Updating XTBs based on .GRDs from branch master
[chromium-blink-merge.git] / media / cast / logging / stats_event_subscriber.cc
blob9d68710bed0ef99f0994f7ed18f62308ff4295f6
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <cmath>
7 #include "media/cast/logging/stats_event_subscriber.h"
9 #include "base/format_macros.h"
10 #include "base/logging.h"
11 #include "base/strings/stringprintf.h"
12 #include "base/values.h"
14 #define STAT_ENUM_TO_STRING(enum) \
15 case enum: \
16 return #enum
18 namespace media {
19 namespace cast {
21 namespace {
23 using media::cast::CastLoggingEvent;
24 using media::cast::EventMediaType;
26 const size_t kMaxPacketEventTimeMapSize = 1000;
28 bool IsReceiverEvent(CastLoggingEvent event) {
29 return event == FRAME_DECODED
30 || event == FRAME_PLAYOUT
31 || event == FRAME_ACK_SENT
32 || event == PACKET_RECEIVED;
35 } // namespace
37 StatsEventSubscriber::SimpleHistogram::SimpleHistogram(int64 min,
38 int64 max,
39 int64 width)
40 : min_(min), max_(max), width_(width), buckets_((max - min) / width + 2) {
41 CHECK_GT(buckets_.size(), 2u);
42 CHECK_EQ(0, (max_ - min_) % width_);
45 StatsEventSubscriber::SimpleHistogram::~SimpleHistogram() {
48 void StatsEventSubscriber::SimpleHistogram::Add(int64 sample) {
49 if (sample < min_) {
50 ++buckets_.front();
51 } else if (sample >= max_) {
52 ++buckets_.back();
53 } else {
54 size_t index = 1 + (sample - min_) / width_;
55 DCHECK_LT(index, buckets_.size());
56 ++buckets_[index];
60 void StatsEventSubscriber::SimpleHistogram::Reset() {
61 buckets_.assign(buckets_.size(), 0);
64 scoped_ptr<base::ListValue>
65 StatsEventSubscriber::SimpleHistogram::GetHistogram() const {
66 scoped_ptr<base::ListValue> histo(new base::ListValue);
68 scoped_ptr<base::DictionaryValue> bucket(new base::DictionaryValue);
70 if (buckets_.front()) {
71 bucket->SetInteger(base::StringPrintf("<%" PRId64, min_),
72 buckets_.front());
73 histo->Append(bucket.release());
76 for (size_t i = 1; i < buckets_.size() - 1; i++) {
77 if (!buckets_[i])
78 continue;
79 bucket.reset(new base::DictionaryValue);
80 int64 lower = min_ + (i - 1) * width_;
81 int64 upper = lower + width_ - 1;
82 bucket->SetInteger(
83 base::StringPrintf("%" PRId64 "-%" PRId64, lower, upper),
84 buckets_[i]);
85 histo->Append(bucket.release());
88 if (buckets_.back()) {
89 bucket.reset(new base::DictionaryValue);
90 bucket->SetInteger(base::StringPrintf(">=%" PRId64, max_),
91 buckets_.back());
92 histo->Append(bucket.release());
94 return histo.Pass();
97 StatsEventSubscriber::StatsEventSubscriber(
98 EventMediaType event_media_type,
99 base::TickClock* clock,
100 ReceiverTimeOffsetEstimator* offset_estimator)
101 : event_media_type_(event_media_type),
102 clock_(clock),
103 offset_estimator_(offset_estimator),
104 capture_latency_datapoints_(0),
105 encode_time_datapoints_(0),
106 queueing_latency_datapoints_(0),
107 network_latency_datapoints_(0),
108 packet_latency_datapoints_(0),
109 frame_latency_datapoints_(0),
110 e2e_latency_datapoints_(0),
111 num_frames_dropped_by_encoder_(0),
112 num_frames_late_(0),
113 start_time_(clock_->NowTicks()) {
114 DCHECK(event_media_type == AUDIO_EVENT || event_media_type == VIDEO_EVENT);
116 InitHistograms();
119 StatsEventSubscriber::~StatsEventSubscriber() {
120 DCHECK(thread_checker_.CalledOnValidThread());
123 void StatsEventSubscriber::OnReceiveFrameEvent(const FrameEvent& frame_event) {
124 DCHECK(thread_checker_.CalledOnValidThread());
126 CastLoggingEvent type = frame_event.type;
127 if (frame_event.media_type != event_media_type_)
128 return;
130 FrameStatsMap::iterator it = frame_stats_.find(type);
131 if (it == frame_stats_.end()) {
132 FrameLogStats stats;
133 stats.event_counter = 1;
134 stats.sum_size = frame_event.size;
135 stats.sum_delay = frame_event.delay_delta;
136 frame_stats_.insert(std::make_pair(type, stats));
137 } else {
138 ++(it->second.event_counter);
139 it->second.sum_size += frame_event.size;
140 it->second.sum_delay += frame_event.delay_delta;
143 bool is_receiver_event = IsReceiverEvent(type);
144 UpdateFirstLastEventTime(frame_event.timestamp, is_receiver_event);
146 if (type == FRAME_CAPTURE_BEGIN) {
147 RecordFrameCaptureTime(frame_event);
148 } else if (type == FRAME_CAPTURE_END) {
149 RecordCaptureLatency(frame_event);
150 } else if (type == FRAME_ENCODED) {
151 RecordEncodeLatency(frame_event);
152 } else if (type == FRAME_ACK_SENT) {
153 RecordFrameTxLatency(frame_event);
154 } else if (type == FRAME_PLAYOUT) {
155 RecordE2ELatency(frame_event);
156 base::TimeDelta delay_delta = frame_event.delay_delta;
158 // Positive delay_delta means the frame is late.
159 if (delay_delta > base::TimeDelta()) {
160 num_frames_late_++;
161 histograms_[LATE_FRAME_MS_HISTO]->Add(delay_delta.InMillisecondsF());
165 if (is_receiver_event)
166 UpdateLastResponseTime(frame_event.timestamp);
169 void StatsEventSubscriber::OnReceivePacketEvent(
170 const PacketEvent& packet_event) {
171 DCHECK(thread_checker_.CalledOnValidThread());
173 CastLoggingEvent type = packet_event.type;
174 if (packet_event.media_type != event_media_type_)
175 return;
177 PacketStatsMap::iterator it = packet_stats_.find(type);
178 if (it == packet_stats_.end()) {
179 PacketLogStats stats;
180 stats.event_counter = 1;
181 stats.sum_size = packet_event.size;
182 packet_stats_.insert(std::make_pair(type, stats));
183 } else {
184 ++(it->second.event_counter);
185 it->second.sum_size += packet_event.size;
188 bool is_receiver_event = IsReceiverEvent(type);
189 UpdateFirstLastEventTime(packet_event.timestamp, is_receiver_event);
191 if (type == PACKET_SENT_TO_NETWORK ||
192 type == PACKET_RECEIVED) {
193 RecordPacketRelatedLatencies(packet_event);
194 } else if (type == PACKET_RETRANSMITTED) {
195 // We only measure network latency using packets that doesn't have to be
196 // retransmitted as there is precisely one sent-receive timestamp pairs.
197 ErasePacketSentTime(packet_event);
200 if (is_receiver_event)
201 UpdateLastResponseTime(packet_event.timestamp);
204 void StatsEventSubscriber::UpdateFirstLastEventTime(base::TimeTicks timestamp,
205 bool is_receiver_event) {
206 if (is_receiver_event) {
207 base::TimeDelta receiver_offset;
208 if (!GetReceiverOffset(&receiver_offset))
209 return;
210 timestamp -= receiver_offset;
213 if (first_event_time_.is_null()) {
214 first_event_time_ = timestamp;
215 } else {
216 first_event_time_ = std::min(first_event_time_, timestamp);
218 if (last_event_time_.is_null()) {
219 last_event_time_ = timestamp;
220 } else {
221 last_event_time_ = std::max(last_event_time_, timestamp);
225 scoped_ptr<base::DictionaryValue> StatsEventSubscriber::GetStats() const {
226 StatsMap stats_map;
227 GetStatsInternal(&stats_map);
228 scoped_ptr<base::DictionaryValue> ret(new base::DictionaryValue);
230 scoped_ptr<base::DictionaryValue> stats(new base::DictionaryValue);
231 for (StatsMap::const_iterator it = stats_map.begin(); it != stats_map.end();
232 ++it) {
233 // Round to 3 digits after the decimal point.
234 stats->SetDouble(CastStatToString(it->first),
235 round(it->second * 1000.0) / 1000.0);
238 // Populate all histograms.
239 for (HistogramMap::const_iterator it = histograms_.begin();
240 it != histograms_.end();
241 ++it) {
242 stats->Set(CastStatToString(it->first),
243 it->second->GetHistogram().release());
246 ret->Set(event_media_type_ == AUDIO_EVENT ? "audio" : "video",
247 stats.release());
249 return ret.Pass();
252 void StatsEventSubscriber::Reset() {
253 DCHECK(thread_checker_.CalledOnValidThread());
255 frame_stats_.clear();
256 packet_stats_.clear();
257 total_capture_latency_ = base::TimeDelta();
258 capture_latency_datapoints_ = 0;
259 total_encode_time_ = base::TimeDelta();
260 encode_time_datapoints_ = 0;
261 total_queueing_latency_ = base::TimeDelta();
262 queueing_latency_datapoints_ = 0;
263 total_network_latency_ = base::TimeDelta();
264 network_latency_datapoints_ = 0;
265 total_packet_latency_ = base::TimeDelta();
266 packet_latency_datapoints_ = 0;
267 total_frame_latency_ = base::TimeDelta();
268 frame_latency_datapoints_ = 0;
269 total_e2e_latency_ = base::TimeDelta();
270 e2e_latency_datapoints_ = 0;
271 num_frames_dropped_by_encoder_ = 0;
272 num_frames_late_ = 0;
273 recent_frame_infos_.clear();
274 packet_sent_times_.clear();
275 start_time_ = clock_->NowTicks();
276 last_response_received_time_ = base::TimeTicks();
277 for (HistogramMap::iterator it = histograms_.begin(); it != histograms_.end();
278 ++it) {
279 it->second->Reset();
282 first_event_time_ = base::TimeTicks();
283 last_event_time_ = base::TimeTicks();
286 // static
287 const char* StatsEventSubscriber::CastStatToString(CastStat stat) {
288 switch (stat) {
289 STAT_ENUM_TO_STRING(CAPTURE_FPS);
290 STAT_ENUM_TO_STRING(ENCODE_FPS);
291 STAT_ENUM_TO_STRING(DECODE_FPS);
292 STAT_ENUM_TO_STRING(AVG_CAPTURE_LATENCY_MS);
293 STAT_ENUM_TO_STRING(AVG_ENCODE_TIME_MS);
294 STAT_ENUM_TO_STRING(AVG_QUEUEING_LATENCY_MS);
295 STAT_ENUM_TO_STRING(AVG_NETWORK_LATENCY_MS);
296 STAT_ENUM_TO_STRING(AVG_PACKET_LATENCY_MS);
297 STAT_ENUM_TO_STRING(AVG_FRAME_LATENCY_MS);
298 STAT_ENUM_TO_STRING(AVG_E2E_LATENCY_MS);
299 STAT_ENUM_TO_STRING(ENCODE_KBPS);
300 STAT_ENUM_TO_STRING(TRANSMISSION_KBPS);
301 STAT_ENUM_TO_STRING(RETRANSMISSION_KBPS);
302 STAT_ENUM_TO_STRING(MS_SINCE_LAST_RECEIVER_RESPONSE);
303 STAT_ENUM_TO_STRING(NUM_FRAMES_CAPTURED);
304 STAT_ENUM_TO_STRING(NUM_FRAMES_DROPPED_BY_ENCODER);
305 STAT_ENUM_TO_STRING(NUM_FRAMES_LATE);
306 STAT_ENUM_TO_STRING(NUM_PACKETS_SENT);
307 STAT_ENUM_TO_STRING(NUM_PACKETS_RETRANSMITTED);
308 STAT_ENUM_TO_STRING(NUM_PACKETS_RECEIVED);
309 STAT_ENUM_TO_STRING(NUM_PACKETS_RTX_REJECTED);
310 STAT_ENUM_TO_STRING(FIRST_EVENT_TIME_MS);
311 STAT_ENUM_TO_STRING(LAST_EVENT_TIME_MS);
312 STAT_ENUM_TO_STRING(CAPTURE_LATENCY_MS_HISTO);
313 STAT_ENUM_TO_STRING(ENCODE_TIME_MS_HISTO);
314 STAT_ENUM_TO_STRING(QUEUEING_LATENCY_MS_HISTO);
315 STAT_ENUM_TO_STRING(NETWORK_LATENCY_MS_HISTO);
316 STAT_ENUM_TO_STRING(PACKET_LATENCY_MS_HISTO);
317 STAT_ENUM_TO_STRING(FRAME_LATENCY_MS_HISTO);
318 STAT_ENUM_TO_STRING(E2E_LATENCY_MS_HISTO);
319 STAT_ENUM_TO_STRING(LATE_FRAME_MS_HISTO);
321 NOTREACHED();
322 return "";
325 const int kDefaultMaxLatencyBucketMs = 800;
326 const int kDefaultBucketWidthMs = 20;
328 // For small latency values.
329 const int kSmallMaxLatencyBucketMs = 100;
330 const int kSmallBucketWidthMs = 5;
332 // For large latency values.
333 const int kLargeMaxLatencyBucketMs = 1200;
334 const int kLargeBucketWidthMs = 50;
336 void StatsEventSubscriber::InitHistograms() {
337 histograms_[E2E_LATENCY_MS_HISTO].reset(
338 new SimpleHistogram(0, kLargeMaxLatencyBucketMs,
339 kLargeBucketWidthMs));
340 histograms_[QUEUEING_LATENCY_MS_HISTO].reset(
341 new SimpleHistogram(0, kDefaultMaxLatencyBucketMs,
342 kDefaultBucketWidthMs));
343 histograms_[NETWORK_LATENCY_MS_HISTO].reset(
344 new SimpleHistogram(0, kDefaultMaxLatencyBucketMs,
345 kDefaultBucketWidthMs));
346 histograms_[PACKET_LATENCY_MS_HISTO].reset(
347 new SimpleHistogram(0, kDefaultMaxLatencyBucketMs,
348 kDefaultBucketWidthMs));
349 histograms_[FRAME_LATENCY_MS_HISTO].reset(
350 new SimpleHistogram(0, kDefaultMaxLatencyBucketMs,
351 kDefaultBucketWidthMs));
352 histograms_[LATE_FRAME_MS_HISTO].reset(
353 new SimpleHistogram(0, kDefaultMaxLatencyBucketMs,
354 kDefaultBucketWidthMs));
355 histograms_[CAPTURE_LATENCY_MS_HISTO].reset(
356 new SimpleHistogram(0, kSmallMaxLatencyBucketMs,
357 kSmallBucketWidthMs));
358 histograms_[ENCODE_TIME_MS_HISTO].reset(
359 new SimpleHistogram(0, kSmallMaxLatencyBucketMs,
360 kSmallBucketWidthMs));
363 void StatsEventSubscriber::GetStatsInternal(StatsMap* stats_map) const {
364 DCHECK(thread_checker_.CalledOnValidThread());
366 stats_map->clear();
368 base::TimeTicks end_time = clock_->NowTicks();
370 PopulateFpsStat(
371 end_time, FRAME_CAPTURE_BEGIN, CAPTURE_FPS, stats_map);
372 PopulateFpsStat(
373 end_time, FRAME_ENCODED, ENCODE_FPS, stats_map);
374 PopulateFpsStat(
375 end_time, FRAME_DECODED, DECODE_FPS, stats_map);
376 PopulateFrameBitrateStat(end_time, stats_map);
377 PopulatePacketBitrateStat(end_time,
378 PACKET_SENT_TO_NETWORK,
379 TRANSMISSION_KBPS,
380 stats_map);
381 PopulatePacketBitrateStat(end_time,
382 PACKET_RETRANSMITTED,
383 RETRANSMISSION_KBPS,
384 stats_map);
385 PopulateFrameCountStat(FRAME_CAPTURE_END, NUM_FRAMES_CAPTURED, stats_map);
386 PopulatePacketCountStat(PACKET_SENT_TO_NETWORK, NUM_PACKETS_SENT, stats_map);
387 PopulatePacketCountStat(
388 PACKET_RETRANSMITTED, NUM_PACKETS_RETRANSMITTED, stats_map);
389 PopulatePacketCountStat(PACKET_RECEIVED, NUM_PACKETS_RECEIVED, stats_map);
390 PopulatePacketCountStat(
391 PACKET_RTX_REJECTED, NUM_PACKETS_RTX_REJECTED, stats_map);
393 if (capture_latency_datapoints_ > 0) {
394 double avg_capture_latency_ms =
395 total_capture_latency_.InMillisecondsF() /
396 capture_latency_datapoints_;
397 stats_map->insert(
398 std::make_pair(AVG_CAPTURE_LATENCY_MS, avg_capture_latency_ms));
401 if (encode_time_datapoints_ > 0) {
402 double avg_encode_time_ms =
403 total_encode_time_.InMillisecondsF() /
404 encode_time_datapoints_;
405 stats_map->insert(
406 std::make_pair(AVG_ENCODE_TIME_MS, avg_encode_time_ms));
409 if (queueing_latency_datapoints_ > 0) {
410 double avg_queueing_latency_ms =
411 total_queueing_latency_.InMillisecondsF() /
412 queueing_latency_datapoints_;
413 stats_map->insert(
414 std::make_pair(AVG_QUEUEING_LATENCY_MS, avg_queueing_latency_ms));
417 if (network_latency_datapoints_ > 0) {
418 double avg_network_latency_ms =
419 total_network_latency_.InMillisecondsF() /
420 network_latency_datapoints_;
421 stats_map->insert(
422 std::make_pair(AVG_NETWORK_LATENCY_MS, avg_network_latency_ms));
425 if (packet_latency_datapoints_ > 0) {
426 double avg_packet_latency_ms =
427 total_packet_latency_.InMillisecondsF() /
428 packet_latency_datapoints_;
429 stats_map->insert(
430 std::make_pair(AVG_PACKET_LATENCY_MS, avg_packet_latency_ms));
433 if (frame_latency_datapoints_ > 0) {
434 double avg_frame_latency_ms =
435 total_frame_latency_.InMillisecondsF() / frame_latency_datapoints_;
436 stats_map->insert(
437 std::make_pair(AVG_FRAME_LATENCY_MS, avg_frame_latency_ms));
440 if (e2e_latency_datapoints_ > 0) {
441 double avg_e2e_latency_ms =
442 total_e2e_latency_.InMillisecondsF() / e2e_latency_datapoints_;
443 stats_map->insert(std::make_pair(AVG_E2E_LATENCY_MS, avg_e2e_latency_ms));
446 if (!last_response_received_time_.is_null()) {
447 stats_map->insert(
448 std::make_pair(MS_SINCE_LAST_RECEIVER_RESPONSE,
449 (end_time - last_response_received_time_).InMillisecondsF()));
452 stats_map->insert(std::make_pair(NUM_FRAMES_DROPPED_BY_ENCODER,
453 num_frames_dropped_by_encoder_));
454 stats_map->insert(std::make_pair(NUM_FRAMES_LATE, num_frames_late_));
455 if (!first_event_time_.is_null()) {
456 stats_map->insert(std::make_pair(
457 FIRST_EVENT_TIME_MS,
458 (first_event_time_ - base::TimeTicks::UnixEpoch()).InMillisecondsF()));
460 if (!last_event_time_.is_null()) {
461 stats_map->insert(std::make_pair(
462 LAST_EVENT_TIME_MS,
463 (last_event_time_ - base::TimeTicks::UnixEpoch()).InMillisecondsF()));
467 StatsEventSubscriber::SimpleHistogram*
468 StatsEventSubscriber::GetHistogramForTesting(
469 CastStat stats) const {
470 DCHECK(histograms_.find(stats) != histograms_.end());
471 return histograms_.find(stats)->second.get();
474 bool StatsEventSubscriber::GetReceiverOffset(base::TimeDelta* offset) {
475 base::TimeDelta receiver_offset_lower_bound;
476 base::TimeDelta receiver_offset_upper_bound;
477 if (!offset_estimator_->GetReceiverOffsetBounds(
478 &receiver_offset_lower_bound, &receiver_offset_upper_bound)) {
479 return false;
482 *offset = (receiver_offset_lower_bound + receiver_offset_upper_bound) / 2;
483 return true;
486 void StatsEventSubscriber::MaybeInsertFrameInfo(RtpTimestamp rtp_timestamp,
487 const FrameInfo& frame_info) {
488 // No need to insert if |rtp_timestamp| is the smaller than every key in the
489 // map as it is just going to get erased anyway.
490 if (recent_frame_infos_.size() == kMaxFrameInfoMapSize &&
491 rtp_timestamp < recent_frame_infos_.begin()->first) {
492 return;
495 recent_frame_infos_.insert(std::make_pair(rtp_timestamp, frame_info));
497 if (recent_frame_infos_.size() >= kMaxFrameInfoMapSize) {
498 FrameInfoMap::iterator erase_it = recent_frame_infos_.begin();
499 if (erase_it->second.encode_end_time.is_null())
500 num_frames_dropped_by_encoder_++;
501 recent_frame_infos_.erase(erase_it);
505 void StatsEventSubscriber::RecordFrameCaptureTime(
506 const FrameEvent& frame_event) {
507 FrameInfo frame_info;
508 frame_info.capture_time = frame_event.timestamp;
509 MaybeInsertFrameInfo(frame_event.rtp_timestamp, frame_info);
512 void StatsEventSubscriber::RecordCaptureLatency(const FrameEvent& frame_event) {
513 FrameInfoMap::iterator it =
514 recent_frame_infos_.find(frame_event.rtp_timestamp);
515 if (it == recent_frame_infos_.end()) {
516 return;
519 if (!it->second.capture_time.is_null()) {
520 base::TimeDelta latency = frame_event.timestamp - it->second.capture_time;
521 total_capture_latency_ += latency;
522 capture_latency_datapoints_++;
523 histograms_[CAPTURE_LATENCY_MS_HISTO]->Add(latency.InMillisecondsF());
526 it->second.capture_end_time = frame_event.timestamp;
529 void StatsEventSubscriber::RecordEncodeLatency(const FrameEvent& frame_event) {
530 FrameInfoMap::iterator it =
531 recent_frame_infos_.find(frame_event.rtp_timestamp);
532 if (it == recent_frame_infos_.end()) {
533 FrameInfo frame_info;
534 frame_info.encode_end_time = frame_event.timestamp;
535 MaybeInsertFrameInfo(frame_event.rtp_timestamp, frame_info);
536 return;
539 if (!it->second.capture_end_time.is_null()) {
540 base::TimeDelta latency =
541 frame_event.timestamp - it->second.capture_end_time;
542 total_encode_time_ += latency;
543 encode_time_datapoints_++;
544 histograms_[ENCODE_TIME_MS_HISTO]->Add(latency.InMillisecondsF());
547 it->second.encode_end_time = frame_event.timestamp;
550 void StatsEventSubscriber::RecordFrameTxLatency(const FrameEvent& frame_event) {
551 FrameInfoMap::iterator it =
552 recent_frame_infos_.find(frame_event.rtp_timestamp);
553 if (it == recent_frame_infos_.end())
554 return;
556 if (it->second.encode_end_time.is_null())
557 return;
559 base::TimeDelta receiver_offset;
560 if (!GetReceiverOffset(&receiver_offset))
561 return;
563 base::TimeTicks sender_time = frame_event.timestamp - receiver_offset;
564 base::TimeDelta latency = sender_time - it->second.encode_end_time;
565 total_frame_latency_ += latency;
566 frame_latency_datapoints_++;
567 histograms_[FRAME_LATENCY_MS_HISTO]->Add(latency.InMillisecondsF());
570 void StatsEventSubscriber::RecordE2ELatency(const FrameEvent& frame_event) {
571 base::TimeDelta receiver_offset;
572 if (!GetReceiverOffset(&receiver_offset))
573 return;
575 FrameInfoMap::iterator it =
576 recent_frame_infos_.find(frame_event.rtp_timestamp);
577 if (it == recent_frame_infos_.end())
578 return;
580 base::TimeTicks playout_time = frame_event.timestamp - receiver_offset;
581 base::TimeDelta latency = playout_time - it->second.capture_time;
582 total_e2e_latency_ += latency;
583 e2e_latency_datapoints_++;
584 histograms_[E2E_LATENCY_MS_HISTO]->Add(latency.InMillisecondsF());
587 void StatsEventSubscriber::UpdateLastResponseTime(
588 base::TimeTicks receiver_time) {
589 base::TimeDelta receiver_offset;
590 if (!GetReceiverOffset(&receiver_offset))
591 return;
592 base::TimeTicks sender_time = receiver_time - receiver_offset;
593 last_response_received_time_ = sender_time;
596 void StatsEventSubscriber::ErasePacketSentTime(
597 const PacketEvent& packet_event) {
598 std::pair<RtpTimestamp, uint16> key(
599 std::make_pair(packet_event.rtp_timestamp, packet_event.packet_id));
600 packet_sent_times_.erase(key);
603 void StatsEventSubscriber::RecordPacketRelatedLatencies(
604 const PacketEvent& packet_event) {
605 // Log queueing latency.
606 if (packet_event.type == PACKET_SENT_TO_NETWORK) {
607 FrameInfoMap::iterator it =
608 recent_frame_infos_.find(packet_event.rtp_timestamp);
609 if (it != recent_frame_infos_.end()) {
610 base::TimeDelta latency =
611 packet_event.timestamp - it->second.encode_end_time;
612 total_queueing_latency_ += latency;
613 queueing_latency_datapoints_++;
614 histograms_[QUEUEING_LATENCY_MS_HISTO]->Add(
615 latency.InMillisecondsF());
619 // Log network latency and total packet latency;
620 base::TimeDelta receiver_offset;
621 if (!GetReceiverOffset(&receiver_offset))
622 return;
624 std::pair<RtpTimestamp, uint16> key(
625 std::make_pair(packet_event.rtp_timestamp, packet_event.packet_id));
626 PacketEventTimeMap::iterator it = packet_sent_times_.find(key);
627 if (it == packet_sent_times_.end()) {
628 std::pair<base::TimeTicks, CastLoggingEvent> value =
629 std::make_pair(packet_event.timestamp, packet_event.type);
630 packet_sent_times_.insert(std::make_pair(key, value));
631 if (packet_sent_times_.size() > kMaxPacketEventTimeMapSize)
632 packet_sent_times_.erase(packet_sent_times_.begin());
633 } else {
634 std::pair<base::TimeTicks, CastLoggingEvent> value = it->second;
635 CastLoggingEvent recorded_type = value.second;
636 bool match = false;
637 base::TimeTicks packet_sent_time;
638 base::TimeTicks packet_received_time;
639 if (recorded_type == PACKET_SENT_TO_NETWORK &&
640 packet_event.type == PACKET_RECEIVED) {
641 packet_sent_time = value.first;
642 packet_received_time = packet_event.timestamp;
643 match = true;
644 } else if (recorded_type == PACKET_RECEIVED &&
645 packet_event.type == PACKET_SENT_TO_NETWORK) {
646 packet_sent_time = packet_event.timestamp;
647 packet_received_time = value.first;
648 match = true;
650 if (match) {
651 packet_sent_times_.erase(it);
653 // Subtract by offset.
654 packet_received_time -= receiver_offset;
655 base::TimeDelta latency_delta = packet_received_time - packet_sent_time;
657 total_network_latency_ += latency_delta;
658 network_latency_datapoints_++;
659 histograms_[NETWORK_LATENCY_MS_HISTO]->Add(
660 latency_delta.InMillisecondsF());
662 // Log total network latency.
663 FrameInfoMap::iterator frame_it =
664 recent_frame_infos_.find(packet_event.rtp_timestamp);
665 if (frame_it != recent_frame_infos_.end()) {
666 base::TimeDelta latency =
667 packet_received_time - frame_it->second.encode_end_time;
668 total_packet_latency_ += latency;
669 packet_latency_datapoints_++;
670 histograms_[PACKET_LATENCY_MS_HISTO]->Add(
671 latency.InMillisecondsF());
677 void StatsEventSubscriber::PopulateFpsStat(base::TimeTicks end_time,
678 CastLoggingEvent event,
679 CastStat stat,
680 StatsMap* stats_map) const {
681 FrameStatsMap::const_iterator it = frame_stats_.find(event);
682 if (it != frame_stats_.end()) {
683 double fps = 0.0;
684 base::TimeDelta duration = (end_time - start_time_);
685 int count = it->second.event_counter;
686 if (duration > base::TimeDelta())
687 fps = count / duration.InSecondsF();
688 stats_map->insert(std::make_pair(stat, fps));
692 void StatsEventSubscriber::PopulateFrameCountStat(CastLoggingEvent event,
693 CastStat stat,
694 StatsMap* stats_map) const {
695 FrameStatsMap::const_iterator it = frame_stats_.find(event);
696 if (it != frame_stats_.end()) {
697 stats_map->insert(std::make_pair(stat, it->second.event_counter));
701 void StatsEventSubscriber::PopulatePacketCountStat(CastLoggingEvent event,
702 CastStat stat,
703 StatsMap* stats_map) const {
704 PacketStatsMap::const_iterator it = packet_stats_.find(event);
705 if (it != packet_stats_.end()) {
706 stats_map->insert(std::make_pair(stat, it->second.event_counter));
710 void StatsEventSubscriber::PopulateFrameBitrateStat(base::TimeTicks end_time,
711 StatsMap* stats_map) const {
712 FrameStatsMap::const_iterator it = frame_stats_.find(FRAME_ENCODED);
713 if (it != frame_stats_.end()) {
714 double kbps = 0.0;
715 base::TimeDelta duration = end_time - start_time_;
716 if (duration > base::TimeDelta()) {
717 kbps = it->second.sum_size / duration.InMillisecondsF() * 8;
720 stats_map->insert(std::make_pair(ENCODE_KBPS, kbps));
724 void StatsEventSubscriber::PopulatePacketBitrateStat(
725 base::TimeTicks end_time,
726 CastLoggingEvent event,
727 CastStat stat,
728 StatsMap* stats_map) const {
729 PacketStatsMap::const_iterator it = packet_stats_.find(event);
730 if (it != packet_stats_.end()) {
731 double kbps = 0;
732 base::TimeDelta duration = end_time - start_time_;
733 if (duration > base::TimeDelta()) {
734 kbps = it->second.sum_size / duration.InMillisecondsF() * 8;
737 stats_map->insert(std::make_pair(stat, kbps));
741 StatsEventSubscriber::FrameLogStats::FrameLogStats()
742 : event_counter(0), sum_size(0) {}
743 StatsEventSubscriber::FrameLogStats::~FrameLogStats() {}
745 StatsEventSubscriber::PacketLogStats::PacketLogStats()
746 : event_counter(0), sum_size(0) {}
747 StatsEventSubscriber::PacketLogStats::~PacketLogStats() {}
749 StatsEventSubscriber::FrameInfo::FrameInfo() : encoded(false) {
751 StatsEventSubscriber::FrameInfo::~FrameInfo() {
754 } // namespace cast
755 } // namespace media