/******************************************************************************\ * Copyright (c) 2004-2018 * * Author(s): * Volker Fischer * Protocol message definition --------------------------- - All messages received need to be acknowledged by an acknowledge packet (except of connection less messages) MAIN FRAME ---------- +-------------+------------+------------+------------------+ ... | 2 bytes TAG | 2 bytes ID | 1 byte cnt | 2 bytes length n | ... +-------------+------------+------------+------------------+ ... ... --------------+-------------+ ... n bytes data | 2 bytes CRC | ... --------------+-------------+ - TAG is an all zero bit word to identify protocol messages - message ID defined by the defines PROTMESSID_x - cnt: counter which is increment for each message and wraps around at 255 - length n in bytes of the data - actual data, dependent on message type - 16 bits CRC, calculated over the entire message and is transmitted inverted Generator polynom: G_16(x) = x^16 + x^12 + x^5 + 1, initial state: all ones MESSAGES (with connection) -------------------------- - PROTMESSID_ACKN: Acknowledgement message +------------------------------------------+ | 2 bytes ID of message to be acknowledged | +------------------------------------------+ note: the cnt value is the same as of the message to be acknowledged - PROTMESSID_JITT_BUF_SIZE: Jitter buffer size +--------------------------+ | 2 bytes number of blocks | +--------------------------+ - PROTMESSID_REQ_JITT_BUF_SIZE: Request jitter buffer size note: does not have any data -> n = 0 - PROTMESSID_CHANNEL_GAIN: Gain of channel +-------------------+--------------+ | 1 byte channel ID | 2 bytes gain | +-------------------+--------------+ - PROTMESSID_CONN_CLIENTS_LIST_NAME: IP number and name of connected clients for each connected client append following data: +-------------------+--------------------+------------------+ ... | 1 byte channel ID | 4 bytes IP address | 2 bytes number n | ... +-------------------+--------------------+------------------+ ... ... ----------------------+ ... n bytes UTF-8 string | ... ----------------------+ - PROTMESSID_CONN_CLIENTS_LIST: Information about connected clients for each connected client append following data: +-------------------+-----------------+--------------------+ ... | 1 byte channel ID | 2 bytes country | 4 bytes instrument | ... +-------------------+-----------------+--------------------+ ... ... --------------------+--------------------+ ... ... 1 byte skill level | 4 bytes IP address | ... ... --------------------+--------------------+ ... ... ------------------+---------------------------+ ... 2 bytes number n | n bytes UTF-8 string name | ... ------------------+---------------------------+ ... ------------------+---------------------------+ ... 2 bytes number n | n bytes UTF-8 string city | ... ------------------+---------------------------+ - PROTMESSID_REQ_CONN_CLIENTS_LIST: Request connected clients list note: does not have any data -> n = 0 - PROTMESSID_CHANNEL_NAME: Name of channel +------------------+----------------------+ | 2 bytes number n | n bytes UTF-8 string | +------------------+----------------------+ - PROTMESSID_CHANNEL_INFOS: Information about the channel +-----------------+--------------------+ ... | 2 bytes country | 4 bytes instrument | ... +-----------------+--------------------+ ... ... --------------------+ ... ... 1 byte skill level | ... ... --------------------+ ... ... ------------------+---------------------------+ ... ... 2 bytes number n | n bytes UTF-8 string name | ... ... ------------------+---------------------------+ ... ... ------------------+---------------------------+ ... 2 bytes number n | n bytes UTF-8 string city | ... ------------------+---------------------------+ - PROTMESSID_REQ_CHANNEL_INFOS: Request infos of the channel note: does not have any data -> n = 0 - PROTMESSID_CHAT_TEXT: Chat text +------------------+----------------------+ | 2 bytes number n | n bytes UTF-8 string | +------------------+----------------------+ - PROTMESSID_NETW_TRANSPORT_PROPS: Properties for network transport +------------------------+-------------------------+-----------------+ ... | 4 bytes base netw size | 2 bytes block size fact | 1 byte num chan | ... +------------------------+-------------------------+-----------------+ ... ... ------------------+-----------------------+ ... ... 4 bytes sam rate | 2 bytes audiocod type | ... ... ------------------+-----------------------+ ... ... -----------------+----------------------+ ... 2 bytes version | 4 bytes audiocod arg | ... -----------------+----------------------+ - "base netw size": length of the base network packet (frame) in bytes - "block size fact": block size factor - "num chan": number of channels of the audio signal, e.g. "2" is stereo - "sam rate": sample rate of the audio stream - "audiocod type": audio coding type, the following types are supported: - 0: none, no audio coding applied - 1: CELT - 2: OPUS - "version": version of the audio coder, if not used this value shall be set to 0 - "audiocod arg": argument for the audio coder, if not used this value shall be set to 0 - PROTMESSID_REQ_NETW_TRANSPORT_PROPS: Request properties for network transport note: does not have any data -> n = 0 - PROTMESSID_LICENCE_REQUIRED: Licence required to connect to the server +---------------------+ | 1 byte licence type | +---------------------+ // #### COMPATIBILITY OLD VERSION, TO BE REMOVED #### - PROTMESSID_OPUS_SUPPORTED: Informs that OPUS codec is supported note: does not have any data -> n = 0 CONNECTION LESS MESSAGES ------------------------ - PROTMESSID_CLM_PING_MS: Connection less ping message (for measuring the ping time) +-----------------------------+ | 4 bytes transmit time in ms | +-----------------------------+ - PROTMESSID_CLM_PING_MS_WITHNUMCLIENTS: Connection less ping message (for measuring the ping time) with the info about the current number of connected clients +-----------------------------+---------------------------------+ | 4 bytes transmit time in ms | 1 byte number connected clients | +-----------------------------+---------------------------------+ - PROTMESSID_CLM_SERVER_FULL: Connection less server full message note: does not have any data -> n = 0 - PROTMESSID_CLM_REGISTER_SERVER: Register a server, providing server information +--------------+ ... | 2 bytes port | ... +--------------+ ... ... -----------------+----------------------------------+ ... ... 2 bytes country | 1 byte maximum connected clients | ... ... -----------------+----------------------------------+ ... ... ---------------------+------------------+ ... ... 1 byte is permanent | 2 bytes number n | ... ... ---------------------+------------------+ ... ... ----------------------------------+ ... ... n bytes UTF-8 string server name | ... ... ----------------------------------+ ... ... ------------------+----------------------------+ ... ... 2 bytes number n | n bytes UTF-8 string topic | ... ... ------------------+----------------------------+ ... ... ------------------+---------------------------+ ... 2 bytes number n | n bytes UTF-8 string city | ... ------------------+---------------------------+ - "maximum connected clients" is the maximum number of clients which can be connected to the server at the same time - "is permanent" is a flag which indicates if the server is permanent online or not. If this value is any value <> 0 indicates that the server is permanent online. - "country" is according to "Common Locale Data Repository" which is used in the QLocale class - PROTMESSID_CLM_UNREGISTER_SERVER: Unregister a server note: does not have any data -> n = 0 - PROTMESSID_CLM_SERVER_LIST: Server list message for each registered server append following data: +--------------------+--------------------------------+ | 4 bytes IP address | PROTMESSID_CLM_REGISTER_SERVER | +--------------------+--------------------------------+ - "PROTMESSID_CLM_REGISTER_SERVER" means that exactly the same message body of the PROTMESSID_CLM_REGISTER_SERVER message is used - PROTMESSID_CLM_REQ_SERVER_LIST: Request server list note: does not have any data -> n = 0 - PROTMESSID_CLM_SEND_EMPTY_MESSAGE: Send "empty message" message +--------------------+--------------+ | 4 bytes IP address | 2 bytes port | +--------------------+--------------+ - PROTMESSID_CLM_DISCONNECTION: Disconnect message note: does not have any data -> n = 0 - PROTMESSID_CLM_VERSION_AND_OS: Version number and operating system +-------------------------+------------------+------------------------------+ | 1 byte operating system | 2 bytes number n | n bytes UTF-8 string version | +-------------------------+------------------+------------------------------+ - PROTMESSID_CLM_REQ_VERSION_AND_OS: Request version number and operating system note: does not have any data -> n = 0 - PROTMESSID_CLM_CONN_CLIENTS_LIST: Information about connected clients for each connected client append the PROTMESSID_CONN_CLIENTS_LIST: +------------------------------+------------------------------+ ... | PROTMESSID_CONN_CLIENTS_LIST | PROTMESSID_CONN_CLIENTS_LIST | ... +------------------------------+------------------------------+ ... - PROTMESSID_CLM_REQ_CONN_CLIENTS_LIST: Request the connected clients list note: does not have any data -> n = 0 ****************************************************************************** * * 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. * * 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. * * You should have received a copy of the GNU General Public License along with * this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * \******************************************************************************/ #include "protocol.h" /* Implementation *************************************************************/ CProtocol::CProtocol() { Reset(); // Connections ------------------------------------------------------------- QObject::connect ( &TimerSendMess, SIGNAL ( timeout() ), this, SLOT ( OnTimerSendMess() ) ); } void CProtocol::Reset() { QMutexLocker locker ( &Mutex ); // prepare internal variables for initial protocol transfer iCounter = 0; iOldRecID = PROTMESSID_ILLEGAL; iOldRecCnt = 0; // delete complete "send message queue" SendMessQueue.clear(); } void CProtocol::EnqueueMessage ( CVector& vecMessage, const int iCnt, const int iID ) { bool bListWasEmpty; Mutex.lock(); { // check if list is empty so that we have to initiate a send process bListWasEmpty = SendMessQueue.empty(); // create send message object for the queue CSendMessage SendMessageObj ( vecMessage, iCnt, iID ); // we want to have a FIFO: we add at the end and take from the beginning SendMessQueue.push_back ( SendMessageObj ); } Mutex.unlock(); // if list was empty, initiate send process if ( bListWasEmpty ) { SendMessage(); } } void CProtocol::SendMessage() { CVector vecMessage; bool bSendMess = false; Mutex.lock(); { // we have to check that list is not empty, since in another thread the // last element of the list might have been erased if ( !SendMessQueue.empty() ) { vecMessage.Init ( SendMessQueue.front().vecMessage.Size() ); vecMessage = SendMessQueue.front().vecMessage; bSendMess = true; } } Mutex.unlock(); if ( bSendMess ) { // send message emit MessReadyForSending ( vecMessage ); // start time-out timer if not active if ( !TimerSendMess.isActive() ) { TimerSendMess.start ( SEND_MESS_TIMEOUT_MS ); } } else { // no message to send, stop timer TimerSendMess.stop(); } } void CProtocol::CreateAndSendMessage ( const int iID, const CVector& vecData ) { CVector vecNewMessage; int iCurCounter; Mutex.lock(); { // store current counter value iCurCounter = iCounter; // increase counter (wraps around automatically) iCounter++; } Mutex.unlock(); // build complete message GenMessageFrame ( vecNewMessage, iCurCounter, iID, vecData ); // enqueue message EnqueueMessage ( vecNewMessage, iCurCounter, iID ); } void CProtocol::CreateAndImmSendAcknMess ( const int& iID, const int& iCnt ) { CVector vecAcknMessage; CVector vecData ( 2 ); // 2 bytes of data int iPos = 0; // init position pointer // build data vector PutValOnStream ( vecData, iPos, static_cast ( iID ), 2 ); // build complete message GenMessageFrame ( vecAcknMessage, iCnt, PROTMESSID_ACKN, vecData ); // immediately send acknowledge message emit MessReadyForSending ( vecAcknMessage ); } void CProtocol::CreateAndImmSendConLessMessage ( const int iID, const CVector& vecData, const CHostAddress& InetAddr ) { CVector vecNewMessage; // build complete message (counter per definition=0 for connection less // messages) GenMessageFrame ( vecNewMessage, 0, iID, vecData ); // immediately send message emit CLMessReadyForSending ( InetAddr, vecNewMessage ); } bool CProtocol::ParseMessageBody ( const CVector& vecbyMesBodyData, const int iRecCounter, const int iRecID ) { /* return code: false -> ok; true -> error */ bool bRet = false; bool bSendNextMess; /* // TEST channel implementation: randomly delete protocol messages (50 % loss) if ( rand() < ( RAND_MAX / 2 ) ) return false; */ // In case we received a message and returned an answer but our answer // did not make it to the receiver, he will resend his message. We check // here if the message is the same as the old one, and if this is the // case, just resend our old answer again if ( ( iOldRecID == iRecID ) && ( iOldRecCnt == iRecCounter ) ) { // acknowledgments are not acknowledged if ( iRecID != PROTMESSID_ACKN ) { // resend acknowledgement CreateAndImmSendAcknMess ( iRecID, iRecCounter ); } } else { // special treatment for acknowledge messages if ( iRecID == PROTMESSID_ACKN ) { // extract data from stream and emit signal for received value int iPos = 0; const int iData = static_cast ( GetValFromStream ( vecbyMesBodyData, iPos, 2 ) ); Mutex.lock(); { // check if this is the correct acknowledgment bSendNextMess = false; if ( !SendMessQueue.empty() ) { if ( ( SendMessQueue.front().iCnt == iRecCounter ) && ( SendMessQueue.front().iID == iData ) ) { // message acknowledged, remove from queue SendMessQueue.pop_front(); // send next message in queue bSendNextMess = true; } } } Mutex.unlock(); if ( bSendNextMess ) { SendMessage(); } } else { // check which type of message we received and do action switch ( iRecID ) { case PROTMESSID_JITT_BUF_SIZE: bRet = EvaluateJitBufMes ( vecbyMesBodyData ); break; case PROTMESSID_REQ_JITT_BUF_SIZE: bRet = EvaluateReqJitBufMes(); break; case PROTMESSID_CHANNEL_GAIN: bRet = EvaluateChanGainMes ( vecbyMesBodyData ); break; // #### COMPATIBILITY OLD VERSION, TO BE REMOVED #### case PROTMESSID_CONN_CLIENTS_LIST_NAME: bRet = EvaluateConClientListNameMes ( vecbyMesBodyData ); break; case PROTMESSID_CONN_CLIENTS_LIST: bRet = EvaluateConClientListMes ( vecbyMesBodyData ); break; case PROTMESSID_REQ_CONN_CLIENTS_LIST: bRet = EvaluateReqConnClientsList(); break; // #### COMPATIBILITY OLD VERSION, TO BE REMOVED #### case PROTMESSID_CHANNEL_NAME: bRet = EvaluateChanNameMes ( vecbyMesBodyData ); break; case PROTMESSID_CHANNEL_INFOS: bRet = EvaluateChanInfoMes ( vecbyMesBodyData ); break; case PROTMESSID_REQ_CHANNEL_INFOS: bRet = EvaluateReqChanInfoMes(); break; case PROTMESSID_CHAT_TEXT: bRet = EvaluateChatTextMes ( vecbyMesBodyData ); break; case PROTMESSID_NETW_TRANSPORT_PROPS: bRet = EvaluateNetwTranspPropsMes ( vecbyMesBodyData ); break; case PROTMESSID_REQ_NETW_TRANSPORT_PROPS: bRet = EvaluateReqNetwTranspPropsMes(); break; case PROTMESSID_LICENCE_REQUIRED: bRet = EvaluateLicenceRequiredMes ( vecbyMesBodyData ); break; } // immediately send acknowledge message CreateAndImmSendAcknMess ( iRecID, iRecCounter ); // save current message ID and counter to find out if message // was resent iOldRecID = iRecID; iOldRecCnt = iRecCounter; } } return bRet; } bool CProtocol::ParseConnectionLessMessageBody ( const CVector& vecbyMesBodyData, const int iRecID, const CHostAddress& InetAddr ) { /* return code: false -> ok; true -> error */ bool bRet = false; /* // TEST channel implementation: randomly delete protocol messages (50 % loss) if ( rand() < ( RAND_MAX / 2 ) ) return false; */ if ( IsConnectionLessMessageID ( iRecID ) ) { // check which type of message we received and do action switch ( iRecID ) { case PROTMESSID_CLM_PING_MS: bRet = EvaluateCLPingMes ( InetAddr, vecbyMesBodyData ); break; case PROTMESSID_CLM_PING_MS_WITHNUMCLIENTS: bRet = EvaluateCLPingWithNumClientsMes ( InetAddr, vecbyMesBodyData ); break; case PROTMESSID_CLM_SERVER_FULL: bRet = EvaluateCLServerFullMes(); break; case PROTMESSID_CLM_SERVER_LIST: bRet = EvaluateCLServerListMes ( InetAddr, vecbyMesBodyData ); break; case PROTMESSID_CLM_REQ_SERVER_LIST: bRet = EvaluateCLReqServerListMes ( InetAddr ); break; case PROTMESSID_CLM_SEND_EMPTY_MESSAGE: bRet = EvaluateCLSendEmptyMesMes ( vecbyMesBodyData ); break; case PROTMESSID_CLM_REGISTER_SERVER: bRet = EvaluateCLRegisterServerMes ( InetAddr, vecbyMesBodyData ); break; case PROTMESSID_CLM_UNREGISTER_SERVER: bRet = EvaluateCLUnregisterServerMes ( InetAddr ); break; case PROTMESSID_CLM_DISCONNECTION: bRet = EvaluateCLDisconnectionMes ( InetAddr ); break; case PROTMESSID_CLM_VERSION_AND_OS: bRet = EvaluateCLVersionAndOSMes ( InetAddr, vecbyMesBodyData ); break; case PROTMESSID_CLM_REQ_VERSION_AND_OS: bRet = EvaluateCLReqVersionAndOSMes ( InetAddr ); break; case PROTMESSID_CLM_CONN_CLIENTS_LIST: bRet = EvaluateCLConnClientsListMes ( InetAddr, vecbyMesBodyData ); break; case PROTMESSID_CLM_REQ_CONN_CLIENTS_LIST: bRet = EvaluateCLReqConnClientsListMes ( InetAddr ); break; } } else { bRet = true; // return error code } return bRet; } /******************************************************************************\ * Access functions for creating and parsing messages * \******************************************************************************/ void CProtocol::CreateJitBufMes ( const int iJitBufSize ) { CVector vecData ( 2 ); // 2 bytes of data int iPos = 0; // init position pointer // build data vector PutValOnStream ( vecData, iPos, static_cast ( iJitBufSize ), 2 ); CreateAndSendMessage ( PROTMESSID_JITT_BUF_SIZE, vecData ); } bool CProtocol::EvaluateJitBufMes ( const CVector& vecData ) { int iPos = 0; // init position pointer // check size if ( vecData.Size() != 2 ) { return true; // return error code } // extract jitter buffer size const int iData = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); if ( ( ( iData < MIN_NET_BUF_SIZE_NUM_BL ) || ( iData > MAX_NET_BUF_SIZE_NUM_BL ) ) && ( iData != AUTO_NET_BUF_SIZE_FOR_PROTOCOL ) ) { return true; // return error code } // invoke message action emit ChangeJittBufSize ( iData ); return false; // no error } void CProtocol::CreateReqJitBufMes() { CreateAndSendMessage ( PROTMESSID_REQ_JITT_BUF_SIZE, CVector ( 0 ) ); } bool CProtocol::EvaluateReqJitBufMes() { // invoke message action emit ReqJittBufSize(); return false; // no error } void CProtocol::CreateChanGainMes ( const int iChanID, const double dGain ) { CVector vecData ( 3 ); // 3 bytes of data int iPos = 0; // init position pointer // build data vector // channel ID PutValOnStream ( vecData, iPos, static_cast ( iChanID ), 1 ); // actual gain, we convert from double with range 0..1 to integer const int iCurGain = static_cast ( dGain * ( 1 << 15 ) ); PutValOnStream ( vecData, iPos, static_cast ( iCurGain ), 2 ); CreateAndSendMessage ( PROTMESSID_CHANNEL_GAIN, vecData ); } bool CProtocol::EvaluateChanGainMes ( const CVector& vecData ) { int iPos = 0; // init position pointer // check size if ( vecData.Size() != 3 ) { return true; // return error code } // channel ID const int iCurID = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // gain (read integer value) const int iData = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // we convert the gain from integer to double with range 0..1 const double dNewGain = static_cast ( iData ) / ( 1 << 15 ); // invoke message action emit ChangeChanGain ( iCurID, dNewGain ); return false; // no error } void CProtocol::CreateConClientListNameMes ( const CVector& vecChanInfo ) { const int iNumClients = vecChanInfo.Size(); // build data vector CVector vecData ( 0 ); int iPos = 0; // init position pointer for ( int i = 0; i < iNumClients; i++ ) { // convert name string to utf-8 const QByteArray strUTF8Name = vecChanInfo[i].strName.toUtf8(); // size of current list entry const int iCurListEntrLen = 1 /* chan ID */ + 4 /* IP addr. */ + 2 /* utf-8 str. size */ + strUTF8Name.size(); // make space for new data vecData.Enlarge ( iCurListEntrLen ); // channel ID (1 byte) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iChanID ), 1 ); // IP address (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iIpAddr ), 4 ); // name string PutStringUTF8OnStream ( vecData, iPos, strUTF8Name ); } CreateAndSendMessage ( PROTMESSID_CONN_CLIENTS_LIST_NAME, vecData ); } bool CProtocol::EvaluateConClientListNameMes ( const CVector& vecData ) { int iPos = 0; // init position pointer const int iDataLen = vecData.Size(); CVector vecChanInfo ( 0 ); while ( iPos < iDataLen ) { // check size (the next 5 bytes) if ( ( iDataLen - iPos ) < 5 ) { return true; // return error code } // channel ID (1 byte) const int iChanID = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // IP address (4 bytes) const int iIpAddr = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // name QString strCurStr; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_FADER_TAG, strCurStr ) ) { return true; // return error code } // add channel information to vector vecChanInfo.Add ( CChannelInfo ( iChanID, iIpAddr, strCurStr ) ); } // check size: all data is read, the position must now be at the end if ( iPos != iDataLen ) { return true; // return error code } // invoke message action emit ConClientListNameMesReceived ( vecChanInfo ); return false; // no error } void CProtocol::CreateConClientListMes ( const CVector& vecChanInfo ) { const int iNumClients = vecChanInfo.Size(); // build data vector CVector vecData ( 0 ); int iPos = 0; // init position pointer for ( int i = 0; i < iNumClients; i++ ) { // convert strings to utf-8 const QByteArray strUTF8Name = vecChanInfo[i].strName.toUtf8(); const QByteArray strUTF8City = vecChanInfo[i].strCity.toUtf8(); // size of current list entry const int iCurListEntrLen = 1 /* chan ID */ + 2 /* country */ + 4 /* instrument */ + 1 /* skill level */ + 4 /* IP address */ + 2 /* utf-8 str. size */ + strUTF8Name.size() + 2 /* utf-8 str. size */ + strUTF8City.size(); // make space for new data vecData.Enlarge ( iCurListEntrLen ); // channel ID (1 byte) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iChanID ), 1 ); // country (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].eCountry ), 2 ); // instrument (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iInstrument ), 4 ); // skill level (1 byte) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].eSkillLevel ), 1 ); // IP address (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iIpAddr ), 4 ); // name PutStringUTF8OnStream ( vecData, iPos, strUTF8Name ); // city PutStringUTF8OnStream ( vecData, iPos, strUTF8City ); } CreateAndSendMessage ( PROTMESSID_CONN_CLIENTS_LIST, vecData ); } bool CProtocol::EvaluateConClientListMes ( const CVector& vecData ) { int iPos = 0; // init position pointer const int iDataLen = vecData.Size(); CVector vecChanInfo ( 0 ); while ( iPos < iDataLen ) { // check size (the next 12 bytes) if ( ( iDataLen - iPos ) < 12 ) { return true; // return error code } // channel ID (1 byte) const int iChanID = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // country (2 bytes) const QLocale::Country eCountry = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // instrument (4 bytes) const int iInstrument = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // skill level (1 byte) const ESkillLevel eSkillLevel = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // IP address (4 bytes) const int iIpAddr = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // name QString strCurName; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_FADER_TAG, strCurName ) ) { return true; // return error code } // city QString strCurCity; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_CITY, strCurCity ) ) { return true; // return error code } // add channel information to vector vecChanInfo.Add ( CChannelInfo ( iChanID, iIpAddr, strCurName, eCountry, strCurCity, iInstrument, eSkillLevel ) ); } // check size: all data is read, the position must now be at the end if ( iPos != iDataLen ) { return true; // return error code } // invoke message action emit ConClientListMesReceived ( vecChanInfo ); return false; // no error } void CProtocol::CreateReqConnClientsList() { CreateAndSendMessage ( PROTMESSID_REQ_CONN_CLIENTS_LIST, CVector ( 0 ) ); } bool CProtocol::EvaluateReqConnClientsList() { // invoke message action emit ReqConnClientsList(); return false; // no error } void CProtocol::CreateChanNameMes ( const QString strName ) { int iPos = 0; // init position pointer // convert name string to utf-8 const QByteArray strUTF8Name = strName.toUtf8(); const int iStrUTF8Len = strUTF8Name.size(); // get utf-8 string size // size of current list entry const int iEntrLen = 2 /* utf-8 string size */ + iStrUTF8Len; // build data vector CVector vecData ( iEntrLen ); // name string PutStringUTF8OnStream ( vecData, iPos, strUTF8Name ); CreateAndSendMessage ( PROTMESSID_CHANNEL_NAME, vecData ); } bool CProtocol::EvaluateChanNameMes ( const CVector& vecData ) { int iPos = 0; // init position pointer // channel name QString strName; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_FADER_TAG, strName ) ) { return true; // return error code } // check size: all data is read, the position must now be at the end if ( iPos != vecData.Size() ) { return true; // return error code } // invoke message action emit ChangeChanName ( strName ); return false; // no error } void CProtocol::CreateChanInfoMes ( const CChannelCoreInfo ChanInfo ) { int iPos = 0; // init position pointer // convert strings to utf-8 const QByteArray strUTF8Name = ChanInfo.strName.toUtf8(); const QByteArray strUTF8City = ChanInfo.strCity.toUtf8(); // size of current list entry const int iEntrLen = 2 /* country */ + 4 /* instrument */ + 1 /* skill level */ + 2 /* utf-8 str. size */ + strUTF8Name.size() + 2 /* utf-8 str. size */ + strUTF8City.size(); // build data vector CVector vecData ( iEntrLen ); // country (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( ChanInfo.eCountry ), 2 ); // instrument (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( ChanInfo.iInstrument ), 4 ); // skill level (1 byte) PutValOnStream ( vecData, iPos, static_cast ( ChanInfo.eSkillLevel ), 1 ); // name PutStringUTF8OnStream ( vecData, iPos, strUTF8Name ); // city PutStringUTF8OnStream ( vecData, iPos, strUTF8City ); CreateAndSendMessage ( PROTMESSID_CHANNEL_INFOS, vecData ); } bool CProtocol::EvaluateChanInfoMes ( const CVector& vecData ) { int iPos = 0; // init position pointer const int iDataLen = vecData.Size(); CChannelCoreInfo ChanInfo; // check size (the first 7 bytes) if ( iDataLen < 7 ) { return true; // return error code } // country (2 bytes) ChanInfo.eCountry = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // instrument (4 bytes) ChanInfo.iInstrument = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // skill level (1 byte) ChanInfo.eSkillLevel = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // name if ( GetStringFromStream ( vecData, iPos, MAX_LEN_FADER_TAG, ChanInfo.strName ) ) { return true; // return error code } // city if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_CITY, ChanInfo.strCity ) ) { return true; // return error code } // check size: all data is read, the position must now be at the end if ( iPos != iDataLen ) { return true; // return error code } // invoke message action emit ChangeChanInfo ( ChanInfo ); return false; // no error } void CProtocol::CreateReqChanInfoMes() { CreateAndSendMessage ( PROTMESSID_REQ_CHANNEL_INFOS, CVector ( 0 ) ); } bool CProtocol::EvaluateReqChanInfoMes() { // invoke message action emit ReqChanInfo(); return false; // no error } void CProtocol::CreateChatTextMes ( const QString strChatText ) { int iPos = 0; // init position pointer // convert chat text string to utf-8 const QByteArray strUTF8ChatText = strChatText.toUtf8(); const int iStrUTF8Len = strUTF8ChatText.size(); // get utf-8 string size // size of message body const int iEntrLen = 2 /* utf-8 string size */ + iStrUTF8Len; // build data vector CVector vecData ( iEntrLen ); // chat text PutStringUTF8OnStream ( vecData, iPos, strUTF8ChatText ); CreateAndSendMessage ( PROTMESSID_CHAT_TEXT, vecData ); } bool CProtocol::EvaluateChatTextMes ( const CVector& vecData ) { int iPos = 0; // init position pointer // chat text QString strChatText; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_CHAT_TEXT_PLUS_HTML, strChatText ) ) { return true; // return error code } // check size: all data is read, the position must now be at the end if ( iPos != vecData.Size() ) { return true; // return error code } // invoke message action emit ChatTextReceived ( strChatText ); return false; // no error } void CProtocol::CreateNetwTranspPropsMes ( const CNetworkTransportProps& NetTrProps ) { int iPos = 0; // init position pointer // size of current message body const int iEntrLen = 4 /* netw size */ + 2 /* block size fact */ + 1 /* num chan */ + 4 /* sam rate */ + 2 /* audiocod type */ + 2 /* version */ + 4 /* audiocod arg */; // build data vector CVector vecData ( iEntrLen ); // length of the base network packet (frame) in bytes (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( NetTrProps.iBaseNetworkPacketSize ), 4 ); // block size factor (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( NetTrProps.iBlockSizeFact ), 2 ); // number of channels of the audio signal, e.g. "2" is stereo (1 byte) PutValOnStream ( vecData, iPos, static_cast ( NetTrProps.iNumAudioChannels ), 1 ); // sample rate of the audio stream (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( NetTrProps.iSampleRate ), 4 ); // audio coding type (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( NetTrProps.eAudioCodingType ), 2 ); // version (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( NetTrProps.iVersion ), 2 ); // argument for the audio coder (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( NetTrProps.iAudioCodingArg ), 4 ); CreateAndSendMessage ( PROTMESSID_NETW_TRANSPORT_PROPS, vecData ); } bool CProtocol::EvaluateNetwTranspPropsMes ( const CVector& vecData ) { int iPos = 0; // init position pointer CNetworkTransportProps ReceivedNetwTranspProps; // size of current message body const int iEntrLen = 4 /* netw size */ + 2 /* block size fact */ + 1 /* num chan */ + 4 /* sam rate */ + 2 /* audiocod type */ + 2 /* version */ + 4 /* audiocod arg */; // check size if ( vecData.Size() != iEntrLen ) { return true; // return error code } // length of the base network packet (frame) in bytes (4 bytes) ReceivedNetwTranspProps.iBaseNetworkPacketSize = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // at least CELT_MINIMUM_NUM_BYTES bytes are required for the CELC codec if ( ( ReceivedNetwTranspProps.iBaseNetworkPacketSize < CELT_MINIMUM_NUM_BYTES ) || ( ReceivedNetwTranspProps.iBaseNetworkPacketSize > MAX_SIZE_BYTES_NETW_BUF ) ) { return true; // return error code } // block size factor (2 bytes) ReceivedNetwTranspProps.iBlockSizeFact = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); if ( ( ReceivedNetwTranspProps.iBlockSizeFact != FRAME_SIZE_FACTOR_PREFERRED ) && ( ReceivedNetwTranspProps.iBlockSizeFact != FRAME_SIZE_FACTOR_DEFAULT ) && ( ReceivedNetwTranspProps.iBlockSizeFact != FRAME_SIZE_FACTOR_SAFE ) ) { return true; // return error code } // number of channels of the audio signal, only mono (1 channel) or // stereo (2 channels) allowed (1 byte) ReceivedNetwTranspProps.iNumAudioChannels = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); if ( ( ReceivedNetwTranspProps.iNumAudioChannels != 1 ) && ( ReceivedNetwTranspProps.iNumAudioChannels != 2 ) ) { return true; // return error code } // sample rate of the audio stream (4 bytes) ReceivedNetwTranspProps.iSampleRate = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // audio coding type (2 bytes) with error check const int iRecCodingType = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // note that CT_NONE is not a valid setting but only used for server // initialization if ( ( iRecCodingType != CT_CELT ) && ( iRecCodingType != CT_OPUS ) ) { return true; } ReceivedNetwTranspProps.eAudioCodingType = static_cast ( iRecCodingType ); // version (2 bytes) ReceivedNetwTranspProps.iVersion = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // argument for the audio coder (4 bytes) ReceivedNetwTranspProps.iAudioCodingArg = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // invoke message action emit NetTranspPropsReceived ( ReceivedNetwTranspProps ); return false; // no error } void CProtocol::CreateReqNetwTranspPropsMes() { CreateAndSendMessage ( PROTMESSID_REQ_NETW_TRANSPORT_PROPS, CVector ( 0 ) ); } bool CProtocol::EvaluateReqNetwTranspPropsMes() { // invoke message action emit ReqNetTranspProps(); return false; // no error } void CProtocol::CreateLicenceRequiredMes ( const ELicenceType eLicenceType ) { CVector vecData ( 1 ); // 1 bytes of data int iPos = 0; // init position pointer // build data vector PutValOnStream ( vecData, iPos, static_cast ( eLicenceType ), 1 ); CreateAndSendMessage ( PROTMESSID_LICENCE_REQUIRED, vecData ); } bool CProtocol::EvaluateLicenceRequiredMes ( const CVector& vecData ) { int iPos = 0; // init position pointer // check size if ( vecData.Size() != 1 ) { return true; // return error code } // extract licence type const ELicenceType eLicenceType = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); if ( ( eLicenceType != LT_CREATIVECOMMONS ) && ( eLicenceType != LT_NO_LICENCE ) ) { return true; // return error code } // invoke message action emit LicenceRequired ( eLicenceType ); return false; // no error } void CProtocol::CreateOpusSupportedMes() { CreateAndSendMessage ( PROTMESSID_OPUS_SUPPORTED, CVector ( 0 ) ); } // Connection less messages ---------------------------------------------------- void CProtocol::CreateCLPingMes ( const CHostAddress& InetAddr, const int iMs ) { int iPos = 0; // init position pointer // build data vector (4 bytes long) CVector vecData ( 4 ); // transmit time (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( iMs ), 4 ); CreateAndImmSendConLessMessage ( PROTMESSID_CLM_PING_MS, vecData, InetAddr ); } bool CProtocol::EvaluateCLPingMes ( const CHostAddress& InetAddr, const CVector& vecData ) { int iPos = 0; // init position pointer // check size if ( vecData.Size() != 4 ) { return true; // return error code } // invoke message action emit CLPingReceived ( InetAddr, static_cast ( GetValFromStream ( vecData, iPos, 4 ) ) ); return false; // no error } void CProtocol::CreateCLPingWithNumClientsMes ( const CHostAddress& InetAddr, const int iMs, const int iNumClients ) { int iPos = 0; // init position pointer // build data vector (5 bytes long) CVector vecData ( 5 ); // transmit time (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( iMs ), 4 ); // current number of connected clients (1 byte) PutValOnStream ( vecData, iPos, static_cast ( iNumClients ), 1 ); CreateAndImmSendConLessMessage ( PROTMESSID_CLM_PING_MS_WITHNUMCLIENTS, vecData, InetAddr ); } bool CProtocol::EvaluateCLPingWithNumClientsMes ( const CHostAddress& InetAddr, const CVector& vecData ) { int iPos = 0; // init position pointer // check size if ( vecData.Size() != 5 ) { return true; // return error code } // transmit time const int iCurMs = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // current number of connected clients const int iCurNumClients = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // invoke message action emit CLPingWithNumClientsReceived ( InetAddr, iCurMs, iCurNumClients ); return false; // no error } void CProtocol::CreateCLServerFullMes ( const CHostAddress& InetAddr ) { CreateAndImmSendConLessMessage ( PROTMESSID_CLM_SERVER_FULL, CVector ( 0 ), InetAddr ); } bool CProtocol::EvaluateCLServerFullMes() { // invoke message action emit ServerFullMesReceived(); return false; // no error } void CProtocol::CreateCLRegisterServerMes ( const CHostAddress& InetAddr, const CServerCoreInfo& ServerInfo ) { int iPos = 0; // init position pointer // convert server info strings to utf-8 const QByteArray strUTF8Name = ServerInfo.strName.toUtf8(); const QByteArray strUTF8Topic = ServerInfo.strTopic.toUtf8(); const QByteArray strUTF8City = ServerInfo.strCity.toUtf8(); // size of current message body const int iEntrLen = 2 /* port number */ + 2 /* country */ + 1 /* maximum number of connected clients */ + 1 /* is permanent flag */ + 2 /* name utf-8 string size */ + strUTF8Name.size() + 2 /* topic utf-8 string size */ + strUTF8Topic.size() + 2 /* city utf-8 string size */ + strUTF8City.size(); // build data vector CVector vecData ( iEntrLen ); // port number (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( ServerInfo.iLocalPortNumber ), 2 ); // country (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( ServerInfo.eCountry ), 2 ); // maximum number of connected clients (1 byte) PutValOnStream ( vecData, iPos, static_cast ( ServerInfo.iMaxNumClients ), 1 ); // "is permanent" flag (1 byte) PutValOnStream ( vecData, iPos, static_cast ( ServerInfo.bPermanentOnline ), 1 ); // name PutStringUTF8OnStream ( vecData, iPos, strUTF8Name ); // topic PutStringUTF8OnStream ( vecData, iPos, strUTF8Topic ); // city PutStringUTF8OnStream ( vecData, iPos, strUTF8City ); CreateAndImmSendConLessMessage ( PROTMESSID_CLM_REGISTER_SERVER, vecData, InetAddr ); } bool CProtocol::EvaluateCLRegisterServerMes ( const CHostAddress& InetAddr, const CVector& vecData ) { int iPos = 0; // init position pointer const int iDataLen = vecData.Size(); CServerCoreInfo RecServerInfo; // check size (the first 6 bytes) if ( iDataLen < 6 ) { return true; // return error code } // port number (2 bytes) RecServerInfo.iLocalPortNumber = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // country (2 bytes) RecServerInfo.eCountry = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // maximum number of connected clients (1 byte) RecServerInfo.iMaxNumClients = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // "is permanent" flag (1 byte) RecServerInfo.bPermanentOnline = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // server name if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_NAME, RecServerInfo.strName ) ) { return true; // return error code } // server topic if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_TOPIC, RecServerInfo.strTopic ) ) { return true; // return error code } // server city if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_CITY, RecServerInfo.strCity ) ) { return true; // return error code } // check size: all data is read, the position must now be at the end if ( iPos != iDataLen ) { return true; // return error code } // invoke message action emit CLRegisterServerReceived ( InetAddr, RecServerInfo ); return false; // no error } void CProtocol::CreateCLUnregisterServerMes ( const CHostAddress& InetAddr ) { CreateAndImmSendConLessMessage ( PROTMESSID_CLM_UNREGISTER_SERVER, CVector ( 0 ), InetAddr ); } bool CProtocol::EvaluateCLUnregisterServerMes ( const CHostAddress& InetAddr ) { // invoke message action emit CLUnregisterServerReceived ( InetAddr ); return false; // no error } void CProtocol::CreateCLServerListMes ( const CHostAddress& InetAddr, const CVector vecServerInfo ) { const int iNumServers = vecServerInfo.Size(); // build data vector CVector vecData ( 0 ); int iPos = 0; // init position pointer for ( int i = 0; i < iNumServers; i++ ) { // convert server list strings to utf-8 const QByteArray strUTF8Name = vecServerInfo[i].strName.toUtf8(); const QByteArray strUTF8Topic = vecServerInfo[i].strTopic.toUtf8(); const QByteArray strUTF8City = vecServerInfo[i].strCity.toUtf8(); // size of current list entry const int iCurListEntrLen = 4 /* IP address */ + 2 /* port number */ + 2 /* country */ + 1 /* maximum number of connected clients */ + 1 /* is permanent flag */ + 2 /* name utf-8 string size */ + strUTF8Name.size() + 2 /* topic utf-8 string size */ + strUTF8Topic.size() + 2 /* city utf-8 string size */ + strUTF8City.size(); // make space for new data vecData.Enlarge ( iCurListEntrLen ); // IP address (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecServerInfo[i].HostAddr.InetAddr.toIPv4Address() ), 4 ); // port number (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecServerInfo[i].HostAddr.iPort ), 2 ); // country (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecServerInfo[i].eCountry ), 2 ); // maximum number of connected clients (1 byte) PutValOnStream ( vecData, iPos, static_cast ( vecServerInfo[i].iMaxNumClients ), 1 ); // "is permanent" flag (1 byte) PutValOnStream ( vecData, iPos, static_cast ( vecServerInfo[i].bPermanentOnline ), 1 ); // name PutStringUTF8OnStream ( vecData, iPos, strUTF8Name ); // topic PutStringUTF8OnStream ( vecData, iPos, strUTF8Topic ); // city PutStringUTF8OnStream ( vecData, iPos, strUTF8City ); } CreateAndImmSendConLessMessage ( PROTMESSID_CLM_SERVER_LIST, vecData, InetAddr ); } bool CProtocol::EvaluateCLServerListMes ( const CHostAddress& InetAddr, const CVector& vecData ) { int iPos = 0; // init position pointer const int iDataLen = vecData.Size(); CVector vecServerInfo ( 0 ); while ( iPos < iDataLen ) { // check size (the next 10 bytes) if ( ( iDataLen - iPos ) < 10 ) { return true; // return error code } // IP address (4 bytes) const quint32 iIpAddr = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // port number (2 bytes) const quint16 iPort = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // country (2 bytes) const QLocale::Country eCountry = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // maximum number of connected clients (1 byte) const int iMaxNumClients = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // "is permanent" flag (1 byte) const bool bPermanentOnline = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // server name QString strName; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_NAME, strName ) ) { return true; // return error code } // server topic QString strTopic; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_TOPIC, strTopic ) ) { return true; // return error code } // server city QString strCity; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_CITY, strCity ) ) { return true; // return error code } // add server information to vector vecServerInfo.Add ( CServerInfo ( CHostAddress ( QHostAddress ( iIpAddr ), iPort ), iPort, strName, strTopic, eCountry, strCity, iMaxNumClients, bPermanentOnline ) ); } // check size: all data is read, the position must now be at the end if ( iPos != iDataLen ) { return true; // return error code } // invoke message action emit CLServerListReceived ( InetAddr, vecServerInfo ); return false; // no error } void CProtocol::CreateCLReqServerListMes ( const CHostAddress& InetAddr ) { CreateAndImmSendConLessMessage ( PROTMESSID_CLM_REQ_SERVER_LIST, CVector ( 0 ), InetAddr ); } bool CProtocol::EvaluateCLReqServerListMes ( const CHostAddress& InetAddr ) { // invoke message action emit CLReqServerList ( InetAddr ); return false; // no error } void CProtocol::CreateCLSendEmptyMesMes ( const CHostAddress& InetAddr, const CHostAddress& TargetInetAddr ) { int iPos = 0; // init position pointer // build data vector (6 bytes long) CVector vecData ( 6 ); // IP address (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( TargetInetAddr.InetAddr.toIPv4Address() ), 4 ); // port number (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( TargetInetAddr.iPort ), 2 ); CreateAndImmSendConLessMessage ( PROTMESSID_CLM_SEND_EMPTY_MESSAGE, vecData, InetAddr ); } bool CProtocol::EvaluateCLSendEmptyMesMes ( const CVector& vecData ) { int iPos = 0; // init position pointer // check size if ( vecData.Size() != 6 ) { return true; // return error code } // IP address (4 bytes) const quint32 iIpAddr = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // port number (2 bytes) const quint16 iPort = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // invoke message action emit CLSendEmptyMes ( CHostAddress ( QHostAddress ( iIpAddr ), iPort ) ); return false; // no error } void CProtocol::CreateCLEmptyMes ( const CHostAddress& InetAddr ) { // special message: for this message there exist no Evaluate // function CreateAndImmSendConLessMessage ( PROTMESSID_CLM_EMPTY_MESSAGE, CVector ( 0 ), InetAddr ); } void CProtocol::CreateCLDisconnection ( const CHostAddress& InetAddr ) { CreateAndImmSendConLessMessage ( PROTMESSID_CLM_DISCONNECTION, CVector ( 0 ), InetAddr ); } bool CProtocol::EvaluateCLDisconnectionMes ( const CHostAddress& InetAddr ) { // invoke message action emit CLDisconnection ( InetAddr ); return false; // no error } void CProtocol::CreateCLVersionAndOSMes ( const CHostAddress& InetAddr ) { int iPos = 0; // init position pointer // get the version number string const QString strVerion = VERSION; // convert version string to utf-8 const QByteArray strUTF8Version = strVerion.toUtf8(); // size of current message body const int iEntrLen = 1 /* operating system */ + 2 /* version utf-8 string size */ + strUTF8Version.size(); // build data vector CVector vecData ( iEntrLen ); // operating system (1 byte) PutValOnStream ( vecData, iPos, static_cast ( COSUtil::GetOperatingSystem() ), 1 ); // version PutStringUTF8OnStream ( vecData, iPos, strUTF8Version ); CreateAndImmSendConLessMessage ( PROTMESSID_CLM_VERSION_AND_OS, vecData, InetAddr ); } bool CProtocol::EvaluateCLVersionAndOSMes ( const CHostAddress& InetAddr, const CVector& vecData ) { int iPos = 0; // init position pointer const int iDataLen = vecData.Size(); // check size (the first 1 byte) if ( iDataLen < 1 ) { return true; // return error code } // operating system (1 byte) const COSUtil::EOpSystemType eOSType = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // version text QString strVersion; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_VERSION_TEXT, strVersion ) ) { return true; // return error code } // check size: all data is read, the position must now be at the end if ( iPos != iDataLen ) { return true; // return error code } // invoke message action emit CLVersionAndOSReceived ( InetAddr, eOSType, strVersion ); return false; // no error } void CProtocol::CreateCLReqVersionAndOSMes ( const CHostAddress& InetAddr ) { CreateAndImmSendConLessMessage ( PROTMESSID_CLM_REQ_VERSION_AND_OS, CVector ( 0 ), InetAddr ); } bool CProtocol::EvaluateCLReqVersionAndOSMes ( const CHostAddress& InetAddr ) { // invoke message action emit CLReqVersionAndOS ( InetAddr ); return false; // no error } void CProtocol::CreateCLConnClientsListMes ( const CHostAddress& InetAddr, const CVector& vecChanInfo ) { const int iNumClients = vecChanInfo.Size(); // build data vector CVector vecData ( 0 ); int iPos = 0; // init position pointer for ( int i = 0; i < iNumClients; i++ ) { // convert strings to utf-8 const QByteArray strUTF8Name = vecChanInfo[i].strName.toUtf8(); const QByteArray strUTF8City = vecChanInfo[i].strCity.toUtf8(); // size of current list entry const int iCurListEntrLen = 1 /* chan ID */ + 2 /* country */ + 4 /* instrument */ + 1 /* skill level */ + 4 /* IP address */ + 2 /* utf-8 str. size */ + strUTF8Name.size() + 2 /* utf-8 str. size */ + strUTF8City.size(); // make space for new data vecData.Enlarge ( iCurListEntrLen ); // channel ID (1 byte) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iChanID ), 1 ); // country (2 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].eCountry ), 2 ); // instrument (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iInstrument ), 4 ); // skill level (1 byte) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].eSkillLevel ), 1 ); // IP address (4 bytes) PutValOnStream ( vecData, iPos, static_cast ( vecChanInfo[i].iIpAddr ), 4 ); // name PutStringUTF8OnStream ( vecData, iPos, strUTF8Name ); // city PutStringUTF8OnStream ( vecData, iPos, strUTF8City ); } CreateAndImmSendConLessMessage ( PROTMESSID_CLM_CONN_CLIENTS_LIST, vecData, InetAddr ); } bool CProtocol::EvaluateCLConnClientsListMes ( const CHostAddress& InetAddr, const CVector& vecData ) { int iPos = 0; // init position pointer const int iDataLen = vecData.Size(); CVector vecChanInfo ( 0 ); while ( iPos < iDataLen ) { // check size (the next 12 bytes) if ( ( iDataLen - iPos ) < 12 ) { return true; // return error code } // channel ID (1 byte) const int iChanID = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // country (2 bytes) const QLocale::Country eCountry = static_cast ( GetValFromStream ( vecData, iPos, 2 ) ); // instrument (4 bytes) const int iInstrument = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // skill level (1 byte) const ESkillLevel eSkillLevel = static_cast ( GetValFromStream ( vecData, iPos, 1 ) ); // IP address (4 bytes) const int iIpAddr = static_cast ( GetValFromStream ( vecData, iPos, 4 ) ); // name QString strCurName; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_FADER_TAG, strCurName ) ) { return true; // return error code } // city QString strCurCity; if ( GetStringFromStream ( vecData, iPos, MAX_LEN_SERVER_CITY, strCurCity ) ) { return true; // return error code } // add channel information to vector vecChanInfo.Add ( CChannelInfo ( iChanID, iIpAddr, strCurName, eCountry, strCurCity, iInstrument, eSkillLevel ) ); } // check size: all data is read, the position must now be at the end if ( iPos != iDataLen ) { return true; // return error code } // invoke message action emit CLConnClientsListMesReceived ( InetAddr, vecChanInfo ); return false; // no error } void CProtocol::CreateCLReqConnClientsListMes ( const CHostAddress& InetAddr ) { CreateAndImmSendConLessMessage ( PROTMESSID_CLM_REQ_CONN_CLIENTS_LIST, CVector ( 0 ), InetAddr ); } bool CProtocol::EvaluateCLReqConnClientsListMes ( const CHostAddress& InetAddr ) { // invoke message action emit CLReqConnClientsList ( InetAddr ); return false; // no error } /******************************************************************************\ * Message generation and parsing * \******************************************************************************/ bool CProtocol::ParseMessageFrame ( const CVector& vecbyData, const int iNumBytesIn, CVector& vecbyMesBodyData, int& iCnt, int& iID ) { int i; int iCurPos; // vector must be at least "MESS_LEN_WITHOUT_DATA_BYTE" bytes long if ( iNumBytesIn < MESS_LEN_WITHOUT_DATA_BYTE ) { return true; // return error code } // Decode header ----------------------------------------------------------- iCurPos = 0; // start from beginning // 2 bytes TAG const int iTag = static_cast ( GetValFromStream ( vecbyData, iCurPos, 2 ) ); // check if tag is correct if ( iTag != 0 ) { return true; // return error code } // 2 bytes ID iID = static_cast ( GetValFromStream ( vecbyData, iCurPos, 2 ) ); // 1 byte cnt iCnt = static_cast ( GetValFromStream ( vecbyData, iCurPos, 1 ) ); // 2 bytes length const int iLenBy = static_cast ( GetValFromStream ( vecbyData, iCurPos, 2 ) ); // make sure the length is correct if ( iLenBy != iNumBytesIn - MESS_LEN_WITHOUT_DATA_BYTE ) { return true; // return error code } // Now check CRC ----------------------------------------------------------- CCRC CRCObj; const int iLenCRCCalc = MESS_HEADER_LENGTH_BYTE + iLenBy; iCurPos = 0; // start from the beginning for ( i = 0; i < iLenCRCCalc; i++ ) { CRCObj.AddByte ( static_cast ( GetValFromStream ( vecbyData, iCurPos, 1 ) ) ); } if ( CRCObj.GetCRC () != GetValFromStream ( vecbyData, iCurPos, 2 ) ) { return true; // return error code } // Extract actual data ----------------------------------------------------- // TODO this memory allocation is done in the real time thread but should be // done in the low priority protocol management thread vecbyMesBodyData.Init ( iLenBy ); iCurPos = MESS_HEADER_LENGTH_BYTE; // start from beginning of data for ( i = 0; i < iLenBy; i++ ) { vecbyMesBodyData[i] = static_cast ( GetValFromStream ( vecbyData, iCurPos, 1 ) ); } return false; // no error } uint32_t CProtocol::GetValFromStream ( const CVector& vecIn, int& iPos, const int iNumOfBytes ) { /* note: iPos is automatically incremented in this function */ // 4 bytes maximum since we return uint32 Q_ASSERT ( ( iNumOfBytes > 0 ) && ( iNumOfBytes <= 4 ) ); Q_ASSERT ( vecIn.Size() >= iPos + iNumOfBytes ); uint32_t iRet = 0; for ( int i = 0; i < iNumOfBytes; i++ ) { iRet |= vecIn[iPos] << ( i * 8 /* size of byte */ ); iPos++; } return iRet; } bool CProtocol::GetStringFromStream ( const CVector& vecIn, int& iPos, const int iMaxStringLen, QString& strOut ) { /* note: iPos is automatically incremented in this function */ const int iInLen = vecIn.Size(); // check if at least two bytes are available if ( ( iInLen - iPos ) < 2 ) { return true; // return error code } // number of bytes for utf-8 string (2 bytes) const int iStrUTF8Len = static_cast ( GetValFromStream ( vecIn, iPos, 2 ) ); // (note that iPos was incremented by 2 in the above code!) if ( ( iInLen - iPos ) < iStrUTF8Len ) { return true; // return error code } // string (n bytes) QByteArray sStringUTF8; for ( int i = 0; i < iStrUTF8Len; i++ ) { // byte-by-byte copying of the string data sStringUTF8.append ( static_cast ( GetValFromStream ( vecIn, iPos, 1 ) ) ); } // convert utf-8 byte array in the return string strOut = QString::fromUtf8 ( sStringUTF8 ); // check length of actual string if ( strOut.size() > iMaxStringLen ) { return true; // return error code } return false; // no error } void CProtocol::GenMessageFrame ( CVector& vecOut, const int iCnt, const int iID, const CVector& vecData ) { int i; // query length of data vector const int iDataLenByte = vecData.Size(); // total length of message const int iTotLenByte = MESS_LEN_WITHOUT_DATA_BYTE + iDataLenByte; // init message vector vecOut.Init ( iTotLenByte ); // Encode header ----------------------------------------------------------- int iCurPos = 0; // init position pointer // 2 bytes TAG (all zero bits) PutValOnStream ( vecOut, iCurPos, static_cast ( 0 ), 2 ); // 2 bytes ID PutValOnStream ( vecOut, iCurPos, static_cast ( iID ), 2 ); // 1 byte cnt PutValOnStream ( vecOut, iCurPos, static_cast ( iCnt ), 1 ); // 2 bytes length PutValOnStream ( vecOut, iCurPos, static_cast ( iDataLenByte ), 2 ); // encode data ----- for ( i = 0; i < iDataLenByte; i++ ) { PutValOnStream ( vecOut, iCurPos, static_cast ( vecData[i] ), 1 ); } // Encode CRC -------------------------------------------------------------- CCRC CRCObj; iCurPos = 0; // start from beginning const int iLenCRCCalc = MESS_HEADER_LENGTH_BYTE + iDataLenByte; for ( i = 0; i < iLenCRCCalc; i++ ) { CRCObj.AddByte ( static_cast ( GetValFromStream ( vecOut, iCurPos, 1 ) ) ); } PutValOnStream ( vecOut, iCurPos, static_cast ( CRCObj.GetCRC() ), 2 ); } void CProtocol::PutValOnStream ( CVector& vecIn, int& iPos, const uint32_t iVal, const int iNumOfBytes ) { /* note: iPos is automatically incremented in this function */ // 4 bytes maximum since we use uint32 Q_ASSERT ( ( iNumOfBytes > 0 ) && ( iNumOfBytes <= 4 ) ); Q_ASSERT ( vecIn.Size() >= iPos + iNumOfBytes ); for ( int i = 0; i < iNumOfBytes; i++ ) { vecIn[iPos] = ( iVal >> ( i * 8 /* size of byte */ ) ) & 255 /* 11111111 */; iPos++; } } void CProtocol::PutStringUTF8OnStream ( CVector& vecIn, int& iPos, const QByteArray& sStringUTF8 ) { // get the utf-8 string size const int iStrUTF8Len = sStringUTF8.size(); // number of bytes for utf-8 string (2 bytes) PutValOnStream ( vecIn, iPos, static_cast ( iStrUTF8Len ), 2 ); // actual utf-8 string (n bytes) for ( int j = 0; j < iStrUTF8Len; j++ ) { // byte-by-byte copying of the utf-8 string data PutValOnStream ( vecIn, iPos, static_cast ( sStringUTF8[j] ), 1 ); } }