/** * Notifies this instance that {@link #speechActivity} has identified a speaker switch event in * this multipoint conference and there is now a new dominant speaker. */ private void dominantSpeakerChanged() { Endpoint dominantSpeaker = speechActivity.getDominantEndpoint(); if (logger.isTraceEnabled()) { logger.trace( "The dominant speaker in conference " + getID() + " is now the endpoint " + ((dominantSpeaker == null) ? "(null)" : dominantSpeaker.getID()) + "."); } if (dominantSpeaker != null) { broadcastMessageOnDataChannels(createDominantSpeakerEndpointChangeEvent(dominantSpeaker)); if (isRecording() && (recorderEventHandler != null)) recorderEventHandler.dominantSpeakerChanged(dominantSpeaker); } }
/** * A depacketizer from VP8. See {@link "http://tools.ietf.org/html/draft-ietf-payload-vp8-11"} * * @author Boris Grozev * @author George Politis */ public class DePacketizer extends AbstractCodec2 { /** * The <tt>Logger</tt> used by the <tt>DePacketizer</tt> class and its instances for logging * output. */ private static final Logger logger = Logger.getLogger(DePacketizer.class); /** Whether trace logging is enabled. */ private static final boolean TRACE = logger.isTraceEnabled(); /** * A <tt>Comparator</tt> implementation for RTP sequence numbers. Compares <tt>a</tt> and * <tt>b</tt>, taking into account the wrap at 2^16. * * <p>IMPORTANT: This is a valid <tt>Comparator</tt> implementation only if used for subsets of * [0, 2^16) which don't span more than 2^15 elements. * * <p>E.g. it works for: [0, 2^15-1] and ([50000, 2^16) u [0, 10000]) Doesn't work for: [0, 2^15] * and ([0, 2^15-1] u {2^16-1}) and [0, 2^16) * * <p>NOTE: An identical implementation for Integers can be found in the class SeqNumComparator. * Sequence numbers are 16 bits and unsigned, so an Integer should be sufficient to hold that. */ private static final Comparator<? super Long> seqNumComparator = new Comparator<Long>() { @Override public int compare(Long a, Long b) { if (a.equals(b)) return 0; else if (a > b) { if (a - b < 32768) return 1; else return -1; } else // a < b { if (b - a < 32768) return -1; else return 1; } } }; /** * Stores the RTP payloads (VP8 payload descriptor stripped) from RTP packets belonging to a * single VP8 compressed frame. */ private SortedMap<Long, Container> data = new TreeMap<Long, Container>(seqNumComparator); /** Stores unused <tt>Container</tt>'s. */ private Queue<Container> free = new ArrayBlockingQueue<Container>(100); /** * Stores the first (earliest) sequence number stored in <tt>data</tt>, or -1 if <tt>data</tt> is * empty. */ private long firstSeq = -1; /** * Stores the last (latest) sequence number stored in <tt>data</tt>, or -1 if <tt>data</tt> is * empty. */ private long lastSeq = -1; /** * Stores the value of the <tt>PictureID</tt> field for the VP8 compressed frame, parts of which * are currently stored in <tt>data</tt>, or -1 if the <tt>PictureID</tt> field is not in use or * <tt>data</tt> is empty. */ private int pictureId = -1; /** * Stores the RTP timestamp of the packets stored in <tt>data</tt>, or -1 if they don't have a * timestamp set. */ private long timestamp = -1; /** Whether we have stored any packets in <tt>data</tt>. Equivalent to <tt>data.isEmpty()</tt>. */ private boolean empty = true; /** * Whether we have stored in <tt>data</tt> the last RTP packet of the VP8 compressed frame, parts * of which are currently stored in <tt>data</tt>. */ private boolean haveEnd = false; /** * Whether we have stored in <tt>data</tt> the first RTP packet of the VP8 compressed frame, parts * of which are currently stored in <tt>data</tt>. */ private boolean haveStart = false; /** * Stores the sum of the lengths of the data stored in <tt>data</tt>, that is the total length of * the VP8 compressed frame to be constructed. */ private int frameLength = 0; /** The sequence number of the last RTP packet, which was included in the output. */ private long lastSentSeq = -1; /** Initializes a new <tt>JNIEncoder</tt> instance. */ public DePacketizer() { super( "VP8 RTP DePacketizer", VideoFormat.class, new VideoFormat[] {new VideoFormat(Constants.VP8)}); inputFormats = new VideoFormat[] {new VideoFormat(Constants.VP8_RTP)}; } /** {@inheritDoc} */ @Override protected void doClose() {} /** {@inheritDoc} */ @Override protected void doOpen() throws ResourceUnavailableException { if (logger.isInfoEnabled()) logger.info("Opened VP8 depacketizer"); } /** * Re-initializes the fields which store information about the currently held data. Empties * <tt>data</tt>. */ private void reinit() { firstSeq = lastSeq = timestamp = -1; pictureId = -1; empty = true; haveEnd = haveStart = false; frameLength = 0; Iterator<Map.Entry<Long, Container>> it = data.entrySet().iterator(); Map.Entry<Long, Container> e; while (it.hasNext()) { e = it.next(); free.offer(e.getValue()); it.remove(); } } /** * Checks whether the currently held VP8 compressed frame is complete (e.g all its packets are * stored in <tt>data</tt>). * * @return <tt>true</tt> if the currently help VP8 compressed frame is complete, <tt>false</tt> * otherwise. */ private boolean frameComplete() { return haveStart && haveEnd && !haveMissing(); } /** * Checks whether there are packets with sequence numbers between <tt>firstSeq</tt> and * <tt>lastSeq</tt> which are *not* stored in <tt>data</tt>. * * @return <tt>true</tt> if there are packets with sequence numbers between <tt>firstSeq</tt> and * <tt>lastSeq</tt> which are *not* stored in <tt>data</tt>. */ private boolean haveMissing() { Set<Long> seqs = data.keySet(); long s = firstSeq; while (s != lastSeq) { if (!seqs.contains(s)) return true; s = (s + 1) % (1 << 16); } return false; } /** {@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; } } /** * Returns true if the buffer contains a VP8 key frame at offset <tt>offset</tt>. * * @param buff the byte buffer to check * @param off the offset in the byte buffer where the actual data starts * @param len the length of the data in the byte buffer * @return true if the buffer contains a VP8 key frame at offset <tt>offset</tt>. */ public static boolean isKeyFrame(byte[] buff, int off, int len) { if (buff == null || buff.length < off + len || len < RawPacket.FIXED_HEADER_SIZE) { return false; } // Check if this is the start of a VP8 partition in the payload // descriptor. if (!DePacketizer.VP8PayloadDescriptor.isValid(buff, off)) { return false; } if (!DePacketizer.VP8PayloadDescriptor.isStartOfFrame(buff, off)) { return false; } int szVP8PayloadDescriptor = DePacketizer.VP8PayloadDescriptor.getSize(buff, off); return DePacketizer.VP8PayloadHeader.isKeyFrame(buff, off + szVP8PayloadDescriptor); } /** * A class that represents the VP8 Payload Descriptor structure defined in {@link * "http://tools.ietf.org/html/draft-ietf-payload-vp8-10"} */ public static class VP8PayloadDescriptor { /** I bit from the X byte of the Payload Descriptor. */ private static final byte I_BIT = (byte) 0x80; /** K bit from the X byte of the Payload Descriptor. */ private static final byte K_BIT = (byte) 0x10; /** L bit from the X byte of the Payload Descriptor. */ private static final byte L_BIT = (byte) 0x40; /** I bit from the I byte of the Payload Descriptor. */ private static final byte M_BIT = (byte) 0x80; /** Maximum length of a VP8 Payload Descriptor. */ public static final int MAX_LENGTH = 6; /** S bit from the first byte of the Payload Descriptor. */ private static final byte S_BIT = (byte) 0x10; /** T bit from the X byte of the Payload Descriptor. */ private static final byte T_BIT = (byte) 0x20; /** X bit from the first byte of the Payload Descriptor. */ private static final byte X_BIT = (byte) 0x80; /** * Gets the temporal layer index (TID), if that's set. * * @param buf the byte buffer that holds the VP8 packet. * @param off the offset in the byte buffer where the VP8 packet starts. * @param len the length of the VP8 packet. * @return the temporal layer index (TID), if that's set, -1 otherwise. */ public static int getTemporalLayerIndex(byte[] buf, int off, int len) { if (buf == null || buf.length < off + len || len < 2) { return -1; } if ((buf[off] & X_BIT) == 0 || (buf[off + 1] & T_BIT) == 0) { return -1; } int sz = getSize(buf, off); if (buf.length < off + sz || sz < 1) { return -1; } return (buf[off + sz - 1] & 0xc0) >> 6; } /** * Returns a simple Payload Descriptor, with PartID = 0, the 'start of partition' bit set * according to <tt>startOfPartition</tt>, and all other bits set to 0. * * @param startOfPartition whether to 'start of partition' bit should be set * @return a simple Payload Descriptor, with PartID = 0, the 'start of partition' bit set * according to <tt>startOfPartition</tt>, and all other bits set to 0. */ public static byte[] create(boolean startOfPartition) { byte[] pd = new byte[1]; pd[0] = startOfPartition ? (byte) 0x10 : 0; return pd; } /** * The size in bytes of the Payload Descriptor at offset <tt>offset</tt> in <tt>input</tt>. The * size is between 1 and 6. * * @param input input * @param offset offset * @return The size in bytes of the Payload Descriptor at offset <tt>offset</tt> in * <tt>input</tt>, or -1 if the input is not a valid VP8 Payload Descriptor. The size is * between 1 and 6. */ public static int getSize(byte[] input, int offset) { if (!isValid(input, offset)) return -1; if ((input[offset] & X_BIT) == 0) return 1; int size = 2; if ((input[offset + 1] & I_BIT) != 0) { size++; if ((input[offset + 2] & M_BIT) != 0) size++; } if ((input[offset + 1] & L_BIT) != 0) size++; if ((input[offset + 1] & (T_BIT | K_BIT)) != 0) size++; return size; } /** * Gets the value of the PictureID field of a VP8 Payload Descriptor. * * @param input * @param offset * @return the value of the PictureID field of a VP8 Payload Descriptor, or -1 if the fields is * not present. */ private static int getPictureId(byte[] input, int offset) { if (!isValid(input, offset)) return -1; if ((input[offset] & X_BIT) == 0 || (input[offset + 1] & I_BIT) == 0) return -1; boolean isLong = (input[offset + 2] & M_BIT) != 0; if (isLong) return (input[offset + 2] & 0x7f) << 8 | (input[offset + 3] & 0xff); else return input[offset + 2] & 0x7f; } public static boolean isValid(byte[] input, int offset) { return true; } /** * Checks whether the '<tt>start of partition</tt>' bit is set in the VP8 Payload Descriptor at * offset <tt>offset</tt> in <tt>input</tt>. * * @param input input * @param offset offset * @return <tt>true</tt> if the '<tt>start of partition</tt>' bit is set, <tt>false</tt> * otherwise. */ public static boolean isStartOfPartition(byte[] input, int offset) { return (input[offset] & S_BIT) != 0; } /** * Returns <tt>true</tt> if both the '<tt>start of partition</tt>' bit is set and the * <tt>PID</tt> fields has value 0 in the VP8 Payload Descriptor at offset <tt>offset</tt> in * <tt>input</tt>. * * @param input * @param offset * @return <tt>true</tt> if both the '<tt>start of partition</tt>' bit is set and the * <tt>PID</tt> fields has value 0 in the VP8 Payload Descriptor at offset <tt>offset</tt> * in <tt>input</tt>. */ public static boolean isStartOfFrame(byte[] input, int offset) { return isStartOfPartition(input, offset) && getPartitionId(input, offset) == 0; } /** * Returns the value of the <tt>PID</tt> (partition ID) field of the VP8 Payload Descriptor at * offset <tt>offset</tt> in <tt>input</tt>. * * @param input * @param offset * @return the value of the <tt>PID</tt> (partition ID) field of the VP8 Payload Descriptor at * offset <tt>offset</tt> in <tt>input</tt>. */ public static int getPartitionId(byte[] input, int offset) { return input[offset] & 0x07; } } /** * A class that represents the VP8 Payload Header structure defined in {@link * "http://tools.ietf.org/html/draft-ietf-payload-vp8-10"} */ public static class VP8PayloadHeader { /** S bit of the Payload Descriptor. */ private static final byte S_BIT = (byte) 0x01; /** * Returns true if the <tt>P</tt> (inverse key frame flag) field of the VP8 Payload Header at * offset <tt>offset</tt> in <tt>input</tt> is 0. * * @return true if the <tt>P</tt> (inverse key frame flag) field of the VP8 Payload Header at * offset <tt>offset</tt> in <tt>input</tt> is 0, false otherwise. */ public static boolean isKeyFrame(byte[] input, int offset) { // When set to 0 the current frame is a key frame. When set to 1 // the current frame is an interframe. Defined in [RFC6386] return (input[offset] & S_BIT) == 0; } } /** A simple container for a <tt>byte[]</tt> and an integer. */ private static class Container { /** This <tt>Container</tt>'s data. */ private byte[] buf; /** Length used. */ private int len = 0; } }
/** * Notifies this instance that a <tt>DatagramPacket</tt> packet received on the data * <tt>DatagramSocket</tt> of this <tt>Channel</tt> has been accepted for further processing * within Jitsi Videobridge. * * @param pkt the accepted <tt>RawPacket</tt>. */ public void accepted(RawPacket pkt) { // With native simulcast we don't have a notification when a stream // has started/stopped. The simulcast manager implements a timeout // for the high quality stream and it needs to be notified when // the channel has accepted a datagram packet for the timeout to // function correctly. if (!hasLayers() || pkt == null) { return; } // Find the layer that corresponds to this packet. int acceptedSSRC = pkt.getSSRC(); SimulcastLayer[] layers = getSimulcastLayers(); SimulcastLayer acceptedLayer = null; for (SimulcastLayer layer : layers) { // We only care about the primary SSRC and not the RTX ssrc (or // future FEC ssrc). if ((int) layer.getPrimarySSRC() == acceptedSSRC) { acceptedLayer = layer; break; } } // If this is not an RTP packet or if we can't find an accepted // layer, log and return as it makes no sense to continue in this // situation. if (acceptedLayer == null) { return; } // There are sequences of packets with increasing timestamps but without // the marker bit set. Supposedly, they are probes to detect whether the // bandwidth may increase. We think that they should cause neither the // start nor the stop of any SimulcastLayer. // XXX There's RawPacket#getPayloadLength() but the implementation // includes pkt.paddingSize at the time of this writing and we do not // know whether that's going to stay that way. int pktPayloadLength = pkt.getLength() - pkt.getHeaderLength(); int pktPaddingSize = pkt.getPaddingSize(); if (pktPayloadLength <= pktPaddingSize) { if (logger.isTraceEnabled()) { logger.trace( "pkt.payloadLength= " + pktPayloadLength + " <= pkt.paddingSize= " + pktPaddingSize + "(" + pkt.getSequenceNumber() + ")"); } return; } // NOTE(gp) we expect the base layer to be always on, so we never touch // it or starve it. // XXX Refer to the implementation of // SimulcastLayer#touch(boolean, RawPacket) for an explanation of why we // chose to use a return value. boolean frameStarted = acceptedLayer.touch(pkt); if (frameStarted) simulcastLayerFrameStarted(acceptedLayer, pkt, layers); }