1 /*
2 * Copyright (c) 2013 The WebRTC project authors. All Rights Reserved.
3 *
4 * Use of this source code is governed by a BSD-style license
5 * that can be found in the LICENSE file in the root of the source
6 * tree. An additional intellectual property rights grant can be found
7 * in the file PATENTS. All contributing project authors may
8 * be found in the AUTHORS file in the root of the source tree.
9 */
10
11 #include "webrtc/modules/rtp_rtcp/source/receive_statistics_impl.h"
12
13 #include <math.h>
14
15 #include "webrtc/base/scoped_ptr.h"
16 #include "webrtc/modules/rtp_rtcp/source/bitrate.h"
17 #include "webrtc/modules/rtp_rtcp/source/time_util.h"
18 #include "webrtc/system_wrappers/include/critical_section_wrapper.h"
19
20 namespace webrtc {
21
22 const int64_t kStatisticsTimeoutMs = 8000;
23 const int64_t kStatisticsProcessIntervalMs = 1000;
24
~StreamStatistician()25 StreamStatistician::~StreamStatistician() {}
26
StreamStatisticianImpl(Clock * clock,RtcpStatisticsCallback * rtcp_callback,StreamDataCountersCallback * rtp_callback)27 StreamStatisticianImpl::StreamStatisticianImpl(
28 Clock* clock,
29 RtcpStatisticsCallback* rtcp_callback,
30 StreamDataCountersCallback* rtp_callback)
31 : clock_(clock),
32 stream_lock_(CriticalSectionWrapper::CreateCriticalSection()),
33 incoming_bitrate_(clock, NULL),
34 ssrc_(0),
35 max_reordering_threshold_(kDefaultMaxReorderingThreshold),
36 jitter_q4_(0),
37 cumulative_loss_(0),
38 jitter_q4_transmission_time_offset_(0),
39 last_receive_time_ms_(0),
40 last_received_timestamp_(0),
41 last_received_transmission_time_offset_(0),
42 received_seq_first_(0),
43 received_seq_max_(0),
44 received_seq_wraps_(0),
45 received_packet_overhead_(12),
46 last_report_inorder_packets_(0),
47 last_report_old_packets_(0),
48 last_report_seq_max_(0),
49 rtcp_callback_(rtcp_callback),
50 rtp_callback_(rtp_callback) {}
51
IncomingPacket(const RTPHeader & header,size_t packet_length,bool retransmitted)52 void StreamStatisticianImpl::IncomingPacket(const RTPHeader& header,
53 size_t packet_length,
54 bool retransmitted) {
55 UpdateCounters(header, packet_length, retransmitted);
56 NotifyRtpCallback();
57 }
58
UpdateCounters(const RTPHeader & header,size_t packet_length,bool retransmitted)59 void StreamStatisticianImpl::UpdateCounters(const RTPHeader& header,
60 size_t packet_length,
61 bool retransmitted) {
62 CriticalSectionScoped cs(stream_lock_.get());
63 bool in_order = InOrderPacketInternal(header.sequenceNumber);
64 ssrc_ = header.ssrc;
65 incoming_bitrate_.Update(packet_length);
66 receive_counters_.transmitted.AddPacket(packet_length, header);
67 if (!in_order && retransmitted) {
68 receive_counters_.retransmitted.AddPacket(packet_length, header);
69 }
70
71 if (receive_counters_.transmitted.packets == 1) {
72 received_seq_first_ = header.sequenceNumber;
73 receive_counters_.first_packet_time_ms = clock_->TimeInMilliseconds();
74 }
75
76 // Count only the new packets received. That is, if packets 1, 2, 3, 5, 4, 6
77 // are received, 4 will be ignored.
78 if (in_order) {
79 // Current time in samples.
80 NtpTime receive_time(*clock_);
81
82 // Wrong if we use RetransmitOfOldPacket.
83 if (receive_counters_.transmitted.packets > 1 &&
84 received_seq_max_ > header.sequenceNumber) {
85 // Wrap around detected.
86 received_seq_wraps_++;
87 }
88 // New max.
89 received_seq_max_ = header.sequenceNumber;
90
91 // If new time stamp and more than one in-order packet received, calculate
92 // new jitter statistics.
93 if (header.timestamp != last_received_timestamp_ &&
94 (receive_counters_.transmitted.packets -
95 receive_counters_.retransmitted.packets) > 1) {
96 UpdateJitter(header, receive_time);
97 }
98 last_received_timestamp_ = header.timestamp;
99 last_receive_time_ntp_ = receive_time;
100 last_receive_time_ms_ = clock_->TimeInMilliseconds();
101 }
102
103 size_t packet_oh = header.headerLength + header.paddingLength;
104
105 // Our measured overhead. Filter from RFC 5104 4.2.1.2:
106 // avg_OH (new) = 15/16*avg_OH (old) + 1/16*pckt_OH,
107 received_packet_overhead_ = (15 * received_packet_overhead_ + packet_oh) >> 4;
108 }
109
UpdateJitter(const RTPHeader & header,NtpTime receive_time)110 void StreamStatisticianImpl::UpdateJitter(const RTPHeader& header,
111 NtpTime receive_time) {
112 uint32_t receive_time_rtp =
113 NtpToRtp(receive_time, header.payload_type_frequency);
114 uint32_t last_receive_time_rtp =
115 NtpToRtp(last_receive_time_ntp_, header.payload_type_frequency);
116 int32_t time_diff_samples = (receive_time_rtp - last_receive_time_rtp) -
117 (header.timestamp - last_received_timestamp_);
118
119 time_diff_samples = abs(time_diff_samples);
120
121 // lib_jingle sometimes deliver crazy jumps in TS for the same stream.
122 // If this happens, don't update jitter value. Use 5 secs video frequency
123 // as the threshold.
124 if (time_diff_samples < 450000) {
125 // Note we calculate in Q4 to avoid using float.
126 int32_t jitter_diff_q4 = (time_diff_samples << 4) - jitter_q4_;
127 jitter_q4_ += ((jitter_diff_q4 + 8) >> 4);
128 }
129
130 // Extended jitter report, RFC 5450.
131 // Actual network jitter, excluding the source-introduced jitter.
132 int32_t time_diff_samples_ext =
133 (receive_time_rtp - last_receive_time_rtp) -
134 ((header.timestamp +
135 header.extension.transmissionTimeOffset) -
136 (last_received_timestamp_ +
137 last_received_transmission_time_offset_));
138
139 time_diff_samples_ext = abs(time_diff_samples_ext);
140
141 if (time_diff_samples_ext < 450000) {
142 int32_t jitter_diffQ4TransmissionTimeOffset =
143 (time_diff_samples_ext << 4) - jitter_q4_transmission_time_offset_;
144 jitter_q4_transmission_time_offset_ +=
145 ((jitter_diffQ4TransmissionTimeOffset + 8) >> 4);
146 }
147 }
148
NotifyRtpCallback()149 void StreamStatisticianImpl::NotifyRtpCallback() {
150 StreamDataCounters data;
151 uint32_t ssrc;
152 {
153 CriticalSectionScoped cs(stream_lock_.get());
154 data = receive_counters_;
155 ssrc = ssrc_;
156 }
157 rtp_callback_->DataCountersUpdated(data, ssrc);
158 }
159
NotifyRtcpCallback()160 void StreamStatisticianImpl::NotifyRtcpCallback() {
161 RtcpStatistics data;
162 uint32_t ssrc;
163 {
164 CriticalSectionScoped cs(stream_lock_.get());
165 data = last_reported_statistics_;
166 ssrc = ssrc_;
167 }
168 rtcp_callback_->StatisticsUpdated(data, ssrc);
169 }
170
FecPacketReceived(const RTPHeader & header,size_t packet_length)171 void StreamStatisticianImpl::FecPacketReceived(const RTPHeader& header,
172 size_t packet_length) {
173 {
174 CriticalSectionScoped cs(stream_lock_.get());
175 receive_counters_.fec.AddPacket(packet_length, header);
176 }
177 NotifyRtpCallback();
178 }
179
SetMaxReorderingThreshold(int max_reordering_threshold)180 void StreamStatisticianImpl::SetMaxReorderingThreshold(
181 int max_reordering_threshold) {
182 CriticalSectionScoped cs(stream_lock_.get());
183 max_reordering_threshold_ = max_reordering_threshold;
184 }
185
GetStatistics(RtcpStatistics * statistics,bool reset)186 bool StreamStatisticianImpl::GetStatistics(RtcpStatistics* statistics,
187 bool reset) {
188 {
189 CriticalSectionScoped cs(stream_lock_.get());
190 if (received_seq_first_ == 0 &&
191 receive_counters_.transmitted.payload_bytes == 0) {
192 // We have not received anything.
193 return false;
194 }
195
196 if (!reset) {
197 if (last_report_inorder_packets_ == 0) {
198 // No report.
199 return false;
200 }
201 // Just get last report.
202 *statistics = last_reported_statistics_;
203 return true;
204 }
205
206 *statistics = CalculateRtcpStatistics();
207 }
208
209 NotifyRtcpCallback();
210
211 return true;
212 }
213
CalculateRtcpStatistics()214 RtcpStatistics StreamStatisticianImpl::CalculateRtcpStatistics() {
215 RtcpStatistics stats;
216
217 if (last_report_inorder_packets_ == 0) {
218 // First time we send a report.
219 last_report_seq_max_ = received_seq_first_ - 1;
220 }
221
222 // Calculate fraction lost.
223 uint16_t exp_since_last = (received_seq_max_ - last_report_seq_max_);
224
225 if (last_report_seq_max_ > received_seq_max_) {
226 // Can we assume that the seq_num can't go decrease over a full RTCP period?
227 exp_since_last = 0;
228 }
229
230 // Number of received RTP packets since last report, counts all packets but
231 // not re-transmissions.
232 uint32_t rec_since_last =
233 (receive_counters_.transmitted.packets -
234 receive_counters_.retransmitted.packets) - last_report_inorder_packets_;
235
236 // With NACK we don't know the expected retransmissions during the last
237 // second. We know how many "old" packets we have received. We just count
238 // the number of old received to estimate the loss, but it still does not
239 // guarantee an exact number since we run this based on time triggered by
240 // sending of an RTP packet. This should have a minimum effect.
241
242 // With NACK we don't count old packets as received since they are
243 // re-transmitted. We use RTT to decide if a packet is re-ordered or
244 // re-transmitted.
245 uint32_t retransmitted_packets =
246 receive_counters_.retransmitted.packets - last_report_old_packets_;
247 rec_since_last += retransmitted_packets;
248
249 int32_t missing = 0;
250 if (exp_since_last > rec_since_last) {
251 missing = (exp_since_last - rec_since_last);
252 }
253 uint8_t local_fraction_lost = 0;
254 if (exp_since_last) {
255 // Scale 0 to 255, where 255 is 100% loss.
256 local_fraction_lost =
257 static_cast<uint8_t>(255 * missing / exp_since_last);
258 }
259 stats.fraction_lost = local_fraction_lost;
260
261 // We need a counter for cumulative loss too.
262 // TODO(danilchap): Ensure cumulative loss is below maximum value of 2^24.
263 cumulative_loss_ += missing;
264 stats.cumulative_lost = cumulative_loss_;
265 stats.extended_max_sequence_number =
266 (received_seq_wraps_ << 16) + received_seq_max_;
267 // Note: internal jitter value is in Q4 and needs to be scaled by 1/16.
268 stats.jitter = jitter_q4_ >> 4;
269
270 // Store this report.
271 last_reported_statistics_ = stats;
272
273 // Only for report blocks in RTCP SR and RR.
274 last_report_inorder_packets_ =
275 receive_counters_.transmitted.packets -
276 receive_counters_.retransmitted.packets;
277 last_report_old_packets_ = receive_counters_.retransmitted.packets;
278 last_report_seq_max_ = received_seq_max_;
279
280 return stats;
281 }
282
GetDataCounters(size_t * bytes_received,uint32_t * packets_received) const283 void StreamStatisticianImpl::GetDataCounters(
284 size_t* bytes_received, uint32_t* packets_received) const {
285 CriticalSectionScoped cs(stream_lock_.get());
286 if (bytes_received) {
287 *bytes_received = receive_counters_.transmitted.payload_bytes +
288 receive_counters_.transmitted.header_bytes +
289 receive_counters_.transmitted.padding_bytes;
290 }
291 if (packets_received) {
292 *packets_received = receive_counters_.transmitted.packets;
293 }
294 }
295
GetReceiveStreamDataCounters(StreamDataCounters * data_counters) const296 void StreamStatisticianImpl::GetReceiveStreamDataCounters(
297 StreamDataCounters* data_counters) const {
298 CriticalSectionScoped cs(stream_lock_.get());
299 *data_counters = receive_counters_;
300 }
301
BitrateReceived() const302 uint32_t StreamStatisticianImpl::BitrateReceived() const {
303 CriticalSectionScoped cs(stream_lock_.get());
304 return incoming_bitrate_.BitrateNow();
305 }
306
ProcessBitrate()307 void StreamStatisticianImpl::ProcessBitrate() {
308 CriticalSectionScoped cs(stream_lock_.get());
309 incoming_bitrate_.Process();
310 }
311
LastReceiveTimeNtp(uint32_t * secs,uint32_t * frac) const312 void StreamStatisticianImpl::LastReceiveTimeNtp(uint32_t* secs,
313 uint32_t* frac) const {
314 CriticalSectionScoped cs(stream_lock_.get());
315 *secs = last_receive_time_ntp_.seconds();
316 *frac = last_receive_time_ntp_.fractions();
317 }
318
IsRetransmitOfOldPacket(const RTPHeader & header,int64_t min_rtt) const319 bool StreamStatisticianImpl::IsRetransmitOfOldPacket(
320 const RTPHeader& header, int64_t min_rtt) const {
321 CriticalSectionScoped cs(stream_lock_.get());
322 if (InOrderPacketInternal(header.sequenceNumber)) {
323 return false;
324 }
325 uint32_t frequency_khz = header.payload_type_frequency / 1000;
326 assert(frequency_khz > 0);
327
328 int64_t time_diff_ms = clock_->TimeInMilliseconds() -
329 last_receive_time_ms_;
330
331 // Diff in time stamp since last received in order.
332 uint32_t timestamp_diff = header.timestamp - last_received_timestamp_;
333 uint32_t rtp_time_stamp_diff_ms = timestamp_diff / frequency_khz;
334
335 int64_t max_delay_ms = 0;
336 if (min_rtt == 0) {
337 // Jitter standard deviation in samples.
338 float jitter_std = sqrt(static_cast<float>(jitter_q4_ >> 4));
339
340 // 2 times the standard deviation => 95% confidence.
341 // And transform to milliseconds by dividing by the frequency in kHz.
342 max_delay_ms = static_cast<int64_t>((2 * jitter_std) / frequency_khz);
343
344 // Min max_delay_ms is 1.
345 if (max_delay_ms == 0) {
346 max_delay_ms = 1;
347 }
348 } else {
349 max_delay_ms = (min_rtt / 3) + 1;
350 }
351 return time_diff_ms > rtp_time_stamp_diff_ms + max_delay_ms;
352 }
353
IsPacketInOrder(uint16_t sequence_number) const354 bool StreamStatisticianImpl::IsPacketInOrder(uint16_t sequence_number) const {
355 CriticalSectionScoped cs(stream_lock_.get());
356 return InOrderPacketInternal(sequence_number);
357 }
358
InOrderPacketInternal(uint16_t sequence_number) const359 bool StreamStatisticianImpl::InOrderPacketInternal(
360 uint16_t sequence_number) const {
361 // First packet is always in order.
362 if (last_receive_time_ms_ == 0)
363 return true;
364
365 if (IsNewerSequenceNumber(sequence_number, received_seq_max_)) {
366 return true;
367 } else {
368 // If we have a restart of the remote side this packet is still in order.
369 return !IsNewerSequenceNumber(sequence_number, received_seq_max_ -
370 max_reordering_threshold_);
371 }
372 }
373
Create(Clock * clock)374 ReceiveStatistics* ReceiveStatistics::Create(Clock* clock) {
375 return new ReceiveStatisticsImpl(clock);
376 }
377
ReceiveStatisticsImpl(Clock * clock)378 ReceiveStatisticsImpl::ReceiveStatisticsImpl(Clock* clock)
379 : clock_(clock),
380 receive_statistics_lock_(CriticalSectionWrapper::CreateCriticalSection()),
381 last_rate_update_ms_(0),
382 rtcp_stats_callback_(NULL),
383 rtp_stats_callback_(NULL) {}
384
~ReceiveStatisticsImpl()385 ReceiveStatisticsImpl::~ReceiveStatisticsImpl() {
386 while (!statisticians_.empty()) {
387 delete statisticians_.begin()->second;
388 statisticians_.erase(statisticians_.begin());
389 }
390 }
391
IncomingPacket(const RTPHeader & header,size_t packet_length,bool retransmitted)392 void ReceiveStatisticsImpl::IncomingPacket(const RTPHeader& header,
393 size_t packet_length,
394 bool retransmitted) {
395 StreamStatisticianImpl* impl;
396 {
397 CriticalSectionScoped cs(receive_statistics_lock_.get());
398 StatisticianImplMap::iterator it = statisticians_.find(header.ssrc);
399 if (it != statisticians_.end()) {
400 impl = it->second;
401 } else {
402 impl = new StreamStatisticianImpl(clock_, this, this);
403 statisticians_[header.ssrc] = impl;
404 }
405 }
406 // StreamStatisticianImpl instance is created once and only destroyed when
407 // this whole ReceiveStatisticsImpl is destroyed. StreamStatisticianImpl has
408 // it's own locking so don't hold receive_statistics_lock_ (potential
409 // deadlock).
410 impl->IncomingPacket(header, packet_length, retransmitted);
411 }
412
FecPacketReceived(const RTPHeader & header,size_t packet_length)413 void ReceiveStatisticsImpl::FecPacketReceived(const RTPHeader& header,
414 size_t packet_length) {
415 CriticalSectionScoped cs(receive_statistics_lock_.get());
416 StatisticianImplMap::iterator it = statisticians_.find(header.ssrc);
417 // Ignore FEC if it is the first packet.
418 if (it != statisticians_.end()) {
419 it->second->FecPacketReceived(header, packet_length);
420 }
421 }
422
GetActiveStatisticians() const423 StatisticianMap ReceiveStatisticsImpl::GetActiveStatisticians() const {
424 CriticalSectionScoped cs(receive_statistics_lock_.get());
425 StatisticianMap active_statisticians;
426 for (StatisticianImplMap::const_iterator it = statisticians_.begin();
427 it != statisticians_.end(); ++it) {
428 uint32_t secs;
429 uint32_t frac;
430 it->second->LastReceiveTimeNtp(&secs, &frac);
431 if (clock_->CurrentNtpInMilliseconds() -
432 Clock::NtpToMs(secs, frac) < kStatisticsTimeoutMs) {
433 active_statisticians[it->first] = it->second;
434 }
435 }
436 return active_statisticians;
437 }
438
GetStatistician(uint32_t ssrc) const439 StreamStatistician* ReceiveStatisticsImpl::GetStatistician(
440 uint32_t ssrc) const {
441 CriticalSectionScoped cs(receive_statistics_lock_.get());
442 StatisticianImplMap::const_iterator it = statisticians_.find(ssrc);
443 if (it == statisticians_.end())
444 return NULL;
445 return it->second;
446 }
447
SetMaxReorderingThreshold(int max_reordering_threshold)448 void ReceiveStatisticsImpl::SetMaxReorderingThreshold(
449 int max_reordering_threshold) {
450 CriticalSectionScoped cs(receive_statistics_lock_.get());
451 for (StatisticianImplMap::iterator it = statisticians_.begin();
452 it != statisticians_.end(); ++it) {
453 it->second->SetMaxReorderingThreshold(max_reordering_threshold);
454 }
455 }
456
Process()457 int32_t ReceiveStatisticsImpl::Process() {
458 CriticalSectionScoped cs(receive_statistics_lock_.get());
459 for (StatisticianImplMap::iterator it = statisticians_.begin();
460 it != statisticians_.end(); ++it) {
461 it->second->ProcessBitrate();
462 }
463 last_rate_update_ms_ = clock_->TimeInMilliseconds();
464 return 0;
465 }
466
TimeUntilNextProcess()467 int64_t ReceiveStatisticsImpl::TimeUntilNextProcess() {
468 CriticalSectionScoped cs(receive_statistics_lock_.get());
469 int64_t time_since_last_update = clock_->TimeInMilliseconds() -
470 last_rate_update_ms_;
471 return std::max<int64_t>(
472 kStatisticsProcessIntervalMs - time_since_last_update, 0);
473 }
474
RegisterRtcpStatisticsCallback(RtcpStatisticsCallback * callback)475 void ReceiveStatisticsImpl::RegisterRtcpStatisticsCallback(
476 RtcpStatisticsCallback* callback) {
477 CriticalSectionScoped cs(receive_statistics_lock_.get());
478 if (callback != NULL)
479 assert(rtcp_stats_callback_ == NULL);
480 rtcp_stats_callback_ = callback;
481 }
482
StatisticsUpdated(const RtcpStatistics & statistics,uint32_t ssrc)483 void ReceiveStatisticsImpl::StatisticsUpdated(const RtcpStatistics& statistics,
484 uint32_t ssrc) {
485 CriticalSectionScoped cs(receive_statistics_lock_.get());
486 if (rtcp_stats_callback_)
487 rtcp_stats_callback_->StatisticsUpdated(statistics, ssrc);
488 }
489
CNameChanged(const char * cname,uint32_t ssrc)490 void ReceiveStatisticsImpl::CNameChanged(const char* cname, uint32_t ssrc) {
491 CriticalSectionScoped cs(receive_statistics_lock_.get());
492 if (rtcp_stats_callback_)
493 rtcp_stats_callback_->CNameChanged(cname, ssrc);
494 }
495
RegisterRtpStatisticsCallback(StreamDataCountersCallback * callback)496 void ReceiveStatisticsImpl::RegisterRtpStatisticsCallback(
497 StreamDataCountersCallback* callback) {
498 CriticalSectionScoped cs(receive_statistics_lock_.get());
499 if (callback != NULL)
500 assert(rtp_stats_callback_ == NULL);
501 rtp_stats_callback_ = callback;
502 }
503
DataCountersUpdated(const StreamDataCounters & stats,uint32_t ssrc)504 void ReceiveStatisticsImpl::DataCountersUpdated(const StreamDataCounters& stats,
505 uint32_t ssrc) {
506 CriticalSectionScoped cs(receive_statistics_lock_.get());
507 if (rtp_stats_callback_) {
508 rtp_stats_callback_->DataCountersUpdated(stats, ssrc);
509 }
510 }
511
IncomingPacket(const RTPHeader & rtp_header,size_t packet_length,bool retransmitted)512 void NullReceiveStatistics::IncomingPacket(const RTPHeader& rtp_header,
513 size_t packet_length,
514 bool retransmitted) {}
515
FecPacketReceived(const RTPHeader & header,size_t packet_length)516 void NullReceiveStatistics::FecPacketReceived(const RTPHeader& header,
517 size_t packet_length) {}
518
GetActiveStatisticians() const519 StatisticianMap NullReceiveStatistics::GetActiveStatisticians() const {
520 return StatisticianMap();
521 }
522
GetStatistician(uint32_t ssrc) const523 StreamStatistician* NullReceiveStatistics::GetStatistician(
524 uint32_t ssrc) const {
525 return NULL;
526 }
527
SetMaxReorderingThreshold(int max_reordering_threshold)528 void NullReceiveStatistics::SetMaxReorderingThreshold(
529 int max_reordering_threshold) {}
530
TimeUntilNextProcess()531 int64_t NullReceiveStatistics::TimeUntilNextProcess() { return 0; }
532
Process()533 int32_t NullReceiveStatistics::Process() { return 0; }
534
RegisterRtcpStatisticsCallback(RtcpStatisticsCallback * callback)535 void NullReceiveStatistics::RegisterRtcpStatisticsCallback(
536 RtcpStatisticsCallback* callback) {}
537
RegisterRtpStatisticsCallback(StreamDataCountersCallback * callback)538 void NullReceiveStatistics::RegisterRtpStatisticsCallback(
539 StreamDataCountersCallback* callback) {}
540
541 } // namespace webrtc
542