// // File : voice.cpp // Creation date : Thu Aug 23 04:08:09 2001 GMT by Szymon Stefanek // // This file is part of the KVirc irc client distribution // Copyright (C) 2001 Szymon Stefanek (pragma at kvirc dot net) // // 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 opinion) 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. ,51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // #include "voice.h" #include "marshal.h" #include "broker.h" #include "kvi_settings.h" #include "kvi_iconmanager.h" #include "kvi_ircview.h" #include "kvi_locale.h" #include "kvi_out.h" #include "kvi_error.h" #include "kvi_netutils.h" #include "kvi_options.h" #include "kvi_console.h" #include "kvi_malloc.h" #include "kvi_socket.h" #include "kvi_ircconnection.h" #include "adpcmcodec.h" #include "gsmcodec.h" #include #include #include "kvi_tal_vbox.h" #include #include #ifndef COMPILE_ON_WINDOWS #include #include #include #include #include //#include "kvi_error.h" #include // for open() #include // for ioctl() #endif //!COMPILE_ON_WIDNOWS extern KviDccBroker * g_pDccBroker; //Check for the *SS Api....we don't want to fail here... #ifndef COMPILE_DISABLE_DCC_VOICE #ifdef HAVE_LINUX_SOUNDCARD_H #include #else #ifdef HAVE_SYS_SOUNDCARD_H #include #else #ifdef HAVE_SOUNDCARD_H #include #else //CAN NOT COMPILE :( #define COMPILE_DISABLE_DCC_VOICE #ifndef COMPILE_ON_WINDOWS #warning "Cannot find the soundcard.h header; you will NOT be able to use DCC Voice" #endif #endif #endif #endif #endif //#define KVI_AUDIO_DEVICE "/dev/dsp" // 32 fragments , 512 bytes #define KVI_SNDCTL_FRAG_SIZE 0x00B00009 #define KVI_FRAGMENT_SIZE_IN_BYTES 512 #define KVI_FORMAT AFMT_S16_LE #define KVI_NUM_CHANNELS 1 bool kvi_dcc_voice_is_valid_codec(const char * codecName) { #ifdef COMPILE_USE_GSM if(kvi_strEqualCI("gsm",codecName)) { return kvi_gsm_codec_init(); } #endif if(kvi_strEqualCI("adpcm",codecName))return true; if(kvi_strEqualCI("null",codecName))return true; return false; } static KviDccVoiceCodec * kvi_dcc_voice_get_codec(const char * codecName) { #ifdef COMPILE_USE_GSM if(kvi_strEqualCI("gsm",codecName)) { if(kvi_gsm_codec_init())return new KviDccVoiceGsmCodec(); } #endif if(kvi_strEqualCI("adpcm",codecName))return new KviDccVoiceAdpcmCodec(); if(kvi_strEqualCI("null",codecName))return new KviDccVoiceNullCodec(); return new KviDccVoiceAdpcmCodec(); } KviDccVoiceThread::KviDccVoiceThread(KviWindow * wnd,kvi_socket_t fd,KviDccVoiceThreadOptions * opt) : KviDccThread(TQT_TQOBJECT(wnd),fd) { #ifndef COMPILE_DISABLE_DCC_VOICE m_pOpt = opt; m_bPlaying = false; m_bRecording = false; m_bSoundcardChecked = false; m_soundFd = -1; m_soundFdMode = 0; m_pInfoMutex = new KviMutex(); m_bRecordingRequestPending = false; #endif } KviDccVoiceThread::~KviDccVoiceThread() { #ifndef COMPILE_DISABLE_DCC_VOICE delete m_pOpt->pCodec; delete m_pOpt; delete m_pInfoMutex; #endif } bool KviDccVoiceThread::checkSoundcard() { #ifdef COMPILE_DISABLE_DCC_VOICE return false; #else bool bOpened = false; if(m_soundFd == -1) { if(!openSoundcard(O_RDONLY))return false; bOpened = true; } int caps; m_bSoundcardChecked = true; if(ioctl(m_soundFd,SNDCTL_DSP_GETCAPS,&caps) < 0) { postMessageEvent(__tr2qs_ctx("WARNING: failed to check the soundcard duplex capabilities: if this is a half-duplex soundcard , use the DCC VOICE option to force half-duplex algorithm","dcc")); if(bOpened)closeSoundcard(); return false; } if(!(caps & DSP_CAP_DUPLEX)) { m_pOpt->bForceHalfDuplex = true; // the device is half duplex...use it in that way postMessageEvent(__tr2qs_ctx("Half duplex soundcard detected, you will not be able to talk and listen at the same time","dcc")); } if(bOpened)closeSoundcard(); return true; #endif } bool KviDccVoiceThread::openSoundcard(int mode) { #ifdef COMPILE_DISABLE_DCC_VOICE return false; #else int speed = m_pOpt->iSampleRate; static int chans=KVI_NUM_CHANNELS; static int fmt=KVI_FORMAT; static int frag = KVI_SNDCTL_FRAG_SIZE; if(m_soundFd != -1) { if(m_soundFdMode == mode)return true; // already open closeSoundcard(); } m_soundFd = ::open(m_pOpt->szSoundDevice.ptr(),mode | O_NONBLOCK); if(m_soundFd < 0)return false; if(!m_pOpt->bForceHalfDuplex) { if(ioctl(m_soundFd,SNDCTL_DSP_SETDUPLEX,0) < 0)goto exit_false; } if(ioctl(m_soundFd,SNDCTL_DSP_SETFRAGMENT,&frag)<0)goto exit_false; if(ioctl(m_soundFd,SNDCTL_DSP_SETFMT,&fmt)<0)goto exit_false; if(ioctl(m_soundFd,SNDCTL_DSP_CHANNELS,&chans)<0)goto exit_false; if(ioctl(m_soundFd,SNDCTL_DSP_SPEED,&speed)<0)goto exit_false; if(speed != m_pOpt->iSampleRate) { KviStr tmp(KviStr::Format,__tr2qs_ctx("WARNING: failed to set the requested sample rate (%d): the device used closest match (%d)","dcc"), m_pOpt->iSampleRate,speed); postMessageEvent(tmp.ptr()); } // TODO: #warning "We could also support blocking operations mode" m_soundFdMode = mode; return true; exit_false: closeSoundcard(); return false; #endif } bool KviDccVoiceThread::openSoundcardForWriting() { #ifndef COMPILE_DISABLE_DCC_VOICE return openSoundcardWithDuplexOption(O_WRONLY,O_RDONLY); #else return false; #endif } bool KviDccVoiceThread::openSoundcardForReading() { #ifndef COMPILE_DISABLE_DCC_VOICE return openSoundcardWithDuplexOption(O_RDONLY,O_WRONLY); #else return false; #endif } bool KviDccVoiceThread::openSoundcardWithDuplexOption(int openMode,int failMode) { #ifndef COMPILE_DISABLE_DCC_VOICE if(m_soundFd == -1) { // soundcard not open yet...open for write (at least) if(m_pOpt->bForceHalfDuplex) { // Forcing half duplex... (user option or the card does not support full duplex mode) if(!openSoundcard(openMode))return false; } else { // Try read/write open if(!openSoundcard(O_RDWR)) { // half-duplex sound card ? if(!m_bSoundcardChecked) { // We haven't checked the full-duplex support yet... // Try to open in RDONLY o WRONLY mode if(!openSoundcard(openMode))return false; if(!checkSoundcard()) { postMessageEvent(__tr2qs_ctx("Ops...failed to test the soundcard capabilities...expect problems...","dcc")); } } // else the test has been done and it is a full duplex card that is just busy } } } else { // Hmmm...already open // If it is open in O_RDWR or O_WRONLY mode...it is ok for us // but if it is open in O_RDONLY mode...we can do nothing...just wait return (m_soundFdMode != failMode); } return true; #else return false; #endif } void KviDccVoiceThread::closeSoundcard() { #ifndef COMPILE_DISABLE_DCC_VOICE if(m_soundFd != -1) { ::close(m_soundFd); m_soundFd = -1; m_soundFdMode = 0; } #endif } bool KviDccVoiceThread::readWriteStep() { #ifndef COMPILE_DISABLE_DCC_VOICE // Socket management bool bCanRead; bool bCanWrite; if(kvi_select(m_fd,&bCanRead,&bCanWrite)) { if(bCanRead) { unsigned int actualSize = m_inFrameBuffer.size(); m_inFrameBuffer.resize(actualSize + 1024); int readLen = kvi_socket_recv(m_fd,(void *)(m_inFrameBuffer.data() + actualSize),1024); if(readLen > 0) { if(readLen < 1024)m_inFrameBuffer.resize(actualSize + readLen); m_pOpt->pCodec->decode(&m_inFrameBuffer,&m_inSignalBuffer); //#warning "A maximum length for the signal buffer is actually needed!!!" } else { if(!handleInvalidSocketRead(readLen))return false; m_inFrameBuffer.resize(actualSize); } }// else { // m_uSleepTime += 100; //} if(bCanWrite) { // Have somethihg to write ? if(m_outFrameBuffer.size() > 0) { int written = kvi_socket_send(m_fd,m_outFrameBuffer.data(),m_outFrameBuffer.size()); if(written > 0) { m_outFrameBuffer.remove(written); } else { if(!handleInvalidSocketRead(written))return false; } }// else { // m_uSleepTime += 100; // } }// else { // m_uSleepTime += 100; // } //#warning "Usleep here ?" }// else { // if(!(m_bPlaying || m_bRecording)) // { // // Really NOTHING is happening...sleep a bit more // m_uSleepTime += 800; // } else { // m_uSleepTime += 100; // } // } #endif // !COMPILE_DISABLE_DCC_VOICE return true; } bool KviDccVoiceThread::soundStep() { #ifndef COMPILE_DISABLE_DCC_VOICE // Are we playing ? if(m_bPlaying) { // Do we have something to write ? audio_buf_info info; if(m_inSignalBuffer.size() > 0) { // Get the number of fragments that can be written to the soundcard without blocking if(ioctl(m_soundFd,SNDCTL_DSP_GETOSPACE,&info) < 0) { tqDebug("get o space failed"); info.bytes = KVI_FRAGMENT_SIZE_IN_BYTES; // dummy... if this is not correct...well...we will block for 1024/16000 of a sec info.fragments = 1; info.fragsize = KVI_FRAGMENT_SIZE_IN_BYTES; } if(info.fragments > 0) { int toWrite = info.fragments * info.fragsize; //tqDebug("Can write %d bytes",toWrite); if(m_inSignalBuffer.size() < toWrite)toWrite = m_inSignalBuffer.size(); int written = write(m_soundFd,m_inSignalBuffer.data(),toWrite); if(written > 0)m_inSignalBuffer.remove(written); else { //#warning "Do something for -1 here ?" //#warning "Usleep ?" } } //else { // No stuff can be written...we are running too fast ? // m_uSleepTime += 100; // sleep for a while //} } else { // hmmmm....playing , but nothing to write , possible underrun or EOF // a nice idea would be to use SNDCTL_DSP_GETODELAY here... // but it appears to be broken on some audio devices if(ioctl(m_soundFd,SNDCTL_DSP_GETOSPACE,&info) < 0)info.fragstotal = info.fragments; // dummy...but what should we do ? if(info.fragstotal == info.fragments) { // underrun or EOF: close the device stopPlaying(); } } } else { // do we have anything to play ? if(m_inSignalBuffer.size() > 0) { if(m_inSignalBuffer.size() >= m_pOpt->iPreBufferSize) { // yep...stuff to play... open the soundcard , if possible startPlaying(); m_iLastSignalBufferSize = m_inSignalBuffer.size(); } else { // have stuff to play , but it's not enough to fill the pre-buffer // struct timeval tv; gettimeofday(&tv,0); long int sigBufferTime = (tv.tv_sec * 1000) + (tv.tv_usec / 1000); if(m_inSignalBuffer.size() == m_iLastSignalBufferSize) { // the same signal buffer size... check the time // m_pOpt->iPreBufferSize / 16 gives us the preBufferTime in msecs // we calc the remaining preBufferTime by subtracting the // size of buffer already filled and we also add 50 milliseconds... smart heuristic int preBufferTime = ((m_pOpt->iPreBufferSize - m_iLastSignalBufferSize) / 16) + 50; // if the buffer size hasn't changed since preBufferTime // it's time to start playing anyway, since there is // either a network stall or it was just a really short data stream if((sigBufferTime - m_iLastSignalBufferTime) > preBufferTime) { startPlaying(); if(m_bPlaying)m_iLastSignalBufferSize = 0; } } else { // signal buffer size differs...we have received new packets // and still pre-buffering m_iLastSignalBufferSize = m_inSignalBuffer.size(); m_iLastSignalBufferTime = sigBufferTime; } } } } // Are we recording ? if(m_bRecording) { fd_set rs; FD_ZERO(&rs); FD_SET(m_soundFd,&rs); struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 10; int ret = select(m_soundFd + 1,&rs,0,0,&tv); if(ret > 0) { // This is rather easy... audio_buf_info info; if(ioctl(m_soundFd,SNDCTL_DSP_GETISPACE,&info) < 0) { tqDebug("Ispace failed"); info.fragments = 0; // dummy... info.bytes = 0; } //tqDebug("INFO: fragments: %d, fragstotal: %d, fragsize: %d, bytes: %d",info.fragments,info.fragstotal,info.fragsize,info.bytes); if(info.fragments == 0 && info.bytes == 0) { // force a dummy read: the device needs to be triggered info.fragments = 1; } if(info.fragments > 0) { int oldSize = m_outSignalBuffer.size(); int available = info.fragments * info.fragsize; m_outSignalBuffer.addSize(available); int readed = read(m_soundFd,m_outSignalBuffer.data() + oldSize,available); if(readed < available) { // huh ? ...error ? if(readed >= 0)m_outSignalBuffer.resize(oldSize + readed); else { if((errno == EINTR) || (errno == EAGAIN)) { m_outSignalBuffer.resize(oldSize); } else { //#warning "Critical error...do something reasonable!" m_outSignalBuffer.resize(oldSize); } } } /* tqDebug("Signal buffer:"); for(int i=0;i<200;i+=2) { if(i >= m_outSignalBuffer.size())break; printf("%04x ",*(((unsigned short *)(m_outSignalBuffer.data() + i)))); if((i % 6) == 0)printf("\n"); } tqDebug("END\n"); */ m_pOpt->pCodec->encode(&m_outSignalBuffer,&m_outFrameBuffer); } }// else { // Nothing to read // m_uSleepTime += 100; // } } #endif // !COMPILE_DISABLE_DCC_VOICE return true; } void KviDccVoiceThread::startRecording() { #ifndef COMPILE_DISABLE_DCC_VOICE //tqDebug("Start recording"); if(m_bRecording)return; // already started if(openSoundcardForReading()) { // tqDebug("Posting event"); KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_ACTION); e->setData(new int(KVI_DCC_VOICE_THREAD_ACTION_START_RECORDING)); postEvent(parent(),e); m_bRecording = true; m_bRecordingRequestPending = false; } else { m_bRecordingRequestPending = true; } #endif } void KviDccVoiceThread::stopRecording() { #ifndef COMPILE_DISABLE_DCC_VOICE //tqDebug("Stop recording"); m_bRecordingRequestPending = false; if(!m_bRecording)return; // already stopped KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_ACTION); e->setData(new int(KVI_DCC_VOICE_THREAD_ACTION_STOP_RECORDING)); postEvent(parent(),e); m_bRecording = false; if(!m_bPlaying)closeSoundcard(); #endif } void KviDccVoiceThread::startPlaying() { #ifndef COMPILE_DISABLE_DCC_VOICE //tqDebug("Start playing"); if(m_bPlaying)return; if(openSoundcardForWriting()) { KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_ACTION); e->setData(new int(KVI_DCC_VOICE_THREAD_ACTION_START_PLAYING)); postEvent(parent(),e); m_bPlaying = true; } #endif } void KviDccVoiceThread::stopPlaying() { #ifndef COMPILE_DISABLE_DCC_VOICE //tqDebug("Stop playing"); if(!m_bPlaying)return; KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_ACTION); e->setData(new int(KVI_DCC_VOICE_THREAD_ACTION_STOP_PLAYING)); postEvent(parent(),e); m_bPlaying = false; if(!m_bRecording)closeSoundcard(); #endif } void KviDccVoiceThread::run() { #ifndef COMPILE_DISABLE_DCC_VOICE for(;;) { // m_uSleepTime = 0; // Dequeue events while(KviThreadEvent * e = dequeueEvent()) { if(e->id() == KVI_THREAD_EVENT_TERMINATE) { delete e; goto exit_dcc; } else if(e->id() == KVI_DCC_THREAD_EVENT_ACTION) { int * act = ((KviThreadDataEvent *)e)->getData(); if(*act)startRecording(); else stopRecording(); delete act; delete e; } else { // Other events are senseless to us delete e; } } if(!readWriteStep())goto exit_dcc; if(!soundStep())goto exit_dcc; m_pInfoMutex->lock(); m_iInputBufferSize = m_inSignalBuffer.size(); m_iOutputBufferSize = (m_outFrameBuffer.size() / m_pOpt->pCodec->encodedFrameSize()) * m_pOpt->pCodec->decodedFrameSize(); m_pInfoMutex->unlock(); // Actually the maximum that we can sleep here is // around 500 usecs... = 0.0005 sec -> 8 bytes at 8 KHz // if(m_uSleepTime)usleep(m_uSleepTime); // Start recording if the request was not fulfilled yet if(m_bRecordingRequestPending)startRecording(); } exit_dcc: #endif //! COMPILE_DISABLE_DCC_VOICE closeSoundcard(); kvi_socket_close(m_fd); m_fd = KVI_INVALID_SOCKET; } KviDccVoice::KviDccVoice(KviFrame *pFrm,KviDccDescriptor * dcc,const char * name) : KviDccWindow(KVI_WINDOW_TYPE_DCCVOICE,pFrm,name,dcc) { m_pDescriptor = dcc; m_pSlaveThread = 0; m_pSplitter = new TQSplitter(Qt::Horizontal,this,"splitter"); m_pIrcView = new KviIrcView(m_pSplitter,pFrm,this); m_pHBox = new KviTalHBox(this); KviTalVBox * vbox = new KviTalVBox(m_pHBox); m_pInputLabel = new TQLabel(__tr2qs_ctx("Input buffer","dcc"),vbox); m_pInputLabel->setFrameStyle(TQFrame::Sunken | TQFrame::Panel); m_pOutputLabel = new TQLabel(__tr2qs_ctx("Output buffer","dcc"),vbox); m_pOutputLabel->setFrameStyle(TQFrame::Sunken | TQFrame::Panel); vbox->setSpacing(1); KviTalVBox * vbox2 = new KviTalVBox(m_pHBox); m_pRecordingLabel = new TQLabel(vbox2); m_pRecordingLabel->setPixmap(*(g_pIconManager->getSmallIcon(KVI_SMALLICON_RECORD))); m_pRecordingLabel->setEnabled(false); m_pRecordingLabel->setFrameStyle(TQFrame::Raised | TQFrame::Panel); m_pPlayingLabel = new TQLabel(vbox2); m_pPlayingLabel->setPixmap(*(g_pIconManager->getSmallIcon(KVI_SMALLICON_PLAY))); m_pPlayingLabel->setEnabled(false); m_pPlayingLabel->setFrameStyle(TQFrame::Raised | TQFrame::Panel); vbox2->setSpacing(1); //#warning "The volume slider should be enabled only when receiving data" m_pVolumeSlider = new TQSlider(-100, 0, 10, 0, Qt::Vertical, m_pHBox, "dcc_voice_volume_slider"); m_pVolumeSlider->setValue(getMixerVolume()); /* Update the tooltip */ setMixerVolume(m_pVolumeSlider->value()); m_pVolumeSlider->setMaximumWidth(16); m_pVolumeSlider->setMaximumHeight(2*m_pPlayingLabel->height()); connect(m_pVolumeSlider, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(setMixerVolume(int))); m_pTalkButton = new TQToolButton(m_pHBox); m_pTalkButton->setEnabled(false); m_pTalkButton->setToggleButton(true); TQIconSet iset; iset.setPixmap(*(g_pIconManager->getBigIcon(KVI_BIGICON_DISCONNECTED)),TQIconSet::Large,TQIconSet::Normal,TQIconSet::Off); iset.setPixmap(*(g_pIconManager->getBigIcon(KVI_BIGICON_CONNECTED)),TQIconSet::Large,TQIconSet::Normal,TQIconSet::On); m_pTalkButton->setIconSet(iset); m_pTalkButton->setUsesBigPixmap(true); connect(m_pTalkButton,TQT_SIGNAL(toggled(bool)),this,TQT_SLOT(startOrStopTalking(bool))); m_pHBox->setStretchFactor(vbox,1); m_pHBox->setMargin(2); m_pHBox->setSpacing(1); //setFocusHandler(m_pIrcView,this); m_pMarshal = new KviDccMarshal(this); connect(m_pMarshal,TQT_SIGNAL(error(int)),this,TQT_SLOT(handleMarshalError(int))); connect(m_pMarshal,TQT_SIGNAL(connected()),this,TQT_SLOT(connected())); connect(m_pMarshal,TQT_SIGNAL(inProgress()),this,TQT_SLOT(connectionInProgress())); m_pUpdateTimer = new TQTimer(); startConnection(); } KviDccVoice::~KviDccVoice() { g_pDccBroker->unregisterDccWindow(this); if(m_pSlaveThread) { m_pSlaveThread->terminate(); delete m_pSlaveThread; m_pSlaveThread = 0; } KviThreadManager::killPendingEvents(TQT_TQOBJECT(this)); delete m_pUpdateTimer; // delete m_pDescriptor; // delete m_pMarshal; } void KviDccVoice::startConnection() { if(!(m_pDescriptor->bActive)) { // PASSIVE CONNECTION output(KVI_OUT_DCCMSG,__tr2qs_ctx("Attempting a passive DCC VOICE connection","dcc")); int ret = m_pMarshal->dccListen(m_pDescriptor->szListenIp,m_pDescriptor->szListenPort,m_pDescriptor->bDoTimeout); if(ret != KviError_success)handleMarshalError(ret); } else { // ACTIVE CONNECTION output(KVI_OUT_DCCMSG,__tr2qs_ctx("Attempting an active DCC VOICE connection","dcc")); int ret = m_pMarshal->dccConnect(m_pDescriptor->szIp.utf8().data(),m_pDescriptor->szPort.utf8().data(),m_pDescriptor->bDoTimeout); if(ret != KviError_success)handleMarshalError(ret); } } void KviDccVoice::connectionInProgress() { if(m_pDescriptor->bActive) { output(KVI_OUT_DCCMSG,__tr2qs_ctx("Contacting host %Q on port %Q","dcc"),&(m_pDescriptor->szIp),&(m_pDescriptor->szPort)); } else { output(KVI_OUT_DCCMSG,__tr2qs_ctx("Listening on interface %Q port %Q","dcc"), &(m_pMarshal->localIp()),&(m_pMarshal->localPort())); if(m_pDescriptor->bSendRequest) { KviStr ip = !m_pDescriptor->szFakeIp.isEmpty() ? m_pDescriptor->szFakeIp : m_pDescriptor->szListenIp; KviStr port = !m_pDescriptor->szFakePort.isEmpty() ? m_pDescriptor->szFakePort : m_pMarshal->localPort(); //#warning "OPTION FOR SENDING 127.0.0.1 and so on (not an unsigned nuumber)" struct in_addr a; if(kvi_stringIpToBinaryIp(ip.ptr(),&a))ip.setNum(htonl(a.s_addr)); m_pDescriptor->console()->connection()->sendFmtData("PRIVMSG %s :%cDCC VOICE %s %s %s %d%c", m_pDescriptor->console()->connection()->encodeText(m_pDescriptor->szNick).data(), 0x01,m_pDescriptor->szCodec.ptr(), ip.ptr(),port.ptr(),m_pDescriptor->iSampleRate,0x01); output(KVI_OUT_DCCMSG,__tr2qs_ctx("Sent DCC VOICE (%s) request to %Q, waiting for the remote client to connect...","dcc"), m_pDescriptor->szCodec.ptr(),&(m_pDescriptor->szNick)); } else output(KVI_OUT_DCCMSG,__tr2qs_ctx("DCC VOICE request not sent: awaiting manual connections","dcc")); } } const TQString & KviDccVoice::target() { // This may change on the fly... m_szTarget.sprintf("%s@%s:%s", m_pDescriptor->szNick.utf8().data(),m_pDescriptor->szIp.utf8().data(),m_pDescriptor->szPort.utf8().data()); return m_szTarget; } void KviDccVoice::getBaseLogFileName(KviStr &buffer) { buffer.sprintf("dccvoice_%s_%s_%s",m_pDescriptor->szNick.utf8().data(),m_pDescriptor->szLocalFileName.utf8().data(),m_pDescriptor->szPort.utf8().data()); } void KviDccVoice::fillCaptionBuffers() { KviStr tmp(KviStr::Format,"DCC Voice %s@%s:%s %s", m_pDescriptor->szNick.utf8().data(),m_pDescriptor->szIp.utf8().data(),m_pDescriptor->szPort.utf8().data(), m_pDescriptor->szLocalFileName.utf8().data()); m_szPlainTextCaption = tmp; m_szHtmlActiveCaption.sprintf("%s", TQString(KVI_OPTION_COLOR(KviOption_colorCaptionTextActive).name()).ascii(),tmp.ptr()); m_szHtmlInactiveCaption.sprintf("%s", TQString(KVI_OPTION_COLOR(KviOption_colorCaptionTextInactive).name()).ascii(),tmp.ptr()); } TQPixmap * KviDccVoice::myIconPtr() { return g_pIconManager->getSmallIcon(KVI_SMALLICON_DCCVOICE); } bool KviDccVoice::event(TQEvent *e) { if(e->type() == KVI_THREAD_EVENT) { switch(((KviThreadEvent *)e)->id()) { case KVI_DCC_THREAD_EVENT_ERROR: { int * err = ((KviThreadDataEvent *)e)->getData(); TQString ssss = KviError::getDescription(*err); output(KVI_OUT_DCCERROR,__tr2qs_ctx("ERROR: %Q","dcc"),&(ssss)); delete err; m_pUpdateTimer->stop(); updateInfo(); m_pTalkButton->setEnabled(false); m_pRecordingLabel->setEnabled(false); m_pPlayingLabel->setEnabled(false); return true; } break; case KVI_DCC_THREAD_EVENT_MESSAGE: { KviStr * str = ((KviThreadDataEvent *)e)->getData(); outputNoFmt(KVI_OUT_DCCMSG,__tr_no_xgettext_ctx(str->ptr(),"dcc")); delete str; return true; } break; case KVI_DCC_THREAD_EVENT_ACTION: { int * act = ((KviThreadDataEvent *)e)->getData(); switch(*act) { case KVI_DCC_VOICE_THREAD_ACTION_START_RECORDING: m_pRecordingLabel->setEnabled(true); break; case KVI_DCC_VOICE_THREAD_ACTION_STOP_RECORDING: m_pRecordingLabel->setEnabled(false); break; case KVI_DCC_VOICE_THREAD_ACTION_START_PLAYING: m_pPlayingLabel->setEnabled(true); break; case KVI_DCC_VOICE_THREAD_ACTION_STOP_PLAYING: m_pPlayingLabel->setEnabled(false); break; } delete act; return true; } break; default: tqDebug("Invalid event type %d received",((KviThreadEvent *)e)->id()); break; } } return KviWindow::event(e); } void KviDccVoice::updateInfo() { if(m_pSlaveThread) { m_pSlaveThread->m_pInfoMutex->lock(); int iOSize = m_pSlaveThread->m_iOutputBufferSize; int iISize = m_pSlaveThread->m_iInputBufferSize; m_pSlaveThread->m_pInfoMutex->unlock(); KviStr tmp(KviStr::Format,__tr_ctx("Input buffer: %d bytes","dcc"),iISize); m_pInputLabel->setText(tmp.ptr()); tmp.sprintf(__tr_ctx("Output buffer: %d bytes","dcc"),iOSize); m_pOutputLabel->setText(tmp.ptr()); } } void KviDccVoice::resizeEvent(TQResizeEvent *e) { int hght2 = m_pHBox->sizeHint().height(); m_pHBox->setGeometry(0,0,width(),hght2); m_pSplitter->setGeometry(0,hght2,width(),height() - hght2); } TQSize KviDccVoice::sizeHint() const { int w = m_pIrcView->sizeHint().width(); int w2 = m_pHBox->sizeHint().width(); TQSize ret(w > w2 ? w : w2, m_pIrcView->sizeHint().height() + m_pHBox->sizeHint().height()); return ret; } void KviDccVoice::handleMarshalError(int err) { TQString ssss = KviError::getDescription(err); output(KVI_OUT_DCCERROR,__tr2qs_ctx("DCC Failed: %Q","dcc"),&ssss); m_pTalkButton->setEnabled(false); m_pTalkButton->setOn(false); m_pRecordingLabel->setEnabled(false); m_pPlayingLabel->setEnabled(false); } void KviDccVoice::connected() { output(KVI_OUT_DCCMSG,__tr2qs_ctx("Connected to %Q:%Q","dcc"), &(m_pMarshal->remoteIp()),&(m_pMarshal->remotePort())); output(KVI_OUT_DCCMSG,__tr2qs_ctx("Local end is %Q:%Q","dcc"), &(m_pMarshal->localIp()),&(m_pMarshal->localPort())); if(!(m_pDescriptor->bActive)) { m_pDescriptor->szIp = m_pMarshal->remoteIp(); m_pDescriptor->szPort = m_pMarshal->remotePort(); m_pDescriptor->szHost = m_pMarshal->remoteIp(); } updateCaption(); connect(m_pUpdateTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(updateInfo())); m_pUpdateTimer->start(1000); KviDccVoiceThreadOptions * opt = new KviDccVoiceThreadOptions; opt->pCodec = kvi_dcc_voice_get_codec(m_pDescriptor->szCodec.ptr()); output(KVI_OUT_DCCMSG,__tr2qs_ctx("Actual codec used is '%s'","dcc"),opt->pCodec->name()); opt->bForceHalfDuplex = KVI_OPTION_BOOL(KviOption_boolDccVoiceForceHalfDuplex); // opt->bForceDummyReadTrigger = false; opt->iPreBufferSize = KVI_OPTION_UINT(KviOption_uintDccVoicePreBufferSize); opt->szSoundDevice = KVI_OPTION_STRING(KviOption_stringDccVoiceSoundDevice).utf8().data(); opt->iSampleRate = m_pDescriptor->iSampleRate; m_pSlaveThread = new KviDccVoiceThread(this,m_pMarshal->releaseSocket(),opt); connect(m_pUpdateTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(updateInfo())); m_pSlaveThread->start(); m_pTalkButton->setEnabled(true); } void KviDccVoice::stopTalking() { KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_ACTION); e->setData(new int(0)); m_pSlaveThread->enqueueEvent(e); } void KviDccVoice::startTalking() { KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_ACTION); e->setData(new int(1)); m_pSlaveThread->enqueueEvent(e); } void KviDccVoice::startOrStopTalking(bool bStart) { if(bStart)startTalking(); else stopTalking(); } int KviDccVoice::getMixerVolume(void) const { #ifndef COMPILE_DISABLE_DCC_VOICE int fd; int ret; int left; //, right; int req; if((fd = ::open(KVI_OPTION_STRING(KviOption_stringDccVoiceMixerDevice).utf8().data(), O_RDONLY)) == -1) { return 0; } req = KVI_OPTION_BOOL(KviOption_boolDccVoiceVolumeSliderControlsPCM) ? SOUND_MIXER_READ_PCM : SOUND_MIXER_READ_VOLUME; if(::ioctl(fd,req,&ret)) { ::close(fd); return 0; } left = (ret & 0x00ff); // right = (ret & 0xff00) >> 8; ::close(fd); return -left; #else return 0; #endif } void KviDccVoice::setMixerVolume(int vol) { #ifndef COMPILE_DISABLE_DCC_VOICE int fd; int val; int req; if((fd = ::open(KVI_OPTION_STRING(KviOption_stringDccVoiceMixerDevice).utf8().data(), O_WRONLY)) == -1) return; req = KVI_OPTION_BOOL(KviOption_boolDccVoiceVolumeSliderControlsPCM) ? SOUND_MIXER_WRITE_PCM : SOUND_MIXER_WRITE_VOLUME; val = (-vol << 8) | -vol; ::ioctl(fd, req, &val); ::close(fd); TQString s; s.sprintf(__tr_ctx("Volume: %i","dcc"), -vol); TQToolTip::add(m_pVolumeSlider, s); #endif } /* The code below doesn't work. Guess I have to catch some other widget's focusInEvent. Which one ? */ /* The point is to move the volume slider to correct position if for example user switched to * another KVirc window, fired up xmms, changed the volume, and returned to our dcc voice window */ void KviDccVoice::focusInEvent(TQFocusEvent *e) { // tqDebug("focusInEvent()"); m_pVolumeSlider->setValue(getMixerVolume()); setMixerVolume(m_pVolumeSlider->value()); KviWindow::focusInEvent(e); } #include "m_voice.moc"