/** * Waits until (state & stateMask) == wantState. Callers must ensure that stateMask is a * superset of wantState or the call will never be matched. Also, to work around some of the JMF * bugs, we time out if the event doesn't happen within STATE_SEMAPHORE_TIMEOUT milliseconds. * This is the minimum time it will wait. The actual delay may be longer. * * @param wantState - bit mask for bits you want set * @param stateMask - bit mask for bits you want to check * @return true if the state was matched, false if it timed out. */ public boolean waitForState(int wantState, int stateMask) { /* Debug.trace("Waiting."+ " want="+stateString(wantState)+ " mask="+stateString(stateMask)+ " have="+stateString(state)); */ long t0 = System.currentTimeMillis(); boolean done = false; boolean timeout = false; while (!done) { // synchronization here is important. We must hold // the stateSemaphore lock while we do the comparison // to avoid a race condition. It will be implicitly // released during the wait. synchronized (stateSemaphore) { // Debug.trace("Checking if "+stateString(state & stateMask)+ // " matches "+stateString(wantState)); if ((state & stateMask) == wantState) { // check for successful completion done = true; } else { // no match, so we wait for a state change // Debug.trace("Waiting for state="+stateString(wantState)); try { stateSemaphore.wait(STATE_SEMAPHORE_TIMEOUT); // bail if we sit here too long } catch (InterruptedException e) { // Debug.trace(e.toString()); } // we may have awaked because of timeout or because // the state bits changed. Check here for the case // where the timeout passed and the condition isn't met. long elapsed = System.currentTimeMillis() - t0; if ((elapsed > STATE_SEMAPHORE_TIMEOUT) && ((state & stateMask) != wantState)) { done = true; timeout = true; } } } } /* Debug.trace("Done waiting."+ " want="+stateString(wantState)+ " mask="+stateString(stateMask)+ " have="+stateString(state)); */ return !timeout; }
/** * Implements {@link ActiveSpeakerChangedListener#activeSpeakerChanged(long)}. Notifies this * <tt>RecorderRtpImpl</tt> that the audio <tt>ReceiveStream</tt> considered active has changed, * and that the new active stream has SSRC <tt>ssrc</tt>. * * @param ssrc the SSRC of the new active stream. */ @Override public void activeSpeakerChanged(long ssrc) { if (eventHandler != null) { RecorderEvent e = new RecorderEvent(); e.setAudioSsrc(ssrc); // TODO: how do we time this? e.setInstant(System.currentTimeMillis()); e.setType(RecorderEvent.Type.SPEAKER_CHANGED); e.setMediaType(MediaType.VIDEO); eventHandler.handleEvent(e); } }
/** * Implements {@link ControllerListener#controllerUpdate(ControllerEvent)}. Handles events from * the <tt>Processor</tt>s that this instance uses to transcode media. * * @param ev the event to handle. */ public void controllerUpdate(ControllerEvent ev) { if (ev == null || ev.getSourceController() == null) { return; } Processor processor = (Processor) ev.getSourceController(); ReceiveStreamDesc desc = findReceiveStream(processor); if (desc == null) { logger.warn("Event from an orphaned processor, ignoring: " + ev); return; } if (ev instanceof ConfigureCompleteEvent) { if (logger.isInfoEnabled()) { logger.info( "Configured processor for ReceiveStream ssrc=" + desc.ssrc + " (" + desc.format + ")" + " " + System.currentTimeMillis()); } boolean audio = desc.format instanceof AudioFormat; if (audio) { ContentDescriptor cd = processor.setContentDescriptor(AUDIO_CONTENT_DESCRIPTOR); if (!AUDIO_CONTENT_DESCRIPTOR.equals(cd)) { logger.error( "Failed to set the Processor content " + "descriptor to " + AUDIO_CONTENT_DESCRIPTOR + ". Actual result: " + cd); removeReceiveStream(desc, false); return; } } for (TrackControl track : processor.getTrackControls()) { Format trackFormat = track.getFormat(); if (audio) { final long ssrc = desc.ssrc; SilenceEffect silenceEffect; if (Constants.OPUS_RTP.equals(desc.format.getEncoding())) { silenceEffect = new SilenceEffect(48000); } else { // We haven't tested that the RTP timestamps survive // the journey through the chain when codecs other than // opus are in use, so for the moment we rely on FMJ's // timestamps for non-opus formats. silenceEffect = new SilenceEffect(); } silenceEffect.setListener( new SilenceEffect.Listener() { boolean first = true; @Override public void onSilenceNotInserted(long timestamp) { if (first) { first = false; // send event only audioRecordingStarted(ssrc, timestamp); } else { // change file and send event resetRecording(ssrc, timestamp); } } }); desc.silenceEffect = silenceEffect; AudioLevelEffect audioLevelEffect = new AudioLevelEffect(); audioLevelEffect.setAudioLevelListener( new SimpleAudioLevelListener() { @Override public void audioLevelChanged(int level) { activeSpeakerDetector.levelChanged(ssrc, level); } }); try { // We add an effect, which will insert "silence" in // place of lost packets. track.setCodecChain(new Codec[] {silenceEffect, audioLevelEffect}); } catch (UnsupportedPlugInException upie) { logger.warn("Failed to insert silence effect: " + upie); // But do go on, a recording without extra silence is // better than nothing ;) } } else { // transcode vp8/rtp to vp8 (i.e. depacketize vp8) if (trackFormat.matches(vp8RtpFormat)) track.setFormat(vp8Format); else { logger.error("Unsupported track format: " + trackFormat + " for ssrc=" + desc.ssrc); // we currently only support vp8 removeReceiveStream(desc, false); return; } } } processor.realize(); } else if (ev instanceof RealizeCompleteEvent) { desc.dataSource = processor.getDataOutput(); long ssrc = desc.ssrc; boolean audio = desc.format instanceof AudioFormat; String suffix = audio ? AUDIO_FILENAME_SUFFIX : VIDEO_FILENAME_SUFFIX; // XXX '\' on windows? String filename = getNextFilename(path + "/" + ssrc, suffix); desc.filename = filename; DataSink dataSink; if (audio) { try { dataSink = Manager.createDataSink(desc.dataSource, new MediaLocator("file:" + filename)); } catch (NoDataSinkException ndse) { logger.error("Could not create DataSink: " + ndse); removeReceiveStream(desc, false); return; } } else { dataSink = new WebmDataSink(filename, desc.dataSource); } if (logger.isInfoEnabled()) logger.info( "Created DataSink (" + dataSink + ") for SSRC=" + ssrc + ". Output filename: " + filename); try { dataSink.open(); } catch (IOException e) { logger.error("Failed to open DataSink (" + dataSink + ") for" + " SSRC=" + ssrc + ": " + e); removeReceiveStream(desc, false); return; } if (!audio) { final WebmDataSink webmDataSink = (WebmDataSink) dataSink; webmDataSink.setSsrc(ssrc); webmDataSink.setEventHandler(eventHandler); webmDataSink.setKeyFrameControl( new KeyFrameControlAdapter() { @Override public boolean requestKeyFrame(boolean urgent) { return requestFIR(webmDataSink); } }); } try { dataSink.start(); } catch (IOException e) { logger.error( "Failed to start DataSink (" + dataSink + ") for" + " SSRC=" + ssrc + ". " + e); removeReceiveStream(desc, false); return; } if (logger.isInfoEnabled()) logger.info("Started DataSink for SSRC=" + ssrc); desc.dataSink = dataSink; processor.start(); } else if (logger.isDebugEnabled()) { logger.debug( "Unhandled ControllerEvent from the Processor for ssrc=" + desc.ssrc + ": " + ev); } }