/*************************************************************************** v4lradio.cpp - description ------------------- begin : Don M�r 8 21:57:17 CET 2001 copyright : (C) 2002-2005 by Ernst Martin Witte email : witte@kawo1.rwth-aachen.de ***************************************************************************/ /*************************************************************************** * * * 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. * * * ***************************************************************************/ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #ifdef HAVE_V4L2 #include "linux/videodev2.h" #endif #include "linux/videodev.h" #include #include // memcpy needed #include #include #include #include #include #include #include #include #include #include "../../src/include/aboutwidget.h" #include "../../src/include/utils.h" #include "v4lradio.h" #include "v4lradio-configuration.h" #include "../../src/include/debug-profiler.h" struct _lrvol { unsigned char l, r; short dummy; }; /////////////////////////////////////////////////////////////////////// PLUGIN_LIBRARY_FUNCTIONS(V4LRadio, "kradio-v4lradio", i18n("Support for V4L(2) Radio Devices")); /////////////////////////////////////////////////////////////////////// V4LRadio::V4LRadio(const TQString &name) : PluginBase(name, i18n("Video For Linux Plugin")), m_treble(0.5), m_bass(0.5), m_balance(0), m_deviceVolume(0.9), m_muted(false), m_signalQuality(0), m_stereo(false), m_minQuality(0.75), m_minFrequency(87.0), m_maxFrequency(108.0), m_lastMinDevFrequency(87.0), m_lastMaxDevFrequency(108.0), m_defaultPlaybackVolume(0.5), m_scanStep(0.05), m_radioDev("/dev/radio0"), m_radio_fd(-1), m_useOldV4L2Calls(true), m_pollTimer(this), m_blockReadTuner(false), m_blockReadAudio(false), m_SoundStreamID(createNewSoundStream(false)), m_PlaybackMixerID(TQString()), m_CaptureMixerID(TQString()), m_PlaybackMixerChannel(TQString()), m_CaptureMixerChannel(TQString()), m_ActivePlayback(false), m_MuteOnPowerOff(false), m_VolumeZeroOnPowerOff(false), m_restorePowerOn(false) { TQObject::connect (&m_pollTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(poll())); m_pollTimer.start(333); m_audio = new video_audio; bzero(m_audio, sizeof(video_audio)); m_tuner = new video_tuner; bzero(m_tuner, sizeof(video_tuner)); #ifdef HAVE_V4L2 m_tuner2 = new v4l2_tuner; bzero(m_tuner2, sizeof(v4l2_tuner)); #endif m_caps.version = 0; m_seekHelper = new FrequencySeekHelper(*this); m_seekHelper->connectI(this); } V4LRadio::~V4LRadio() { setPower(false); if (m_seekHelper) delete m_seekHelper; if (m_audio) delete m_audio; if (m_tuner) delete m_tuner; #ifdef HAVE_V4L2 if (m_tuner2) delete m_tuner2; #endif } bool V4LRadio::connectI (Interface *i) { bool a = IRadioDevice::connectI(i); bool b = ISeekRadio::connectI(i); bool c = IFrequencyRadio::connectI(i); bool d = IV4LCfg::connectI(i); bool e = PluginBase::connectI(i); bool f = ISoundStreamClient::connectI(i); return a || b || c || d || e || f; } bool V4LRadio::disconnectI (Interface *i) { bool a = IRadioDevice::disconnectI(i); bool b = ISeekRadio::disconnectI(i); bool c = IFrequencyRadio::disconnectI(i); bool d = IV4LCfg::disconnectI(i); bool e = PluginBase::disconnectI(i); bool f = ISoundStreamClient::disconnectI(i); m_seekHelper->disconnectI(i); return a || b || c || d || e || f; } void V4LRadio::noticeConnectedI (ISoundStreamServer *s, bool pointer_valid) { ISoundStreamClient::noticeConnectedI(s, pointer_valid); if (s && pointer_valid) { m_seekHelper->connectI(s); s->register4_queryPlaybackVolume(this); s->register4_sendTreble(this); s->register4_sendBass(this); s->register4_sendBalance(this); s->register4_sendMute(this); s->register4_sendUnmute(this); s->register4_sendSignalMinQuality(this); s->register4_sendStereo(this); s->register4_queryTreble(this); s->register4_queryBass(this); s->register4_queryBalance(this); s->register4_querySignalQuality(this); s->register4_querySignalMinQuality(this); s->register4_queryHasGoodQuality(this); s->register4_queryIsStereo(this); s->register4_queryIsMuted(this); s->register4_sendPlaybackVolume(this); s->register4_sendCaptureVolume(this); s->register4_sendStopCapture(this); s->register4_querySoundStreamDescription(this); s->register4_querySoundStreamRadioStation(this); s->register4_queryEnumerateSoundStreams(this); notifySoundStreamCreated(m_SoundStreamID); } } void V4LRadio::noticeConnectedSoundClient(ISoundStreamClient::thisInterface *i, bool pointer_valid) { if (i && pointer_valid && i->getSoundStreamClientID() == m_PlaybackMixerID) { setPlaybackMixer(m_PlaybackMixerID, m_PlaybackMixerChannel); } if (i && pointer_valid && i->getSoundStreamClientID() == m_CaptureMixerID) { setCaptureMixer(m_CaptureMixerID, m_CaptureMixerChannel); } } // IRadioDevice methods bool V4LRadio::setPower (bool on) { return on ? powerOn() : powerOff(); } void V4LRadio::searchMixers(ISoundStreamClient **playback_mixer, ISoundStreamClient **capture_mixer) { if (playback_mixer) { *playback_mixer = getSoundStreamClientWithID(m_PlaybackMixerID); if (!*playback_mixer) { TQPtrList playback_mixers = queryPlaybackMixers(); if (!playback_mixers.isEmpty()) *playback_mixer = playback_mixers.first(); } } if (capture_mixer) { *capture_mixer = getSoundStreamClientWithID(m_CaptureMixerID); if (!*capture_mixer) { TQPtrList capture_mixers = queryCaptureMixers(); if (!capture_mixers.isEmpty()) *capture_mixer = capture_mixers.first(); } } } bool V4LRadio::powerOn () { if (isPowerOn()) return true; radio_init(); if (isPowerOn()) { ISoundStreamClient *playback_mixer = NULL, *capture_mixer = NULL; searchMixers(&playback_mixer, &capture_mixer); if (playback_mixer) playback_mixer->preparePlayback(m_SoundStreamID, m_PlaybackMixerChannel, m_ActivePlayback, false); if (capture_mixer) capture_mixer->prepareCapture(m_SoundStreamID, m_CaptureMixerChannel); sendStartPlayback(m_SoundStreamID); float tmp_vol = 0; queryPlaybackVolume(m_SoundStreamID, tmp_vol); if (tmp_vol < 0.005) sendPlaybackVolume(m_SoundStreamID, m_defaultPlaybackVolume); if (m_ActivePlayback) { SoundFormat sf; sendStartCaptureWithFormat(m_SoundStreamID, sf, sf); } unmute(m_SoundStreamID); notifyPowerChanged(true); } return true; } bool V4LRadio::powerOff () { if (! isPowerOn()) return true; queryPlaybackVolume(m_SoundStreamID, m_defaultPlaybackVolume); if (m_MuteOnPowerOff) sendMute(m_SoundStreamID, true); if (m_VolumeZeroOnPowerOff) sendPlaybackVolume(m_SoundStreamID, 0.0); mute(m_SoundStreamID); radio_done(); sendStopPlayback(m_SoundStreamID); sendStopCapture(m_SoundStreamID); closeSoundStream(m_SoundStreamID); m_SoundStreamID = createNewSoundStream(m_SoundStreamID, false); notifySoundStreamCreated(m_SoundStreamID); if (isPowerOff()) { notifyPowerChanged(false); } return true; } bool V4LRadio::activateStation(const RadioStation &rs) { const FrequencyRadioStation *frs = dynamic_cast(&rs); if (frs == NULL) return false; if (setFrequency(frs->frequency())) { m_currentStation = *frs; if (frs->initialVolume() > 0) setPlaybackVolume(m_SoundStreamID, frs->initialVolume()); return true; } return false; } bool V4LRadio::isPowerOn() const { return m_radio_fd >= 0; } bool V4LRadio::isPowerOff() const { return m_radio_fd < 0; } SoundStreamID V4LRadio::getSoundStreamID() const { return m_SoundStreamID; } const RadioStation &V4LRadio::getCurrentStation() const { return m_currentStation; } const TQString &V4LRadio::getDescription() const { return m_caps.description; } SoundStreamID V4LRadio::getCurrentSoundStreamID() const { return m_SoundStreamID; } bool V4LRadio::setTreble (SoundStreamID id, float t) { if (id != m_SoundStreamID) return false; if (t > 1.0) t = 1.0; if (t < 0) t = 0.0; if ((int)rint(m_treble*65535) != (int)rint(t*65535)) { m_treble = t; writeAudioInfo(); notifyTrebleChanged(id, t); } return true; } bool V4LRadio::setBass (SoundStreamID id, float b) { if (id != m_SoundStreamID) return false; if (b > 1.0) b = 1.0; if (b < 0) b = 0.0; if ((int)rint(m_bass*65535) != (int)rint(b*65535)) { m_bass = b; writeAudioInfo(); notifyBassChanged(id, b); } return true; } bool V4LRadio::setBalance (SoundStreamID id, float b) { if (id != m_SoundStreamID) return false; if (b > +1.0) b = +1.0; if (b < -1.0) b = -1.0; if ((int)rint(m_balance*32767) != (int)rint(b*32767)) { m_balance = b; writeAudioInfo(); notifyBalanceChanged(id, b); } return true; } bool V4LRadio::setDeviceVolume (float v) { if (v > 1.0) v = 1.0; if (v < 0) v = 0; if ((int)rint(m_deviceVolume*65535) != (int)rint(v*65535)) { m_deviceVolume = v; writeAudioInfo(); notifyDeviceVolumeChanged(v); } return true; } bool V4LRadio::mute (SoundStreamID id, bool mute) { if (id != m_SoundStreamID) return false; if (m_muted != mute) { m_muted = mute; bool r = writeAudioInfo(); if (r) notifyMuted(id, m_muted); return r; } return false; } bool V4LRadio::unmute (SoundStreamID id, bool unmute) { return mute(id, !unmute); } bool V4LRadio::setSignalMinQuality (SoundStreamID id, float mq) { if (id != m_SoundStreamID) return false; if (rint(mq*100) == rint(m_minQuality*100)) return true; m_minQuality = mq; notifySignalMinQualityChanged(id, m_minQuality); return true; } bool V4LRadio::setStereo(SoundStreamID /*id*/, bool /*b*/) { // FIXME if possible return false; // we can't do that currently, not even switch stereo to mono } bool V4LRadio::getTreble (SoundStreamID id, float &t) const { if (id != m_SoundStreamID) return false; readAudioInfo(); t = m_treble; return true; } bool V4LRadio::getBass (SoundStreamID id, float &b) const { if (id != m_SoundStreamID) return false; readAudioInfo(); b = m_bass; return true; } bool V4LRadio::getBalance (SoundStreamID id, float &b) const { if (id != m_SoundStreamID) return false; readAudioInfo(); b = m_balance; return true; } float V4LRadio::getDeviceVolume () const { readAudioInfo(); return m_deviceVolume; } bool V4LRadio::getSignalMinQuality(SoundStreamID id, float &q) const { if (id != m_SoundStreamID) return false; q = m_minQuality; return true; } bool V4LRadio::getSignalQuality(SoundStreamID id, float &q) const { if (id != m_SoundStreamID) return false; readTunerInfo(); q = m_signalQuality; return true; } bool V4LRadio::hasGoodQuality(SoundStreamID id, bool &good) const { if (id != m_SoundStreamID) return false; float q = 0; if (getSignalQuality(id, q)) good = q >= m_minQuality; return true; } bool V4LRadio::isStereo(SoundStreamID id, bool &s) const { if (id != m_SoundStreamID) return false; readAudioInfo(); s = m_stereo; return true; } bool V4LRadio::isMuted(SoundStreamID id, bool &m) const { if (id != m_SoundStreamID) return false; readAudioInfo(); m = m_muted; return true; } // ISeekRadio bool V4LRadio::toBeginning() { setFrequency(getMinFrequency()); return true; } bool V4LRadio::toEnd() { setFrequency(getMaxFrequency()); return true; } bool V4LRadio::startSeekUp() { return startSeek(true); } bool V4LRadio::startSeekDown() { return startSeek(false); } bool V4LRadio::startSeek(bool up) { if (isPowerOn() && m_seekHelper) { m_seekHelper->start(m_SoundStreamID, up ? SeekHelper::up : SeekHelper::down); return true; } else { return false; } } bool V4LRadio::stopSeek() { if (m_seekHelper) m_seekHelper->stop(); return true; } bool V4LRadio::isSeekRunning() const { if (m_seekHelper) return m_seekHelper->isRunning(); else return false; } bool V4LRadio::isSeekUpRunning() const { if (m_seekHelper) return m_seekHelper->isRunningUp(); else return false; } bool V4LRadio::isSeekDownRunning() const { if (m_seekHelper) return m_seekHelper->isRunningDown(); else return false; } float V4LRadio::getProgress () const { float min = getMinFrequency(); float max = getMaxFrequency(); return (getFrequency() - min) / (max - min); } // IFrequencyRadio bool V4LRadio::setFrequency(float freq) { // if (isSeekRunning()) // stopSeek(); if (m_currentStation.frequency() == freq) { return true; } float minf = getMinFrequency(); float maxf = getMaxFrequency(); if (isPowerOn()) { bool oldMute = false; isMuted(m_SoundStreamID, oldMute); if (!oldMute && !m_ActivePlayback) mute(m_SoundStreamID); if (!m_tunercache.valid) readTunerInfo(); float df = m_tunercache.deltaF; unsigned long lfreq = (unsigned long) rint(freq / df); if (freq > maxf || freq < minf) { logError("V4LRadio::setFrequency: " + i18n("invalid frequency %1").arg(TQString().setNum(freq))); if (!oldMute && !m_ActivePlayback) unmute(m_SoundStreamID); return false; } int r = -1; if (m_caps.version == 1) { r = ioctl(m_radio_fd, VIDIOCSFREQ, &lfreq); } #ifdef HAVE_V4L2 else if (m_caps.version == 2) { v4l2_frequency tmp; tmp.tuner = 0; tmp.type = V4L2_TUNER_RADIO; tmp.frequency = lfreq; r = ioctl(m_radio_fd, VIDIOC_S_FREQUENCY, &tmp); } #endif else { logError("V4LRadio::setFrequency: " + i18n("don't known how to handle V4L-version %1") .arg(m_caps.version)); } if (r) { logError("V4LRadio::setFrequency: " + i18n("error setting frequency to %1 (%2)") .arg(TQString().setNum(freq)) .arg(TQString().setNum(r))); // unmute the old radio with the old radio station if (!oldMute && !m_ActivePlayback) unmute(m_SoundStreamID); return false; } // unmute this radio device, because we now have the current // radio station if (!oldMute && !m_ActivePlayback) unmute(m_SoundStreamID); } m_currentStation.setFrequency(freq); notifyFrequencyChanged(freq, &m_currentStation); notifyStationChanged(m_currentStation); notifyProgress((freq - minf) / (maxf - minf)); notifySoundStreamChanged(m_SoundStreamID); return true; } bool V4LRadio::setMinFrequency (float minF) { float oldm = getMinFrequency(); m_minFrequency = minF; float newm = getMinFrequency(); if (oldm != newm) notifyMinMaxFrequencyChanged(newm, getMaxFrequency()); return true; } bool V4LRadio::setMaxFrequency (float maxF) { float oldm = getMaxFrequency(); m_maxFrequency = maxF; float newm = getMaxFrequency(); if (oldm != newm) notifyMinMaxFrequencyChanged(getMinFrequency(), newm); return true; } bool V4LRadio::setScanStep(float s) { float old = m_scanStep; m_scanStep = s; if (old != s) notifyScanStepChanged(m_scanStep); return true; } float V4LRadio::getFrequency() const { return m_currentStation.frequency(); } float V4LRadio::getMinFrequency() const { return m_minFrequency ? m_minFrequency : getMinDeviceFrequency(); } float V4LRadio::getMaxFrequency() const { return m_maxFrequency ? m_maxFrequency : getMaxDeviceFrequency(); } float V4LRadio::getMinDeviceFrequency() const { if (!m_tunercache.valid) readTunerInfo(); return m_tunercache.minF; } float V4LRadio::getMaxDeviceFrequency() const { if (!m_tunercache.valid) readTunerInfo(); return m_tunercache.maxF; } float V4LRadio::getScanStep() const { return m_scanStep; } // IV4LCfg methods bool V4LRadio::setRadioDevice(const TQString &s) { if (m_radioDev != s) { bool p = isPowerOn(); powerOff(); m_radioDev = s; m_caps = readV4LCaps(m_radioDev); notifyRadioDeviceChanged(m_radioDev); notifyDescriptionChanged(m_caps.description); notifyCapabilitiesChanged(m_caps); setPower(p); } return true; } bool V4LRadio::setPlaybackMixer(const TQString &soundStreamClientID, const TQString &ch) { bool change = m_PlaybackMixerID != soundStreamClientID || m_PlaybackMixerChannel != ch; m_PlaybackMixerID = soundStreamClientID; m_PlaybackMixerChannel = ch; if (isPowerOn()) { queryPlaybackVolume(m_SoundStreamID, m_defaultPlaybackVolume); sendStopPlayback(m_SoundStreamID); sendReleasePlayback(m_SoundStreamID); } ISoundStreamClient *playback_mixer = NULL; searchMixers(&playback_mixer, NULL); if (playback_mixer) playback_mixer->preparePlayback(m_SoundStreamID, m_PlaybackMixerChannel, m_ActivePlayback, false); if (isPowerOn()) { sendStartPlayback(m_SoundStreamID); sendPlaybackVolume(m_SoundStreamID, m_defaultPlaybackVolume); if (m_ActivePlayback) { SoundFormat sf; sendStartCaptureWithFormat(m_SoundStreamID, sf, sf); } } if (change) notifyPlaybackMixerChanged(soundStreamClientID, ch); return true; } bool V4LRadio::setCaptureMixer(const TQString &soundStreamClientID, const TQString &ch) { bool change = m_PlaybackMixerID != soundStreamClientID || m_PlaybackMixerChannel != ch; m_CaptureMixerID = soundStreamClientID; m_CaptureMixerChannel = ch; bool r = false; SoundFormat sf; queryIsCaptureRunning(m_SoundStreamID, r, sf); float v = 0; if (isPowerOn() && r) { queryCaptureVolume(m_SoundStreamID, v); sendStopCapture(m_SoundStreamID); sendReleaseCapture(m_SoundStreamID); } ISoundStreamClient *capture_mixer = NULL; searchMixers(NULL, &capture_mixer); if (capture_mixer) capture_mixer->prepareCapture(m_SoundStreamID, m_CaptureMixerChannel); if (isPowerOn() && r) { sendStartCaptureWithFormat(m_SoundStreamID, sf, sf); sendCaptureVolume(m_SoundStreamID, v); } if (change) notifyCaptureMixerChanged(soundStreamClientID, ch); return true; } V4LCaps V4LRadio::getCapabilities(TQString dev) const { if (dev.isNull()) { return m_caps; } else { return readV4LCaps(dev); } } bool V4LRadio::setActivePlayback(bool a) { if (a == m_ActivePlayback) return true; if (isPowerOn()) { queryPlaybackVolume(m_SoundStreamID, m_defaultPlaybackVolume); sendStopPlayback(m_SoundStreamID); sendReleasePlayback(m_SoundStreamID); if (m_ActivePlayback) { sendStopCapture(m_SoundStreamID); } } m_ActivePlayback = a; ISoundStreamClient *playback_mixer = NULL; searchMixers(&playback_mixer, NULL); if (playback_mixer) playback_mixer->preparePlayback(m_SoundStreamID, m_PlaybackMixerChannel, m_ActivePlayback, false); if (isPowerOn()) { sendStartPlayback(m_SoundStreamID); sendPlaybackVolume(m_SoundStreamID, m_defaultPlaybackVolume); if (m_ActivePlayback) { SoundFormat sf; sendStartCaptureWithFormat(m_SoundStreamID, sf, sf); } } // FIXME: restart playback/capture notifyActivePlaybackChanged(m_ActivePlayback); return true; } bool V4LRadio::setMuteOnPowerOff(bool a) { if (a != m_MuteOnPowerOff) { m_MuteOnPowerOff = a; notifyMuteOnPowerOffChanged(m_MuteOnPowerOff); } return true; } bool V4LRadio::setVolumeZeroOnPowerOff(bool a) { if (a != m_VolumeZeroOnPowerOff) { m_VolumeZeroOnPowerOff = a; notifyVolumeZeroOnPowerOffChanged(m_VolumeZeroOnPowerOff); } return true; } // PluginBase methods void V4LRadio::saveState (KConfig *config) const { config->setGroup(TQString("v4lradio-") + name()); config->writeEntry("RadioDev", m_radioDev); config->writeEntry("PlaybackMixerID", m_PlaybackMixerID); config->writeEntry("PlaybackMixerChannel", m_PlaybackMixerChannel); config->writeEntry("CaptureMixerID", m_CaptureMixerID); config->writeEntry("CaptureMixerChannel", m_CaptureMixerChannel); config->writeEntry("fMinOverride", m_minFrequency); config->writeEntry("fMaxOverride", m_maxFrequency); config->writeEntry("fLastDevMin", m_lastMinDevFrequency); config->writeEntry("fLastDevMax", m_lastMaxDevFrequency); config->writeEntry("defaultPlaybackVolume", m_defaultPlaybackVolume); config->writeEntry("signalMinQuality", m_minQuality); config->writeEntry("scanStep", m_scanStep); config->writeEntry("Frequency", m_currentStation.frequency()); config->writeEntry("Treble", m_treble); config->writeEntry("Bass", m_bass); config->writeEntry("Balance", m_balance); config->writeEntry("DeviceVolume", m_deviceVolume); config->writeEntry("PowerOn", isPowerOn()); config->writeEntry("UseOldV4L2Calls", m_useOldV4L2Calls); config->writeEntry("ActivePlayback", m_ActivePlayback); config->writeEntry("MuteOnPowerOff", m_MuteOnPowerOff); config->writeEntry("VolumeZeroOnPowerOff", m_VolumeZeroOnPowerOff); } void V4LRadio::restoreState (KConfig *config) { BlockProfiler p("V4LRadio::restoreState"); config->setGroup(TQString("v4lradio-") + name()); TQString base_devname = "/dev/radio"; TQStringList testlist (base_devname ); for (int i = 0; i < 9; ++i) testlist.append(base_devname + TQString::number(i)); TQString found_devname(TQString::null); for (TQValueListConstIterator it = testlist.begin(); it != testlist.end(); ++it) { TQFile f(*it); if (f.exists()) { TQFileInfo info(f); if (info.isReadable() && info.isWritable()) { found_devname = *it; break; } else { if (found_devname.isNull()) found_devname = *it; logWarning(i18n("Device %1 does exist but is not readable/writable. Please check device permissions.").arg(*it)); } } } TQString default_devname = found_devname.isNull() ? base_devname : found_devname; TQString devname = config->readEntry ("RadioDev", default_devname); if (found_devname.isNull() && devname == default_devname) { logError(i18n("Could not find an accessible v4l(2) radio device.")); } setRadioDevice(devname); TQString PlaybackMixerID = config->readEntry ("PlaybackMixerID", TQString()); TQString PlaybackMixerChannel = config->readEntry ("PlaybackMixerChannel", "Line"); TQString CaptureMixerID = config->readEntry ("CaptureMixerID", TQString()); TQString CaptureMixerChannel = config->readEntry ("CaptureMixerChannel", "Line"); m_ActivePlayback = config->readBoolEntry("ActivePlayback", false); m_MuteOnPowerOff = config->readBoolEntry("MuteOnPowerOff", false); m_VolumeZeroOnPowerOff = config->readBoolEntry("VolumeZeroOnPowerOff", false); m_lastMinDevFrequency = config->readDoubleNumEntry ("fLastDevMin", 65.0); m_lastMaxDevFrequency = config->readDoubleNumEntry ("fLastDevMax", 108.0); m_minFrequency = config->readDoubleNumEntry ("fMinOverride", m_lastMinDevFrequency); m_maxFrequency = config->readDoubleNumEntry ("fMaxOverride", m_lastMaxDevFrequency); m_minQuality = config->readDoubleNumEntry ("signalMinQuality", 0.75); m_scanStep = config->readDoubleNumEntry ("scanStep", 0.05); m_defaultPlaybackVolume = config->readDoubleNumEntry ("defaultPlaybackVolume", 0.5); setPlaybackMixer(PlaybackMixerID, PlaybackMixerChannel); setCaptureMixer (CaptureMixerID, CaptureMixerChannel); notifyDeviceMinMaxFrequencyChanged(m_lastMinDevFrequency, m_lastMaxDevFrequency); notifyMinMaxFrequencyChanged(m_minFrequency, m_maxFrequency); notifySignalMinQualityChanged(m_SoundStreamID, m_minQuality); notifyScanStepChanged(m_scanStep); notifyActivePlaybackChanged(m_ActivePlayback); notifyMuteOnPowerOffChanged(m_MuteOnPowerOff); notifyVolumeZeroOnPowerOffChanged(m_VolumeZeroOnPowerOff); BlockProfiler p2("V4LRadio::restoreState2"); setFrequency(config->readDoubleNumEntry("Frequency", 88)); m_restorePowerOn = config->readBoolEntry ("PowerOn", false); BlockProfiler p3("V4LRadio::restoreState3"); setTreble (m_SoundStreamID, config->readDoubleNumEntry("Treble", 0.5)); setBass (m_SoundStreamID, config->readDoubleNumEntry("Bass", 0.5)); setBalance (m_SoundStreamID, config->readDoubleNumEntry("Balance", 0.0)); setDeviceVolume( config->readDoubleNumEntry("DeviceVolume", 0.9)); m_useOldV4L2Calls = config->readBoolEntry("UseOldV4L2Calls", true); if (isPowerOff()) notifyPlaybackVolumeChanged(m_SoundStreamID, m_defaultPlaybackVolume); } void V4LRadio::startPlugin() { PluginBase::startPlugin(); setPower(m_restorePowerOn); } ConfigPageInfo V4LRadio::createConfigurationPage() { V4LRadioConfiguration *v4lconf = new V4LRadioConfiguration(NULL, m_SoundStreamID); connectI(v4lconf); return ConfigPageInfo (v4lconf, i18n("V4L Radio"), i18n("V4L Radio Options"), "package_utilities"); } AboutPageInfo V4LRadio::createAboutPage() { KAboutData aboutData("kradio", NULL, NULL, I18N_NOOP("V4L/V4L2 Plugin for KRadio." "

" "Provides Support for V4L/V4L2 based Radio Cards" "

"), 0, //KAboutData::License_GPL, "(c) 2002-2005 Martin Witte, Klas Kalass", 0, "http://sourceforge.net/projects/kradio", 0); aboutData.addAuthor("Martin Witte", "", "witte@kawo1.rwth-aachen.de"); aboutData.addAuthor("Klas Kalass", "", "klas.kalass@gmx.de"); return AboutPageInfo( new KRadioAboutWidget(aboutData, KRadioAboutWidget::AbtTabbed), i18n("V4L/V4L2"), i18n("V4L/V4L2 Plugin"), "package_utilities" ); } //////////////////////////////////////// // anything else void V4LRadio::radio_init() { if (isSeekRunning()) stopSeek(); m_caps = readV4LCaps(m_radioDev); notifyCapabilitiesChanged(m_caps); notifyDescriptionChanged(m_caps.description); /* m_mixer_fd = open(m_mixerDev, O_RDONLY); if (m_mixer_fd < 0) { radio_done(); logError("V4LRadio::radio_init: " + i18n("Cannot open mixer device %1").arg(m_mixerDev)); return; } */ m_radio_fd = open(m_radioDev.ascii(), O_RDONLY); if (m_radio_fd < 0) { radio_done(); logError("V4LRadio::radio_init: " + i18n("Cannot open radio device %1").arg(m_radioDev)); return; } readTunerInfo(); writeAudioInfo(); // set tuner-audio config as used last time readAudioInfo(); // reread tuner-audio and read-only flags (e.g. stereo) // restore frequency float old = getFrequency(); m_currentStation.setFrequency(0); setFrequency(old); // read volume level from mixer // FIXME: do we still need this /* float v = 0; getVolume(m_SoundStreamID, v) setVolume (m_SoundStreamID, v);*/ } void V4LRadio::radio_done() { if (isSeekRunning()) stopSeek(); if (m_radio_fd >= 0) close (m_radio_fd); // if (m_mixer_fd >= 0) close (m_mixer_fd); m_radio_fd = -1; // m_mixer_fd = -1; } #define CAPS_NAME_LEN 127 V4LCaps V4LRadio::readV4LCaps(const TQString &device) const { char buffer[CAPS_NAME_LEN+1]; int r; int fd; V4LCaps c; c.description = device; fd = open(device.ascii(), O_RDONLY); if (fd < 0) { logError("V4LRadio::readV4LCaps: " + i18n("cannot open %1").arg(device)); return c; } video_capability caps; r = ioctl(fd, VIDIOCGCAP, &caps); if (r == 0) { c.version = 1; size_t l = sizeof(caps.name); l = l < CAPS_NAME_LEN ? l : CAPS_NAME_LEN; memcpy(buffer, caps.name, l); buffer[l] = 0; c.description = buffer; c.hasMute = false; c.unsetVolume(); c.unsetTreble(); c.unsetBass(); c.unsetBalance(); video_audio audiocaps; if (0 == ioctl(fd, VIDIOCGAUDIO, &audiocaps)) { logDebug("V4LRadio::readV4LCaps: " + i18n("audio caps = %1").arg(TQString().setNum(audiocaps.flags))); if ((audiocaps.flags & VIDEO_AUDIO_MUTABLE) != 0) c.hasMute = true; if ((audiocaps.flags & VIDEO_AUDIO_VOLUME) != 0) c.setVolume (0, 65535); if ((audiocaps.flags & VIDEO_AUDIO_TREBLE) != 0) c.setTreble (0, 65535); if ((audiocaps.flags & VIDEO_AUDIO_BASS) != 0) c.setBass (0, 65535); // at least my driver has support for balance, but the bit is not set ... c.setBalance(0, 65535); } } else { logError("V4LRadio::readV4LCaps: " + i18n("error reading V4L1 caps")); } #ifdef HAVE_V4L2 v4l2_capability caps2; r = ioctl(fd, VIDIOC_TQUERYCAP, &caps2); if (r == 0) { c.version = 2; logDebug(i18n("V4L2 - Version: %1").arg(TQString().sprintf("%08X", caps2.version))); size_t l = sizeof(caps.name); l = l < CAPS_NAME_LEN ? l : CAPS_NAME_LEN; memcpy(buffer, caps.name, l); buffer[l] = 0; // c.description = buffer; v4l2_queryctrl ctrl; c.hasMute = false; c.unsetVolume(); c.unsetTreble(); c.unsetBass(); c.unsetBalance(); ctrl.id = V4L2_CID_AUDIO_MUTE; if (0 == ioctl(fd, VIDIOC_TQUERYCTRL, &ctrl)) c.hasMute = !(ctrl.flags & V4L2_CTRL_FLAG_DISABLED); else logError(i18n("V4L2: Querying mute control failed")); ctrl.id = V4L2_CID_AUDIO_VOLUME; if (0 == ioctl(fd, VIDIOC_TQUERYCTRL, &ctrl)) { if (!(ctrl.flags & V4L2_CTRL_FLAG_DISABLED)) c.setVolume(ctrl.minimum, ctrl.maximum); } else { logError(i18n("V4L2: Querying volume control failed")); } ctrl.id = V4L2_CID_AUDIO_TREBLE; if (0 == ioctl(fd, VIDIOC_TQUERYCTRL, &ctrl)) { if (!(ctrl.flags & V4L2_CTRL_FLAG_DISABLED)) c.setTreble(ctrl.minimum, ctrl.maximum); } else { logError(i18n("V4L2: Querying treble control failed")); } ctrl.id = V4L2_CID_AUDIO_BASS; if (0 == ioctl(fd, VIDIOC_TQUERYCTRL, &ctrl)) { if (!(ctrl.flags & V4L2_CTRL_FLAG_DISABLED)) c.setBass(ctrl.minimum, c.maxBass = ctrl.maximum); } else { logError(i18n("V4L2: Querying bass control failed")); } ctrl.id = V4L2_CID_AUDIO_BALANCE; if (0 == ioctl(fd, VIDIOC_TQUERYCTRL, &ctrl)) { if (!(ctrl.flags & V4L2_CTRL_FLAG_DISABLED)) c.setBalance(ctrl.minimum, ctrl.maximum); } else { logError(i18n("V4L2: Querying balance control failed")); } } else { logWarning(i18n("V4LRadio::readV4LCaps: Reading V4L2 caps failed")); } #endif if (c.version > 0) { logInfo(i18n("V4L %1 detected").arg(c.version)); } else { logError(i18n("V4L not detected")); } logInfo(c.hasMute ? i18n("Radio is mutable") : i18n("Radio is not mutable")); logInfo(c.hasVolume ? i18n("Radio has Volume Control") : i18n("Radio has no Volume Control")); logInfo(c.hasBass ? i18n("Radio has Bass Control") : i18n("Radio has no Bass Control")); logInfo(c.hasTreble ? i18n("Radio has Treble Control") : i18n("Radio has no Treble Control")); close(fd); return c; } bool V4LRadio::readTunerInfo() const { if (m_blockReadTuner) return true; float oldq = m_signalQuality; float oldminf = m_tunercache.minF; float oldmaxf = m_tunercache.maxF; if (!m_tunercache.valid) { m_tunercache.minF = m_lastMinDevFrequency; m_tunercache.maxF = m_lastMaxDevFrequency; m_tunercache.deltaF = 1.0/16.0; m_tunercache.valid = true; } int r = 0; if (isPowerOn()) { // v4l1 if (m_caps.version == 1) { r = ioctl(m_radio_fd, VIDIOCGTUNER, m_tuner); if (r == 0) { if ((m_tuner->flags & VIDEO_TUNER_LOW) != 0) m_tunercache.deltaF = 1.0 / 16000.0; m_tunercache.minF = float(m_tuner->rangelow) * m_tunercache.deltaF; m_tunercache.maxF = float(m_tuner->rangehigh) * m_tunercache.deltaF; m_tunercache.valid = true; m_signalQuality = float(m_tuner->signal) / 32767.0; } } #ifdef HAVE_V4L2 // v4l2 else if (m_caps.version == 2) { r = ioctl(m_radio_fd, VIDIOC_G_TUNER, m_tuner2); if (r == 0) { if ((m_tuner2->capability & V4L2_TUNER_CAP_LOW) != 0) m_tunercache.deltaF = 1.0 / 16000.0; m_tunercache.minF = float(m_tuner2->rangelow) * m_tunercache.deltaF; m_tunercache.maxF = float(m_tuner2->rangehigh) * m_tunercache.deltaF; m_tunercache.valid = true; m_signalQuality = float(m_tuner2->signal) / 32767.0; } } #endif else { logError("V4LRadio::readTunerInfo: " + i18n("don't known how to handle V4L-version %1") .arg(TQString().setNum(m_caps.version))); } if (r != 0) { m_signalQuality = 0; logError("V4LRadio::readTunerInfo: " + i18n("cannot get tuner info (error %1)").arg(TQString().setNum(r))); } } else { m_signalQuality = 0; } // prevent loops, if noticeXYZ-method is reading my state m_blockReadTuner = true; if (oldminf != m_tunercache.minF || oldmaxf != m_tunercache.maxF) notifyDeviceMinMaxFrequencyChanged(m_tunercache.minF, m_tunercache.maxF); m_lastMinDevFrequency = m_tunercache.minF; m_lastMaxDevFrequency = m_tunercache.maxF; if ( ! m_minFrequency && (oldminf != m_tunercache.minF) || ! m_maxFrequency && (oldmaxf != m_tunercache.maxF)) notifyMinMaxFrequencyChanged(getMinFrequency(), getMaxFrequency()); if (m_signalQuality != oldq) notifySignalQualityChanged(m_SoundStreamID, m_signalQuality); if ( (m_signalQuality >= m_minQuality) != (oldq >= m_minQuality)) notifySignalQualityBoolChanged(m_SoundStreamID, m_signalQuality > m_minQuality); m_blockReadTuner = false; return true; } #define V4L2_S_CTRL(what,val) \ { ctl.value = (val); \ ctl.id = (what); \ /* Problem: Current V4L2 development has changed the IOCTL-IDs for VIDIOC_S_CTRL */ \ /* => we must du "try and error" to figure out what version we should use */ \ r = ioctl (m_radio_fd, m_useOldV4L2Calls ? VIDIOC_S_CTRL_OLD : VIDIOC_S_CTRL, &ctl); \ /* in case this did not work, try the other version of the call */ \ if (r) { \ r = ioctl (m_radio_fd, !m_useOldV4L2Calls ? VIDIOC_S_CTRL_OLD : VIDIOC_S_CTRL, &ctl); \ if (!r) m_useOldV4L2Calls = !m_useOldV4L2Calls; \ } \ x = x ? x : r; \ if (r) \ logError(i18n("error setting %1: %2").arg(#what).arg(TQString().setNum(r))); \ } #define V4L2_G_CTRL(what) \ { ctl.id = (what); \ r = ioctl (m_radio_fd, VIDIOC_G_CTRL, &ctl); \ x = x ? x : r; \ if (r) \ logError(i18n("error reading %1: %2").arg(#what).arg(TQString().setNum(r))); \ } bool V4LRadio::updateAudioInfo(bool write) const { if (m_blockReadAudio && !write) return true; bool oldStereo = m_stereo; bool oldMute = m_muted; int iOldDeviceVolume = m_caps.intGetVolume (m_deviceVolume); int iOldTreble = m_caps.intGetTreble (m_treble); int iOldBass = m_caps.intGetBass (m_bass); int iOldBalance = m_caps.intGetBalance(m_balance); if (isPowerOn()) { int r = 0; if (m_caps.version == 1) { m_audio->audio = 0; if (m_muted) m_audio->flags |= VIDEO_AUDIO_MUTE; else m_audio->flags &= ~VIDEO_AUDIO_MUTE; m_audio->volume = m_caps.intGetVolume (m_deviceVolume); m_audio->treble = m_caps.intGetTreble (m_treble); m_audio->bass = m_caps.intGetBass (m_bass); m_audio->balance = m_caps.intGetBalance(m_balance); r = ioctl(m_radio_fd, write ? VIDIOCSAUDIO : VIDIOCGAUDIO, m_audio); m_stereo = (r == 0) && ((m_audio->mode & VIDEO_SOUND_STEREO) != 0); m_muted = m_caps.hasMute && ((r != 0) || ((m_audio->flags & VIDEO_AUDIO_MUTE) != 0)); /* Some drivers seem to set volumes to zero if they are muted. Thus we do not reload them if radio is muted */ if (!m_muted && !write) { m_deviceVolume = m_caps.hasVolume && !r ? m_caps.floatGetVolume (m_audio->volume) : 1; m_treble = m_caps.hasTreble && !r ? m_caps.floatGetTreble (m_audio->treble) : 1; m_bass = m_caps.hasBass && !r ? m_caps.floatGetBass (m_audio->bass) : 1; m_balance = m_caps.hasBalance && !r ? m_caps.floatGetBalance(m_audio->balance) : 0; } } #ifdef HAVE_V4L2 else if (m_caps.version == 2) { v4l2_control ctl; int x = 0; // x stores first ioctl error if (write) { if (m_caps.hasMute) V4L2_S_CTRL(V4L2_CID_AUDIO_MUTE, m_muted); if (m_caps.hasTreble) V4L2_S_CTRL(V4L2_CID_AUDIO_TREBLE, m_caps.intGetTreble(m_treble)); if (m_caps.hasBass) V4L2_S_CTRL(V4L2_CID_AUDIO_BASS, m_caps.intGetBass(m_bass)); if (m_caps.hasBalance) V4L2_S_CTRL(V4L2_CID_AUDIO_BALANCE, m_caps.intGetBalance(m_balance)); if (m_caps.hasVolume) V4L2_S_CTRL(V4L2_CID_AUDIO_VOLUME, m_caps.intGetVolume(m_deviceVolume)); } else { if (m_caps.hasMute) V4L2_G_CTRL(V4L2_CID_AUDIO_MUTE); m_muted = m_caps.hasMute && ((r != 0) || ctl.value); /* Some drivers seem to set volumes to zero if they are muted. Thus we do not reload them if radio is muted */ if (!m_muted) { if (m_caps.hasVolume) V4L2_G_CTRL(V4L2_CID_AUDIO_VOLUME); m_deviceVolume = m_caps.hasVolume && !r ? m_caps.floatGetVolume (ctl.value) : 1; if (m_caps.hasTreble) V4L2_G_CTRL(V4L2_CID_AUDIO_TREBLE); m_treble = m_caps.hasTreble && !r ? m_caps.floatGetTreble (ctl.value) : 1; if (m_caps.hasBass) V4L2_G_CTRL(V4L2_CID_AUDIO_BASS); m_bass = m_caps.hasBass && !r ? m_caps.floatGetBass (ctl.value) : 1; if (m_caps.hasBalance) V4L2_G_CTRL(V4L2_CID_AUDIO_BALANCE); m_balance = m_caps.hasBalance&& !r ? m_caps.floatGetBalance(ctl.value) : 0; } r = ioctl (m_radio_fd, VIDIOC_G_TUNER, m_tuner2); m_stereo = (r == 0) && ((m_tuner2->rxsubchans & V4L2_TUNER_SUB_STEREO) != 0); x = x ? x : r; } r = x; // store first error back to r, used below for error message } #endif else { logError("V4LRadio::updateAudioInfo: " + i18n("don't known how to handle V4L-version %1") .arg(TQString().setNum(m_caps.version))); } if (r) { logError("V4LRadio::updateAudioInfo: " + i18n("error updating radio audio info (%1): %2") .arg(write ? i18n("write") : i18n("read")) .arg(TQString().setNum(r))); return false; } } // prevent loops, if noticeXYZ-method is reading my state bool oldBlock = m_blockReadAudio; m_blockReadAudio = true; // send notifications if (oldStereo != m_stereo) notifyStereoChanged(m_SoundStreamID, m_stereo); if (oldMute != m_muted) notifyMuted(m_SoundStreamID, m_muted); if (iOldDeviceVolume != m_caps.intGetVolume(m_deviceVolume)) notifyDeviceVolumeChanged(m_deviceVolume); if (iOldTreble != m_caps.intGetTreble(m_treble)) notifyTrebleChanged(m_SoundStreamID, m_treble); if (iOldBass != m_caps.intGetBass(m_bass)) notifyBassChanged(m_SoundStreamID, m_bass); if (iOldBalance != m_caps.intGetBalance(m_balance)) notifyBalanceChanged(m_SoundStreamID, m_balance); m_blockReadAudio = oldBlock; return isPowerOn(); } void V4LRadio::poll() { readTunerInfo(); readAudioInfo(); } bool V4LRadio::setPlaybackVolume(SoundStreamID id, float volume) { if (isPowerOff() && id == m_SoundStreamID) { m_defaultPlaybackVolume = min(max(volume, 0.0), 1.0); return true; } else { return false; } } bool V4LRadio::getPlaybackVolume(SoundStreamID id, float &volume) const { if (isPowerOff() && id == m_SoundStreamID) { volume = m_defaultPlaybackVolume; return true; } else { return false; } } bool V4LRadio::getSoundStreamDescription(SoundStreamID id, TQString &descr) const { if (id == m_SoundStreamID) { descr = name() + " - " + m_currentStation.name(); return true; } else { return false; } } bool V4LRadio::getSoundStreamRadioStation(SoundStreamID id, const RadioStation *&rs) const { if (id == m_SoundStreamID) { rs = &m_currentStation; return true; } else { return false; } } bool V4LRadio::enumerateSoundStreams(TQMap &list) const { if (m_SoundStreamID.isValid()) { TQString tmp = TQString(); getSoundStreamDescription(m_SoundStreamID, tmp); list[tmp] = m_SoundStreamID; return true; } return false; } // bool V4LRadio::stopCapture(SoundStreamID id) // { // if (id.isValid() && id == m_SoundStreamID && m_ActivePlayback) { // sendStopPlayback(id); // return true; // } // return false; // } #include "v4lradio.moc"