/** {@inheritDoc} */ @Override public RawPacket transform(RawPacket pkt) { if (pkt == null) { return pkt; } RTCPCompoundPacket inPacket; try { inPacket = (RTCPCompoundPacket) parser.parse(pkt.getBuffer(), pkt.getOffset(), pkt.getLength()); } catch (BadFormatException e) { logger.warn("Failed to terminate an RTCP packet. " + "Dropping packet."); return null; } // Update our RTCP stats map (timestamps). This operation is // read-only. remoteClockEstimator.apply(inPacket); cnameRegistry.update(inPacket); // Remove SRs and RRs from the RTCP packet. pkt = feedbackGateway.gateway(inPacket); return pkt; }
/** * Creates a {@code RawPacket} which represents the original packet encapsulated in {@code pkt} * using the RTX format. * * @param pkt the packet from which to extract a media packet. * @return the extracted media packet. */ private RawPacket createMediaPacket(RawPacket pkt) { RawPacket mediaPacket = null; long rtxSsrc = pkt.getSSRC() & 0xffffffffL; // We need to know the SSRC paired with rtxSsrc *as seen by the // receiver (i.e. this.channel)*. However, we only store SSRCs // that endpoints *send* with. // We therefore assume that SSRC re-writing has not introduced any // new SSRCs and therefor the FID mappings known to the senders // also apply to receivers. RtpChannel sourceChannel = channel.getContent().findChannelByFidSsrc(rtxSsrc); if (sourceChannel != null) { long mediaSsrc = sourceChannel.getFidPairedSsrc(rtxSsrc); if (mediaSsrc != -1) { byte apt = sourceChannel.getRtxAssociatedPayloadType(); if (apt != -1) { mediaPacket = new RawPacket(pkt.getBuffer().clone(), pkt.getOffset(), pkt.getLength()); // Remove the RTX header by moving the RTP header two bytes // right. byte[] buf = mediaPacket.getBuffer(); int off = mediaPacket.getOffset(); System.arraycopy(buf, off, buf, off + 2, mediaPacket.getHeaderLength()); mediaPacket.setOffset(off + 2); mediaPacket.setLength(pkt.getLength() - 2); mediaPacket.setSSRC((int) mediaSsrc); mediaPacket.setSequenceNumber(pkt.getOriginalSequenceNumber()); mediaPacket.setPayloadType(apt); } } } return mediaPacket; }
/** * Encapsulates {@code pkt} in the RTX format, using {@code rtxSsrc} as its SSRC, and transmits it * to {@link #channel} by injecting it in the {@code MediaStream}. * * @param pkt the packet to transmit. * @param rtxSsrc the SSRC for the RTX stream. * @return {@code true} if the packet was successfully retransmitted, {@code false} otherwise. */ private boolean encapsulateInRtxAndTransmit(RawPacket pkt, long rtxSsrc) { byte[] buf = pkt.getBuffer(); int len = pkt.getLength(); int off = pkt.getOffset(); byte[] newBuf = buf; if (buf.length < len + 2) { // FIXME The byte array newly allocated and assigned to newBuf must // be made known to pkt eventually. newBuf = new byte[len + 2]; } int osn = pkt.getSequenceNumber(); int headerLength = pkt.getHeaderLength(); int payloadLength = len - headerLength; System.arraycopy(buf, off, newBuf, 0, headerLength); // FIXME If newBuf is actually buf, then we will override the first two // bytes of the payload bellow. newBuf[headerLength] = (byte) ((osn >> 8) & 0xff); newBuf[headerLength + 1] = (byte) (osn & 0xff); System.arraycopy(buf, off + headerLength, newBuf, headerLength + 2, payloadLength); // FIXME We tried to extend the payload of pkt by two bytes above but // we never told pkt that its length has increased by these two bytes. MediaStream mediaStream = channel.getStream(); if (mediaStream != null) { pkt.setSSRC((int) rtxSsrc); // Only call getNextRtxSequenceNumber() when we're sure we're going // to transmit a packet, because it consumes a sequence number. pkt.setSequenceNumber(getNextRtxSequenceNumber(rtxSsrc)); try { mediaStream.injectPacket(pkt, /* data */ true, /* after */ null); } catch (TransmissionFailedException tfe) { logger.warn("Failed to transmit an RTX packet."); return false; } } return true; }