/**
* Blocks and reads into a <tt>Buffer</tt> from this <tt>PullBufferStream</tt>.
*
* @param buffer the <tt>Buffer</tt> this <tt>PullBufferStream</tt> is to read into
* @throws IOException if an I/O error occurs while this <tt>PullBufferStream</tt> reads into the
* specified <tt>Buffer</tt>
* @see AbstractVideoPullBufferStream#doRead(Buffer)
*/
@Override
protected void doRead(Buffer buffer) throws IOException {
/*
* Determine the Format in which we're expected to output. We cannot
* rely on the Format always being specified in the Buffer because it is
* not its responsibility, the DataSource of this ImageStream knows the
* output Format.
*/
Format format = buffer.getFormat();
if (format == null) {
format = getFormat();
if (format != null) buffer.setFormat(format);
}
if (format instanceof AVFrameFormat) {
Object o = buffer.getData();
AVFrame frame;
if (o instanceof AVFrame) frame = (AVFrame) o;
else {
frame = new AVFrame();
buffer.setData(frame);
}
AVFrameFormat avFrameFormat = (AVFrameFormat) format;
Dimension size = avFrameFormat.getSize();
ByteBuffer data = readScreenNative(size);
if (data != null) {
if (frame.avpicture_fill(data, avFrameFormat) < 0) {
data.free();
throw new IOException("avpicture_fill");
}
} else {
/*
* This can happen when we disconnect a monitor from computer
* before or during grabbing.
*/
throw new IOException("Failed to grab screen.");
}
} else {
byte[] bytes = (byte[]) buffer.getData();
Dimension size = ((VideoFormat) format).getSize();
bytes = readScreen(bytes, size);
buffer.setData(bytes);
buffer.setOffset(0);
buffer.setLength(bytes.length);
}
buffer.setHeader(null);
buffer.setTimeStamp(System.nanoTime());
buffer.setSequenceNumber(seqNo);
buffer.setFlags(Buffer.FLAG_SYSTEM_TIME | Buffer.FLAG_LIVE_DATA);
seqNo++;
}
public VideoTrack(PullSourceStream stream) throws ResourceUnavailableException {
super();
this.stream = stream;
// set format
// read first frame to determine format
final Buffer buffer = new Buffer();
readFrame(buffer);
if (buffer.isDiscard() || buffer.isEOM())
throw new ResourceUnavailableException("Unable to read first frame");
// TODO: catch runtime exception too?
// parse jpeg
final java.awt.Image image;
try {
image =
ImageIO.read(
new ByteArrayInputStream(
(byte[]) buffer.getData(), buffer.getOffset(), buffer.getLength()));
} catch (IOException e) {
logger.log(Level.WARNING, "" + e, e);
throw new ResourceUnavailableException("Error reading image: " + e);
}
if (image == null) {
logger.log(Level.WARNING, "Failed to read image (ImageIO.read returned null).");
throw new ResourceUnavailableException();
}
if (frameContentType.equals("image/jpeg"))
format =
new JPEGFormat(
new Dimension(image.getWidth(null), image.getHeight(null)),
Format.NOT_SPECIFIED,
Format.byteArray,
-1.f,
Format.NOT_SPECIFIED,
Format.NOT_SPECIFIED);
else if (frameContentType.equals("image/gif"))
format =
new GIFFormat(
new Dimension(image.getWidth(null), image.getHeight(null)),
Format.NOT_SPECIFIED,
Format.byteArray,
-1.f);
else if (frameContentType.equals("image/png"))
format =
new PNGFormat(
new Dimension(image.getWidth(null), image.getHeight(null)),
Format.NOT_SPECIFIED,
Format.byteArray,
-1.f);
else
throw new ResourceUnavailableException(
"Unsupported frame content type: " + frameContentType);
// TODO: this discards first image. save and return first time
// readFrame is called.
}
private void newImage(Buffer buffer) {
Object data = buffer.getData();
if (!(data instanceof int[])) return;
RGBFormat format = (RGBFormat) buffer.getFormat();
DirectColorModel dcm =
new DirectColorModel(
format.getBitsPerPixel(),
format.getRedMask(),
format.getGreenMask(),
format.getBlueMask());
sourceImage =
new MemoryImageSource(
format.getLineStride(),
format.getSize().height,
dcm,
(int[]) data,
0,
format.getLineStride());
sourceImage.setAnimated(true);
sourceImage.setFullBufferUpdates(true);
if (component != null) {
destImage = component.createImage(sourceImage);
component.prepareImage(destImage, component);
}
}
/** decode the buffer * */
public int process(Buffer inputBuffer, Buffer outputBuffer) {
if (!checkInputBuffer(inputBuffer)) {
return BUFFER_PROCESSED_FAILED;
}
if (isEOM(inputBuffer)) {
propagateEOM(outputBuffer);
return BUFFER_PROCESSED_OK;
}
Object outData = outputBuffer.getData();
outputBuffer.setData(inputBuffer.getData());
inputBuffer.setData(outData);
outputBuffer.setLength(inputBuffer.getLength());
outputBuffer.setFormat(outputFormat);
outputBuffer.setOffset(inputBuffer.getOffset());
return BUFFER_PROCESSED_OK;
}
@Override
public int process(Buffer input, Buffer output) {
if (!checkInputBuffer(input)) {
return BUFFER_PROCESSED_FAILED;
}
if (isEOM(input)) {
propagateEOM(output); // TODO: what about data? can there be any?
return BUFFER_PROCESSED_OK;
}
try {
// TODO: this is very inefficient - it allocates a new byte array
// (or more) every time
final ByteArrayInputStream is =
new ByteArrayInputStream((byte[]) input.getData(), input.getOffset(), input.getLength());
final BufferedImage image = ImageIO.read(is);
is.close();
final Buffer b =
ImageToBuffer.createBuffer(image, ((VideoFormat) outputFormat).getFrameRate());
output.setData(b.getData());
output.setOffset(b.getOffset());
output.setLength(b.getLength());
output.setFormat(b.getFormat()); // TODO: this is a bit hacky, this
// format will be more specific
// than the actual set output
// format, because now we know what
// ImageIO gave us for a
// BufferedImage as far as pixel
// masks, etc.
return BUFFER_PROCESSED_OK;
} catch (IOException e) {
output.setDiscard(true);
output.setLength(0);
return BUFFER_PROCESSED_FAILED;
}
}
// @Override
@Override
public int read() throws IOException {
// TODO: how do we detect IOException?
fillBuffer();
if (buffer.getLength() == 0 && buffer.isEOM()) // TODO: will always be
// EOM if length is 0
return -1;
final byte[] data = (byte[]) buffer.getData();
final int result = data[buffer.getOffset()] & 0xff;
buffer.setOffset(buffer.getOffset() + 1);
buffer.setLength(buffer.getLength() - 1);
return result;
}
public void processBufferData(Buffer buffer) {
CompositeDataPacket cdp = new CompositeDataPacket();
cdp.setPrimaryStream(buffer.getData());
if (buffer instanceof CompositeDataBuffer) {
CompositeDataBuffer cb = (CompositeDataBuffer) buffer;
cdp.setSecondaryStreams(cb.getBufferCompositeData());
}
buffer.reset();
count++;
if (count % 100 == 0) System.out.println(name + ": processed " + count + " buffers");
}
// @Override
@Override
public int read(byte[] b, int off, int len) throws IOException {
// TODO: how do we detect IOException?
fillBuffer();
if (buffer.getLength() == 0 && buffer.isEOM()) // TODO: will always be
// EOM if length is 0
return -1;
final byte[] data = (byte[]) buffer.getData();
int lengthToCopy = buffer.getLength() < len ? buffer.getLength() : len;
System.arraycopy(data, buffer.getOffset(), b, off, lengthToCopy);
buffer.setOffset(buffer.getOffset() + lengthToCopy);
buffer.setLength(buffer.getLength() - lengthToCopy);
return lengthToCopy;
}
/**
* Reads media data from this <tt>PullBufferStream</tt> into a specific <tt>Buffer</tt> with
* blocking.
*
* @param buffer the <tt>Buffer</tt> in which media data is to be read from this
* <tt>PullBufferStream</tt>
* @throws IOException if anything goes wrong while reading media data from this
* <tt>PullBufferStream</tt> into the specified <tt>buffer</tt>
* @see javax.media.protocol.PullBufferStream#read(javax.media.Buffer)
*/
public void read(Buffer buffer) throws IOException {
if (setThreadPriority) {
setThreadPriority = false;
setThreadPriority();
}
Object data = buffer.getData();
int length = this.length;
if (data instanceof byte[]) {
if (((byte[]) data).length < length) data = null;
} else data = null;
if (data == null) {
data = new byte[length];
buffer.setData(data);
}
int toRead = length;
byte[] bytes = (byte[]) data;
int offset = 0;
buffer.setLength(0);
while (toRead > 0) {
int read;
synchronized (this) {
if (audioRecord.getRecordingState() == AudioRecord.RECORDSTATE_RECORDING)
read = audioRecord.read(bytes, offset, toRead);
else break;
}
if (read < 0) {
throw new IOException(
AudioRecord.class.getName() + "#read(byte[], int, int) returned " + read);
} else {
buffer.setLength(buffer.getLength() + read);
offset += read;
toRead -= read;
}
}
buffer.setOffset(0);
// Apply software gain.
if (gainControl != null) {
BasicVolumeControl.applyGain(gainControl, bytes, buffer.getOffset(), buffer.getLength());
}
}
/** Processes the data and renders it to a component */
public synchronized int process(Buffer buffer) {
if (component == null) return BUFFER_PROCESSED_FAILED;
Format inf = buffer.getFormat();
if (inf == null) return BUFFER_PROCESSED_FAILED;
if (inf != inputFormat || !buffer.getFormat().equals(inputFormat)) {
if (setInputFormat(inf) != null) return BUFFER_PROCESSED_FAILED;
}
Object data = buffer.getData();
if (!(data instanceof int[])) return BUFFER_PROCESSED_FAILED;
if (lastBuffer != buffer) {
lastBuffer = buffer;
newImage(buffer);
}
sourceImage.newPixels(0, 0, inWidth, inHeight);
Graphics g = component.getGraphics();
if (g != null) {
if (reqBounds == null) {
bounds = component.getBounds();
bounds.x = 0;
bounds.y = 0;
} else bounds = reqBounds;
g.drawImage(
destImage,
bounds.x,
bounds.y,
bounds.width,
bounds.height,
0,
0,
inWidth,
inHeight,
component);
}
return BUFFER_PROCESSED_OK;
}
public byte[] getData() {
return buffer.getData();
}
/** {@inheritDoc} */
@Override
protected int doProcess(Buffer inBuffer, Buffer outBuffer) {
byte[] inData = (byte[]) inBuffer.getData();
int inOffset = inBuffer.getOffset();
if (!VP8PayloadDescriptor.isValid(inData, inOffset)) {
logger.warn("Invalid RTP/VP8 packet discarded.");
outBuffer.setDiscard(true);
return BUFFER_PROCESSED_FAILED; // XXX: FAILED or OK?
}
long inSeq = inBuffer.getSequenceNumber();
long inRtpTimestamp = inBuffer.getRtpTimeStamp();
int inPictureId = VP8PayloadDescriptor.getPictureId(inData, inOffset);
boolean inMarker = (inBuffer.getFlags() & Buffer.FLAG_RTP_MARKER) != 0;
boolean inIsStartOfFrame = VP8PayloadDescriptor.isStartOfFrame(inData, inOffset);
int inLength = inBuffer.getLength();
int inPdSize = VP8PayloadDescriptor.getSize(inData, inOffset);
int inPayloadLength = inLength - inPdSize;
if (empty && lastSentSeq != -1 && seqNumComparator.compare(inSeq, lastSentSeq) != 1) {
if (logger.isInfoEnabled()) logger.info("Discarding old packet (while empty) " + inSeq);
outBuffer.setDiscard(true);
return BUFFER_PROCESSED_OK;
}
if (!empty) {
// if the incoming packet has a different PictureID or timestamp
// than those of the current frame, then it belongs to a different
// frame.
if ((inPictureId != -1 && pictureId != -1 && inPictureId != pictureId)
| (timestamp != -1 && inRtpTimestamp != -1 && inRtpTimestamp != timestamp)) {
if (seqNumComparator.compare(inSeq, firstSeq) != 1) // inSeq <= firstSeq
{
// the packet belongs to a previous frame. discard it
if (logger.isInfoEnabled()) logger.info("Discarding old packet " + inSeq);
outBuffer.setDiscard(true);
return BUFFER_PROCESSED_OK;
} else // inSeq > firstSeq (and also presumably isSeq > lastSeq)
{
// the packet belongs to a subsequent frame (to the one
// currently being held). Drop the current frame.
if (logger.isInfoEnabled())
logger.info(
"Discarding saved packets on arrival of"
+ " a packet for a subsequent frame: "
+ inSeq);
// TODO: this would be the place to complain about the
// not-well-received PictureID by sending a RTCP SLI or NACK.
reinit();
}
}
}
// a whole frame in a single packet. avoid the extra copy to
// this.data and output it immediately.
if (empty && inMarker && inIsStartOfFrame) {
byte[] outData = validateByteArraySize(outBuffer, inPayloadLength, false);
System.arraycopy(inData, inOffset + inPdSize, outData, 0, inPayloadLength);
outBuffer.setOffset(0);
outBuffer.setLength(inPayloadLength);
outBuffer.setRtpTimeStamp(inBuffer.getRtpTimeStamp());
if (TRACE) logger.trace("Out PictureID=" + inPictureId);
lastSentSeq = inSeq;
return BUFFER_PROCESSED_OK;
}
// add to this.data
Container container = free.poll();
if (container == null) container = new Container();
if (container.buf == null || container.buf.length < inPayloadLength)
container.buf = new byte[inPayloadLength];
if (data.get(inSeq) != null) {
if (logger.isInfoEnabled())
logger.info("(Probable) duplicate packet detected, discarding " + inSeq);
outBuffer.setDiscard(true);
return BUFFER_PROCESSED_OK;
}
System.arraycopy(inData, inOffset + inPdSize, container.buf, 0, inPayloadLength);
container.len = inPayloadLength;
data.put(inSeq, container);
// update fields
frameLength += inPayloadLength;
if (firstSeq == -1 || (seqNumComparator.compare(firstSeq, inSeq) == 1)) firstSeq = inSeq;
if (lastSeq == -1 || (seqNumComparator.compare(inSeq, lastSeq) == 1)) lastSeq = inSeq;
if (empty) {
// the first received packet for the current frame was just added
empty = false;
timestamp = inRtpTimestamp;
pictureId = inPictureId;
}
if (inMarker) haveEnd = true;
if (inIsStartOfFrame) haveStart = true;
// check if we have a full frame
if (frameComplete()) {
byte[] outData = validateByteArraySize(outBuffer, frameLength, false);
int ptr = 0;
Container b;
for (Map.Entry<Long, Container> entry : data.entrySet()) {
b = entry.getValue();
System.arraycopy(b.buf, 0, outData, ptr, b.len);
ptr += b.len;
}
outBuffer.setOffset(0);
outBuffer.setLength(frameLength);
outBuffer.setRtpTimeStamp(inBuffer.getRtpTimeStamp());
if (TRACE) logger.trace("Out PictureID=" + inPictureId);
lastSentSeq = lastSeq;
// prepare for the next frame
reinit();
return BUFFER_PROCESSED_OK;
} else {
// frame not complete yet
outBuffer.setDiscard(true);
return OUTPUT_BUFFER_NOT_FILLED;
}
}
public int process(Buffer inBuffer, Buffer outBuffer) {
try {
if (frameConverter == null) {
frameConverter = new BufferToImage((VideoFormat) inBuffer.getFormat());
}
// Convert the Buffer to an AWT Image.
Image frameImage = frameConverter.createImage(inBuffer);
// Derive a JAI image from the AWT image.
PlanarImage jaiImage = JAI.create("AWTImage", frameImage);
int index;
boolean emboss = false;
if (control != null) {
index = control.getEffectIndex();
if (control.getEffectName().equals("None")) {
outBuffer.setData(inBuffer.getData());
outBuffer.setFormat(inBuffer.getFormat());
outBuffer.setFlags(inBuffer.getFlags());
outBuffer.setLength(inBuffer.getLength());
return BUFFER_PROCESSED_OK;
}
if (control.getEffectName().equals("Emboss")) {
emboss = true; // Special case
}
} else index = 0;
if (kernels[index] == null) {
kernels[index] = new KernelJAI(3, 3, matrices[index]);
}
jaiImage = JAI.create("convolve", jaiImage, kernels[index]);
if (emboss) { // add 128 to make it brighter
double[] constants = new double[] {128., 128., 128.};
ParameterBlock pb = new ParameterBlock();
pb.addSource(jaiImage);
pb.add(constants);
jaiImage = JAI.create("addconst", pb, null);
}
// Now convert the image to a buffer
BufferedImage bim = jaiImage.getAsBufferedImage();
Buffer out = ImageToBuffer.createBuffer(bim, 15.F);
if (out == null) {
if (debug) {
System.out.println("ImageToBuffer returned null");
}
return BUFFER_PROCESSED_FAILED;
}
outBuffer.setData(out.getData());
outBuffer.setFormat(out.getFormat());
outBuffer.setFlags(out.getFlags());
outBuffer.setLength(out.getLength());
} catch (Exception e) {
System.err.println(e);
return BUFFER_PROCESSED_FAILED;
} catch (Error e) {
System.err.println(e);
return BUFFER_PROCESSED_FAILED;
}
return BUFFER_PROCESSED_OK;
}
public ByteBuffer[] getData() {
return buffers.getData();
}
public int process(Buffer inputBuffer, Buffer outputBuffer) {
if (pendingFrames > 0) {
// System.out.println("packetizing");
return BUFFER_PROCESSED_OK;
}
if (!checkInputBuffer(inputBuffer)) {
return BUFFER_PROCESSED_FAILED;
}
if (isEOM(inputBuffer)) {
propagateEOM(outputBuffer);
return BUFFER_PROCESSED_OK;
}
int inpOffset = inputBuffer.getOffset();
int inpLength = inputBuffer.getLength();
int outLength = 0;
int outOffset = 0;
byte[] inpData = (byte[]) inputBuffer.getData();
byte[] outData =
validateByteArraySize(outputBuffer, calculateOutputSize(inpData.length + historySize));
int historyLength = history.getLength();
byte[] historyData = validateByteArraySize(history, historySize);
int framesNumber = calculateFramesNumber(inpData.length + historySize);
if ((regions == null) || (regions.length < framesNumber + 1))
regions = new int[framesNumber + 1];
if ((regionsTypes == null) || (regionsTypes.length < framesNumber))
regionsTypes = new int[framesNumber];
if (historyLength != 0) {
int bytesToCopy = (historyData.length - historyLength);
if (bytesToCopy > inpLength) {
bytesToCopy = inpLength;
}
System.arraycopy(inpData, inpOffset, historyData, historyLength, bytesToCopy);
codecProcess(
historyData,
0,
outData,
outOffset,
historyLength + bytesToCopy,
readBytes,
writeBytes,
frameNumber,
regions,
regionsTypes);
if (readBytes[0] <= 0) {
if (writeBytes[0] <= 0) {
// System.err.println("Returning output buffer not filled");
return OUTPUT_BUFFER_NOT_FILLED;
} else {
updateOutput(outputBuffer, outputFormat, writeBytes[0], 0);
// System.err.println("Returning OK");
return BUFFER_PROCESSED_OK;
}
}
// System.out.println("1: "+inpLength+" "+readBytes[0]+" "+writeBytes[0]);
outOffset += writeBytes[0];
outLength += writeBytes[0];
inpOffset += (readBytes[0] - historyLength);
inpLength += (historyLength - readBytes[0]);
}
codecProcess(
inpData,
inpOffset,
outData,
outOffset,
inpLength,
readBytes,
writeBytes,
frameNumber,
regions,
regionsTypes);
// System.out.println("2: "+inpLength+" "+readBytes[0]+" "+writeBytes[0]);
// debug
// for (int i=0; i<frameNumber[0];i++ ) {
// System.out.println(i+" "+regions[i]+" - "+regions[i+1]+" type "+regionsTypes[i]);
// }
outLength += writeBytes[0];
inpOffset += readBytes[0];
inpLength -= readBytes[0];
System.arraycopy(inpData, inpOffset, historyData, 0, inpLength);
history.setLength(inpLength);
updateOutput(outputBuffer, outputFormat, outLength, 0);
return BUFFER_PROCESSED_OK;
}
