void RTPReceptionStatsDB
::noteIncomingPacket(u_int32_t SSRC, u_int16_t seqNum,
u_int32_t rtpTimestamp, unsigned timestampFrequency,
Boolean useForJitterCalculation,
struct timeval& resultPresentationTime,
Boolean& resultHasBeenSyncedUsingRTCP,
unsigned packetSize) {
++fTotNumPacketsReceived;
RTPReceptionStats* stats = lookup(SSRC);
if (stats == NULL) {
// This is the first time we've heard from this SSRC.
// Create a new record for it:
stats = new RTPReceptionStats(SSRC, seqNum);
if (stats == NULL) return;
add(SSRC, stats);
}
if (stats->numPacketsReceivedSinceLastReset() == 0) {
++fNumActiveSourcesSinceLastReset;
}
stats->noteIncomingPacket(seqNum, rtpTimestamp, timestampFrequency,
useForJitterCalculation,
resultPresentationTime,
resultHasBeenSyncedUsingRTCP, packetSize);
}
qosMeasurementRecord(struct timeval const& startTime, RTPSource* src)
: fSource(src), fNext(NULL),
kbits_per_second_min(1e20), kbits_per_second_max(0),
kBytesTotal(0.0),
packet_loss_fraction_min(1.0), packet_loss_fraction_max(0.0),
totNumPacketsReceived(0), totNumPacketsExpected(0) {
measurementEndTime = measurementStartTime = startTime;
#ifdef SUPPORT_REAL_RTSP
if (session->isRealNetworksRDT) { // hack for RealMedia sessions (RDT, not RTP)
RealRDTSource* rdt = (RealRDTSource*)src;
kBytesTotal = rdt->totNumKBytesReceived();
totNumPacketsReceived = rdt->totNumPacketsReceived();
totNumPacketsExpected = totNumPacketsReceived; // because we use TCP
return;
}
#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) {
kBytesTotal = stats->totNumKBytesReceived();
totNumPacketsReceived = stats->totNumPacketsReceived();
totNumPacketsExpected = stats->totNumPacketsExpected();
}
}
void qosMeasurementRecord
::periodicQOSMeasurement(struct timeval const& timeNow) {
unsigned secsDiff = timeNow.tv_sec - measurementEndTime.tv_sec;
int usecsDiff = timeNow.tv_usec - measurementEndTime.tv_usec;
double timeDiff = secsDiff + usecsDiff/1000000.0;
measurementEndTime = timeNow;
#ifdef SUPPORT_REAL_RTSP
if (session->isRealNetworksRDT) { // hack for RealMedia sessions (RDT, not RTP)
RealRDTSource* rdt = (RealRDTSource*)fSource;
double kBytesTotalNow = rdt->totNumKBytesReceived();
double kBytesDeltaNow = kBytesTotalNow - kBytesTotal;
kBytesTotal = kBytesTotalNow;
double kbpsNow = timeDiff == 0.0 ? 0.0 : 8*kBytesDeltaNow/timeDiff;
if (kbpsNow < 0.0) kbpsNow = 0.0; // in case of roundoff error
if (kbpsNow < kbits_per_second_min) kbits_per_second_min = kbpsNow;
if (kbpsNow > kbits_per_second_max) kbits_per_second_max = kbpsNow;
totNumPacketsReceived = rdt->totNumPacketsReceived();
totNumPacketsExpected = totNumPacketsReceived; // because we use TCP
packet_loss_fraction_min = packet_loss_fraction_max = 0.0; // ditto
return;
}
#endif
RTPReceptionStatsDB::Iterator statsIter(fSource->receptionStatsDB());
// Assume that there's only one SSRC source (usually the case):
RTPReceptionStats* stats = statsIter.next(True);
if (stats != NULL) {
double kBytesTotalNow = stats->totNumKBytesReceived();
double kBytesDeltaNow = kBytesTotalNow - kBytesTotal;
kBytesTotal = kBytesTotalNow;
double kbpsNow = timeDiff == 0.0 ? 0.0 : 8*kBytesDeltaNow/timeDiff;
if (kbpsNow < 0.0) kbpsNow = 0.0; // in case of roundoff error
if (kbpsNow < kbits_per_second_min) kbits_per_second_min = kbpsNow;
if (kbpsNow > kbits_per_second_max) kbits_per_second_max = kbpsNow;
unsigned totReceivedNow = stats->totNumPacketsReceived();
unsigned totExpectedNow = stats->totNumPacketsExpected();
unsigned deltaReceivedNow = totReceivedNow - totNumPacketsReceived;
unsigned deltaExpectedNow = totExpectedNow - totNumPacketsExpected;
totNumPacketsReceived = totReceivedNow;
totNumPacketsExpected = totExpectedNow;
double lossFractionNow = deltaExpectedNow == 0 ?
0.0 :
1.0 - deltaReceivedNow/(double)deltaExpectedNow;
//if (lossFractionNow < 0.0) lossFractionNow = 0.0; //reordering can cause
if (lossFractionNow < packet_loss_fraction_min) {
packet_loss_fraction_min = lossFractionNow;
}
if (lossFractionNow > packet_loss_fraction_max) {
packet_loss_fraction_max = lossFractionNow;
}
}
}
void RTPReceptionStatsDB::reset() {
fNumActiveSourcesSinceLastReset = 0;
Iterator iter(*this);
RTPReceptionStats* stats;
while ((stats = iter.next()) != NULL) {
stats->reset();
}
}
RTPReceptionStats*
RTPReceptionStatsDB::Iterator::next(Boolean includeInactiveSources) {
char const* key; // dummy
// If asked, skip over any sources that haven't been active
// since the last reset:
RTPReceptionStats* stats;
do {
stats = (RTPReceptionStats*)(fIter->next(key));
} while (stats != NULL && !includeInactiveSources
&& stats->numPacketsReceivedSinceLastReset() == 0);
return stats;
}
void RTPReceptionStatsDB
::noteIncomingSR(u_int32_t SSRC,
u_int32_t ntpTimestampMSW, u_int32_t ntpTimestampLSW,
u_int32_t rtpTimestamp) {
RTPReceptionStats* stats = lookup(SSRC);
if (stats == NULL) {
// This is the first time we've heard of this SSRC.
// Create a new record for it:
stats = new RTPReceptionStats(SSRC);
if (stats == NULL) return;
add(SSRC, stats);
}
stats->noteIncomingSR(ntpTimestampMSW, ntpTimestampLSW, rtpTimestamp);
}
qosMeasurementRecord(struct timeval const& startTime, RTPSource* src)
: fSource(src), fNext(NULL),
kbits_per_second_min(1e20), kbits_per_second_max(0),
kBytesTotal(0.0),
packet_loss_fraction_min(1.0), packet_loss_fraction_max(0.0),
totNumPacketsReceived(0), totNumPacketsExpected(0) {
measurementEndTime = measurementStartTime = startTime;
RTPReceptionStatsDB::Iterator statsIter(src->receptionStatsDB());
// Assume that there's only one SSRC source (usually the case):
RTPReceptionStats* stats = statsIter.next(True);
if (stats != NULL) {
kBytesTotal = stats->totNumKBytesReceived();
totNumPacketsReceived = stats->totNumPacketsReceived();
totNumPacketsExpected = stats->totNumPacketsExpected();
}
}
static void
qos_report(void *clientData) {
int i;
struct timeval now;
long long elapsed;
//
gettimeofday(&now, NULL);
elapsed = tvdiff_us(&now, &qos_tv);
for(i = 0; i < n_qrec; i++) {
RTPReceptionStatsDB::Iterator statsIter(qrec[i].rtpsrc->receptionStatsDB());
// Assume that there's only one SSRC source (usually the case):
RTPReceptionStats* stats = statsIter.next(True);
unsigned pkts_expected, dExp;
unsigned pkts_received, dRcvd;
double KB_received, dKB;
//
if(stats == NULL)
continue;
pkts_expected = stats->totNumPacketsExpected();
pkts_received = stats->totNumPacketsReceived();
KB_received = stats->totNumKBytesReceived();
// delta ...
dExp = pkts_expected - qrec[i].pkts_expected;
dRcvd = pkts_received - qrec[i].pkts_received;
dKB = KB_received - qrec[i].KB_received;
// show info
ga_error("%s-report: %.0fKB rcvd; pkt-loss=%d/%d,%.2f%%; bitrate=%.0fKbps; jitter=%u (freq=%uHz)\n",
//now.tv_sec, now.tv_usec,
qrec[i].prefix, dKB, dExp-dRcvd, dExp, 100.0*(dExp-dRcvd)/dExp,
8000000.0*dKB/elapsed,
stats->jitter(),
qrec[i].rtpsrc->timestampFrequency());
//
qrec[i].pkts_expected = pkts_expected;
qrec[i].pkts_received = pkts_received;
qrec[i].KB_received = KB_received;
}
// schedule next qos
qos_tv = now;
qos_schedule();
return;
}
void qosMeasurementRecord
::periodicQOSMeasurement(struct timeval const& timeNow) {
unsigned secsDiff = timeNow.tv_sec - measurementEndTime.tv_sec;
int usecsDiff = timeNow.tv_usec - measurementEndTime.tv_usec;
double timeDiff = secsDiff + usecsDiff/1000000.0;
measurementEndTime = timeNow;
RTPReceptionStatsDB::Iterator statsIter(fSource->receptionStatsDB());
// Assume that there's only one SSRC source (usually the case):
RTPReceptionStats* stats = statsIter.next(True);
if (stats != NULL) {
double kBytesTotalNow = stats->totNumKBytesReceived();
double kBytesDeltaNow = kBytesTotalNow - kBytesTotal;
kBytesTotal = kBytesTotalNow;
double kbpsNow = timeDiff == 0.0 ? 0.0 : 8*kBytesDeltaNow/timeDiff;
if (kbpsNow < 0.0) kbpsNow = 0.0; // in case of roundoff error
if (kbpsNow < kbits_per_second_min) kbits_per_second_min = kbpsNow;
if (kbpsNow > kbits_per_second_max) kbits_per_second_max = kbpsNow;
unsigned totReceivedNow = stats->totNumPacketsReceived();
unsigned totExpectedNow = stats->totNumPacketsExpected();
unsigned deltaReceivedNow = totReceivedNow - totNumPacketsReceived;
unsigned deltaExpectedNow = totExpectedNow - totNumPacketsExpected;
totNumPacketsReceived = totReceivedNow;
totNumPacketsExpected = totExpectedNow;
double lossFractionNow = deltaExpectedNow == 0 ? 0.0
: 1.0 - deltaReceivedNow/(double)deltaExpectedNow;
//if (lossFractionNow < 0.0) lossFractionNow = 0.0; //reordering can cause
if (lossFractionNow < packet_loss_fraction_min) {
packet_loss_fraction_min = lossFractionNow;
}
if (lossFractionNow > packet_loss_fraction_max) {
packet_loss_fraction_max = lossFractionNow;
}
}
}
void printQOSData(int exitCode) {
*env << "begin_QOS_statistics\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();
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" << int(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";
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";
}
curQOSRecord = curQOSRecord->fNext;
}
}
}
*env << "end_QOS_statistics\n";
delete qosRecordHead;
}
