Updating XTBs based on .GRDs from branch master
[chromium-blink-merge.git] / media / cast / logging / stats_event_subscriber_unittest.cc
blobbd6da06d232ba38767545dcfe7740eda01aafbe3
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 "base/memory/ref_counted.h"
6 #include "base/memory/scoped_ptr.h"
7 #include "base/rand_util.h"
8 #include "base/test/simple_test_tick_clock.h"
9 #include "base/time/tick_clock.h"
10 #include "media/cast/cast_environment.h"
11 #include "media/cast/logging/logging_defines.h"
12 #include "media/cast/logging/stats_event_subscriber.h"
13 #include "media/cast/test/fake_receiver_time_offset_estimator.h"
14 #include "media/cast/test/fake_single_thread_task_runner.h"
15 #include "testing/gtest/include/gtest/gtest.h"
17 namespace {
18 const int kReceiverOffsetSecs = 100;
21 namespace media {
22 namespace cast {
24 class StatsEventSubscriberTest : public ::testing::Test {
25 protected:
26 StatsEventSubscriberTest()
27 : sender_clock_(new base::SimpleTestTickClock()),
28 task_runner_(new test::FakeSingleThreadTaskRunner(sender_clock_)),
29 cast_environment_(new CastEnvironment(
30 scoped_ptr<base::TickClock>(sender_clock_).Pass(),
31 task_runner_,
32 task_runner_,
33 task_runner_)),
34 fake_offset_estimator_(
35 base::TimeDelta::FromSeconds(kReceiverOffsetSecs)) {
36 receiver_clock_.Advance(base::TimeDelta::FromSeconds(kReceiverOffsetSecs));
37 cast_environment_->Logging()->AddRawEventSubscriber(
38 &fake_offset_estimator_);
41 ~StatsEventSubscriberTest() override {
42 if (subscriber_.get())
43 cast_environment_->Logging()->RemoveRawEventSubscriber(subscriber_.get());
44 cast_environment_->Logging()->RemoveRawEventSubscriber(
45 &fake_offset_estimator_);
48 void AdvanceClocks(base::TimeDelta delta) {
49 sender_clock_->Advance(delta);
50 receiver_clock_.Advance(delta);
53 void Init(EventMediaType event_media_type) {
54 DCHECK(!subscriber_.get());
55 subscriber_.reset(new StatsEventSubscriber(
56 event_media_type, cast_environment_->Clock(), &fake_offset_estimator_));
57 cast_environment_->Logging()->AddRawEventSubscriber(subscriber_.get());
60 base::SimpleTestTickClock* sender_clock_; // Owned by CastEnvironment.
61 base::SimpleTestTickClock receiver_clock_;
62 scoped_refptr<test::FakeSingleThreadTaskRunner> task_runner_;
63 scoped_refptr<CastEnvironment> cast_environment_;
64 test::FakeReceiverTimeOffsetEstimator fake_offset_estimator_;
65 scoped_ptr<StatsEventSubscriber> subscriber_;
68 TEST_F(StatsEventSubscriberTest, CaptureEncode) {
69 Init(VIDEO_EVENT);
71 uint32 rtp_timestamp = 0;
72 uint32 frame_id = 0;
73 int extra_frames = 50;
74 // Only the first |extra_frames| frames logged will be taken into account
75 // when computing dropped frames.
76 int num_frames = StatsEventSubscriber::kMaxFrameInfoMapSize + 50;
77 int dropped_frames = 0;
78 base::TimeTicks start_time = sender_clock_->NowTicks();
79 // Drop half the frames during the encode step.
80 for (int i = 0; i < num_frames; i++) {
81 cast_environment_->Logging()->InsertFrameEvent(sender_clock_->NowTicks(),
82 FRAME_CAPTURE_BEGIN,
83 VIDEO_EVENT,
84 rtp_timestamp,
85 frame_id);
86 AdvanceClocks(base::TimeDelta::FromMicroseconds(10));
87 cast_environment_->Logging()->InsertFrameEvent(sender_clock_->NowTicks(),
88 FRAME_CAPTURE_END,
89 VIDEO_EVENT,
90 rtp_timestamp,
91 frame_id);
92 if (i % 2 == 0) {
93 AdvanceClocks(base::TimeDelta::FromMicroseconds(10));
94 cast_environment_->Logging()->InsertEncodedFrameEvent(
95 sender_clock_->NowTicks(),
96 FRAME_ENCODED,
97 VIDEO_EVENT,
98 rtp_timestamp,
99 frame_id,
100 1024,
101 true,
102 5678,
103 9.10,
104 11.12);
105 } else if (i < extra_frames) {
106 dropped_frames++;
108 AdvanceClocks(base::TimeDelta::FromMicroseconds(34567));
109 rtp_timestamp += 90;
110 frame_id++;
113 base::TimeTicks end_time = sender_clock_->NowTicks();
115 StatsEventSubscriber::StatsMap stats_map;
116 subscriber_->GetStatsInternal(&stats_map);
118 StatsEventSubscriber::StatsMap::iterator it =
119 stats_map.find(StatsEventSubscriber::CAPTURE_FPS);
120 ASSERT_TRUE(it != stats_map.end());
122 base::TimeDelta duration = end_time - start_time;
123 EXPECT_DOUBLE_EQ(
124 it->second,
125 static_cast<double>(num_frames) / duration.InMillisecondsF() * 1000);
127 it = stats_map.find(StatsEventSubscriber::NUM_FRAMES_CAPTURED);
128 ASSERT_TRUE(it != stats_map.end());
130 EXPECT_DOUBLE_EQ(it->second, static_cast<double>(num_frames));
132 it = stats_map.find(StatsEventSubscriber::NUM_FRAMES_DROPPED_BY_ENCODER);
133 ASSERT_TRUE(it != stats_map.end());
135 EXPECT_DOUBLE_EQ(it->second, static_cast<double>(dropped_frames));
137 it = stats_map.find(StatsEventSubscriber::AVG_CAPTURE_LATENCY_MS);
138 ASSERT_TRUE(it != stats_map.end());
140 EXPECT_DOUBLE_EQ(it->second, static_cast<double>(0.01));
143 TEST_F(StatsEventSubscriberTest, Encode) {
144 Init(VIDEO_EVENT);
146 uint32 rtp_timestamp = 0;
147 uint32 frame_id = 0;
148 int num_frames = 10;
149 base::TimeTicks start_time = sender_clock_->NowTicks();
150 AdvanceClocks(base::TimeDelta::FromMicroseconds(35678));
151 base::TimeTicks first_event_time = sender_clock_->NowTicks();
152 base::TimeTicks last_event_time;
153 int total_size = 0;
154 for (int i = 0; i < num_frames; i++) {
155 int size = 1000 + base::RandInt(-100, 100);
156 total_size += size;
157 cast_environment_->Logging()->InsertEncodedFrameEvent(
158 sender_clock_->NowTicks(),
159 FRAME_ENCODED, VIDEO_EVENT,
160 rtp_timestamp,
161 frame_id,
162 size,
163 true,
164 5678,
165 9.10,
166 11.12);
167 last_event_time = sender_clock_->NowTicks();
169 AdvanceClocks(base::TimeDelta::FromMicroseconds(35678));
170 rtp_timestamp += 90;
171 frame_id++;
174 base::TimeTicks end_time = sender_clock_->NowTicks();
176 StatsEventSubscriber::StatsMap stats_map;
177 subscriber_->GetStatsInternal(&stats_map);
179 StatsEventSubscriber::StatsMap::iterator it =
180 stats_map.find(StatsEventSubscriber::ENCODE_FPS);
181 ASSERT_TRUE(it != stats_map.end());
183 base::TimeDelta duration = end_time - start_time;
184 EXPECT_DOUBLE_EQ(
185 it->second,
186 static_cast<double>(num_frames) / duration.InMillisecondsF() * 1000);
188 it = stats_map.find(StatsEventSubscriber::ENCODE_KBPS);
189 ASSERT_TRUE(it != stats_map.end());
191 EXPECT_DOUBLE_EQ(it->second,
192 static_cast<double>(total_size) / duration.InMillisecondsF() * 8);
194 it = stats_map.find(StatsEventSubscriber::FIRST_EVENT_TIME_MS);
195 ASSERT_TRUE(it != stats_map.end());
197 EXPECT_DOUBLE_EQ(
198 it->second,
199 (first_event_time - base::TimeTicks::UnixEpoch()).InMillisecondsF());
201 it = stats_map.find(StatsEventSubscriber::LAST_EVENT_TIME_MS);
202 ASSERT_TRUE(it != stats_map.end());
204 EXPECT_DOUBLE_EQ(
205 it->second,
206 (last_event_time - base::TimeTicks::UnixEpoch()).InMillisecondsF());
209 TEST_F(StatsEventSubscriberTest, Decode) {
210 Init(VIDEO_EVENT);
212 uint32 rtp_timestamp = 0;
213 uint32 frame_id = 0;
214 int num_frames = 10;
215 base::TimeTicks start_time = sender_clock_->NowTicks();
216 for (int i = 0; i < num_frames; i++) {
217 cast_environment_->Logging()->InsertFrameEvent(receiver_clock_.NowTicks(),
218 FRAME_DECODED, VIDEO_EVENT,
219 rtp_timestamp,
220 frame_id);
222 AdvanceClocks(base::TimeDelta::FromMicroseconds(36789));
223 rtp_timestamp += 90;
224 frame_id++;
227 base::TimeTicks end_time = sender_clock_->NowTicks();
229 StatsEventSubscriber::StatsMap stats_map;
230 subscriber_->GetStatsInternal(&stats_map);
232 StatsEventSubscriber::StatsMap::iterator it =
233 stats_map.find(StatsEventSubscriber::DECODE_FPS);
234 ASSERT_TRUE(it != stats_map.end());
236 base::TimeDelta duration = end_time - start_time;
237 EXPECT_DOUBLE_EQ(
238 it->second,
239 static_cast<double>(num_frames) / duration.InMillisecondsF() * 1000);
242 TEST_F(StatsEventSubscriberTest, PlayoutDelay) {
243 Init(VIDEO_EVENT);
245 uint32 rtp_timestamp = 0;
246 uint32 frame_id = 0;
247 int num_frames = 10;
248 int late_frames = 0;
249 for (int i = 0, delay_ms = -50; i < num_frames; i++, delay_ms += 10) {
250 base::TimeDelta delay = base::TimeDelta::FromMilliseconds(delay_ms);
251 if (delay_ms > 0)
252 late_frames++;
253 cast_environment_->Logging()->InsertFrameEventWithDelay(
254 receiver_clock_.NowTicks(),
255 FRAME_PLAYOUT,
256 VIDEO_EVENT,
257 rtp_timestamp,
258 frame_id,
259 delay);
261 AdvanceClocks(base::TimeDelta::FromMicroseconds(37890));
262 rtp_timestamp += 90;
263 frame_id++;
266 StatsEventSubscriber::StatsMap stats_map;
267 subscriber_->GetStatsInternal(&stats_map);
269 StatsEventSubscriber::StatsMap::iterator it = stats_map.find(
270 StatsEventSubscriber::NUM_FRAMES_LATE);
271 ASSERT_TRUE(it != stats_map.end());
273 EXPECT_DOUBLE_EQ(it->second, late_frames);
276 TEST_F(StatsEventSubscriberTest, E2ELatency) {
277 Init(VIDEO_EVENT);
279 uint32 rtp_timestamp = 0;
280 uint32 frame_id = 0;
281 int num_frames = 10;
282 base::TimeDelta total_latency;
283 for (int i = 0; i < num_frames; i++) {
284 cast_environment_->Logging()->InsertFrameEvent(sender_clock_->NowTicks(),
285 FRAME_CAPTURE_BEGIN,
286 VIDEO_EVENT,
287 rtp_timestamp,
288 frame_id);
290 int latency_micros = 100000 + base::RandInt(-5000, 50000);
291 base::TimeDelta latency = base::TimeDelta::FromMicroseconds(latency_micros);
292 AdvanceClocks(latency);
294 int delay_micros = base::RandInt(-50000, 50000);
295 base::TimeDelta delay = base::TimeDelta::FromMilliseconds(delay_micros);
296 total_latency += latency;
298 cast_environment_->Logging()->InsertFrameEventWithDelay(
299 receiver_clock_.NowTicks(),
300 FRAME_PLAYOUT,
301 VIDEO_EVENT,
302 rtp_timestamp,
303 frame_id,
304 delay);
306 rtp_timestamp += 90;
307 frame_id++;
310 StatsEventSubscriber::StatsMap stats_map;
311 subscriber_->GetStatsInternal(&stats_map);
313 StatsEventSubscriber::StatsMap::iterator it =
314 stats_map.find(StatsEventSubscriber::AVG_E2E_LATENCY_MS);
315 ASSERT_TRUE(it != stats_map.end());
317 EXPECT_DOUBLE_EQ(
318 it->second, total_latency.InMillisecondsF() / num_frames);
321 TEST_F(StatsEventSubscriberTest, Packets) {
322 Init(VIDEO_EVENT);
324 uint32 rtp_timestamp = 0;
325 int num_packets = 10;
326 int num_latency_recorded_packets = 0;
327 base::TimeTicks start_time = sender_clock_->NowTicks();
328 int total_size = 0;
329 int retransmit_total_size = 0;
330 base::TimeDelta total_network_latency;
331 base::TimeDelta total_queueing_latency;
332 base::TimeDelta total_packet_latency;
333 int num_packets_transmitted = 0;
334 int num_packets_received = 0;
335 int num_packets_retransmitted = 0;
336 int num_packets_rtx_rejected = 0;
338 base::TimeTicks sender_encoded_time = sender_clock_->NowTicks();
339 base::TimeTicks receiver_encoded_time = receiver_clock_.NowTicks();
340 cast_environment_->Logging()->InsertFrameEvent(sender_encoded_time,
341 FRAME_ENCODED,
342 VIDEO_EVENT,
343 rtp_timestamp,
346 // Every 2nd packet will be retransmitted once.
347 // Every 4th packet will be retransmitted twice.
348 // Every 8th packet will be retransmitted 3 times + 1 rejected retransmission.
349 for (int i = 0; i < num_packets; i++) {
350 int size = 1000 + base::RandInt(-100, 100);
351 total_size += size;
353 cast_environment_->Logging()->InsertPacketEvent(sender_clock_->NowTicks(),
354 PACKET_SENT_TO_NETWORK,
355 VIDEO_EVENT,
356 rtp_timestamp,
359 num_packets - 1,
360 size);
361 num_packets_transmitted++;
362 total_queueing_latency += sender_clock_->NowTicks() - sender_encoded_time;
364 int latency_micros = 20000 + base::RandInt(-10000, 10000);
365 base::TimeDelta latency = base::TimeDelta::FromMicroseconds(latency_micros);
366 // Latency is only recorded for packets that aren't retransmitted.
367 if (i % 2 != 0) {
368 total_network_latency += latency;
369 total_packet_latency +=
370 receiver_clock_.NowTicks() - receiver_encoded_time + latency;
371 num_latency_recorded_packets++;
374 AdvanceClocks(latency);
376 base::TimeTicks received_time = receiver_clock_.NowTicks();
378 // Retransmission 1.
379 AdvanceClocks(base::TimeDelta::FromMicroseconds(12345));
380 if (i % 2 == 0) {
381 cast_environment_->Logging()->InsertPacketEvent(
382 receiver_clock_.NowTicks(),
383 PACKET_RETRANSMITTED,
384 VIDEO_EVENT,
385 rtp_timestamp,
388 num_packets - 1,
389 size);
390 retransmit_total_size += size;
391 num_packets_transmitted++;
392 num_packets_retransmitted++;
395 // Retransmission 2.
396 AdvanceClocks(base::TimeDelta::FromMicroseconds(13456));
397 if (i % 4 == 0) {
398 cast_environment_->Logging()->InsertPacketEvent(
399 receiver_clock_.NowTicks(),
400 PACKET_RETRANSMITTED,
401 VIDEO_EVENT,
402 rtp_timestamp,
405 num_packets - 1,
406 size);
407 retransmit_total_size += size;
408 num_packets_transmitted++;
409 num_packets_retransmitted++;
412 // Retransmission 3.
413 AdvanceClocks(base::TimeDelta::FromMicroseconds(14567));
414 if (i % 8 == 0) {
415 cast_environment_->Logging()->InsertPacketEvent(
416 receiver_clock_.NowTicks(),
417 PACKET_RETRANSMITTED,
418 VIDEO_EVENT,
419 rtp_timestamp,
422 num_packets - 1,
423 size);
424 cast_environment_->Logging()->InsertPacketEvent(
425 receiver_clock_.NowTicks(),
426 PACKET_RTX_REJECTED,
427 VIDEO_EVENT,
428 rtp_timestamp,
431 num_packets - 1,
432 size);
433 retransmit_total_size += size;
434 num_packets_transmitted++;
435 num_packets_retransmitted++;
436 num_packets_rtx_rejected++;
439 cast_environment_->Logging()->InsertPacketEvent(received_time,
440 PACKET_RECEIVED,
441 VIDEO_EVENT,
442 rtp_timestamp,
445 num_packets - 1,
446 size);
447 num_packets_received++;
450 base::TimeTicks end_time = sender_clock_->NowTicks();
451 base::TimeDelta duration = end_time - start_time;
453 StatsEventSubscriber::StatsMap stats_map;
454 subscriber_->GetStatsInternal(&stats_map);
456 // Measure AVG_NETWORK_LATENCY_MS, TRANSMISSION_KBPS, RETRANSMISSION_KBPS.
457 StatsEventSubscriber::StatsMap::iterator it =
458 stats_map.find(StatsEventSubscriber::AVG_NETWORK_LATENCY_MS);
459 ASSERT_TRUE(it != stats_map.end());
461 EXPECT_DOUBLE_EQ(
462 it->second,
463 total_network_latency.InMillisecondsF() / num_latency_recorded_packets);
465 it = stats_map.find(StatsEventSubscriber::AVG_QUEUEING_LATENCY_MS);
466 ASSERT_TRUE(it != stats_map.end());
468 EXPECT_DOUBLE_EQ(
469 it->second,
470 total_queueing_latency.InMillisecondsF() / num_packets);
472 it = stats_map.find(StatsEventSubscriber::AVG_PACKET_LATENCY_MS);
473 ASSERT_TRUE(it != stats_map.end());
475 EXPECT_DOUBLE_EQ(
476 it->second,
477 total_packet_latency.InMillisecondsF() / num_latency_recorded_packets);
479 it = stats_map.find(StatsEventSubscriber::TRANSMISSION_KBPS);
480 ASSERT_TRUE(it != stats_map.end());
482 EXPECT_DOUBLE_EQ(it->second,
483 static_cast<double>(total_size) / duration.InMillisecondsF() * 8);
485 it = stats_map.find(StatsEventSubscriber::RETRANSMISSION_KBPS);
486 ASSERT_TRUE(it != stats_map.end());
488 EXPECT_DOUBLE_EQ(it->second,
489 static_cast<double>(retransmit_total_size) /
490 duration.InMillisecondsF() * 8);
492 it = stats_map.find(StatsEventSubscriber::NUM_PACKETS_SENT);
493 ASSERT_TRUE(it != stats_map.end());
495 EXPECT_DOUBLE_EQ(it->second, static_cast<double>(num_packets));
497 it = stats_map.find(StatsEventSubscriber::NUM_PACKETS_RECEIVED);
498 ASSERT_TRUE(it != stats_map.end());
500 EXPECT_DOUBLE_EQ(it->second, static_cast<double>(num_packets_received));
502 it = stats_map.find(StatsEventSubscriber::NUM_PACKETS_RETRANSMITTED);
503 ASSERT_TRUE(it != stats_map.end());
505 EXPECT_DOUBLE_EQ(it->second, static_cast<double>(num_packets_retransmitted));
507 it = stats_map.find(StatsEventSubscriber::NUM_PACKETS_RTX_REJECTED);
508 ASSERT_TRUE(it != stats_map.end());
510 EXPECT_DOUBLE_EQ(it->second, static_cast<double>(num_packets_rtx_rejected));
513 bool CheckHistogramHasValue(base::ListValue* values,
514 const std::string& bucket, int expected_count) {
515 for (size_t i = 0; i < values->GetSize(); ++i) {
516 const base::DictionaryValue* dict = NULL;
517 values->GetDictionary(i, &dict);
518 if (!dict->HasKey(bucket))
519 continue;
520 int bucket_count = 0;
521 if (!dict->GetInteger(bucket, &bucket_count))
522 return false;
523 return bucket_count == expected_count;
525 return false;
528 TEST_F(StatsEventSubscriberTest, Histograms) {
529 Init(VIDEO_EVENT);
530 AdvanceClocks(base::TimeDelta::FromMilliseconds(123));
532 uint32 rtp_timestamp = 123;
533 uint32 frame_id = 0;
535 // 10 Frames with capture latency in the bucket of "10-14"ms.
536 // 10 Frames with encode time in the bucket of "15-19"ms.
537 for (int i = 0; i < 10; ++i) {
538 ++frame_id;
539 ++rtp_timestamp;
540 cast_environment_->Logging()->InsertFrameEvent(sender_clock_->NowTicks(),
541 FRAME_CAPTURE_BEGIN,
542 VIDEO_EVENT,
543 rtp_timestamp,
544 frame_id);
545 AdvanceClocks(base::TimeDelta::FromMilliseconds(10));
546 cast_environment_->Logging()->InsertFrameEvent(sender_clock_->NowTicks(),
547 FRAME_CAPTURE_END,
548 VIDEO_EVENT,
549 rtp_timestamp,
550 frame_id);
551 AdvanceClocks(base::TimeDelta::FromMilliseconds(15));
552 cast_environment_->Logging()->InsertEncodedFrameEvent(
553 sender_clock_->NowTicks(),
554 FRAME_ENCODED,
555 VIDEO_EVENT,
556 rtp_timestamp,
557 frame_id,
558 1024,
559 true,
560 5678,
561 9.10,
562 11.12);
565 // Send 3 packets for the last frame.
566 // Queueing latencies are 100ms, 200ms and 300ms.
567 for (int i = 0; i < 3; ++i) {
568 AdvanceClocks(base::TimeDelta::FromMilliseconds(100));
569 cast_environment_->Logging()->InsertPacketEvent(sender_clock_->NowTicks(),
570 PACKET_SENT_TO_NETWORK,
571 VIDEO_EVENT,
572 rtp_timestamp,
576 123);
579 // Receive 3 packets for the last frame.
580 // Network latencies are 100ms, 200ms and 300ms.
581 // Packet latencies are 400ms.
582 AdvanceClocks(base::TimeDelta::FromMilliseconds(100));
583 for (int i = 0; i < 3; ++i) {
584 cast_environment_->Logging()->InsertPacketEvent(receiver_clock_.NowTicks(),
585 PACKET_RECEIVED,
586 VIDEO_EVENT,
587 rtp_timestamp,
591 123);
594 cast_environment_->Logging()->InsertFrameEventWithDelay(
595 receiver_clock_.NowTicks(),
596 FRAME_PLAYOUT,
597 VIDEO_EVENT,
598 rtp_timestamp,
599 frame_id,
600 base::TimeDelta::FromMilliseconds(100));
602 StatsEventSubscriber::SimpleHistogram* histogram;
603 scoped_ptr<base::ListValue> values;
605 histogram = subscriber_->GetHistogramForTesting(
606 StatsEventSubscriber::CAPTURE_LATENCY_MS_HISTO);
607 ASSERT_TRUE(histogram);
608 values = histogram->GetHistogram().Pass();
609 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "10-14", 10));
611 histogram = subscriber_->GetHistogramForTesting(
612 StatsEventSubscriber::ENCODE_TIME_MS_HISTO);
613 ASSERT_TRUE(histogram);
614 values = histogram->GetHistogram().Pass();
615 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "15-19", 10));
617 histogram = subscriber_->GetHistogramForTesting(
618 StatsEventSubscriber::QUEUEING_LATENCY_MS_HISTO);
619 ASSERT_TRUE(histogram);
620 values = histogram->GetHistogram().Pass();
621 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "100-119", 1));
622 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "200-219", 1));
623 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "300-319", 1));
625 histogram = subscriber_->GetHistogramForTesting(
626 StatsEventSubscriber::NETWORK_LATENCY_MS_HISTO);
627 ASSERT_TRUE(histogram);
628 values = histogram->GetHistogram().Pass();
629 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "100-119", 1));
630 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "200-219", 1));
631 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "300-319", 1));
633 histogram = subscriber_->GetHistogramForTesting(
634 StatsEventSubscriber::PACKET_LATENCY_MS_HISTO);
635 ASSERT_TRUE(histogram);
636 values = histogram->GetHistogram().Pass();
637 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "400-419", 3));
639 histogram = subscriber_->GetHistogramForTesting(
640 StatsEventSubscriber::LATE_FRAME_MS_HISTO);
641 ASSERT_TRUE(histogram);
642 values = histogram->GetHistogram().Pass();
643 EXPECT_TRUE(CheckHistogramHasValue(values.get(), "100-119", 1));
646 } // namespace cast
647 } // namespace media