/* * Server Key Exchange Message * (C) 2004-2010 Jack Lloyd * * Released under the terms of the Botan license */ #include #include #include #include #include #include #include #include namespace Botan { /** * Create a new Server Key Exchange message */ Server_Key_Exchange::Server_Key_Exchange(RandomNumberGenerator& rng, Record_Writer& writer, const Public_Key* kex_key, const Private_Key* priv_key, const MemoryRegion& c_random, const MemoryRegion& s_random, HandshakeHash& hash) { const DH_PublicKey* dh_pub = dynamic_cast(kex_key); const RSA_PublicKey* rsa_pub = dynamic_cast(kex_key); if(dh_pub) { params.push_back(dh_pub->get_domain().get_p()); params.push_back(dh_pub->get_domain().get_g()); params.push_back(BigInt::decode(dh_pub->public_value())); } else if(rsa_pub) { params.push_back(rsa_pub->get_n()); params.push_back(rsa_pub->get_e()); } else throw Invalid_Argument("Bad key for TLS key exchange: not DH or RSA"); std::string padding = ""; Signature_Format format = IEEE_1363; if(priv_key->algo_name() == "RSA") padding = "EMSA3(TLS.Digest.0)"; else if(priv_key->algo_name() == "DSA") { padding = "EMSA1(SHA-1)"; format = DER_SEQUENCE; } else throw Invalid_Argument(priv_key->algo_name() + " is invalid/unknown for TLS signatures"); PK_Signer signer(*priv_key, padding, format); signer.update(c_random); signer.update(s_random); signer.update(serialize_params()); signature = signer.signature(rng); send(writer, hash); } /** * Serialize a Server Key Exchange message */ SecureVector Server_Key_Exchange::serialize() const { SecureVector buf = serialize_params(); append_tls_length_value(buf, signature, 2); return buf; } /** * Serialize the ServerParams structure */ SecureVector Server_Key_Exchange::serialize_params() const { SecureVector buf; for(u32bit j = 0; j != params.size(); j++) append_tls_length_value(buf, BigInt::encode(params[j]), 2); return buf; } /** * Deserialize a Server Key Exchange message */ void Server_Key_Exchange::deserialize(const MemoryRegion& buf) { if(buf.size() < 6) throw Decoding_Error("Server_Key_Exchange: Packet corrupted"); SecureVector values[4]; u32bit so_far = 0; for(u32bit j = 0; j != 4; j++) { u16bit len = make_u16bit(buf[so_far], buf[so_far+1]); so_far += 2; if(len + so_far > buf.size()) throw Decoding_Error("Server_Key_Exchange: Packet corrupted"); values[j].set(&buf[so_far], len); so_far += len; if(j == 2 && so_far == buf.size()) break; } params.push_back(BigInt::decode(values[0])); params.push_back(BigInt::decode(values[1])); if(values[3].size()) { params.push_back(BigInt::decode(values[2])); signature = values[3]; } else signature = values[2]; } /** * Return the public key */ Public_Key* Server_Key_Exchange::key() const { if(params.size() == 2) return new RSA_PublicKey(params[0], params[1]); else if(params.size() == 3) return new DH_PublicKey(DL_Group(params[0], params[1]), params[2]); else throw Internal_Error("Server_Key_Exchange::key: No key set"); } /** * Verify a Server Key Exchange message */ bool Server_Key_Exchange::verify(const X509_Certificate& cert, const MemoryRegion& c_random, const MemoryRegion& s_random) const { std::auto_ptr key(cert.subject_public_key()); std::string padding = ""; Signature_Format format = IEEE_1363; if(key->algo_name() == "RSA") padding = "EMSA3(TLS.Digest.0)"; else if(key->algo_name() == "DSA") { padding == "EMSA1(SHA-1)"; format = DER_SEQUENCE; } else throw Invalid_Argument(key->algo_name() + " is invalid/unknown for TLS signatures"); PK_Verifier verifier(*key, padding, format); SecureVector params_got = serialize_params(); verifier.update(c_random); verifier.update(s_random); verifier.update(params_got); return verifier.check_signature(signature); } }