/******************************************************************************\ * Copyright (c) 2004-2020 * * Author(s): * Volker Fischer * ****************************************************************************** * * 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 "server.h" #include "serverdlg.h" // CHighPrecisionTimer implementation ****************************************** #ifdef _WIN32 CHighPrecisionTimer::CHighPrecisionTimer ( const bool bNewUseDoubleSystemFrameSize ) : bUseDoubleSystemFrameSize ( bNewUseDoubleSystemFrameSize ) { // add some error checking, the high precision timer implementation only // supports 64 and 128 samples frame size at 48 kHz sampling rate #if ( SYSTEM_FRAME_SIZE_SAMPLES != 64 ) && ( DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES != 128 ) # error "Only system frame size of 64 and 128 samples is supported by this module" #endif #if ( SYSTEM_SAMPLE_RATE_HZ != 48000 ) # error "Only a system sample rate of 48 kHz is supported by this module" #endif // Since QT only supports a minimum timer resolution of 1 ms but for our // server we require a timer interval of 2.333 ms for 128 samples // frame size at 48 kHz sampling rate. // To support this interval, we use a timer with 2 ms resolution for 128 // samples frame size and 1 ms resolution for 64 samples frame size. // Then we fire the actual frame timer if the error to the actual // required interval is minimum. veciTimeOutIntervals.Init ( 3 ); // for 128 sample frame size at 48 kHz sampling rate with 2 ms timer resolution: // actual intervals: 0.0 2.666 5.333 8.0 // quantized to 2 ms: 0 2 6 8 (0) // for 64 sample frame size at 48 kHz sampling rate with 1 ms timer resolution: // actual intervals: 0.0 1.333 2.666 4.0 // quantized to 2 ms: 0 1 3 4 (0) veciTimeOutIntervals[0] = 0; veciTimeOutIntervals[1] = 1; veciTimeOutIntervals[2] = 0; // connect timer timeout signal QObject::connect ( &Timer, SIGNAL ( timeout() ), this, SLOT ( OnTimer() ) ); } void CHighPrecisionTimer::Start() { // reset position pointer and counter iCurPosInVector = 0; iIntervalCounter = 0; if ( bUseDoubleSystemFrameSize ) { // start internal timer with 2 ms resolution for 128 samples frame size Timer.start ( 2 ); } else { // start internal timer with 1 ms resolution for 64 samples frame size Timer.start ( 1 ); } } void CHighPrecisionTimer::Stop() { // stop timer Timer.stop(); } void CHighPrecisionTimer::OnTimer() { // check if maximum number of high precision timer intervals are // finished if ( veciTimeOutIntervals[iCurPosInVector] == iIntervalCounter ) { // reset interval counter iIntervalCounter = 0; // go to next position in vector, take care of wrap around iCurPosInVector++; if ( iCurPosInVector == veciTimeOutIntervals.Size() ) { iCurPosInVector = 0; } // minimum time error to actual required timer interval is reached, // emit signal for server emit timeout(); } else { // next high precision timer interval iIntervalCounter++; } } #else // Mac and Linux CHighPrecisionTimer::CHighPrecisionTimer ( const bool bUseDoubleSystemFrameSize ) : bRun ( false ) { // calculate delay in ns uint64_t iNsDelay; if ( bUseDoubleSystemFrameSize ) { iNsDelay = ( (uint64_t) DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES * 1000000000 ) / (uint64_t) SYSTEM_SAMPLE_RATE_HZ; // in ns } else { iNsDelay = ( (uint64_t) SYSTEM_FRAME_SIZE_SAMPLES * 1000000000 ) / (uint64_t) SYSTEM_SAMPLE_RATE_HZ; // in ns } #if defined ( __APPLE__ ) || defined ( __MACOSX ) // calculate delay in mach absolute time struct mach_timebase_info timeBaseInfo; mach_timebase_info ( &timeBaseInfo ); Delay = ( iNsDelay * (uint64_t) timeBaseInfo.denom ) / (uint64_t) timeBaseInfo.numer; #else // set delay Delay = iNsDelay; #endif } void CHighPrecisionTimer::Start() { // only start if not already running if ( !bRun ) { // set run flag bRun = true; // set initial end time #if defined ( __APPLE__ ) || defined ( __MACOSX ) NextEnd = mach_absolute_time() + Delay; #else clock_gettime ( CLOCK_MONOTONIC, &NextEnd ); NextEnd.tv_nsec += Delay; if ( NextEnd.tv_nsec >= 1000000000L ) { NextEnd.tv_sec++; NextEnd.tv_nsec -= 1000000000L; } #endif // start thread QThread::start ( QThread::TimeCriticalPriority ); } } void CHighPrecisionTimer::Stop() { // set flag so that thread can leave the main loop bRun = false; // give thread some time to terminate wait ( 5000 ); } void CHighPrecisionTimer::run() { // loop until the thread shall be terminated while ( bRun ) { // call processing routine by fireing signal // TODO by emit a signal we leave the high priority thread -> maybe use some // other connection type to have something like a true callback, e.g. // "Qt::DirectConnection" -> Can this work? emit timeout(); // now wait until the next buffer shall be processed (we // use the "increment method" to make sure we do not introduce // a timing drift) #if defined ( __APPLE__ ) || defined ( __MACOSX ) mach_wait_until ( NextEnd ); NextEnd += Delay; #else clock_nanosleep ( CLOCK_MONOTONIC, TIMER_ABSTIME, &NextEnd, NULL ); NextEnd.tv_nsec += Delay; if ( NextEnd.tv_nsec >= 1000000000L ) { NextEnd.tv_sec++; NextEnd.tv_nsec -= 1000000000L; } #endif } } #endif // CServer implementation ****************************************************** CServer::CServer ( const int iNewMaxNumChan, const int iMaxDaysHistory, const QString& strLoggingFileName, const quint16 iPortNumber, const QString& strHTMLStatusFileName, const QString& strHistoryFileName, const QString& strServerNameForHTMLStatusFile, const QString& strCentralServer, const QString& strServerInfo, const QString& strNewWelcomeMessage, const QString& strRecordingDirName, const bool bNCentServPingServerInList, const bool bNDisconnectAllClients, const bool bNUseDoubleSystemFrameSize, const ELicenceType eNLicenceType ) : bUseDoubleSystemFrameSize ( bNUseDoubleSystemFrameSize ), iMaxNumChannels ( iNewMaxNumChan ), Socket ( this, iPortNumber ), Logging ( iMaxDaysHistory ), JamRecorder ( strRecordingDirName ), bEnableRecording ( !strRecordingDirName.isEmpty() ), bWriteStatusHTMLFile ( false ), HighPrecisionTimer ( bNUseDoubleSystemFrameSize ), ServerListManager ( iPortNumber, strCentralServer, strServerInfo, iNewMaxNumChan, bNCentServPingServerInList, &ConnLessProtocol ), bAutoRunMinimized ( false ), strWelcomeMessage ( strNewWelcomeMessage ), eLicenceType ( eNLicenceType ), bDisconnectAllClients ( bNDisconnectAllClients ) { int iOpusError; int i; QString recordPath = strRecordingDirName; // create OPUS encoder/decoder for each channel (must be done before // enabling the channels), create a mono and stereo encoder/decoder // for each channel for ( i = 0; i < iMaxNumChannels; i++ ) { // init OPUS ----------------------------------------------------------- OpusMode[i] = opus_custom_mode_create ( SYSTEM_SAMPLE_RATE_HZ, DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES, &iOpusError ); Opus64Mode[i] = opus_custom_mode_create ( SYSTEM_SAMPLE_RATE_HZ, SYSTEM_FRAME_SIZE_SAMPLES, &iOpusError ); // init audio encoders and decoders OpusEncoderMono[i] = opus_custom_encoder_create ( OpusMode[i], 1, &iOpusError ); // mono encoder legacy OpusDecoderMono[i] = opus_custom_decoder_create ( OpusMode[i], 1, &iOpusError ); // mono decoder legacy OpusEncoderStereo[i] = opus_custom_encoder_create ( OpusMode[i], 2, &iOpusError ); // stereo encoder legacy OpusDecoderStereo[i] = opus_custom_decoder_create ( OpusMode[i], 2, &iOpusError ); // stereo decoder legacy Opus64EncoderMono[i] = opus_custom_encoder_create ( Opus64Mode[i], 1, &iOpusError ); // mono encoder OPUS64 Opus64DecoderMono[i] = opus_custom_decoder_create ( Opus64Mode[i], 1, &iOpusError ); // mono decoder OPUS64 Opus64EncoderStereo[i] = opus_custom_encoder_create ( Opus64Mode[i], 2, &iOpusError ); // stereo encoder OPUS64 Opus64DecoderStereo[i] = opus_custom_decoder_create ( Opus64Mode[i], 2, &iOpusError ); // stereo decoder OPUS64 // we require a constant bit rate opus_custom_encoder_ctl ( OpusEncoderMono[i], OPUS_SET_VBR ( 0 ) ); opus_custom_encoder_ctl ( OpusEncoderStereo[i], OPUS_SET_VBR ( 0 ) ); opus_custom_encoder_ctl ( Opus64EncoderMono[i], OPUS_SET_VBR ( 0 ) ); opus_custom_encoder_ctl ( Opus64EncoderStereo[i], OPUS_SET_VBR ( 0 ) ); // for 64 samples frame size we have to adjust the PLC behavior to avoid loud artifacts opus_custom_encoder_ctl ( Opus64EncoderMono[i], OPUS_SET_PACKET_LOSS_PERC ( 35 ) ); opus_custom_encoder_ctl ( Opus64EncoderStereo[i], OPUS_SET_PACKET_LOSS_PERC ( 35 ) ); // we want as low delay as possible opus_custom_encoder_ctl ( OpusEncoderMono[i], OPUS_SET_APPLICATION ( OPUS_APPLICATION_RESTRICTED_LOWDELAY ) ); opus_custom_encoder_ctl ( OpusEncoderStereo[i], OPUS_SET_APPLICATION ( OPUS_APPLICATION_RESTRICTED_LOWDELAY ) ); opus_custom_encoder_ctl ( Opus64EncoderMono[i], OPUS_SET_APPLICATION ( OPUS_APPLICATION_RESTRICTED_LOWDELAY ) ); opus_custom_encoder_ctl ( Opus64EncoderStereo[i], OPUS_SET_APPLICATION ( OPUS_APPLICATION_RESTRICTED_LOWDELAY ) ); // set encoder low complexity for legacy 128 samples frame size opus_custom_encoder_ctl ( OpusEncoderMono[i], OPUS_SET_COMPLEXITY ( 1 ) ); opus_custom_encoder_ctl ( OpusEncoderStereo[i], OPUS_SET_COMPLEXITY ( 1 ) ); // init double-to-normal frame size conversion buffers ----------------- // use worst case memory initialization to avoid allocating memory in // the time-critical thread DoubleFrameSizeConvBufIn[i].Init ( 2 /* stereo */ * DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES /* worst case buffer size */ ); DoubleFrameSizeConvBufOut[i].Init ( 2 /* stereo */ * DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES /* worst case buffer size */ ); } // define colors for chat window identifiers vstrChatColors.Init ( 6 ); vstrChatColors[0] = "mediumblue"; vstrChatColors[1] = "red"; vstrChatColors[2] = "darkorchid"; vstrChatColors[3] = "green"; vstrChatColors[4] = "maroon"; vstrChatColors[5] = "coral"; // set the server frame size if ( bUseDoubleSystemFrameSize ) { iServerFrameSizeSamples = DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES; } else { iServerFrameSizeSamples = SYSTEM_FRAME_SIZE_SAMPLES; } // To avoid audio clitches, in the entire realtime timer audio processing // routine including the ProcessData no memory must be allocated. Since we // do not know the required sizes for the vectors, we allocate memory for // the worst case here: // we always use stereo audio buffers (which is the worst case) vecsSendData.Init ( 2 /* stereo */ * DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES /* worst case buffer size */ ); // allocate worst case memory for the temporary vectors vecChanIDsCurConChan.Init ( iMaxNumChannels ); vecvecdGains.Init ( iMaxNumChannels ); vecvecsData.Init ( iMaxNumChannels ); vecNumAudioChannels.Init ( iMaxNumChannels ); vecNumFrameSizeConvBlocks.Init ( iMaxNumChannels ); vecUseDoubleSysFraSizeConvBuf.Init ( iMaxNumChannels ); vecAudioComprType.Init ( iMaxNumChannels ); for ( i = 0; i < iMaxNumChannels; i++ ) { // init vectors storing information of all channels vecvecdGains[i].Init ( iMaxNumChannels ); // we always use stereo audio buffers (see "vecsSendData") vecvecsData[i].Init ( 2 /* stereo */ * DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES /* worst case buffer size */ ); } // allocate worst case memory for the coded data vecbyCodedData.Init ( MAX_SIZE_BYTES_NETW_BUF ); // allocate worst case memory for the channel levels vecChannelLevels.Init ( iMaxNumChannels ); // enable history graph (if requested) if ( !strHistoryFileName.isEmpty() ) { Logging.EnableHistory ( strHistoryFileName ); } // enable logging (if requested) if ( !strLoggingFileName.isEmpty() ) { // in case the history is enabled and a logging file name is // given, parse the logging file for old entries which are then // added in the history on software startup if ( !strHistoryFileName.isEmpty() ) { Logging.ParseLogFile ( strLoggingFileName ); } Logging.Start ( strLoggingFileName ); } // HTML status file writing if ( !strHTMLStatusFileName.isEmpty() ) { QString strCurServerNameForHTMLStatusFile = strServerNameForHTMLStatusFile; // if server name is empty, substitude a default name if ( strCurServerNameForHTMLStatusFile.isEmpty() ) { strCurServerNameForHTMLStatusFile = "[server address]"; } // (the static cast to integer of the port number is required so that it // works correctly under Linux) StartStatusHTMLFileWriting ( strHTMLStatusFileName, strCurServerNameForHTMLStatusFile + ":" + QString().number( static_cast ( iPortNumber ) ) ); } qInfo() << bEnableRecording; // Enable jam recording (if requested) if ( bEnableRecording ) { JamRecorder.Init ( this, iServerFrameSizeSamples ); JamRecorder.start(); } // enable all channels (for the server all channel must be enabled the // entire life time of the software) for ( i = 0; i < iMaxNumChannels; i++ ) { vecChannels[i].SetEnable ( true ); } // Connections ------------------------------------------------------------- // connect timer timeout signal QObject::connect ( &HighPrecisionTimer, SIGNAL ( timeout() ), this, SLOT ( OnTimer() ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLMessReadyForSending ( CHostAddress, CVector ) ), this, SLOT ( OnSendCLProtMessage ( CHostAddress, CVector ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLPingReceived ( CHostAddress, int ) ), this, SLOT ( OnCLPingReceived ( CHostAddress, int ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLPingWithNumClientsReceived ( CHostAddress, int, int ) ), this, SLOT ( OnCLPingWithNumClientsReceived ( CHostAddress, int, int ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLRegisterServerReceived ( CHostAddress, CHostAddress, CServerCoreInfo ) ), this, SLOT ( OnCLRegisterServerReceived ( CHostAddress, CHostAddress, CServerCoreInfo ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLUnregisterServerReceived ( CHostAddress ) ), this, SLOT ( OnCLUnregisterServerReceived ( CHostAddress ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLReqServerList ( CHostAddress ) ), this, SLOT ( OnCLReqServerList ( CHostAddress ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLRegisterServerResp ( CHostAddress, ESvrRegResult ) ), this, SLOT ( OnCLRegisterServerResp ( CHostAddress, ESvrRegResult ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLSendEmptyMes ( CHostAddress ) ), this, SLOT ( OnCLSendEmptyMes ( CHostAddress ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLDisconnection ( CHostAddress ) ), this, SLOT ( OnCLDisconnection ( CHostAddress ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLReqVersionAndOS ( CHostAddress ) ), this, SLOT ( OnCLReqVersionAndOS ( CHostAddress ) ) ); QObject::connect ( &ConnLessProtocol, SIGNAL ( CLReqConnClientsList ( CHostAddress ) ), this, SLOT ( OnCLReqConnClientsList ( CHostAddress ) ) ); QObject::connect ( &ServerListManager, SIGNAL ( SvrRegStatusChanged() ), this, SLOT ( OnSvrRegStatusChanged() ) ); #if QT_VERSION >= QT_VERSION_CHECK(5, 0, 0) connectChannelSignalsToServerSlots(); #else // CODE TAG: MAX_NUM_CHANNELS_TAG // make sure we have MAX_NUM_CHANNELS connections!!! // send message QObject::connect ( &vecChannels[0], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh0 ( CVector ) ) ); QObject::connect ( &vecChannels[1], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh1 ( CVector ) ) ); QObject::connect ( &vecChannels[2], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh2 ( CVector ) ) ); QObject::connect ( &vecChannels[3], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh3 ( CVector ) ) ); QObject::connect ( &vecChannels[4], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh4 ( CVector ) ) ); QObject::connect ( &vecChannels[5], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh5 ( CVector ) ) ); QObject::connect ( &vecChannels[6], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh6 ( CVector ) ) ); QObject::connect ( &vecChannels[7], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh7 ( CVector ) ) ); QObject::connect ( &vecChannels[8], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh8 ( CVector ) ) ); QObject::connect ( &vecChannels[9], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh9 ( CVector ) ) ); QObject::connect ( &vecChannels[10], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh10 ( CVector ) ) ); QObject::connect ( &vecChannels[11], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh11 ( CVector ) ) ); QObject::connect ( &vecChannels[12], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh12 ( CVector ) ) ); QObject::connect ( &vecChannels[13], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh13 ( CVector ) ) ); QObject::connect ( &vecChannels[14], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh14 ( CVector ) ) ); QObject::connect ( &vecChannels[15], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh15 ( CVector ) ) ); QObject::connect ( &vecChannels[16], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh16 ( CVector ) ) ); QObject::connect ( &vecChannels[17], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh17 ( CVector ) ) ); QObject::connect ( &vecChannels[18], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh18 ( CVector ) ) ); QObject::connect ( &vecChannels[19], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh19 ( CVector ) ) ); QObject::connect ( &vecChannels[20], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh20 ( CVector ) ) ); QObject::connect ( &vecChannels[21], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh21 ( CVector ) ) ); QObject::connect ( &vecChannels[22], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh22 ( CVector ) ) ); QObject::connect ( &vecChannels[23], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh23 ( CVector ) ) ); QObject::connect ( &vecChannels[24], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh24 ( CVector ) ) ); QObject::connect ( &vecChannels[25], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh25 ( CVector ) ) ); QObject::connect ( &vecChannels[26], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh26 ( CVector ) ) ); QObject::connect ( &vecChannels[27], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh27 ( CVector ) ) ); QObject::connect ( &vecChannels[28], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh28 ( CVector ) ) ); QObject::connect ( &vecChannels[29], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh29 ( CVector ) ) ); QObject::connect ( &vecChannels[30], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh30 ( CVector ) ) ); QObject::connect ( &vecChannels[31], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh31 ( CVector ) ) ); QObject::connect ( &vecChannels[32], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh32 ( CVector ) ) ); QObject::connect ( &vecChannels[33], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh33 ( CVector ) ) ); QObject::connect ( &vecChannels[34], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh34 ( CVector ) ) ); QObject::connect ( &vecChannels[35], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh35 ( CVector ) ) ); QObject::connect ( &vecChannels[36], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh36 ( CVector ) ) ); QObject::connect ( &vecChannels[37], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh37 ( CVector ) ) ); QObject::connect ( &vecChannels[38], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh38 ( CVector ) ) ); QObject::connect ( &vecChannels[39], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh39 ( CVector ) ) ); QObject::connect ( &vecChannels[40], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh40 ( CVector ) ) ); QObject::connect ( &vecChannels[41], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh41 ( CVector ) ) ); QObject::connect ( &vecChannels[42], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh42 ( CVector ) ) ); QObject::connect ( &vecChannels[43], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh43 ( CVector ) ) ); QObject::connect ( &vecChannels[44], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh44 ( CVector ) ) ); QObject::connect ( &vecChannels[45], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh45 ( CVector ) ) ); QObject::connect ( &vecChannels[46], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh46 ( CVector ) ) ); QObject::connect ( &vecChannels[47], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh47 ( CVector ) ) ); QObject::connect ( &vecChannels[48], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh48 ( CVector ) ) ); QObject::connect ( &vecChannels[49], SIGNAL ( MessReadyForSending ( CVector ) ), this, SLOT ( OnSendProtMessCh49 ( CVector ) ) ); // request connected clients list QObject::connect ( &vecChannels[0], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh0() ) ); QObject::connect ( &vecChannels[1], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh1() ) ); QObject::connect ( &vecChannels[2], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh2() ) ); QObject::connect ( &vecChannels[3], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh3() ) ); QObject::connect ( &vecChannels[4], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh4() ) ); QObject::connect ( &vecChannels[5], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh5() ) ); QObject::connect ( &vecChannels[6], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh6() ) ); QObject::connect ( &vecChannels[7], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh7() ) ); QObject::connect ( &vecChannels[8], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh8() ) ); QObject::connect ( &vecChannels[9], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh9() ) ); QObject::connect ( &vecChannels[10], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh10() ) ); QObject::connect ( &vecChannels[11], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh11() ) ); QObject::connect ( &vecChannels[12], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh12() ) ); QObject::connect ( &vecChannels[13], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh13() ) ); QObject::connect ( &vecChannels[14], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh14() ) ); QObject::connect ( &vecChannels[15], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh15() ) ); QObject::connect ( &vecChannels[16], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh16() ) ); QObject::connect ( &vecChannels[17], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh17() ) ); QObject::connect ( &vecChannels[18], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh18() ) ); QObject::connect ( &vecChannels[19], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh19() ) ); QObject::connect ( &vecChannels[20], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh20() ) ); QObject::connect ( &vecChannels[21], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh21() ) ); QObject::connect ( &vecChannels[22], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh22() ) ); QObject::connect ( &vecChannels[23], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh23() ) ); QObject::connect ( &vecChannels[24], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh24() ) ); QObject::connect ( &vecChannels[25], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh25() ) ); QObject::connect ( &vecChannels[26], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh26() ) ); QObject::connect ( &vecChannels[27], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh27() ) ); QObject::connect ( &vecChannels[28], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh28() ) ); QObject::connect ( &vecChannels[29], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh29() ) ); QObject::connect ( &vecChannels[30], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh30() ) ); QObject::connect ( &vecChannels[31], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh31() ) ); QObject::connect ( &vecChannels[32], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh32() ) ); QObject::connect ( &vecChannels[33], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh33() ) ); QObject::connect ( &vecChannels[34], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh34() ) ); QObject::connect ( &vecChannels[35], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh35() ) ); QObject::connect ( &vecChannels[36], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh36() ) ); QObject::connect ( &vecChannels[37], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh37() ) ); QObject::connect ( &vecChannels[38], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh38() ) ); QObject::connect ( &vecChannels[39], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh39() ) ); QObject::connect ( &vecChannels[40], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh40() ) ); QObject::connect ( &vecChannels[41], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh41() ) ); QObject::connect ( &vecChannels[42], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh42() ) ); QObject::connect ( &vecChannels[43], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh43() ) ); QObject::connect ( &vecChannels[44], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh44() ) ); QObject::connect ( &vecChannels[45], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh45() ) ); QObject::connect ( &vecChannels[46], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh46() ) ); QObject::connect ( &vecChannels[47], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh47() ) ); QObject::connect ( &vecChannels[48], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh48() ) ); QObject::connect ( &vecChannels[49], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh49() ) ); // channel info has changed QObject::connect ( &vecChannels[0], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh0() ) ); QObject::connect ( &vecChannels[1], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh1() ) ); QObject::connect ( &vecChannels[2], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh2() ) ); QObject::connect ( &vecChannels[3], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh3() ) ); QObject::connect ( &vecChannels[4], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh4() ) ); QObject::connect ( &vecChannels[5], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh5() ) ); QObject::connect ( &vecChannels[6], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh6() ) ); QObject::connect ( &vecChannels[7], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh7() ) ); QObject::connect ( &vecChannels[8], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh8() ) ); QObject::connect ( &vecChannels[9], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh9() ) ); QObject::connect ( &vecChannels[10], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh10() ) ); QObject::connect ( &vecChannels[11], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh11() ) ); QObject::connect ( &vecChannels[12], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh12() ) ); QObject::connect ( &vecChannels[13], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh13() ) ); QObject::connect ( &vecChannels[14], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh14() ) ); QObject::connect ( &vecChannels[15], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh15() ) ); QObject::connect ( &vecChannels[16], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh16() ) ); QObject::connect ( &vecChannels[17], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh17() ) ); QObject::connect ( &vecChannels[18], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh18() ) ); QObject::connect ( &vecChannels[19], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh19() ) ); QObject::connect ( &vecChannels[20], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh20() ) ); QObject::connect ( &vecChannels[21], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh21() ) ); QObject::connect ( &vecChannels[22], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh22() ) ); QObject::connect ( &vecChannels[23], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh23() ) ); QObject::connect ( &vecChannels[24], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh24() ) ); QObject::connect ( &vecChannels[25], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh25() ) ); QObject::connect ( &vecChannels[26], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh26() ) ); QObject::connect ( &vecChannels[27], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh27() ) ); QObject::connect ( &vecChannels[28], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh28() ) ); QObject::connect ( &vecChannels[29], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh29() ) ); QObject::connect ( &vecChannels[30], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh30() ) ); QObject::connect ( &vecChannels[31], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh31() ) ); QObject::connect ( &vecChannels[32], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh32() ) ); QObject::connect ( &vecChannels[33], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh33() ) ); QObject::connect ( &vecChannels[34], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh34() ) ); QObject::connect ( &vecChannels[35], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh35() ) ); QObject::connect ( &vecChannels[36], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh36() ) ); QObject::connect ( &vecChannels[37], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh37() ) ); QObject::connect ( &vecChannels[38], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh38() ) ); QObject::connect ( &vecChannels[39], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh39() ) ); QObject::connect ( &vecChannels[40], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh40() ) ); QObject::connect ( &vecChannels[41], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh41() ) ); QObject::connect ( &vecChannels[42], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh42() ) ); QObject::connect ( &vecChannels[43], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh43() ) ); QObject::connect ( &vecChannels[44], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh44() ) ); QObject::connect ( &vecChannels[45], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh45() ) ); QObject::connect ( &vecChannels[46], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh46() ) ); QObject::connect ( &vecChannels[47], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh47() ) ); QObject::connect ( &vecChannels[48], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh48() ) ); QObject::connect ( &vecChannels[49], SIGNAL ( ChanInfoHasChanged() ), this, SLOT ( OnChanInfoHasChangedCh49() ) ); // chat text received QObject::connect ( &vecChannels[0], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh0 ( QString ) ) ); QObject::connect ( &vecChannels[1], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh1 ( QString ) ) ); QObject::connect ( &vecChannels[2], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh2 ( QString ) ) ); QObject::connect ( &vecChannels[3], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh3 ( QString ) ) ); QObject::connect ( &vecChannels[4], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh4 ( QString ) ) ); QObject::connect ( &vecChannels[5], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh5 ( QString ) ) ); QObject::connect ( &vecChannels[6], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh6 ( QString ) ) ); QObject::connect ( &vecChannels[7], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh7 ( QString ) ) ); QObject::connect ( &vecChannels[8], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh8 ( QString ) ) ); QObject::connect ( &vecChannels[9], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh9 ( QString ) ) ); QObject::connect ( &vecChannels[10], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh10 ( QString ) ) ); QObject::connect ( &vecChannels[11], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh11 ( QString ) ) ); QObject::connect ( &vecChannels[12], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh12 ( QString ) ) ); QObject::connect ( &vecChannels[13], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh13 ( QString ) ) ); QObject::connect ( &vecChannels[14], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh14 ( QString ) ) ); QObject::connect ( &vecChannels[15], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh15 ( QString ) ) ); QObject::connect ( &vecChannels[16], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh16 ( QString ) ) ); QObject::connect ( &vecChannels[17], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh17 ( QString ) ) ); QObject::connect ( &vecChannels[18], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh18 ( QString ) ) ); QObject::connect ( &vecChannels[19], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh19 ( QString ) ) ); QObject::connect ( &vecChannels[20], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh20 ( QString ) ) ); QObject::connect ( &vecChannels[21], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh21 ( QString ) ) ); QObject::connect ( &vecChannels[22], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh22 ( QString ) ) ); QObject::connect ( &vecChannels[23], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh23 ( QString ) ) ); QObject::connect ( &vecChannels[24], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh24 ( QString ) ) ); QObject::connect ( &vecChannels[25], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh25 ( QString ) ) ); QObject::connect ( &vecChannels[26], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh26 ( QString ) ) ); QObject::connect ( &vecChannels[27], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh27 ( QString ) ) ); QObject::connect ( &vecChannels[28], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh28 ( QString ) ) ); QObject::connect ( &vecChannels[29], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh29 ( QString ) ) ); QObject::connect ( &vecChannels[30], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh30 ( QString ) ) ); QObject::connect ( &vecChannels[31], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh31 ( QString ) ) ); QObject::connect ( &vecChannels[32], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh32 ( QString ) ) ); QObject::connect ( &vecChannels[33], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh33 ( QString ) ) ); QObject::connect ( &vecChannels[34], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh34 ( QString ) ) ); QObject::connect ( &vecChannels[35], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh35 ( QString ) ) ); QObject::connect ( &vecChannels[36], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh36 ( QString ) ) ); QObject::connect ( &vecChannels[37], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh37 ( QString ) ) ); QObject::connect ( &vecChannels[38], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh38 ( QString ) ) ); QObject::connect ( &vecChannels[39], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh39 ( QString ) ) ); QObject::connect ( &vecChannels[40], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh40 ( QString ) ) ); QObject::connect ( &vecChannels[41], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh41 ( QString ) ) ); QObject::connect ( &vecChannels[42], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh42 ( QString ) ) ); QObject::connect ( &vecChannels[43], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh43 ( QString ) ) ); QObject::connect ( &vecChannels[44], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh44 ( QString ) ) ); QObject::connect ( &vecChannels[45], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh45 ( QString ) ) ); QObject::connect ( &vecChannels[46], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh46 ( QString ) ) ); QObject::connect ( &vecChannels[47], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh47 ( QString ) ) ); QObject::connect ( &vecChannels[48], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh48 ( QString ) ) ); QObject::connect ( &vecChannels[49], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh49 ( QString ) ) ); // auto socket buffer size change QObject::connect ( &vecChannels[0], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh0 ( int ) ) ); QObject::connect ( &vecChannels[1], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh1 ( int ) ) ); QObject::connect ( &vecChannels[2], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh2 ( int ) ) ); QObject::connect ( &vecChannels[3], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh3 ( int ) ) ); QObject::connect ( &vecChannels[4], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh4 ( int ) ) ); QObject::connect ( &vecChannels[5], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh5 ( int ) ) ); QObject::connect ( &vecChannels[6], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh6 ( int ) ) ); QObject::connect ( &vecChannels[7], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh7 ( int ) ) ); QObject::connect ( &vecChannels[8], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh8 ( int ) ) ); QObject::connect ( &vecChannels[9], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh9 ( int ) ) ); QObject::connect ( &vecChannels[10], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh10 ( int ) ) ); QObject::connect ( &vecChannels[11], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh11 ( int ) ) ); QObject::connect ( &vecChannels[12], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh12 ( int ) ) ); QObject::connect ( &vecChannels[13], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh13 ( int ) ) ); QObject::connect ( &vecChannels[14], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh14 ( int ) ) ); QObject::connect ( &vecChannels[15], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh15 ( int ) ) ); QObject::connect ( &vecChannels[16], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh16 ( int ) ) ); QObject::connect ( &vecChannels[17], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh17 ( int ) ) ); QObject::connect ( &vecChannels[18], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh18 ( int ) ) ); QObject::connect ( &vecChannels[19], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh19 ( int ) ) ); QObject::connect ( &vecChannels[20], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh20 ( int ) ) ); QObject::connect ( &vecChannels[21], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh21 ( int ) ) ); QObject::connect ( &vecChannels[22], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh22 ( int ) ) ); QObject::connect ( &vecChannels[23], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh23 ( int ) ) ); QObject::connect ( &vecChannels[24], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh24 ( int ) ) ); QObject::connect ( &vecChannels[25], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh25 ( int ) ) ); QObject::connect ( &vecChannels[26], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh26 ( int ) ) ); QObject::connect ( &vecChannels[27], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh27 ( int ) ) ); QObject::connect ( &vecChannels[28], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh28 ( int ) ) ); QObject::connect ( &vecChannels[29], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh29 ( int ) ) ); QObject::connect ( &vecChannels[30], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh30 ( int ) ) ); QObject::connect ( &vecChannels[31], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh31 ( int ) ) ); QObject::connect ( &vecChannels[32], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh32 ( int ) ) ); QObject::connect ( &vecChannels[33], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh33 ( int ) ) ); QObject::connect ( &vecChannels[34], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh34 ( int ) ) ); QObject::connect ( &vecChannels[35], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh35 ( int ) ) ); QObject::connect ( &vecChannels[36], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh36 ( int ) ) ); QObject::connect ( &vecChannels[37], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh37 ( int ) ) ); QObject::connect ( &vecChannels[38], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh38 ( int ) ) ); QObject::connect ( &vecChannels[39], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh39 ( int ) ) ); QObject::connect ( &vecChannels[40], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh40 ( int ) ) ); QObject::connect ( &vecChannels[41], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh41 ( int ) ) ); QObject::connect ( &vecChannels[42], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh42 ( int ) ) ); QObject::connect ( &vecChannels[43], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh43 ( int ) ) ); QObject::connect ( &vecChannels[44], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh44 ( int ) ) ); QObject::connect ( &vecChannels[45], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh45 ( int ) ) ); QObject::connect ( &vecChannels[46], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh46 ( int ) ) ); QObject::connect ( &vecChannels[47], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh47 ( int ) ) ); QObject::connect ( &vecChannels[48], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh48 ( int ) ) ); QObject::connect ( &vecChannels[49], SIGNAL ( ServerAutoSockBufSizeChange ( int ) ), this, SLOT ( OnServerAutoSockBufSizeChangeCh49 ( int ) ) ); #endif // start the socket (it is important to start the socket after all // initializations and connections) Socket.Start(); } #if QT_VERSION >= QT_VERSION_CHECK(5, 0, 0) template inline void CServer::connectChannelSignalsToServerSlots() { int iCurChanID = slotId - 1; void ( CServer::* pOnSendProtMessCh )( CVector ) = &CServerSlots::OnSendProtMessCh; void ( CServer::* pOnReqConnClientsListCh )() = &CServerSlots::OnReqConnClientsListCh; void ( CServer::* pOnChatTextReceivedCh )( QString ) = &CServerSlots::OnChatTextReceivedCh; void ( CServer::* pOnServerAutoSockBufSizeChangeCh )( int ) = &CServerSlots::OnServerAutoSockBufSizeChangeCh; // send message QObject::connect ( &vecChannels[iCurChanID], &CChannel::MessReadyForSending, this, pOnSendProtMessCh ); // request connected clients list QObject::connect ( &vecChannels[iCurChanID], &CChannel::ReqConnClientsList, this, pOnReqConnClientsListCh ); // channel info has changed QObject::connect ( &vecChannels[iCurChanID], &CChannel::ChanInfoHasChanged, this, &CServer::CreateAndSendChanListForAllConChannels ); // chat text received QObject::connect ( &vecChannels[iCurChanID], &CChannel::ChatTextReceived, this, pOnChatTextReceivedCh ); // auto socket buffer size change QObject::connect ( &vecChannels[iCurChanID], &CChannel::ServerAutoSockBufSizeChange, this, pOnServerAutoSockBufSizeChangeCh ); connectChannelSignalsToServerSlots(); }; template<> inline void CServer::connectChannelSignalsToServerSlots<0>() {}; void CServer::CreateAndSendJitBufMessage ( const int iCurChanID, const int iNNumFra ) { vecChannels[iCurChanID].CreateJitBufMes ( iNNumFra ); } #endif void CServer::SendProtMessage ( int iChID, CVector vecMessage ) { // the protocol queries me to call the function to send the message // send it through the network Socket.SendPacket ( vecMessage, vecChannels[iChID].GetAddress() ); } void CServer::OnNewConnection ( int iChID, CHostAddress RecHostAddr ) { // in the special case that all clients shall be disconnected, just send the // disconnect message and leave this function if ( bDisconnectAllClients ) { ConnLessProtocol.CreateCLDisconnection ( RecHostAddr ); return; } // on a new connection we query the network transport properties for the // audio packets (to use the correct network block size and audio // compression properties, etc.) vecChannels[iChID].CreateReqNetwTranspPropsMes(); // this is a new connection, query the jitter buffer size we shall use // for this client (note that at the same time on a new connection the // client sends the jitter buffer size by default but maybe we have // reached a state where this did not happen because of network trouble, // client or server thinks that the connection was still active, etc.) vecChannels[iChID].CreateReqJitBufMes(); // logging of new connected channel Logging.AddNewConnection ( RecHostAddr.InetAddr ); // A new client connected to the server, the channel list // at all clients have to be updated. This is done by sending // a channel name request to the client which causes a channel // name message to be transmitted to the server. If the server // receives this message, the channel list will be automatically // updated (implicitely). // To make sure the protocol message is transmitted, the channel // first has to be marked as connected. // // Usually it is not required to send the channel list to the // client currently connecting since it automatically requests // the channel list on a new connection (as a result, he will // usually get the list twice which has no impact on functionality // but will only increase the network load a tiny little bit). But // in case the client thinks he is still connected but the server // was restartet, it is important that we send the channel list // at this place. vecChannels[iChID].ResetTimeOutCounter(); vecChannels[iChID].CreateReqChanInfoMes(); // COMPATIBILITY ISSUE // since old versions of the software did not implement the channel name // request message, we have to explicitely send the channel list here CreateAndSendChanListForAllConChannels(); // send welcome message (if enabled) if ( !strWelcomeMessage.isEmpty() ) { // create formated server welcome message and send it just to // the client which just connected to the server const QString strWelcomeMessageFormated = "Server Welcome Message: " + strWelcomeMessage; vecChannels[iChID].CreateChatTextMes ( strWelcomeMessageFormated ); } // send licence request message (if enabled) if ( eLicenceType != LT_NO_LICENCE ) { vecChannels[iChID].CreateLicReqMes ( eLicenceType ); } // reset the conversion buffers DoubleFrameSizeConvBufIn[iChID].Reset(); DoubleFrameSizeConvBufOut[iChID].Reset(); } void CServer::OnServerFull ( CHostAddress RecHostAddr ) { // inform the calling client that no channel is free ConnLessProtocol.CreateCLServerFullMes ( RecHostAddr ); } void CServer::OnSendCLProtMessage ( CHostAddress InetAddr, CVector vecMessage ) { // the protocol queries me to call the function to send the message // send it through the network Socket.SendPacket ( vecMessage, InetAddr ); } void CServer::OnProtcolCLMessageReceived ( int iRecID, CVector vecbyMesBodyData, CHostAddress RecHostAddr ) { // connection less messages are always processed ConnLessProtocol.ParseConnectionLessMessageBody ( vecbyMesBodyData, iRecID, RecHostAddr ); } void CServer::OnCLDisconnection ( CHostAddress InetAddr ) { // check if the given address is actually a client which is connected to // this server, if yes, disconnect it const int iCurChanID = FindChannel ( InetAddr ); if ( iCurChanID != INVALID_CHANNEL_ID ) { vecChannels[iCurChanID].Disconnect(); } } void CServer::Start() { // only start if not already running if ( !IsRunning() ) { // start timer HighPrecisionTimer.Start(); // emit start signal emit Started(); } } void CServer::Stop() { // Under Mac we have the problem that the timer shutdown might // take some time and therefore we get a lot of "server stopped" // entries in the log. The following condition shall prevent this. // For the other OSs this should not hurt either. if ( IsRunning() ) { // stop timer HighPrecisionTimer.Stop(); // logging (add "server stopped" logging entry) Logging.AddServerStopped(); // emit stopped signal emit Stopped(); } } QString CServer::GetRecordPath(){ return recordPath; } void CServer::OnTimer() { int i, j, iUnused; int iClientFrameSizeSamples; OpusCustomDecoder* CurOpusDecoder; OpusCustomEncoder* CurOpusEncoder; unsigned char* pCurCodedData; /* // TEST do a timer jitter measurement static CTimingMeas JitterMeas ( 1000, "test2.dat" ); JitterMeas.Measure(); */ // Get data from all connected clients ------------------------------------- // some inits int iNumClients = 0; // init connected client counter bool bChannelIsNowDisconnected = false; bool bSendChannelLevels = false; // Make put and get calls thread safe. Do not forget to unlock mutex // afterwards! Mutex.lock(); { // first, get number and IDs of connected channels for ( i = 0; i < iMaxNumChannels; i++ ) { if ( vecChannels[i].IsConnected() ) { // add ID and increment counter (note that the vector length is // according to the worst case scenario, if the number of // connected clients is less, only a subset of elements of this // vector are actually used and the others are dummy elements) vecChanIDsCurConChan[iNumClients] = i; iNumClients++; } } // process connected channels for ( i = 0; i < iNumClients; i++ ) { // get actual ID of current channel const int iCurChanID = vecChanIDsCurConChan[i]; // get and store number of audio channels and compression type vecNumAudioChannels[i] = vecChannels[iCurChanID].GetNumAudioChannels(); vecAudioComprType[i] = vecChannels[iCurChanID].GetAudioCompressionType(); // get info about required frame size conversion properties vecUseDoubleSysFraSizeConvBuf[i] = ( !bUseDoubleSystemFrameSize && ( vecAudioComprType[i] == CT_OPUS ) ); if ( bUseDoubleSystemFrameSize && ( vecAudioComprType[i] == CT_OPUS64 ) ) { vecNumFrameSizeConvBlocks[i] = 2; } else { vecNumFrameSizeConvBlocks[i] = 1; } // update conversion buffer size (nothing will happen if the size stays the same) if ( vecUseDoubleSysFraSizeConvBuf[i] ) { DoubleFrameSizeConvBufIn[iCurChanID].SetBufferSize ( DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i] ); DoubleFrameSizeConvBufOut[iCurChanID].SetBufferSize ( DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i] ); } // select the opus decoder and raw audio frame length if ( vecAudioComprType[i] == CT_OPUS ) { iClientFrameSizeSamples = DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES; if ( vecNumAudioChannels[i] == 1 ) { CurOpusDecoder = OpusDecoderMono[iCurChanID]; } else { CurOpusDecoder = OpusDecoderStereo[iCurChanID]; } } else if ( vecAudioComprType[i] == CT_OPUS64 ) { iClientFrameSizeSamples = SYSTEM_FRAME_SIZE_SAMPLES; if ( vecNumAudioChannels[i] == 1 ) { CurOpusDecoder = Opus64DecoderMono[iCurChanID]; } else { CurOpusDecoder = Opus64DecoderStereo[iCurChanID]; } } else { CurOpusDecoder = nullptr; } // get gains of all connected channels for ( j = 0; j < iNumClients; j++ ) { // The second index of "vecvecdGains" does not represent // the channel ID! Therefore we have to use // "vecChanIDsCurConChan" to query the IDs of the currently // connected channels vecvecdGains[i][j] = vecChannels[iCurChanID].GetGain ( vecChanIDsCurConChan[j] ); // consider audio fade-in vecvecdGains[i][j] *= vecChannels[vecChanIDsCurConChan[j]].GetFadeInGain(); } // If the server frame size is smaller than the received OPUS frame size, we need a conversion // buffer which stores the large buffer. // Note that we have a shortcut here. If the conversion buffer is not needed, the boolean flag // is false and the Get() function is not called at all. Therefore if the buffer is not needed // we do not spend any time in the function but go directly inside the if condition. if ( ( vecUseDoubleSysFraSizeConvBuf[i] == 0 ) || !DoubleFrameSizeConvBufIn[iCurChanID].Get ( vecvecsData[i], SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i] ) ) { // get current number of OPUS coded bytes const int iCeltNumCodedBytes = vecChannels[iCurChanID].GetNetwFrameSize(); for ( int iB = 0; iB < vecNumFrameSizeConvBlocks[i]; iB++ ) { // get data const EGetDataStat eGetStat = vecChannels[iCurChanID].GetData ( vecbyCodedData, iCeltNumCodedBytes ); // if channel was just disconnected, set flag that connected // client list is sent to all other clients // and emit the client disconnected signal if ( eGetStat == GS_CHAN_NOW_DISCONNECTED ) { if ( bEnableRecording ) { emit ClientDisconnected ( iCurChanID ); // TODO do this outside the mutex lock? } bChannelIsNowDisconnected = true; } // get pointer to coded data if ( eGetStat == GS_BUFFER_OK ) { pCurCodedData = &vecbyCodedData[0]; } else { // for lost packets use null pointer as coded input data pCurCodedData = nullptr; } // OPUS decode received data stream if ( CurOpusDecoder != nullptr ) { iUnused = opus_custom_decode ( CurOpusDecoder, pCurCodedData, iCeltNumCodedBytes, &vecvecsData[i][iB * SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i]], iClientFrameSizeSamples ); } } // a new large frame is ready, if the conversion buffer is required, put it in the buffer // and read out the small frame size immediately for further processing if ( vecUseDoubleSysFraSizeConvBuf[i] != 0 ) { DoubleFrameSizeConvBufIn[iCurChanID].PutAll ( vecvecsData[i] ); DoubleFrameSizeConvBufIn[iCurChanID].Get ( vecvecsData[i], SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i] ); } } } // a channel is now disconnected, take action on it if ( bChannelIsNowDisconnected ) { // update channel list for all currently connected clients CreateAndSendChanListForAllConChannels(); } } Mutex.unlock(); // release mutex // Process data ------------------------------------------------------------ // Check if at least one client is connected. If not, stop server until // one client is connected. if ( iNumClients > 0 ) { // low frequency updates if ( iFrameCount > CHANNEL_LEVEL_UPDATE_INTERVAL ) { iFrameCount = 0; // Calculate channel levels if any client has requested them for ( int i = 0; i < iNumClients; i++ ) { if ( vecChannels[vecChanIDsCurConChan[i]].ChannelLevelsRequired() ) { bSendChannelLevels = true; CreateLevelsForAllConChannels ( iNumClients, vecNumAudioChannels, vecvecsData, vecChannelLevels ); break; } } } iFrameCount++; if ( bUseDoubleSystemFrameSize ) { // additional increment needed for double frame size to get to the same time interval iFrameCount++; } for ( int i = 0; i < iNumClients; i++ ) { // get actual ID of current channel const int iCurChanID = vecChanIDsCurConChan[i]; // get number of audio channels of current channel const int iCurNumAudChan = vecNumAudioChannels[i]; // export the audio data for recording purpose if ( bEnableRecording ) { emit AudioFrame ( iCurChanID, vecChannels[iCurChanID].GetName(), vecChannels[iCurChanID].GetAddress(), iCurNumAudChan, vecvecsData[i] ); } // generate a sparate mix for each channel // actual processing of audio data -> mix ProcessData ( vecvecsData, vecvecdGains[i], vecNumAudioChannels, vecsSendData, iCurNumAudChan, iNumClients ); // get current number of CELT coded bytes const int iCeltNumCodedBytes = vecChannels[iCurChanID].GetNetwFrameSize(); // select the opus encoder and raw audio frame length if ( vecAudioComprType[i] == CT_OPUS ) { iClientFrameSizeSamples = DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES; if ( vecNumAudioChannels[i] == 1 ) { CurOpusEncoder = OpusEncoderMono[iCurChanID]; } else { CurOpusEncoder = OpusEncoderStereo[iCurChanID]; } } else if ( vecAudioComprType[i] == CT_OPUS64 ) { iClientFrameSizeSamples = SYSTEM_FRAME_SIZE_SAMPLES; if ( vecNumAudioChannels[i] == 1 ) { CurOpusEncoder = Opus64EncoderMono[iCurChanID]; } else { CurOpusEncoder = Opus64EncoderStereo[iCurChanID]; } } else { CurOpusEncoder = nullptr; } // If the server frame size is smaller than the received OPUS frame size, we need a conversion // buffer which stores the large buffer. // Note that we have a shortcut here. If the conversion buffer is not needed, the boolean flag // is false and the Get() function is not called at all. Therefore if the buffer is not needed // we do not spend any time in the function but go directly inside the if condition. if ( ( vecUseDoubleSysFraSizeConvBuf[i] == 0 ) || DoubleFrameSizeConvBufOut[iCurChanID].Put ( vecsSendData, SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i] ) ) { if ( vecUseDoubleSysFraSizeConvBuf[i] != 0 ) { // get the large frame from the conversion buffer DoubleFrameSizeConvBufOut[iCurChanID].GetAll ( vecsSendData, DOUBLE_SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i] ); } for ( int iB = 0; iB < vecNumFrameSizeConvBlocks[i]; iB++ ) { // OPUS encoding if ( CurOpusEncoder != nullptr ) { // TODO find a better place than this: the setting does not change all the time // so for speed optimization it would be better to set it only if the network // frame size is changed opus_custom_encoder_ctl ( CurOpusEncoder, OPUS_SET_BITRATE ( CalcBitRateBitsPerSecFromCodedBytes ( iCeltNumCodedBytes, iClientFrameSizeSamples ) ) ); iUnused = opus_custom_encode ( CurOpusEncoder, &vecsSendData[iB * SYSTEM_FRAME_SIZE_SAMPLES * vecNumAudioChannels[i]], iClientFrameSizeSamples, &vecbyCodedData[0], iCeltNumCodedBytes ); } // send separate mix to current clients vecChannels[iCurChanID].PrepAndSendPacket ( &Socket, vecbyCodedData, iCeltNumCodedBytes ); } // update socket buffer size vecChannels[iCurChanID].UpdateSocketBufferSize(); // send channel levels if ( bSendChannelLevels && vecChannels[iCurChanID].ChannelLevelsRequired() ) { ConnLessProtocol.CreateCLChannelLevelListMes ( vecChannels[iCurChanID].GetAddress(), vecChannelLevels, iNumClients ); } } } } else { // Disable server if no clients are connected. In this case the server // does not consume any significant CPU when no client is connected. Stop(); } Q_UNUSED ( iUnused ); } /// @brief Mix all audio data from all clients together. void CServer::ProcessData ( const CVector >& vecvecsData, const CVector& vecdGains, const CVector& vecNumAudioChannels, CVector& vecsOutData, const int iCurNumAudChan, const int iNumClients ) { int i, j, k; // init return vector with zeros since we mix all channels on that vector vecsOutData.Reset ( 0 ); // distinguish between stereo and mono mode if ( iCurNumAudChan == 1 ) { // Mono target channel ------------------------------------------------- for ( j = 0; j < iNumClients; j++ ) { // get a reference to the audio data and gain of the current client const CVector& vecsData = vecvecsData[j]; const double dGain = vecdGains[j]; // if channel gain is 1, avoid multiplication for speed optimization if ( dGain == static_cast ( 1.0 ) ) { if ( vecNumAudioChannels[j] == 1 ) { // mono for ( i = 0; i < iServerFrameSizeSamples; i++ ) { vecsOutData[i] = Double2Short ( static_cast ( vecsOutData[i] ) + vecsData[i] ); } } else { // stereo: apply stereo-to-mono attenuation for ( i = 0, k = 0; i < iServerFrameSizeSamples; i++, k += 2 ) { vecsOutData[i] = Double2Short ( vecsOutData[i] + ( static_cast ( vecsData[k] ) + vecsData[k + 1] ) / 2 ); } } } else { if ( vecNumAudioChannels[j] == 1 ) { // mono for ( i = 0; i < iServerFrameSizeSamples; i++ ) { vecsOutData[i] = Double2Short ( vecsOutData[i] + vecsData[i] * dGain ); } } else { // stereo: apply stereo-to-mono attenuation for ( i = 0, k = 0; i < iServerFrameSizeSamples; i++, k += 2 ) { vecsOutData[i] = Double2Short ( vecsOutData[i] + dGain * ( static_cast ( vecsData[k] ) + vecsData[k + 1] ) / 2 ); } } } } } else { // Stereo target channel ----------------------------------------------- for ( j = 0; j < iNumClients; j++ ) { // get a reference to the audio data and gain of the current client const CVector& vecsData = vecvecsData[j]; const double dGain = vecdGains[j]; // if channel gain is 1, avoid multiplication for speed optimization if ( dGain == static_cast ( 1.0 ) ) { if ( vecNumAudioChannels[j] == 1 ) { // mono: copy same mono data in both out stereo audio channels for ( i = 0, k = 0; i < iServerFrameSizeSamples; i++, k += 2 ) { // left channel vecsOutData[k] = Double2Short ( static_cast ( vecsOutData[k] ) + vecsData[i] ); // right channel vecsOutData[k + 1] = Double2Short ( static_cast ( vecsOutData[k + 1] ) + vecsData[i] ); } } else { // stereo for ( i = 0; i < ( 2 * iServerFrameSizeSamples ); i++ ) { vecsOutData[i] = Double2Short ( static_cast ( vecsOutData[i] ) + vecsData[i] ); } } } else { if ( vecNumAudioChannels[j] == 1 ) { // mono: copy same mono data in both out stereo audio channels for ( i = 0, k = 0; i < iServerFrameSizeSamples; i++, k += 2 ) { // left channel vecsOutData[k] = Double2Short ( vecsOutData[k] + vecsData[i] * dGain ); // right channel vecsOutData[k + 1] = Double2Short ( vecsOutData[k + 1] + vecsData[i] * dGain ); } } else { // stereo for ( i = 0; i < ( 2 * iServerFrameSizeSamples ); i++ ) { vecsOutData[i] = Double2Short ( vecsOutData[i] + vecsData[i] * dGain ); } } } } } } CVector CServer::CreateChannelList() { CVector vecChanInfo ( 0 ); // look for free channels for ( int i = 0; i < iMaxNumChannels; i++ ) { if ( vecChannels[i].IsConnected() ) { // append channel ID, IP address and channel name to storing vectors vecChanInfo.Add ( CChannelInfo ( i, // ID vecChannels[i].GetAddress().InetAddr.toIPv4Address(), // IP address vecChannels[i].GetChanInfo() ) ); } } return vecChanInfo; } void CServer::CreateAndSendChanListForAllConChannels() { // create channel list CVector vecChanInfo ( CreateChannelList() ); // now send connected channels list to all connected clients for ( int i = 0; i < iMaxNumChannels; i++ ) { if ( vecChannels[i].IsConnected() ) { // send message vecChannels[i].CreateConClientListMes ( vecChanInfo ); } } // create status HTML file if enabled if ( bWriteStatusHTMLFile ) { WriteHTMLChannelList(); } } void CServer::CreateAndSendChanListForThisChan ( const int iCurChanID ) { // create channel list CVector vecChanInfo ( CreateChannelList() ); // now send connected channels list to the channel with the ID "iCurChanID" vecChannels[iCurChanID].CreateConClientListMes ( vecChanInfo ); } void CServer::CreateAndSendChatTextForAllConChannels ( const int iCurChanID, const QString& strChatText ) { // Create message which is sent to all connected clients ------------------- // get client name, if name is empty, use IP address instead QString ChanName = vecChannels[iCurChanID].GetName(); if ( ChanName.isEmpty() ) { // convert IP address to text and show it ChanName = vecChannels[iCurChanID].GetAddress(). toString ( CHostAddress::SM_IP_NO_LAST_BYTE ); } // add time and name of the client at the beginning of the message text and // use different colors QString sCurColor = vstrChatColors[iCurChanID % vstrChatColors.Size()]; const QString strActualMessageText = "(" + QTime::currentTime().toString ( "hh:mm:ss AP" ) + ") " + ChanName + " " + strChatText; // Send chat text to all connected clients --------------------------------- for ( int i = 0; i < iMaxNumChannels; i++ ) { if ( vecChannels[i].IsConnected() ) { // send message vecChannels[i].CreateChatTextMes ( strActualMessageText ); } } } int CServer::GetFreeChan() { // look for a free channel for ( int i = 0; i < iMaxNumChannels; i++ ) { if ( !vecChannels[i].IsConnected() ) { return i; } } // no free channel found, return invalid ID return INVALID_CHANNEL_ID; } int CServer::GetNumberOfConnectedClients() { int iNumConnClients = 0; // check all possible channels for connection status for ( int i = 0; i < iMaxNumChannels; i++ ) { if ( vecChannels[i].IsConnected() ) { // this channel is connected, increment counter iNumConnClients++; } } return iNumConnClients; } int CServer::FindChannel ( const CHostAddress& CheckAddr ) { CHostAddress InetAddr; // check for all possible channels if IP is already in use for ( int i = 0; i < iMaxNumChannels; i++ ) { // the "GetAddress" gives a valid address and returns true if the // channel is connected if ( vecChannels[i].GetAddress ( InetAddr ) ) { // IP found, return channel number if ( InetAddr == CheckAddr ) { return i; } } } // IP not found, return invalid ID return INVALID_CHANNEL_ID; } void CServer::OnProtcolMessageReceived ( int iRecCounter, int iRecID, CVector vecbyMesBodyData, CHostAddress RecHostAddr ) { Mutex.lock(); { // find the channel with the received address const int iCurChanID = FindChannel ( RecHostAddr ); // if the channel exists, apply the protocol message to the channel if ( iCurChanID != INVALID_CHANNEL_ID ) { vecChannels[iCurChanID].PutProtcolData ( iRecCounter, iRecID, vecbyMesBodyData, RecHostAddr ); } } Mutex.unlock(); } bool CServer::PutAudioData ( const CVector& vecbyRecBuf, const int iNumBytesRead, const CHostAddress& HostAdr, int& iCurChanID ) { bool bNewConnection = false; // init return value bool bChanOK = true; // init with ok, might be overwritten Mutex.lock(); { // Get channel ID ------------------------------------------------------ // check address iCurChanID = FindChannel ( HostAdr ); if ( iCurChanID == INVALID_CHANNEL_ID ) { // a new client is calling, look for free channel iCurChanID = GetFreeChan(); if ( iCurChanID != INVALID_CHANNEL_ID ) { // initialize current channel by storing the calling host // address vecChannels[iCurChanID].SetAddress ( HostAdr ); // reset channel info vecChannels[iCurChanID].ResetInfo(); // reset the channel gains of current channel, at the same // time reset gains of this channel ID for all other channels for ( int i = 0; i < iMaxNumChannels; i++ ) { vecChannels[iCurChanID].SetGain ( i, 1.0 ); // other channels (we do not distinguish the case if // i == iCurChanID for simplicity) vecChannels[i].SetGain ( iCurChanID, 1.0 ); } } else { // no free channel available bChanOK = false; } } // Put received audio data in jitter buffer ---------------------------- if ( bChanOK ) { // put packet in socket buffer if ( vecChannels[iCurChanID].PutAudioData ( vecbyRecBuf, iNumBytesRead, HostAdr ) == PS_NEW_CONNECTION ) { // in case we have a new connection return this information bNewConnection = true; } } } Mutex.unlock(); // return the state if a new connection was happening return bNewConnection; } void CServer::GetConCliParam ( CVector& vecHostAddresses, CVector& vecsName, CVector& veciJitBufNumFrames, CVector& veciNetwFrameSizeFact ) { CHostAddress InetAddr; // init return values vecHostAddresses.Init ( iMaxNumChannels ); vecsName.Init ( iMaxNumChannels ); veciJitBufNumFrames.Init ( iMaxNumChannels ); veciNetwFrameSizeFact.Init ( iMaxNumChannels ); // check all possible channels for ( int i = 0; i < iMaxNumChannels; i++ ) { if ( vecChannels[i].GetAddress ( InetAddr ) ) { // get requested data vecHostAddresses[i] = InetAddr; vecsName[i] = vecChannels[i].GetName(); veciJitBufNumFrames[i] = vecChannels[i].GetSockBufNumFrames(); veciNetwFrameSizeFact[i] = vecChannels[i].GetNetwFrameSizeFact(); } } } void CServer::StartStatusHTMLFileWriting ( const QString& strNewFileName, const QString& strNewServerNameWithPort ) { // set important parameters strServerHTMLFileListName = strNewFileName; strServerNameWithPort = strNewServerNameWithPort; // set flag bWriteStatusHTMLFile = true; // write initial file WriteHTMLChannelList(); } void CServer::WriteHTMLChannelList() { // prepare file and stream QFile serverFileListFile ( strServerHTMLFileListName ); if ( !serverFileListFile.open ( QIODevice::WriteOnly | QIODevice::Text ) ) { return; } QTextStream streamFileOut ( &serverFileListFile ); streamFileOut << strServerNameWithPort << endl << "
    " << endl; // depending on number of connected clients write list if ( GetNumberOfConnectedClients() == 0 ) { // no clients are connected -> empty server streamFileOut << " No client connected" << endl; } else { // write entry for each connected client for ( int i = 0; i < iMaxNumChannels; i++ ) { if ( vecChannels[i].IsConnected() ) { QString strCurChanName = vecChannels[i].GetName(); // if text is empty, show IP address instead if ( strCurChanName.isEmpty() ) { // convert IP address to text and show it, remove last // digits strCurChanName = vecChannels[i].GetAddress(). toString ( CHostAddress::SM_IP_NO_LAST_BYTE ); } streamFileOut << "
  • " << strCurChanName << "
  • " << endl; } } } // finish list streamFileOut << "
" << endl; } void CServer::customEvent ( QEvent* pEvent ) { if ( pEvent->type() == QEvent::User + 11 ) { const int iMessType = ( (CCustomEvent*) pEvent )->iMessType; switch ( iMessType ) { case MS_PACKET_RECEIVED: // wake up the server if a packet was received // if the server is still running, the call to Start() will have // no effect Start(); break; } } } /// @brief Compute frame peak level for each client void CServer::CreateLevelsForAllConChannels ( const int iNumClients, const CVector& vecNumAudioChannels, const CVector > vecvecsData, CVector& vecLevelsOut ) { int i, j, k; // init return vector with zeros since we mix all channels on that vector vecLevelsOut.Reset ( 0 ); for ( j = 0; j < iNumClients; j++ ) { // get a reference to the audio data const CVector& vecsData = vecvecsData[j]; double dCurLevel = 0.0; if ( vecNumAudioChannels[j] == 1 ) { // mono for ( i = 0; i < iServerFrameSizeSamples; i += 3 ) { dCurLevel = std::max ( dCurLevel, fabs ( static_cast ( vecsData[i] ) ) ); } } else { // stereo: apply stereo-to-mono attenuation for ( i = 0, k = 0; i < iServerFrameSizeSamples; i += 3, k += 6 ) { double sMix = ( static_cast ( vecsData[k] ) + vecsData[k + 1] ) / 2; dCurLevel = std::max ( dCurLevel, fabs ( sMix ) ); } } // smoothing const int iChId = vecChanIDsCurConChan[j]; dCurLevel = std::max ( dCurLevel, vecChannels[iChId].GetPrevLevel() * 0.5 ); vecChannels[iChId].SetPrevLevel ( dCurLevel ); // logarithmic measure double dCurSigLevel = CStereoSignalLevelMeter::CalcLogResult ( dCurLevel ); // map to signal level meter dCurSigLevel -= LOW_BOUND_SIG_METER; dCurSigLevel *= NUM_STEPS_LED_BAR / ( UPPER_BOUND_SIG_METER - LOW_BOUND_SIG_METER ); if ( dCurSigLevel < 0 ) { dCurSigLevel = 0; } vecLevelsOut[j] = static_cast ( ceil ( dCurSigLevel ) ); } }