#include "protocol.h" #include "connection.h" Protocol::Protocol() : m_connection(new Connection) { m_connection->setErrorCallback(std::bind(&Protocol::onError, this, std::placeholders::_1)); m_xteaEncryptionEnabled = false; m_checksumEnabled = true; } void Protocol::connect(const std::string& host, uint16 port) { m_connection->connect(host, port, std::bind(&Protocol::onConnect, asProtocol())); } void Protocol::send(OutputMessage& outputMessage) { // Encrypt if(m_xteaEncryptionEnabled) xteaEncrypt(outputMessage); // Set checksum uint32 checksum = getAdlerChecksum(outputMessage.getBuffer() + OutputMessage::DATA_POS, outputMessage.getMessageSize()); outputMessage.setWritePos(OutputMessage::CHECKSUM_POS); outputMessage.addU32(checksum); // Set size uint16 messageSize = outputMessage.getMessageSize(); outputMessage.setWritePos(OutputMessage::HEADER_POS); outputMessage.addU16(messageSize); // Send m_connection->send(outputMessage.getBuffer(), outputMessage.getMessageSize()); } void Protocol::recv() { m_inputMessage.reset(); m_connection->recv(InputMessage::HEADER_LENGTH, 2, std::bind(&Protocol::internalRecvHeader, asProtocol(), std::placeholders::_1, std::placeholders::_2)); } void Protocol::internalRecvHeader(uint8* buffer, uint16 size) { memcpy(m_inputMessage.getBuffer() + InputMessage::HEADER_POS, buffer, size); uint16 dataSize = m_inputMessage.getU16(); m_inputMessage.setMessageSize(dataSize); m_connection->recv(dataSize, 5, std::bind(&Protocol::internalRecvData, asProtocol(), std::placeholders::_1, std::placeholders::_2)); } void Protocol::internalRecvData(uint8* buffer, uint16 size) { memcpy(m_inputMessage.getBuffer() + InputMessage::CHECKSUM_POS, buffer, size); if(m_checksumEnabled) { uint32 checksum = getAdlerChecksum(m_inputMessage.getBuffer() + InputMessage::DATA_POS, m_inputMessage.getMessageSize() - InputMessage::CHECKSUM_LENGTH); if(m_inputMessage.getU32() != checksum) { // error logError("Checksum is invalid."); return; } } if(m_xteaEncryptionEnabled) xteaDecrypt(m_inputMessage); onRecv(m_inputMessage); } void Protocol::onError(const boost::system::error_code& err) { std::stringstream message; logError("PROTOCOL ERROR: ", err.message()); message << "Boost error: " << err.message(); // invalid hostname // connection timeouted // displays a dialog, finish protocol callField("onError", message.str()); } bool Protocol::xteaDecrypt(InputMessage& inputMessage) { // FIXME: this function has not been tested yet uint16 messageSize = inputMessage.getMessageSize() - InputMessage::CHECKSUM_LENGTH; if(messageSize % 8 != 0) { logDebug("not valid encrypted message size"); return false; } uint32 *buffer = (uint32*)(inputMessage.getBuffer() + InputMessage::DATA_POS); int readPos = 0; while(readPos < messageSize/4) { uint32 v0 = buffer[readPos], v1 = buffer[readPos + 1]; uint32 delta = 0x61C88647; uint32 sum = 0xC6EF3720; for(int32 i = 0; i < 32; i++) { v1 -= ((v0 << 4 ^ v0 >> 5) + v0) ^ (sum + m_xteaKey[sum>>11 & 3]); sum += delta; v0 -= ((v1 << 4 ^ v1 >> 5) + v1) ^ (sum + m_xteaKey[sum & 3]); } buffer[readPos] = v0; buffer[readPos + 1] = v1; readPos = readPos + 2; } int tmp = inputMessage.getU16(); if(tmp > inputMessage.getMessageSize() - 4) { logDebug("not valid unencrypted message size"); return false; } inputMessage.setMessageSize(tmp + InputMessage::UNENCRYPTED_DATA_POS); return true; } void Protocol::xteaEncrypt(OutputMessage& outputMessage) { uint16 messageLength = outputMessage.getMessageSize(); //add bytes until reach 8 multiple if((messageLength % 8) != 0) { uint16 n = 8 - (messageLength % 8); outputMessage.addPaddingBytes(n); messageLength += n; } int readPos = 0; uint32 *buffer = (uint32*)outputMessage.getBuffer() + OutputMessage::DATA_POS; while(readPos < messageLength / 4) { uint32 v0 = buffer[readPos], v1 = buffer[readPos + 1]; uint32 delta = 0x61C88647; uint32 sum = 0; for(int32 i = 0; i < 32; i++) { v0 += ((v1 << 4 ^ v1 >> 5) + v1) ^ (sum + m_xteaKey[sum & 3]); sum -= delta; v1 += ((v0 << 4 ^ v0 >> 5) + v0) ^ (sum + m_xteaKey[sum>>11 & 3]); } buffer[readPos] = v0; buffer[readPos + 1] = v1; readPos = readPos + 2; } } uint32 Protocol::getAdlerChecksum(uint8* buffer, uint16 size) { uint32 a = 1, b = 0; while (size > 0) { size_t tlen = size > 5552 ? 5552 : size; size -= tlen; do { a += *buffer++; b += a; } while (--tlen); a %= 65521; b %= 65521; } return (b << 16) | a; }