コード例 #1
0
ファイル: MediaNet.cpp プロジェクト: dalinhuang/ffmpeg-port 
void printQOSData(int exitCode) {
	if (exitCode != 0 && statusCode == 0) statusCode = 2;
	*env << "begin_QOS_statistics\n";
	*env << "server_availability\t" << (statusCode == 1 ? 0 : 100) << "\n";
	*env << "stream_availability\t" << (statusCode == 0 ? 100 : 0) << "\n";

	// Print out stats for each active subsession:
	qosMeasurementRecord* curQOSRecord = qosRecordHead;
	if (session != NULL) {
		MediaSubsessionIterator iter(*session);
		MediaSubsession* subsession;
		while ((subsession = iter.next()) != NULL) {
			RTPSource* src = subsession->rtpSource();
#ifdef SUPPORT_REAL_RTSP
			if (session->isRealNetworksRDT) src = (RTPSource*)(subsession->readSource()); // hack
#endif
			if (src == NULL) continue;

			*env << "subsession\t" << subsession->mediumName()
				<< "/" << subsession->codecName() << "\n";

			unsigned numPacketsReceived = 0, numPacketsExpected = 0;

			if (curQOSRecord != NULL) {
				numPacketsReceived = curQOSRecord->totNumPacketsReceived;
				numPacketsExpected = curQOSRecord->totNumPacketsExpected;
			}
			*env << "num_packets_received\t" << numPacketsReceived << "\n";
			*env << "num_packets_lost\t" << numPacketsExpected - numPacketsReceived << "\n";

			if (curQOSRecord != NULL) {
				unsigned secsDiff = curQOSRecord->measurementEndTime.tv_sec
					- curQOSRecord->measurementStartTime.tv_sec;
				int usecsDiff = curQOSRecord->measurementEndTime.tv_usec
					- curQOSRecord->measurementStartTime.tv_usec;
				double measurementTime = secsDiff + usecsDiff/1000000.0;
				*env << "elapsed_measurement_time\t" << measurementTime << "\n";

				*env << "kBytes_received_total\t" << curQOSRecord->kBytesTotal << "\n";

				*env << "measurement_sampling_interval_ms\t" << qosMeasurementIntervalMS << "\n";

				if (curQOSRecord->kbits_per_second_max == 0) {
					// special case: we didn't receive any data:
					*env <<
						"kbits_per_second_min\tunavailable\n"
						"kbits_per_second_ave\tunavailable\n"
						"kbits_per_second_max\tunavailable\n";
				} else {
					*env << "kbits_per_second_min\t" << curQOSRecord->kbits_per_second_min << "\n";
					*env << "kbits_per_second_ave\t"
						<< (measurementTime == 0.0 ? 0.0 : 8*curQOSRecord->kBytesTotal/measurementTime) << "\n";
					*env << "kbits_per_second_max\t" << curQOSRecord->kbits_per_second_max << "\n";
				}

				*env << "packet_loss_percentage_min\t" << 100*curQOSRecord->packet_loss_fraction_min << "\n";
				double packetLossFraction = numPacketsExpected == 0 ? 1.0
					: 1.0 - numPacketsReceived/(double)numPacketsExpected;
				if (packetLossFraction < 0.0) packetLossFraction = 0.0;
				*env << "packet_loss_percentage_ave\t" << 100*packetLossFraction << "\n";
				*env << "packet_loss_percentage_max\t"
					<< (packetLossFraction == 1.0 ? 100.0 : 100*curQOSRecord->packet_loss_fraction_max) << "\n";

#ifdef SUPPORT_REAL_RTSP
				if (session->isRealNetworksRDT) {
					RealRDTSource* rdt = (RealRDTSource*)src;
					*env << "inter_packet_gap_ms_min\t" << rdt->minInterPacketGapUS()/1000.0 << "\n";
					struct timeval totalGaps = rdt->totalInterPacketGaps();
					double totalGapsMS = totalGaps.tv_sec*1000.0 + totalGaps.tv_usec/1000.0;
					unsigned totNumPacketsReceived = rdt->totNumPacketsReceived();
					*env << "inter_packet_gap_ms_ave\t"
						<< (totNumPacketsReceived == 0 ? 0.0 : totalGapsMS/totNumPacketsReceived) << "\n";
					*env << "inter_packet_gap_ms_max\t" << rdt->maxInterPacketGapUS()/1000.0 << "\n";
				} else {
#endif
					RTPReceptionStatsDB::Iterator statsIter(src->receptionStatsDB());
					// Assume that there's only one SSRC source (usually the case):
					RTPReceptionStats* stats = statsIter.next(True);
					if (stats != NULL) {
						*env << "inter_packet_gap_ms_min\t" << stats->minInterPacketGapUS()/1000.0 << "\n";
						struct timeval totalGaps = stats->totalInterPacketGaps();
						double totalGapsMS = totalGaps.tv_sec*1000.0 + totalGaps.tv_usec/1000.0;
						unsigned totNumPacketsReceived = stats->totNumPacketsReceived();
						*env << "inter_packet_gap_ms_ave\t"
							<< (totNumPacketsReceived == 0 ? 0.0 : totalGapsMS/totNumPacketsReceived) << "\n";
						*env << "inter_packet_gap_ms_max\t" << stats->maxInterPacketGapUS()/1000.0 << "\n";
					}
#ifdef SUPPORT_REAL_RTSP
				}
#endif

				curQOSRecord = curQOSRecord->fNext;
			}
		}
	}

	*env << "end_QOS_statistics\n";
	delete qosRecordHead;
}