/** {@inheritDoc} */ @Override public RawPacket transform(RawPacket pkt) { // Update our RTP stats map (packets/octet sent). rtpStatsMap.apply(pkt); return pkt; }
/** * Makes <tt>RTCPSRPacket</tt>s for all the RTP streams that we're sending. * * @return a <tt>List</tt> of <tt>RTCPSRPacket</tt> for all the RTP streams that we're sending. */ private Collection<RTCPSRPacket> makeRTCPSRPackets(long time) { Collection<RTCPSRPacket> srPackets = new ArrayList<RTCPSRPacket>(); for (RTPStatsEntry rtpStatsEntry : rtpStatsMap.values()) { int ssrc = rtpStatsEntry.getSsrc(); RemoteClock estimate = remoteClockEstimator.estimate(ssrc, time); if (estimate == null) { // We're not going to go far without an estimate.. continue; } RTCPSRPacket srPacket = new RTCPSRPacket(ssrc, MIN_RTCP_REPORTS_BLOCKS_ARRAY); // Set the NTP timestamp for this SR. long estimatedRemoteTime = estimate.getRemoteTime(); long secs = estimatedRemoteTime / 1000L; double fraction = (estimatedRemoteTime - secs * 1000L) / 1000D; srPacket.ntptimestamplsw = (int) (fraction * 4294967296D); srPacket.ntptimestampmsw = secs; // Set the RTP timestamp. srPacket.rtptimestamp = estimate.getRtpTimestamp(); // Fill-in packet and octet send count. srPacket.packetcount = rtpStatsEntry.getPacketsSent(); srPacket.octetcount = rtpStatsEntry.getBytesSent(); srPackets.add(srPacket); } return srPackets; }