINISHED, received); return NEED_MORE; } METHOD(tls_handshake_t, process, status_t, private_tls_peer_t *this, tls_handshake_type_t type, bio_reader_t *reader) { tls_handshake_type_t expected; switch (this->state) { case STATE_HELLO_SENT: if (type == TLS_SERVER_HELLO) { return process_server_hello(this, reader); } expected = TLS_SERVER_HELLO; break; case STATE_HELLO_RECEIVED: if (type == TLS_CERTIFICATE) { return process_certificate(this, reader); } expected = TLS_CERTIFICATE; break; case STATE_CERT_RECEIVED: if (type == TLS_SERVER_KEY_EXCHANGE) { return process_key_exchange(this, reader); } /* fall through since TLS_SERVER_KEY_EXCHANGE is optional */ case STATE_KEY_EXCHANGE_RECEIVED: if (type == TLS_CERTIFICATE_REQUEST) { return process_certreq(this, reader); } this->peer = NULL; /* fall through since TLS_CERTIFICATE_REQUEST is optional */ case STATE_CERTREQ_RECEIVED: if (type == TLS_SERVER_HELLO_DONE) { return process_hello_done(this, reader); } expected = TLS_SERVER_HELLO_DONE; break; case STATE_CIPHERSPEC_CHANGED_IN: if (type == TLS_FINISHED) { return process_finished(this, reader); } expected = TLS_FINISHED; break; default: DBG1(DBG_TLS, "TLS %N not expected in current state", tls_handshake_type_names, type); this->alert->add(this->alert, TLS_FATAL, TLS_UNEXPECTED_MESSAGE); return NEED_MORE; } DBG1(DBG_TLS, "TLS %N expected, but received %N", tls_handshake_type_names, expected, tls_handshake_type_names, type); this->alert->add(this->alert, TLS_FATAL, TLS_UNEXPECTED_MESSAGE); return NEED_MORE; } /** * Send a client hello */ static status_t send_client_hello(private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { tls_cipher_suite_t *suites; bio_writer_t *extensions, *curves = NULL; tls_version_t version; tls_named_curve_t curve; enumerator_t *enumerator; int count, i; rng_t *rng; htoun32(&this->client_random, time(NULL)); rng = lib->crypto->create_rng(lib->crypto, RNG_WEAK); if (!rng || !rng->get_bytes(rng, sizeof(this->client_random) - 4, this->client_random + 4)) { DBG1(DBG_TLS, "failed to generate client random"); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); DESTROY_IF(rng); return NEED_MORE; } rng->destroy(rng); /* TLS version */ version = this->tls->get_version(this->tls); writer->write_uint16(writer, version); writer->write_data(writer, chunk_from_thing(this->client_random)); /* session identifier */ this->session = this->crypto->get_session(this->crypto, this->server); writer->write_data8(writer, this->session); /* add TLS cipher suites */ count = this->crypto->get_cipher_suites(this->crypto, &suites); writer->write_uint16(writer, count * 2); for (i = 0; i < count; i++) { writer->write_uint16(writer, suites[i]); } /* NULL compression only */ writer->write_uint8(writer, 1); writer->write_uint8(writer, 0); extensions = bio_writer_create(32); extensions->write_uint16(extensions, TLS_EXT_SIGNATURE_ALGORITHMS); this->crypto->get_signature_algorithms(this->crypto, extensions); /* add supported Elliptic Curves, if any */ enumerator = this->crypto->create_ec_enumerator(this->crypto); while (enumerator->enumerate(enumerator, NULL, &curve)) { if (!curves) { extensions->write_uint16(extensions, TLS_EXT_ELLIPTIC_CURVES); curves = bio_writer_create(16); } curves->write_uint16(curves, curve); } enumerator->destroy(enumerator); if (curves) { extensions->write_data16(extensions, curves->get_buf(curves)); curves->destroy(curves); /* if we support curves, add point format extension */ extensions->write_uint16(extensions, TLS_EXT_EC_POINT_FORMATS); extensions->write_uint16(extensions, 2); extensions->write_uint8(extensions, 1); extensions->write_uint8(extensions, TLS_EC_POINT_UNCOMPRESSED); } if (this->server->get_type(this->server) == ID_FQDN) { bio_writer_t *names; DBG2(DBG_TLS, "sending Server Name Indication for '%Y'", this->server); names = bio_writer_create(8); names->write_uint8(names, TLS_NAME_TYPE_HOST_NAME); names->write_data16(names, this->server->get_encoding(this->server)); names->wrap16(names); extensions->write_uint16(extensions, TLS_EXT_SERVER_NAME); extensions->write_data16(extensions, names->get_buf(names)); names->destroy(names); } writer->write_data16(writer, extensions->get_buf(extensions)); extensions->destroy(extensions); *type = TLS_CLIENT_HELLO; this->state = STATE_HELLO_SENT; this->crypto->append_handshake(this->crypto, *type, writer->get_buf(writer)); return NEED_MORE; } /** * Find a private key suitable to sign Certificate Verify */ static private_key_t *find_private_key(private_tls_peer_t *this) { private_key_t *key = NULL; bio_reader_t *reader; key_type_t type; u_int8_t cert; if (!this->peer) { return NULL; } reader = bio_reader_create(this->cert_types); while (reader->remaining(reader) && reader->read_uint8(reader, &cert)) { switch (cert) { case TLS_RSA_SIGN: type = KEY_RSA; break; case TLS_ECDSA_SIGN: type = KEY_ECDSA; break; default: continue; } key = lib->credmgr->get_private(lib->credmgr, type, this->peer, this->peer_auth); if (key) { break; } } reader->destroy(reader); return key; } /** * Send Certificate */ static status_t send_certificate(private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { enumerator_t *enumerator; certificate_t *cert; auth_rule_t rule; bio_writer_t *certs; chunk_t data; this->private = find_private_key(this); if (!this->private) { DBG1(DBG_TLS, "no TLS peer certificate found for '%Y', " "skipping client authentication", this->peer); this->peer = NULL; } /* generate certificate payload */ certs = bio_writer_create(256); if (this->peer) { cert = this->peer_auth->get(this->peer_auth, AUTH_RULE_SUBJECT_CERT); if (cert) { if (cert->get_encoding(cert, CERT_ASN1_DER, &data)) { DBG1(DBG_TLS, "sending TLS peer certificate '%Y'", cert->get_subject(cert)); certs->write_data24(certs, data); free(data.ptr); } } enumerator = this->peer_auth->create_enumerator(this->peer_auth); while (enumerator->enumerate(enumerator, &rule, &cert)) { if (rule == AUTH_RULE_IM_CERT) { if (cert->get_encoding(cert, CERT_ASN1_DER, &data)) { DBG1(DBG_TLS, "sending TLS intermediate certificate '%Y'", cert->get_subject(cert)); certs->write_data24(certs, data); free(data.ptr); } } } enumerator->destroy(enumerator); } writer->write_data24(writer, certs->get_buf(certs)); certs->destroy(certs); *type = TLS_CERTIFICATE; this->state = STATE_CERT_SENT; this->crypto->append_handshake(this->crypto, *type, writer->get_buf(writer)); return NEED_MORE; } /** * Send client key exchange, using premaster encryption */ static status_t send_key_exchange_encrypt(private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { public_key_t *public; rng_t *rng; char premaster[48]; chunk_t encrypted; rng = lib->crypto->create_rng(lib->crypto, RNG_STRONG); if (!rng || !rng->get_bytes(rng, sizeof(premaster) - 2, premaster + 2)) { DBG1(DBG_TLS, "failed to generate TLS premaster secret"); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); DESTROY_IF(rng); return NEED_MORE; } rng->destroy(rng); htoun16(premaster, TLS_1_2); if (!this->crypto->derive_secrets(this->crypto, chunk_from_thing(premaster), this->session, this->server, chunk_from_thing(this->client_random), chunk_from_thing(this->server_random))) { this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } public = find_public_key(this); if (!public) { DBG1(DBG_TLS, "no TLS public key found for server '%Y'", this->server); this->alert->add(this->alert, TLS_FATAL, TLS_CERTIFICATE_UNKNOWN); return NEED_MORE; } if (!public->encrypt(public, ENCRYPT_RSA_PKCS1, chunk_from_thing(premaster), &encrypted)) { public->destroy(public); DBG1(DBG_TLS, "encrypting TLS premaster secret failed"); this->alert->add(this->alert, TLS_FATAL, TLS_BAD_CERTIFICATE); return NEED_MORE; } public->destroy(public); writer->write_data16(writer, encrypted); free(encrypted.ptr); *type = TLS_CLIENT_KEY_EXCHANGE; this->state = STATE_KEY_EXCHANGE_SENT; this->crypto->append_handshake(this->crypto, *type, writer->get_buf(writer)); return NEED_MORE; } /** * Send client key exchange, using DHE exchange */ static status_t send_key_exchange_dhe(private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { chunk_t premaster, pub; if (this->dh->get_shared_secret(this->dh, &premaster) != SUCCESS) { DBG1(DBG_TLS, "calculating premaster from DH failed"); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } if (!this->crypto->derive_secrets(this->crypto, premaster, this->session, this->server, chunk_from_thing(this->client_random), chunk_from_thing(this->server_random))) { this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); chunk_clear(&premaster); return NEED_MORE; } chunk_clear(&premaster); this->dh->get_my_public_value(this->dh, &pub); if (this->dh->get_dh_group(this->dh) == MODP_CUSTOM) { writer->write_data16(writer, pub); } else { /* ECP uses 8bit length header only, but a point format */ writer->write_uint8(writer, pub.len + 1); writer->write_uint8(writer, TLS_ANSI_UNCOMPRESSED); writer->write_data(writer, pub); } free(pub.ptr); *type = TLS_CLIENT_KEY_EXCHANGE; this->state = STATE_KEY_EXCHANGE_SENT; this->crypto->append_handshake(this->crypto, *type, writer->get_buf(writer)); return NEED_MORE; } /** * Send client key exchange, depending on suite */ static status_t send_key_exchange(private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { if (this->dh) { return send_key_exchange_dhe(this, type, writer); } return send_key_exchange_encrypt(this, type, writer); } /** * Send certificate verify */ static status_t send_certificate_verify(private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { if (!this->private || !this->crypto->sign_handshake(this->crypto, this->private, writer, this->hashsig)) { DBG1(DBG_TLS, "creating TLS Certificate Verify signature failed"); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } *type = TLS_CERTIFICATE_VERIFY; this->state = STATE_VERIFY_SENT; this->crypto->append_handshake(this->crypto, *type, writer->get_buf(writer)); return NEED_MORE; } /** * Send Finished */ static status_t send_finished(private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { char buf[12]; if (!this->crypto->calculate_finished(this->crypto, "client finished", buf)) { DBG1(DBG_TLS, "calculating client finished data failed"); this->alert->add(this->alert, TLS_FATAL, TLS_INTERNAL_ERROR); return NEED_MORE; } writer->write_data(writer, chunk_from_thing(buf)); *type = TLS_FINISHED; this->state = STATE_FINISHED_SENT; this->crypto->append_handshake(this->crypto, *type, writer->get_buf(writer)); return NEED_MORE; } METHOD(tls_handshake_t, build, status_t, private_tls_peer_t *this, tls_handshake_type_t *type, bio_writer_t *writer) { switch (this->state) { case STATE_INIT: return send_client_hello(this, type, writer); case STATE_HELLO_DONE: if (this->peer) { return send_certificate(this, type, writer); } /* otherwise fall through to next state */ case STATE_CERT_SENT: return send_key_exchange(this, type, writer); case STATE_KEY_EXCHANGE_SENT: if (this->peer) { return send_certificate_verify(this, type, writer); } else { return INVALID_STATE; } case STATE_CIPHERSPEC_CHANGED_OUT: return send_finished(this, type, writer); default: return INVALID_STATE; } } METHOD(tls_handshake_t, cipherspec_changed, bool, private_tls_peer_t *this, bool inbound) { if (inbound) { if (this->resume) { return this->state == STATE_HELLO_RECEIVED; } return this->state == STATE_FINISHED_SENT; } else { if (this->resume) { return this->state == STATE_FINISHED_RECEIVED; } if (this->peer) { return this->state == STATE_VERIFY_SENT; } return this->state == STATE_KEY_EXCHANGE_SENT; } } METHOD(tls_handshake_t, change_cipherspec, void, private_tls_peer_t *this, bool inbound) { this->crypto->change_cipher(this->crypto, inbound); if (inbound) { this->state = STATE_CIPHERSPEC_CHANGED_IN; } else { this->state = STATE_CIPHERSPEC_CHANGED_OUT; } } METHOD(tls_handshake_t, finished, bool, private_tls_peer_t *this) { if (this->resume) { return this->state == STATE_FINISHED_SENT; } return this->state == STATE_FINISHED_RECEIVED; } METHOD(tls_handshake_t, destroy, void, private_tls_peer_t *this) { DESTROY_IF(this->private); DESTROY_IF(this->dh); this->peer_auth->destroy(this->peer_auth); this->server_auth->destroy(this->server_auth); free(this->hashsig.ptr); free(this->cert_types.ptr); free(this->session.ptr); free(this); } /** * See header */ tls_peer_t *tls_peer_create(tls_t *tls, tls_crypto_t *crypto, tls_alert_t *alert, identification_t *peer, identification_t *server) { private_tls_peer_t *this; INIT(this, .public = { .handshake = { .process = _process, .build = _build, .cipherspec_changed = _cipherspec_changed, .change_cipherspec = _change_cipherspec, .finished = _finished, .destroy = _destroy, }, }, .state = STATE_INIT, .tls = tls, .crypto = crypto, .alert = alert, .peer = peer, .server = server, .peer_auth = auth_cfg_create(), .server_auth = auth_cfg_create(), ); return &this->public; }