private void addInput(String url) {
INDEX++;
int i = INDEX;
System.out.println("\n------------\naddInput[" + i + "]: " + url + "\n-------------\n");
Element input = null;
if (!FAKE_INPUT) {
/* create audio output */
final Bin audioBin = new Bin("Audio Bin" + i);
Element src = null;
if (url.contains("http://")) {
src = ElementFactory.make("gnomevfssrc", "Input" + i);
src.set("location", url);
} else if (url.contains("rtmp") && url.contains("://")) {
src = ElementFactory.make("rtmpsrc", "Input" + i);
// src.set("do-timestamp", true);
src.set("location", url);
} else {
src = ElementFactory.make("filesrc", "Input" + i);
src.set("location", url);
}
DecodeBin2 decodeBin = new DecodeBin2("Decode Bin" + i);
Element decodeQueue = ElementFactory.make("queue2", "Decode Queue" + i);
Element conv = ElementFactory.make("audioconvert", "Audio Convert" + i);
Element resample = ElementFactory.make("audioresample", "Audio Resample" + i);
Element volume = ElementFactory.make("volume", "Audio Volume" + i);
volume.set("volume", 1.0f);
volumeElements.put(url, volume);
audioBin.addMany(conv, resample, volume);
Element.linkMany(conv, resample, volume);
audioBin.addPad(new GhostPad("src", volume.getStaticPad("src")));
audioBin.addPad(new GhostPad("sink", conv.getStaticPad("sink")));
input = new Bin("Input Bin" + i);
((Bin) input).addMany(src, decodeQueue, decodeBin, audioBin);
Element.linkMany(src, decodeQueue, decodeBin, audioBin);
input.addPad(new GhostPad("src", audioBin.getSrcPads().get(0)));
decodeBin.connect(
new DecodeBin2.NEW_DECODED_PAD() {
public void newDecodedPad(Element elem, Pad pad, boolean last) {
/* only link once */
if (pad.isLinked()) {
return;
}
/* check media type */
Caps caps = pad.getCaps();
Structure struct = caps.getStructure(0);
if (struct.getName().startsWith("audio/")) {
System.out.println("Linking audio pad: " + struct.getName());
if (audioBin.getStaticPad("sink").getPeer() == null) {
PadLinkReturn linked = pad.link(audioBin.getStaticPad("sink"));
System.out.println("Decodebin linked " + linked);
}
} else if (struct.getName().startsWith("video/")) {
System.out.println("Linking video pad: " + struct.getName());
} else {
System.out.println("Unknown pad [" + struct.getName() + "]");
}
}
});
} else {
input = ElementFactory.make("audiotestsrc", "Audio Fake" + i);
int w = i;
if (i > 1) w = 5;
input.set("wave", w);
input.set("is-live", true);
}
if (!inputURLs.contains(url)) {
inputURLs.add(url);
}
inputElements.put(url, input);
boolean playing = pipe.isPlaying();
Pad adderSink = adder.getRequestPad("sink%d");
if (playing) {
System.out.println("Adder inputs: " + adder.getSinkPads());
pipe.setState(State.PLAYING);
}
}
/**
* @param inputURLs
* @param outputURL
* @param pathFifo
*/
public void createPipeline() {
String config = "rate=" + OUTPUT_FREQ + ",channels=" + OUTPUT_CHANELS + ",depth=16";
pathFifo = "/tmp/" + outputURL.replace('/', '_') + "_" + config;
this.capsAudio = Caps.fromString("audio/x-raw-int," + config + ";audio/x-raw-float," + config);
pipe = new Pipeline("Audio Mixer Pipeline");
try {
adder = ElementFactory.make("liveadder", "liveadder");
// adder.set("latency", 5 * 1000);
} catch (Exception e) {
}
adder.connect(
new PAD_REMOVED() {
@Override
public void padRemoved(Element element, Pad pad) {
if (removedInput != null) {
pipe.remove(removedInput);
pipe.remove(removedIdentity);
removedInput.setState(State.NULL);
removedIdentity.setState(State.NULL);
System.out.println("padRemoved: " + removedInput);
removedInput = null;
removedInput = null;
System.gc();
}
}
});
adder.connect(
new PAD_ADDED() {
@Override
public void padAdded(Element element, Pad pad) {
linkNewInputToPad(pad);
}
});
Element tee = ElementFactory.make("tee", "tee");
Element capsfilter = ElementFactory.make("capsfilter", null);
capsfilter.setCaps(capsAudio);
queueTee = ElementFactory.make("queue2", null);
pipe.addMany(adder, queueTee, tee, capsfilter);
Element.linkMany(adder, queueTee, capsfilter, tee);
if (AUDIO_OUTPUT) {
Element audioSink = ElementFactory.make("alsasink", "Audio Sink");
audioSink.set("sync", false);
pipe.addMany(audioSink);
Element.linkMany(tee, audioSink);
}
if (STREAM_OUTPUT) {
// fileFifo.deleteOnExit();
fileFifo = new File(pathFifo);
try {
if (!fileFifo.exists()) {
// fileFifo.delete();
String command = "/usr/bin/mkfifo " + fileFifo.getAbsolutePath();
ProcessBuilder b = new ProcessBuilder("/bin/sh", "-c", command);
b.start().waitFor();
}
} catch (Exception e) {
e.printStackTrace();
}
Element codecEnc = ElementFactory.make("lamemp3enc", "MP3 Encoder");
Element mux = ElementFactory.make("flvmux", "FLV Muxer");
Element queue = ElementFactory.make("queue2", "Fifo Queue");
Element filesink = ElementFactory.make("filesink", "Fifo Sink");
filesink.set("sync", false);
filesink.set("location", fileFifo.getAbsolutePath());
pipe.addMany(queue, codecEnc, mux, filesink);
Element.linkMany(tee, queue, codecEnc, mux, filesink);
startFFmpegProcess();
}
int i = 0;
for (String url : inputURLs) {
i++;
if (checkUrl(url)) {
addInput(url);
}
}
prepareBus();
}
private static void startStreaming(final VideoComponent vc, String settings, int port) {
Gst.init();
clientPipe = new Pipeline("pipeline");
pushLog("> CTRL: " + "PLAY");
pushLog("> SYS: " + " INIT STREAM");
System.out.println("Starting with: C=" + clientLoc + ", S=" + serverLoc);
// VIDEO
Element udpVideoSrc = ElementFactory.make("udpsrc", "src1");
udpVideoSrc.setCaps(
Caps.fromString(
"application/x-rtp, media=(string)video, clock-rate=(int)90000, encoding-name=(string)JPEG, payload=(int)96, ssrc=(uint)2156703816, clock-base=(uint)1678649553, seqnum-base=(uint)31324"));
udpVideoSrc.set("uri", "udp://" + clientLoc + ":" + port);
Element videoRtcpIn = ElementFactory.make("udpsrc", "src3");
videoRtcpIn.set("uri", "udp://" + clientLoc + ":" + (port + 1));
Element videoRtcpOut = ElementFactory.make("udpsink", "snk1");
videoRtcpOut.set("host", serverLoc);
videoRtcpOut.set("port", "" + (port + 5));
videoRtcpOut.set("sync", "false");
videoRtcpOut.set("async", "false");
Element udpAudioSrc = null, audioRtcpIn = null, audioRtcpOut = null, taud = null;
if (attribute.equalsIgnoreCase("active")) {
// AUDIO
udpAudioSrc = ElementFactory.make("udpsrc", "src2");
udpAudioSrc.setCaps(
Caps.fromString(
"application/x-rtp, media=(string)audio, clock-rate=(int)8000, encoding-name=(string)L16, encoding-params=(string)2, channels=(int)2, payload=(int)96, ssrc=(uint)3489550614, clock-base=(uint)2613725642, seqnum-base=(uint)1704"));
udpAudioSrc.set("uri", "udp://" + clientLoc + ":" + (port + 2));
taud = ElementFactory.make("tee", "taud");
Element qaud = ElementFactory.make("queue", "qaud");
AppSink appAudioSink = (AppSink) ElementFactory.make("appsink", "appAudioSink");
appAudioSink.set("emit-signals", true);
appAudioSink.setSync(false);
audioQ = new LinkedList<FrameInfo>();
appAudioSink.connect(
new AppSink.NEW_BUFFER() {
public void newBuffer(AppSink sink) {
Buffer b = sink.getLastBuffer();
if (b != null) {
audioQ.offer(new FrameInfo(System.currentTimeMillis(), b.getSize()));
}
}
});
audioRtcpIn = ElementFactory.make("udpsrc", "src4");
audioRtcpIn.set("uri", "udp://" + clientLoc + ":" + (port + 3));
audioRtcpOut = ElementFactory.make("udpsink", "snk2");
audioRtcpOut.set("host", serverLoc);
audioRtcpOut.set("port", "" + (port + 7));
audioRtcpOut.set("sync", "false");
audioRtcpOut.set("async", "false");
clientPipe.addMany(taud, qaud, appAudioSink);
clientPipe.addMany(udpAudioSrc, audioRtcpIn, audioRtcpOut);
Element.linkMany(udpAudioSrc, taud, qaud, appAudioSink);
}
Element tvid = ElementFactory.make("tee", "tvid");
Element qvid = ElementFactory.make("queue", "qvid");
AppSink appVideoSink = (AppSink) ElementFactory.make("appsink", "appVideoSink");
appVideoSink.set("emit-signals", true);
appVideoSink.setSync(false);
videoQ = new LinkedList<FrameInfo>();
appVideoSink.connect(
new AppSink.NEW_BUFFER() {
public void newBuffer(AppSink sink) {
Buffer b = sink.getLastBuffer();
if (b != null) {
videoQ.offer(new FrameInfo(System.currentTimeMillis(), b.getSize()));
// System.out.println(System.currentTimeMillis());
}
}
});
clientPipe.addMany(tvid, qvid, appVideoSink);
clientPipe.addMany(udpVideoSrc, videoRtcpIn, videoRtcpOut);
Element.linkMany(udpVideoSrc, tvid, qvid, appVideoSink);
// VIDEO BIN
videoBin = new Bin("videoBin");
// src1
Element videoDepay = ElementFactory.make("rtpjpegdepay", "depay");
Element videoDecode = ElementFactory.make("jpegdec", "decode");
Element videoRate = ElementFactory.make("videorate", "rate1");
Element videoColor = ElementFactory.make("ffmpegcolorspace", "color");
Element videoSrc1Caps = ElementFactory.make("capsfilter", "src1caps");
videoSrc1Caps.setCaps(Caps.fromString("video/x-raw-yuv, framerate=30/1"));
Element videoColor2 = ElementFactory.make("ffmpegcolorspace", "color2");
videoBin.addMany(videoDepay, videoDecode, videoRate, videoColor, videoSrc1Caps, videoColor2);
Element.linkMany(videoDepay, videoDecode, videoRate, videoColor, videoSrc1Caps, videoColor2);
videoBin.addPad(new GhostPad("sink", videoDepay.getStaticPad("sink")));
clientPipe.add(videoBin);
final Bin audioBin = new Bin("audioBin");
if (attribute.equalsIgnoreCase("active")) {
// AUDIO BIN
final Element audioDepay = ElementFactory.make("rtpL16depay", "auddepay");
Element audioConvert = ElementFactory.make("audioconvert", "audconv");
mute = ElementFactory.make("volume", "vol");
mute.set("mute", "true");
final Element audioSink = ElementFactory.make("autoaudiosink", "audsink");
audioBin.addMany(audioDepay, audioConvert, mute, audioSink);
Element.linkMany(audioDepay, audioConvert, mute, audioSink);
audioBin.addPad(new GhostPad("sink", audioDepay.getStaticPad("sink")));
clientPipe.add(audioBin);
}
// RTPBIN
final RTPBin rtp = new RTPBin("rtp");
clientPipe.add(rtp);
Element.linkPads(tvid, "src1", rtp, "recv_rtp_sink_0");
Element.linkPads(videoRtcpIn, "src", rtp, "recv_rtcp_sink_0");
Element.linkPads(rtp, "send_rtcp_src_0", videoRtcpOut, "sink");
if (attribute.equalsIgnoreCase("active")) {
Element.linkPads(taud, "src1", rtp, "recv_rtp_sink_1");
Element.linkPads(audioRtcpIn, "src", rtp, "recv_rtcp_sink_1");
Element.linkPads(rtp, "send_rtcp_src_1", audioRtcpOut, "sink");
}
// BUS
rtp.connect(
new Element.PAD_ADDED() {
@Override
public void padAdded(Element arg0, Pad arg1) {
if (arg1.getName().startsWith("recv_rtp_src_0")) {
arg1.link(videoBin.getStaticPad("sink"));
} else if (arg1.getName().startsWith("recv_rtp_src_1")
&& attribute.equalsIgnoreCase("active")) {
arg1.link(audioBin.getStaticPad("sink"));
}
clientPipe.debugToDotFile(1, "clientsucc");
}
});
Bus bus = clientPipe.getBus();
bus.connect(
new Bus.ERROR() {
public void errorMessage(GstObject source, int code, String message) {
pushLog("> GSTREAMER ERROR: code=" + code + " message=" + message);
clientPipe.debugToDotFile(1, "clienterr");
}
});
bus.connect(
new Bus.EOS() {
public void endOfStream(GstObject source) {
clientPipe.setState(State.NULL);
System.out.println("EOS");
}
});
videoBin.add(vc.getElement());
AppSink appJointSink = (AppSink) ElementFactory.make("appsink", "appJointSink");
appJointSink.set("emit-signals", true);
appJointSink.setSync(false);
jointQ = new LinkedList<CompareInfo>();
appJointSink.connect(
new AppSink.NEW_BUFFER() {
public void newBuffer(AppSink sink) {
/*
int vs = 0; int as = 0;
while (videoQ != null) {
vs++; videoQ.poll();
}
while (audioQ != null) {
as++; audioQ.poll();
}
System.out.println("Compare: " + as + " : " + vs);
*/
}
});
Element.linkMany(videoColor2, vc.getElement());
Thread videoThread =
new Thread() {
public void run() {
clientPipe.setState(org.gstreamer.State.PLAYING);
}
};
videoThread.start();
clientPipe.debugToDotFile(0, "appsink");
}
/**
* Toma un archivo de audio en formato WAV, obtiene el raw audio y le aplica la compresión de
* acuerdo a las características indicadas, devolviendo el conjunto de buffers que contienen el
* audio comprimido.
*
* @param audioOriginal Archivo de audio en formato WAV
* @param formatoObjetivo Propiedades del audio comprimido. Debe ser de tipo <code>FormatoCodecGst
* </code>
* @return Los buffers con el audio comprimido
* @throws AudioException Si ocurre un error durante el procesamiento
* @see CodificadorAudio
* @see FormatoCodecGst
* @see Pipeline
* @see Element
*/
public synchronized BuffersAudio codificar(File audioOriginal, FormatoCodec formatoObjetivo)
throws AudioException {
FormatoCodecGst formatoObjetivoGst = (FormatoCodecGst) formatoObjetivo;
FormatoRawAudioGst formatoRawAudioGst =
(FormatoRawAudioGst) formatoObjetivoGst.getFormatoRawAudio();
// El pipeline de gstreamer para codificación está formado por:
// filesrc | wavparse | audioresample | audioconvert | capsfilter | element(codificador) |
// appsink
this.pipeline = new Pipeline("pipeline");
Bus bus = this.pipeline.getBus();
this.audioException = null;
// definición de elementos
FileSrc filesrc = (FileSrc) ElementFactory.make("filesrc", "source");
filesrc.setLocation(audioOriginal);
// System.out.println(filesrc.get("location"));
Element demuxer = ElementFactory.make("wavparse", "fileDecoder");
Element ident = ElementFactory.make("identity", "ident");
Element audioconvert = ElementFactory.make("audioconvert", "audio converter");
Element audioresample = ElementFactory.make("audioresample", "audio resampler");
Element capsfilterreq = ElementFactory.make("capsfilter", "capsfiltereq");
capsfilterreq.setCaps(formatoObjetivoGst.getCapsNecesarios());
Element codaudio = ElementFactory.make(formatoObjetivoGst.getGstCodificador(), "codaudio");
// seleccion de propiedades de codec
PropiedadesCodificador pc = formatoObjetivoGst.getPropiedadesCodec();
int numeroPropiedades = pc.getNumeroPropiedades();
String[] nombrePropiedades = pc.getNombrePropiedades();
for (int i = 0; i < numeroPropiedades; i++) {
codaudio.set(nombrePropiedades[i], pc.getValorPropiedad(nombrePropiedades[i]));
}
AppSink appsink = (AppSink) ElementFactory.make("appsink", "appsink");
appsink.set("emit-signals", true);
appsink.set("sync", false);
// creación del pipeline
this.pipeline.addMany(
filesrc, demuxer, ident, audioresample, audioconvert, capsfilterreq, codaudio, appsink);
Element.linkMany(filesrc, demuxer);
Element.linkMany(ident, audioresample, audioconvert, capsfilterreq, codaudio, appsink);
// añadir listeners
// enlace dinámico para el decodificador del fichero
CodificadorAudioGst.SignalPadAdded signalPadAdded =
new CodificadorAudioGst.SignalPadAdded(ident);
demuxer.connect(signalPadAdded);
// manejo del flujo de bytes en el pipeline
CodificadorAudioGst.NewBufferSignal newBufferSignal =
new CodificadorAudioGst.NewBufferSignal(appsink);
appsink.connect(newBufferSignal);
// fin de stream
bus.connect(new CodificadorAudioGst.SignalBusEos());
// error en el procesamient
bus.connect(new CodificadorAudioGst.SignalBusError());
// inicio la codificación
this.pipeline.play();
// esperar el fin de la codificación
this.semaforo.acquireUninterruptibly();
formatoObjetivoGst.setCapsCodificacion(newBufferSignal.capsCodificacion);
formatoRawAudioGst.setCapsRawAudio(signalPadAdded.caps);
newBufferSignal.buffersAudio.setFormatoCodec(formatoObjetivoGst);
this.pipeline.dispose();
if (this.audioException != null) throw this.audioException;
return newBufferSignal.buffersAudio;
}
/**
* Toma un cojunto de buffers de audio y le aplica el proceso de descompresión generando un
* archivo en formato WAV con el resultado de la descompresión.
*
* @param targetFile El archivo de audio WAV que contendrá el audio descomprimido
* @param audioCodificado Los buffers de audio comprimido. Las propiedades de audio que deben
* obtenerse mediante un objeto tipo <code>FormatoCodecGst</code>
* @return El archivo de audio WAV que contendrá el audio descomprimido
* @throws AudioException Si ocurre un error durante el procesamiento
* @see BuffersAudio
* @see FormatoCodecGst
* @see Pipeline
* @see Element
*/
public synchronized File decodificar(File targetFile, BuffersAudio audioCodificado)
throws AudioException {
FormatoCodecGst formatoOrigenGst = (FormatoCodecGst) audioCodificado.getFormatoCodec();
FormatoRawAudioGst formatoRawAudioGst =
(FormatoRawAudioGst) formatoOrigenGst.getFormatoRawAudio();
// El pipeline de gstreamer para decodificación está formado por:
// appsrc | capsfilter | element(decodifcador) | audioconvert | audioresample | capsfilter |
// wavenc | filesink
this.pipeline = new Pipeline("pipeline");
Bus bus = this.pipeline.getBus();
this.audioException = null;
// definición de elementos
AppSrc appsrc = (AppSrc) ElementFactory.make("appsrc", "appsrc");
Element capsfilterin = ElementFactory.make("capsfilter", "capsfilterint");
capsfilterin.setCaps(formatoOrigenGst.getCapsCodificacion());
Element decodaudio = ElementFactory.make(formatoOrigenGst.getGstDecodificador(), "decodaudio");
Element audioconvert = ElementFactory.make("audioconvert", "audioconvert");
Element audioresample = ElementFactory.make("audioresample", "audioresample");
Element muxer = ElementFactory.make("wavenc", "fileEncoder");
Element filesink = ElementFactory.make("filesink", "filesink");
filesink.set("location", targetFile);
Element capsfilterout = ElementFactory.make("capsfilter", "capsfilterout");
capsfilterout.setCaps(formatoRawAudioGst.getCapsRawAudio());
this.pipeline.addMany(
appsrc,
capsfilterin,
decodaudio,
audioconvert,
audioresample,
capsfilterout,
muxer,
filesink);
Element.linkMany(
appsrc,
capsfilterin,
decodaudio,
audioconvert,
audioresample,
capsfilterout,
muxer,
filesink);
// manejo del flujo de bytes en el pipeline
CodificadorAudioGst.NeedDataSignal needDataSignal =
new CodificadorAudioGst.NeedDataSignal(appsrc, audioCodificado);
appsrc.connect(needDataSignal);
// añadir listeners
bus.connect(new CodificadorAudioGst.SignalBusEos());
bus.connect(new CodificadorAudioGst.SignalBusError());
// inicio de la decodificación
this.pipeline.play();
// esperar el fin de la decodificación
this.semaforo.acquireUninterruptibly();
this.pipeline.dispose();
if (this.audioException != null) throw this.audioException;
return targetFile;
}
