/* * TLS Record Reading * (C) 2004-2012 Jack Lloyd * * Released under the terms of the Botan license */ #include #include #include #include #include #include namespace Botan { namespace TLS { Record_Reader::Record_Reader() : m_readbuf(TLS_HEADER_SIZE + MAX_CIPHERTEXT_SIZE), m_mac(0) { reset(); set_maximum_fragment_size(0); } /* * Reset the state */ void Record_Reader::reset() { m_macbuf.clear(); zeroise(m_readbuf); m_readbuf_pos = 0; m_cipher.reset(); delete m_mac; m_mac = 0; m_block_size = 0; m_iv_size = 0; m_version = Protocol_Version(); m_seq_no = 0; set_maximum_fragment_size(0); } void Record_Reader::set_maximum_fragment_size(size_t max_fragment) { if(max_fragment == 0) m_max_fragment = MAX_PLAINTEXT_SIZE; else m_max_fragment = clamp(max_fragment, 128, MAX_PLAINTEXT_SIZE); } /* * Set the version to use */ void Record_Reader::set_version(Protocol_Version version) { m_version = version; } /* * Set the keys for reading */ void Record_Reader::activate(Connection_Side side, const Ciphersuite& suite, const Session_Keys& keys, byte compression_method) { m_cipher.reset(); delete m_mac; m_mac = 0; m_seq_no = 0; if(compression_method != NO_COMPRESSION) throw Internal_Error("Negotiated unknown compression algorithm"); SymmetricKey mac_key, cipher_key; InitializationVector iv; if(side == CLIENT) { cipher_key = keys.server_cipher_key(); iv = keys.server_iv(); mac_key = keys.server_mac_key(); } else { cipher_key = keys.client_cipher_key(); iv = keys.client_iv(); mac_key = keys.client_mac_key(); } const std::string cipher_algo = suite.cipher_algo(); const std::string mac_algo = suite.mac_algo(); if(have_block_cipher(cipher_algo)) { m_cipher.append(get_cipher( cipher_algo + "/CBC/NoPadding", cipher_key, iv, DECRYPTION) ); m_block_size = block_size_of(cipher_algo); if(m_version >= Protocol_Version::TLS_V11) m_iv_size = m_block_size; else m_iv_size = 0; } else if(have_stream_cipher(cipher_algo)) { m_cipher.append(get_cipher(cipher_algo, cipher_key, DECRYPTION)); m_block_size = 0; m_iv_size = 0; } else throw Invalid_Argument("Record_Reader: Unknown cipher " + cipher_algo); if(have_hash(mac_algo)) { Algorithm_Factory& af = global_state().algorithm_factory(); if(m_version == Protocol_Version::SSL_V3) m_mac = af.make_mac("SSL3-MAC(" + mac_algo + ")"); else m_mac = af.make_mac("HMAC(" + mac_algo + ")"); m_mac->set_key(mac_key); m_macbuf.resize(m_mac->output_length()); } else throw Invalid_Argument("Record_Reader: Unknown hash " + mac_algo); } size_t Record_Reader::fill_buffer_to(const byte*& input, size_t& input_size, size_t& input_consumed, size_t desired) { if(desired <= m_readbuf_pos) return 0; // already have it const size_t space_available = (m_readbuf.size() - m_readbuf_pos); const size_t taken = std::min(input_size, desired - m_readbuf_pos); if(taken > space_available) throw TLS_Exception(Alert::RECORD_OVERFLOW, "Record is larger than allowed maximum size"); copy_mem(&m_readbuf[m_readbuf_pos], input, taken); m_readbuf_pos += taken; input_consumed += taken; input_size -= taken; input += taken; return (desired - m_readbuf_pos); // how many bytes do we still need? } /* * Retrieve the next record */ size_t Record_Reader::add_input(const byte input_array[], size_t input_sz, size_t& consumed, byte& msg_type, MemoryVector& msg) { const byte* input = &input_array[0]; consumed = 0; if(m_readbuf_pos < TLS_HEADER_SIZE) // header incomplete? { if(size_t needed = fill_buffer_to(input, input_sz, consumed, TLS_HEADER_SIZE)) return needed; BOTAN_ASSERT_EQUAL(m_readbuf_pos, TLS_HEADER_SIZE, "Have an entire header"); } // Possible SSLv2 format client hello if((!m_mac) && (m_readbuf[0] & 0x80) && (m_readbuf[2] == 1)) { if(m_readbuf[3] == 0 && m_readbuf[4] == 2) throw TLS_Exception(Alert::PROTOCOL_VERSION, "Client claims to only support SSLv2, rejecting"); if(m_readbuf[3] >= 3) // SSLv2 mapped TLS hello, then? { size_t record_len = make_u16bit(m_readbuf[0], m_readbuf[1]) & 0x7FFF; if(size_t needed = fill_buffer_to(input, input_sz, consumed, record_len + 2)) return needed; BOTAN_ASSERT_EQUAL(m_readbuf_pos, (record_len + 2), "Have the entire SSLv2 hello"); msg_type = HANDSHAKE; msg.resize(record_len + 4); // Fake v3-style handshake message wrapper msg[0] = CLIENT_HELLO_SSLV2; msg[1] = 0; msg[2] = m_readbuf[0] & 0x7F; msg[3] = m_readbuf[1]; copy_mem(&msg[4], &m_readbuf[2], m_readbuf_pos - 2); m_readbuf_pos = 0; return 0; } } if(m_readbuf[0] != CHANGE_CIPHER_SPEC && m_readbuf[0] != ALERT && m_readbuf[0] != HANDSHAKE && m_readbuf[0] != APPLICATION_DATA && m_readbuf[0] != HEARTBEAT) { throw Unexpected_Message( "Unknown record type " + std::to_string(m_readbuf[0]) + " from counterparty"); } const size_t record_len = make_u16bit(m_readbuf[3], m_readbuf[4]); if(m_version.major_version()) { if(m_readbuf[1] != m_version.major_version() || m_readbuf[2] != m_version.minor_version()) { throw TLS_Exception(Alert::PROTOCOL_VERSION, "Got unexpected version from counterparty"); } } if(record_len > MAX_CIPHERTEXT_SIZE) throw TLS_Exception(Alert::RECORD_OVERFLOW, "Got message that exceeds maximum size"); if(size_t needed = fill_buffer_to(input, input_sz, consumed, TLS_HEADER_SIZE + record_len)) return needed; BOTAN_ASSERT_EQUAL(static_cast(TLS_HEADER_SIZE) + record_len, m_readbuf_pos, "Have the full record"); // Null mac means no encryption either, only valid during handshake if(!m_mac) { if(m_readbuf[0] != CHANGE_CIPHER_SPEC && m_readbuf[0] != ALERT && m_readbuf[0] != HANDSHAKE) { throw Decoding_Error("Invalid msg type received during handshake"); } msg_type = m_readbuf[0]; msg.resize(record_len); copy_mem(&msg[0], &m_readbuf[TLS_HEADER_SIZE], record_len); m_readbuf_pos = 0; return 0; // got a full record } // Otherwise, decrypt, check MAC, return plaintext // FIXME: avoid memory allocation by processing in place m_cipher.process_msg(&m_readbuf[TLS_HEADER_SIZE], record_len); size_t got_back = m_cipher.read(&m_readbuf[TLS_HEADER_SIZE], record_len, Pipe::LAST_MESSAGE); BOTAN_ASSERT_EQUAL(got_back, record_len, "Cipher encrypted full amount"); BOTAN_ASSERT_EQUAL(m_cipher.remaining(Pipe::LAST_MESSAGE), 0, "Cipher had no remaining inputs"); size_t pad_size = 0; if(m_block_size) { byte pad_value = m_readbuf[TLS_HEADER_SIZE + (record_len-1)]; pad_size = pad_value + 1; /* * Check the padding; if it is wrong, then say we have 0 bytes of * padding, which should ensure that the MAC check below does not * succeed. This hides a timing channel. * * This particular countermeasure is recommended in the TLS 1.2 * spec (RFC 5246) in section 6.2.3.2 */ if(m_version == Protocol_Version::SSL_V3) { if(pad_value > m_block_size) pad_size = 0; } else { bool padding_good = true; for(size_t i = 0; i != pad_size; ++i) if(m_readbuf[TLS_HEADER_SIZE + (record_len-i-1)] != pad_value) padding_good = false; if(!padding_good) pad_size = 0; } } const size_t mac_pad_iv_size = m_macbuf.size() + pad_size + m_iv_size; if(record_len < mac_pad_iv_size) throw Decoding_Error("Record sent with invalid length"); const u16bit plain_length = record_len - mac_pad_iv_size; if(plain_length > m_max_fragment) throw TLS_Exception(Alert::RECORD_OVERFLOW, "Plaintext record is too large"); m_mac->update_be(m_seq_no); m_mac->update(m_readbuf[0]); // msg_type if(m_version != Protocol_Version::SSL_V3) { m_mac->update(m_version.major_version()); m_mac->update(m_version.minor_version()); } m_mac->update_be(plain_length); m_mac->update(&m_readbuf[TLS_HEADER_SIZE + m_iv_size], plain_length); ++m_seq_no; m_mac->final(m_macbuf); const size_t mac_offset = record_len - (m_macbuf.size() + pad_size); if(!same_mem(&m_readbuf[TLS_HEADER_SIZE + mac_offset], &m_macbuf[0], m_macbuf.size())) throw TLS_Exception(Alert::BAD_RECORD_MAC, "Message authentication failure"); msg_type = m_readbuf[0]; msg.resize(plain_length); copy_mem(&msg[0], &m_readbuf[TLS_HEADER_SIZE + m_iv_size], plain_length); m_readbuf_pos = 0; return 0; } } }