/** * Create a new Server Key Exchange message */ Server_Key_Exchange::Server_Key_Exchange(Handshake_IO& io, Handshake_State& state, const Policy& policy, Credentials_Manager& creds, RandomNumberGenerator& rng, const Private_Key* signing_key) { const std::string hostname = state.client_hello()->sni_hostname(); const Kex_Algo kex_algo = state.ciphersuite().kex_method(); if(kex_algo == Kex_Algo::PSK || kex_algo == Kex_Algo::DHE_PSK || kex_algo == Kex_Algo::ECDHE_PSK) { std::string identity_hint = creds.psk_identity_hint("tls-server", hostname); append_tls_length_value(m_params, identity_hint, 2); } if(kex_algo == Kex_Algo::DH || kex_algo == Kex_Algo::DHE_PSK) { const std::vector<Group_Params> dh_groups = state.client_hello()->supported_dh_groups(); Group_Params shared_group = Group_Params::NONE; /* If the client does not send any DH groups in the supported groups extension, but does offer DH ciphersuites, we select a group arbitrarily */ if(dh_groups.empty()) { shared_group = policy.default_dh_group(); } else { shared_group = policy.choose_key_exchange_group(dh_groups); } if(shared_group == Group_Params::NONE) throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Could not agree on a DH group with the client"); BOTAN_ASSERT(group_param_is_dh(shared_group), "DH groups for the DH ciphersuites god"); const std::string group_name = state.callbacks().tls_decode_group_param(shared_group); std::unique_ptr<DH_PrivateKey> dh(new DH_PrivateKey(rng, DL_Group(group_name))); append_tls_length_value(m_params, BigInt::encode(dh->get_domain().get_p()), 2); append_tls_length_value(m_params, BigInt::encode(dh->get_domain().get_g()), 2); append_tls_length_value(m_params, dh->public_value(), 2); m_kex_key.reset(dh.release()); } else if(kex_algo == Kex_Algo::ECDH || kex_algo == Kex_Algo::ECDHE_PSK) { const std::vector<Group_Params> ec_groups = state.client_hello()->supported_ecc_curves(); if(ec_groups.empty()) throw Internal_Error("Client sent no ECC extension but we negotiated ECDH"); Group_Params shared_group = policy.choose_key_exchange_group(ec_groups); if(shared_group == Group_Params::NONE) throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "No shared ECC group with client"); std::vector<uint8_t> ecdh_public_val; if(shared_group == Group_Params::X25519) { #if defined(BOTAN_HAS_CURVE_25519) std::unique_ptr<Curve25519_PrivateKey> x25519(new Curve25519_PrivateKey(rng)); ecdh_public_val = x25519->public_value(); m_kex_key.reset(x25519.release()); #else throw Internal_Error("Negotiated X25519 somehow, but it is disabled"); #endif } else { Group_Params curve = policy.choose_key_exchange_group(ec_groups); const std::string curve_name = state.callbacks().tls_decode_group_param(curve); EC_Group ec_group(curve_name); std::unique_ptr<ECDH_PrivateKey> ecdh(new ECDH_PrivateKey(rng, ec_group)); // follow client's preference for point compression ecdh_public_val = ecdh->public_value( state.client_hello()->prefers_compressed_ec_points() ? PointGFp::COMPRESSED : PointGFp::UNCOMPRESSED); m_kex_key.reset(ecdh.release()); } const uint16_t named_curve_id = static_cast<uint16_t>(shared_group); m_params.push_back(3); // named curve m_params.push_back(get_byte(0, named_curve_id)); m_params.push_back(get_byte(1, named_curve_id)); append_tls_length_value(m_params, ecdh_public_val, 1); } #if defined(BOTAN_HAS_SRP6) else if(kex_algo == Kex_Algo::SRP_SHA) { const std::string srp_identifier = state.client_hello()->srp_identifier(); std::string group_id; BigInt v; std::vector<uint8_t> salt; const bool found = creds.srp_verifier("tls-server", hostname, srp_identifier, group_id, v, salt, policy.hide_unknown_users()); if(!found) throw TLS_Exception(Alert::UNKNOWN_PSK_IDENTITY, "Unknown SRP user " + srp_identifier); m_srp_params.reset(new SRP6_Server_Session); BigInt B = m_srp_params->step1(v, group_id, "SHA-1", rng); DL_Group group(group_id); append_tls_length_value(m_params, BigInt::encode(group.get_p()), 2); append_tls_length_value(m_params, BigInt::encode(group.get_g()), 2); append_tls_length_value(m_params, salt, 1); append_tls_length_value(m_params, BigInt::encode(B), 2); } #endif #if defined(BOTAN_HAS_CECPQ1) else if(kex_algo == Kex_Algo::CECPQ1) { std::vector<uint8_t> cecpq1_offer(CECPQ1_OFFER_BYTES); m_cecpq1_key.reset(new CECPQ1_key); CECPQ1_offer(cecpq1_offer.data(), m_cecpq1_key.get(), rng); append_tls_length_value(m_params, cecpq1_offer, 2); } #endif else if(kex_algo != Kex_Algo::PSK) { throw Internal_Error("Server_Key_Exchange: Unknown kex type " + kex_method_to_string(kex_algo)); } if(state.ciphersuite().signature_used()) { BOTAN_ASSERT(signing_key, "Signing key was set"); std::pair<std::string, Signature_Format> format = state.choose_sig_format(*signing_key, m_scheme, false, policy); std::vector<uint8_t> buf = state.client_hello()->random(); buf += state.server_hello()->random(); buf += params(); m_signature = state.callbacks().tls_sign_message(*signing_key, rng, format.first, format.second, buf); } state.hash().update(io.send(*this)); }
/** * Create a new Server Key Exchange message */ Server_Key_Exchange::Server_Key_Exchange(Handshake_IO& io, Handshake_State& state, const Policy& policy, Credentials_Manager& creds, RandomNumberGenerator& rng, const Private_Key* signing_key) { const std::string hostname = state.client_hello()->sni_hostname(); const std::string kex_algo = state.ciphersuite().kex_algo(); if(kex_algo == "PSK" || kex_algo == "DHE_PSK" || kex_algo == "ECDHE_PSK") { std::string identity_hint = creds.psk_identity_hint("tls-server", hostname); append_tls_length_value(m_params, identity_hint, 2); } if(kex_algo == "DH" || kex_algo == "DHE_PSK") { std::unique_ptr<DH_PrivateKey> dh(new DH_PrivateKey(rng, DL_Group(policy.dh_group()))); append_tls_length_value(m_params, BigInt::encode(dh->get_domain().get_p()), 2); append_tls_length_value(m_params, BigInt::encode(dh->get_domain().get_g()), 2); append_tls_length_value(m_params, dh->public_value(), 2); m_kex_key.reset(dh.release()); } else if(kex_algo == "ECDH" || kex_algo == "ECDHE_PSK") { const std::vector<std::string>& curves = state.client_hello()->supported_ecc_curves(); if(curves.empty()) throw Internal_Error("Client sent no ECC extension but we negotiated ECDH"); const std::string curve_name = policy.choose_curve(curves); if(curve_name == "") throw TLS_Exception(Alert::HANDSHAKE_FAILURE, "Could not agree on an ECC curve with the client"); EC_Group ec_group(curve_name); std::unique_ptr<ECDH_PrivateKey> ecdh(new ECDH_PrivateKey(rng, ec_group)); const std::string ecdh_domain_oid = ecdh->domain().get_oid(); const std::string domain = OIDS::lookup(OID(ecdh_domain_oid)); if(domain == "") throw Internal_Error("Could not find name of ECDH domain " + ecdh_domain_oid); const u16bit named_curve_id = Supported_Elliptic_Curves::name_to_curve_id(domain); m_params.push_back(3); // named curve m_params.push_back(get_byte(0, named_curve_id)); m_params.push_back(get_byte(1, named_curve_id)); append_tls_length_value(m_params, ecdh->public_value(), 1); m_kex_key.reset(ecdh.release()); } #if defined(BOTAN_HAS_SRP6) else if(kex_algo == "SRP_SHA") { const std::string srp_identifier = state.client_hello()->srp_identifier(); std::string group_id; BigInt v; std::vector<byte> salt; const bool found = creds.srp_verifier("tls-server", hostname, srp_identifier, group_id, v, salt, policy.hide_unknown_users()); if(!found) throw TLS_Exception(Alert::UNKNOWN_PSK_IDENTITY, "Unknown SRP user " + srp_identifier); m_srp_params.reset(new SRP6_Server_Session); BigInt B = m_srp_params->step1(v, group_id, "SHA-1", rng); DL_Group group(group_id); append_tls_length_value(m_params, BigInt::encode(group.get_p()), 2); append_tls_length_value(m_params, BigInt::encode(group.get_g()), 2); append_tls_length_value(m_params, salt, 1); append_tls_length_value(m_params, BigInt::encode(B), 2); } #endif else if(kex_algo != "PSK") throw Internal_Error("Server_Key_Exchange: Unknown kex type " + kex_algo); if(state.ciphersuite().sig_algo() != "") { BOTAN_ASSERT(signing_key, "Signing key was set"); std::pair<std::string, Signature_Format> format = state.choose_sig_format(*signing_key, m_hash_algo, m_sig_algo, false, policy); PK_Signer signer(*signing_key, format.first, format.second); signer.update(state.client_hello()->random()); signer.update(state.server_hello()->random()); signer.update(params()); m_signature = signer.signature(rng); } state.hash().update(io.send(*this)); }