214 lines
6.0 KiB
Java
214 lines
6.0 KiB
Java
package com.limelight.nvstream.av.video;
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import java.util.LinkedList;
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import java.util.concurrent.LinkedBlockingQueue;
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import com.limelight.nvstream.av.AvByteBufferDescriptor;
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import com.limelight.nvstream.av.AvDecodeUnit;
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import com.limelight.nvstream.av.AvRtpPacket;
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import com.limelight.nvstream.av.ConnectionStatusListener;
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public class AvVideoDepacketizer {
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// Current NAL state
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private LinkedList<AvByteBufferDescriptor> avcNalDataChain = null;
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private int avcNalDataLength = 0;
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// Sequencing state
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private short lastSequenceNumber;
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private ConnectionStatusListener controlListener;
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private static final int DU_LIMIT = 15;
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private LinkedBlockingQueue<AvDecodeUnit> decodedUnits = new LinkedBlockingQueue<AvDecodeUnit>(DU_LIMIT);
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public AvVideoDepacketizer(ConnectionStatusListener controlListener)
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{
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this.controlListener = controlListener;
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}
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private void clearAvcNalState()
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{
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avcNalDataChain = null;
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avcNalDataLength = 0;
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}
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private void reassembleAvcNal()
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{
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// This is the start of a new NAL
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if (avcNalDataChain != null && avcNalDataLength != 0) {
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// Construct the H264 decode unit
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AvDecodeUnit du = new AvDecodeUnit(AvDecodeUnit.TYPE_H264, avcNalDataChain, avcNalDataLength, 0);
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if (!decodedUnits.offer(du)) {
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// We need a new IDR frame since we're discarding data now
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decodedUnits.clear();
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controlListener.connectionNeedsResync();
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}
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// Clear old state
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clearAvcNalState();
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}
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}
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public void addInputData(AvVideoPacket packet)
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{
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AvByteBufferDescriptor location = packet.getNewPayloadDescriptor();
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// SPS and PPS packet doesn't have standard headers, so submit it as is
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if (location.length < 968) {
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avcNalDataChain = new LinkedList<AvByteBufferDescriptor>();
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avcNalDataLength = 0;
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avcNalDataChain.add(location);
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avcNalDataLength += location.length;
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reassembleAvcNal();
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}
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else {
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int packetIndex = packet.getPacketIndex();
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int packetsInFrame = packet.getTotalPackets();
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// Check if this is the first packet for a frame
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if (packetIndex == 0) {
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// Setup state for the new frame
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avcNalDataChain = new LinkedList<AvByteBufferDescriptor>();
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avcNalDataLength = 0;
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}
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// Check if this packet falls in the range of packets in frame
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if (packetIndex >= packetsInFrame) {
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// This isn't H264 frame data
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return;
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}
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// Adjust the length to only contain valid data
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location.length = packet.getPayloadLength();
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// Add the payload data to the chain
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if (avcNalDataChain != null) {
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avcNalDataChain.add(location);
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avcNalDataLength += location.length;
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}
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// Reassemble the NALs if this was the last packet for this frame
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if (packetIndex + 1 == packetsInFrame) {
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reassembleAvcNal();
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}
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}
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}
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public void addInputData(AvRtpPacket packet)
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{
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short seq = packet.getSequenceNumber();
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// Toss out the current NAL if we receive a packet that is
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// out of sequence
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if (lastSequenceNumber != 0 &&
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(short)(lastSequenceNumber + 1) != seq)
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{
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System.out.println("Received OOS video data (expected "+(lastSequenceNumber + 1)+", got "+seq+")");
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// Reset the depacketizer state
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clearAvcNalState();
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// Request an IDR frame
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controlListener.connectionNeedsResync();
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}
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lastSequenceNumber = seq;
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// Pass the payload to the non-sequencing parser
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AvByteBufferDescriptor rtpPayload = packet.getNewPayloadDescriptor();
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addInputData(new AvVideoPacket(rtpPayload));
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}
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public AvDecodeUnit getNextDecodeUnit() throws InterruptedException
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{
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return decodedUnits.take();
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}
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}
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class NAL {
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// This assumes that the buffer passed in is already a special sequence
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public static boolean isAvcStartSequence(AvByteBufferDescriptor specialSeq)
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{
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// The start sequence is 00 00 01 or 00 00 00 01
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return (specialSeq.data[specialSeq.offset+specialSeq.length-1] == 0x01);
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}
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// This assumes that the buffer passed in is already a special sequence
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public static boolean isAvcFrameStart(AvByteBufferDescriptor specialSeq)
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{
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if (specialSeq.length != 4)
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return false;
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// The frame start sequence is 00 00 00 01
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return (specialSeq.data[specialSeq.offset+specialSeq.length-1] == 0x01);
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}
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// Returns a buffer descriptor describing the start sequence
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public static boolean getSpecialSequenceDescriptor(AvByteBufferDescriptor buffer, AvByteBufferDescriptor outputDesc)
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{
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// NAL start sequence is 00 00 00 01 or 00 00 01
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if (buffer.length < 3)
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return false;
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// 00 00 is magic
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if (buffer.data[buffer.offset] == 0x00 &&
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buffer.data[buffer.offset+1] == 0x00)
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{
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// Another 00 could be the end of the special sequence
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// 00 00 00 or the middle of 00 00 00 01
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if (buffer.data[buffer.offset+2] == 0x00)
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{
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if (buffer.length >= 4 &&
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buffer.data[buffer.offset+3] == 0x01)
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{
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// It's the AVC start sequence 00 00 00 01
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outputDesc.reinitialize(buffer.data, buffer.offset, 4);
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}
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else
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{
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// It's 00 00 00
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outputDesc.reinitialize(buffer.data, buffer.offset, 3);
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}
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return true;
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}
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else if (buffer.data[buffer.offset+2] == 0x01 ||
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buffer.data[buffer.offset+2] == 0x02)
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{
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// These are easy: 00 00 01 or 00 00 02
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outputDesc.reinitialize(buffer.data, buffer.offset, 3);
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return true;
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}
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else if (buffer.data[buffer.offset+2] == 0x03)
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{
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// 00 00 03 is special because it's a subsequence of the
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// NAL wrapping substitute for 00 00 00, 00 00 01, 00 00 02,
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// or 00 00 03 in the RBSP sequence. We need to check the next
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// byte to see whether it's 00, 01, 02, or 03 (a valid RBSP substitution)
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// or whether it's something else
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if (buffer.length < 4)
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return false;
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if (buffer.data[buffer.offset+3] >= 0x00 &&
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buffer.data[buffer.offset+3] <= 0x03)
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{
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// It's not really a special sequence after all
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return false;
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}
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else
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{
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// It's not a standard replacement so it's a special sequence
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outputDesc.reinitialize(buffer.data, buffer.offset, 3);
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return true;
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}
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}
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}
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return false;
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}
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}
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