/** * ************************************************************** Sample Usage for VideoTransmit * class ************************************************************** */ public static void main(String[] args) { // We need three parameters to do the transmission // For example, // java VideoTransmit file:/C:/media/test.mov 129.130.131.132 42050 if (args.length < 3) { System.err.println("Usage: VideoTransmit <sourceURL> <destIP> <destPort>"); System.exit(-1); } // Create a video transmit object with the specified params. VideoTransmit vt = new VideoTransmit(new MediaLocator(args[0]), args[1], args[2]); // Start the transmission String result = vt.start(); // result will be non-null if there was an error. The return // value is a String describing the possible error. Print it. if (result != null) { System.err.println("Error : " + result); System.exit(0); } System.err.println("Start transmission for 60 seconds..."); // Transmit for 60 seconds and then close the processor // This is a safeguard when using a capture data source // so that the capture device will be properly released // before quitting. // The right thing to do would be to have a GUI with a // "Stop" button that would call stop on VideoTransmit try { Thread.currentThread().sleep(60000); } catch (InterruptedException ie) { } // Stop the transmission vt.stop(); System.err.println("...transmission ended."); System.exit(0); }
/** @param args */ public static void main(String[] args) { String url = "rtp://192.168.1.1:22224/audio/16"; MediaLocator mrl = new MediaLocator(url); // Create a player for this rtp session Player player = null; try { player = Manager.createPlayer(mrl); } catch (NoPlayerException e) { e.printStackTrace(); System.exit(-1); } catch (MalformedURLException e) { e.printStackTrace(); System.exit(-1); } catch (IOException e) { e.printStackTrace(); System.exit(-1); } if (player != null) { System.out.println("Player created."); player.realize(); // wait for realizing while (player.getState() != Controller.Realized) { try { Thread.sleep(10); } catch (InterruptedException e) { e.printStackTrace(); } } System.out.println("Starting player"); player.start(); } else { System.err.println("Player doesn't created."); System.exit(-1); } System.out.println("Exiting."); }
public static void main(String[] args) { if (args.length != 2) { System.out.println("Usage: rtpaudio <targetIP> <targetPort>"); System.exit(0); } try { RegistryDefaults.setDefaultFlags(RegistryDefaults.FMJ); // create a clean registry RegistryDefaults.unRegisterAll(RegistryDefaults.ALL); RegistryDefaults.registerAll(RegistryDefaults.FMJ); // remove all capture devices Vector deviceList = (Vector) CaptureDeviceManager.getDeviceList(null).clone(); for (int i = 0; i < deviceList.size(); i++) { CaptureDeviceInfo cdi = (CaptureDeviceInfo) deviceList.elementAt(i); CaptureDeviceManager.removeDevice(cdi); } // update capture device list new net.sf.fmj.media.cdp.javasound.CaptureDevicePlugger().addCaptureDevices(); PlugInManager.commit(); deviceList = (Vector) CaptureDeviceManager.getDeviceList(null).clone(); if ((null == deviceList) || (deviceList.size() == 0)) { System.out.println("### ERROR found no audio capture device"); System.exit(0); } // enumerate all codec Vector codecList = PlugInManager.getPlugInList(null, null, PlugInManager.CODEC); System.out.println("found " + codecList.size() + " codec"); for (int i = 0; i < codecList.size(); i++) { String aCodecClass = (String) codecList.elementAt(i); System.out.println("# " + (i + 1) + " " + aCodecClass); } // fetch first available audio capture device deviceList = (Vector) CaptureDeviceManager.getDeviceList(null).clone(); CaptureDeviceInfo captureDeviceInfo = (CaptureDeviceInfo) deviceList.elementAt(0); System.out.println("### using " + captureDeviceInfo.getName()); System.out.println("### locator " + captureDeviceInfo.getLocator()); javax.media.protocol.DataSource dataSource = javax.media.Manager.createDataSource( new javax.media.MediaLocator(captureDeviceInfo.getLocator().toString())); // javax.media.protocol.DataSource dataSource = // javax.media.Manager.createDataSource(new // javax.media.MediaLocator("javasound://")); System.out.println("### created datasource " + dataSource.getClass().getName()); javax.media.control.FormatControl[] formatControls = ((javax.media.protocol.CaptureDevice) dataSource).getFormatControls(); System.out.println("got format control " + formatControls[0].getClass().getName()); System.out.println("current format is " + formatControls[0].getFormat()); // set audio capture format javax.media.Format[] formats = formatControls[0].getSupportedFormats(); for (int i = 0; i < formats.length; i++) { javax.media.format.AudioFormat af = (javax.media.format.AudioFormat) formats[i]; if ((af.getChannels() == 1) && (af.getSampleSizeInBits() == 16)) { if (af.getSampleRate() == Format.NOT_SPECIFIED) { javax.media.format.AudioFormat newAudioFormat = new javax.media.format.AudioFormat( af.getEncoding(), 8000.0f, javax.media.Format.NOT_SPECIFIED, javax.media.Format.NOT_SPECIFIED); // javax.media.format.AudioFormat newAudioFormat = new // javax.media.format.AudioFormat(af.getEncoding(), // 44100.0f, javax.media.Format.NOT_SPECIFIED, // javax.media.Format.NOT_SPECIFIED); formatControls[0].setFormat(newAudioFormat.intersects(af)); break; } } } System.out.println("current format is now " + formatControls[0].getFormat()); FrameProcessingControl fpc = null; // adujst recording buffer ( to adjust latency ) dataSource.stop(); Object[] controls = dataSource.getControls(); for (int i = 0; i < controls.length; i++) { String className = controls[i].getClass().getName(); if (-1 != className.indexOf("JavaSoundBufferControl")) { javax.media.control.BufferControl bc = (javax.media.control.BufferControl) controls[i]; System.out.println( "### current javasound buffer length is " + bc.getBufferLength() + " ms"); bc.setBufferLength(40); System.out.println( "### current javasound buffer length is " + bc.getBufferLength() + " ms"); } else if (-1 != className.indexOf("JitterBufferControl")) { javax.media.control.BufferControl bc = (javax.media.control.BufferControl) controls[i]; System.out.println("### current jitter buffer length is " + bc.getBufferLength() + " ms"); bc.setBufferLength(80); System.out.println("### current jitter buffer length is " + bc.getBufferLength() + " ms"); } else if (-1 != className.indexOf("FPC")) { fpc = (FrameProcessingControl) controls[i]; System.out.println("### found bitrate control " + fpc.getClass()); } } dataSource.start(); // create processor javax.media.Processor processor = javax.media.Manager.createProcessor(dataSource); System.out.println("### created processor " + processor.getClass().getName()); processor.configure(); for (int idx = 0; idx < 100; idx++) { if (processor.getState() == Processor.Configured) { break; } Thread.sleep(100); } System.out.println("### processor state " + processor.getState()); processor.setContentDescriptor( new javax.media.protocol.ContentDescriptor(ContentDescriptor.RAW_RTP)); javax.media.control.TrackControl[] tracks = processor.getTrackControls(); // /tracks[0].setFormat(new // javax.media.format.AudioFormat(javax.media.format.AudioFormat.ULAW_RTP, // 8000, 8, 1)); tracks[0].setFormat( new javax.media.format.AudioFormat(javax.media.format.AudioFormat.GSM_RTP, 8000, 8, 1)); processor.realize(); for (int idx = 0; idx < 100; idx++) { if (processor.getState() == Controller.Realized) { break; } Thread.sleep(100); } System.out.println("### processor state " + processor.getState()); javax.media.protocol.DataSource dataOutput = processor.getDataOutput(); System.out.println("### processor data output " + dataOutput.getClass().getName()); // BitRateControl BitRateControl bitrateControl = null; Object[] controls2 = dataOutput.getControls(); for (int i = 0; i < controls2.length; i++) { if (controls2[i] instanceof BitRateControl) { bitrateControl = (BitRateControl) controls2[i]; System.out.println("### found bitrate control " + bitrateControl.getClass()); break; } } // PacketSizeControl Object[] controls3 = processor.getControls(); for (int i = 0; i < controls3.length; i++) { if (controls3[i] instanceof PacketSizeControl) { PacketSizeControl psc = (PacketSizeControl) controls3[i]; System.out.println("### current packetsize is " + psc.getPacketSize() + " bytes"); psc.setPacketSize(66); System.out.println("### current packetsize is " + psc.getPacketSize() + " bytes"); break; } } // enumerate all controls of the processor Object[] pcontrols = processor.getControls(); for (int i = 0; i < pcontrols.length; i++) { System.out.println("processor control " + i + " " + pcontrols[i]); } javax.media.rtp.RTPManager rtpManager = javax.media.rtp.RTPManager.newInstance(); javax.media.rtp.SessionAddress local = new javax.media.rtp.SessionAddress( InetAddress.getLocalHost(), Integer.valueOf(args[1]).intValue()); javax.media.rtp.SessionAddress target = new javax.media.rtp.SessionAddress( InetAddress.getByName(args[0]), Integer.valueOf(args[1]).intValue()); rtpManager.initialize(local); rtpManager.addTarget(target); javax.media.rtp.SendStream sendStream = rtpManager.createSendStream(dataOutput, 0); sendStream.start(); processor.start(); Thread.sleep(1000); System.out.println("\n>>>>>> TRANSMITTING ULAW/RTP AUDIO NOW"); while (2 > 1) { Thread.sleep(1000); if (null != bitrateControl) { TransmissionStats stats = sendStream.getSourceTransmissionStats(); System.out.println( "rtp audio send: bitrate=" + bitrateControl.getBitRate() + " (pdu=" + stats.getPDUTransmitted() + " bytes=" + stats.getBytesTransmitted() + " overrun=" + fpc.getFramesDropped() + ")"); } } } catch (Exception ex) { ex.printStackTrace(); } System.exit(0); }
public static void main(String[] args) { // ---------------- CUT HERE START ----------------- // Format formats[] = new Format[2]; formats[0] = new AudioFormat(AudioFormat.IMA4); formats[1] = new VideoFormat(VideoFormat.CINEPAK); FileTypeDescriptor outputType = new FileTypeDescriptor(FileTypeDescriptor.QUICKTIME); Processor p = null; try { p = Manager.createRealizedProcessor(new ProcessorModel(formats, outputType)); } catch (IOException e) { System.exit(-1); } catch (NoProcessorException e) { System.exit(-1); } catch (CannotRealizeException e) { System.exit(-1); } // get the output of the processor DataSource source = p.getDataOutput(); // create a File protocol MediaLocator with the location of the file to // which bits are to be written MediaLocator dest = new MediaLocator("file://foo.mov"); // create a datasink to do the file writing & open the sink to make sure // we can write to it. DataSink filewriter = null; try { filewriter = Manager.createDataSink(source, dest); filewriter.open(); } catch (NoDataSinkException e) { System.exit(-1); } catch (IOException e) { System.exit(-1); } catch (SecurityException e) { System.exit(-1); } // now start the filewriter and processor try { filewriter.start(); } catch (IOException e) { System.exit(-1); } p.start(); // stop and close the processor when done capturing... // close the datasink when EndOfStream event is received... // ----------------- CUT HERE END ---------------- // try { Thread.currentThread().sleep(4000); } catch (InterruptedException ie) { } p.stop(); p.close(); try { Thread.currentThread().sleep(1000); } catch (InterruptedException ie) { } filewriter.close(); try { Thread.currentThread().sleep(4000); } catch (InterruptedException ie) { } System.exit(0); }