Updating XTBs based on .GRDs from branch master
[chromium-blink-merge.git] / media / capture / content / video_capture_oracle_unittest.cc
blob64fff4fb4d0de881ef211420c1309377815e784f
1 // Copyright (c) 2015 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 "media/capture/content/video_capture_oracle.h"
7 #include "base/strings/stringprintf.h"
8 #include "testing/gtest/include/gtest/gtest.h"
10 namespace media {
12 namespace {
14 base::TimeTicks InitialTestTimeTicks() {
15 return base::TimeTicks() + base::TimeDelta::FromSeconds(1);
18 base::TimeDelta Get30HzPeriod() {
19 return base::TimeDelta::FromSeconds(1) / 30;
22 gfx::Size Get1080pSize() {
23 return gfx::Size(1920, 1080);
26 gfx::Size Get720pSize() {
27 return gfx::Size(1280, 720);
30 gfx::Size Get360pSize() {
31 return gfx::Size(640, 360);
34 } // namespace
36 // Tests that VideoCaptureOracle filters out events whose timestamps are
37 // decreasing.
38 TEST(VideoCaptureOracleTest, EnforcesEventTimeMonotonicity) {
39 const gfx::Rect damage_rect(Get720pSize());
40 const base::TimeDelta event_increment = Get30HzPeriod() * 2;
42 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
43 media::RESOLUTION_POLICY_FIXED_RESOLUTION, false);
45 base::TimeTicks t = InitialTestTimeTicks();
46 for (int i = 0; i < 10; ++i) {
47 t += event_increment;
48 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
49 VideoCaptureOracle::kCompositorUpdate, damage_rect, t));
52 base::TimeTicks furthest_event_time = t;
53 for (int i = 0; i < 10; ++i) {
54 t -= event_increment;
55 ASSERT_FALSE(oracle.ObserveEventAndDecideCapture(
56 VideoCaptureOracle::kCompositorUpdate, damage_rect, t));
59 t = furthest_event_time;
60 for (int i = 0; i < 10; ++i) {
61 t += event_increment;
62 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
63 VideoCaptureOracle::kCompositorUpdate, damage_rect, t));
67 // Tests that VideoCaptureOracle is enforcing the requirement that
68 // successfully captured frames are delivered in order. Otherwise, downstream
69 // consumers could be tripped-up by out-of-order frames or frame timestamps.
70 TEST(VideoCaptureOracleTest, EnforcesFramesDeliveredInOrder) {
71 const gfx::Rect damage_rect(Get720pSize());
72 const base::TimeDelta event_increment = Get30HzPeriod() * 2;
74 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
75 media::RESOLUTION_POLICY_FIXED_RESOLUTION, false);
77 // Most basic scenario: Frames delivered one at a time, with no additional
78 // captures in-between deliveries.
79 base::TimeTicks t = InitialTestTimeTicks();
80 int last_frame_number;
81 base::TimeTicks ignored;
82 for (int i = 0; i < 10; ++i) {
83 t += event_increment;
84 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
85 VideoCaptureOracle::kCompositorUpdate, damage_rect, t));
86 last_frame_number = oracle.RecordCapture(0.0);
87 ASSERT_TRUE(oracle.CompleteCapture(last_frame_number, true, &ignored));
90 // Basic pipelined scenario: More than one frame in-flight at delivery points.
91 for (int i = 0; i < 50; ++i) {
92 const int num_in_flight = 1 + i % 3;
93 for (int j = 0; j < num_in_flight; ++j) {
94 t += event_increment;
95 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
96 VideoCaptureOracle::kCompositorUpdate, damage_rect, t));
97 last_frame_number = oracle.RecordCapture(0.0);
99 for (int j = num_in_flight - 1; j >= 0; --j) {
100 ASSERT_TRUE(
101 oracle.CompleteCapture(last_frame_number - j, true, &ignored));
105 // Pipelined scenario with successful out-of-order delivery attempts
106 // rejected.
107 for (int i = 0; i < 50; ++i) {
108 const int num_in_flight = 1 + i % 3;
109 for (int j = 0; j < num_in_flight; ++j) {
110 t += event_increment;
111 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
112 VideoCaptureOracle::kCompositorUpdate, damage_rect, t));
113 last_frame_number = oracle.RecordCapture(0.0);
115 ASSERT_TRUE(oracle.CompleteCapture(last_frame_number, true, &ignored));
116 for (int j = 1; j < num_in_flight; ++j) {
117 ASSERT_FALSE(
118 oracle.CompleteCapture(last_frame_number - j, true, &ignored));
122 // Pipelined scenario with successful delivery attempts accepted after an
123 // unsuccessful out of order delivery attempt.
124 for (int i = 0; i < 50; ++i) {
125 const int num_in_flight = 1 + i % 3;
126 for (int j = 0; j < num_in_flight; ++j) {
127 t += event_increment;
128 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
129 VideoCaptureOracle::kCompositorUpdate, damage_rect, t));
130 last_frame_number = oracle.RecordCapture(0.0);
132 // Report the last frame as an out of order failure.
133 ASSERT_FALSE(oracle.CompleteCapture(last_frame_number, false, &ignored));
134 for (int j = 1; j < num_in_flight - 1; ++j) {
135 ASSERT_TRUE(
136 oracle.CompleteCapture(last_frame_number - j, true, &ignored));
141 // Tests that VideoCaptureOracle transitions between using its two samplers in a
142 // way that does not introduce severe jank, pauses, etc.
143 TEST(VideoCaptureOracleTest, TransitionsSmoothlyBetweenSamplers) {
144 const gfx::Rect animation_damage_rect(Get720pSize());
145 const base::TimeDelta event_increment = Get30HzPeriod() * 2;
147 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
148 media::RESOLUTION_POLICY_FIXED_RESOLUTION, false);
150 // Run sequences of animation events and non-animation events through the
151 // oracle. As the oracle transitions between each sampler, make sure the
152 // frame timestamps won't trip-up downstream consumers.
153 base::TimeTicks t = InitialTestTimeTicks();
154 base::TimeTicks last_frame_timestamp;
155 for (int i = 0; i < 1000; ++i) {
156 t += event_increment;
158 // For every 100 events, provide 50 that will cause the
159 // AnimatedContentSampler to lock-in, followed by 50 that will cause it to
160 // lock-out (i.e., the oracle will use the SmoothEventSampler instead).
161 const bool provide_animated_content_event =
162 (i % 100) >= 25 && (i % 100) < 75;
164 // Only the few events that trigger the lock-out transition should be
165 // dropped, because the AnimatedContentSampler doesn't yet realize the
166 // animation ended. Otherwise, the oracle should always decide to sample
167 // because one of its samplers says to.
168 const bool require_oracle_says_sample = (i % 100) < 75 || (i % 100) >= 78;
169 const bool oracle_says_sample = oracle.ObserveEventAndDecideCapture(
170 VideoCaptureOracle::kCompositorUpdate,
171 provide_animated_content_event ? animation_damage_rect : gfx::Rect(),
173 if (require_oracle_says_sample)
174 ASSERT_TRUE(oracle_says_sample);
175 if (!oracle_says_sample) {
176 ASSERT_EQ(base::TimeDelta(), oracle.estimated_frame_duration());
177 continue;
179 ASSERT_LT(base::TimeDelta(), oracle.estimated_frame_duration());
181 const int frame_number = oracle.RecordCapture(0.0);
183 base::TimeTicks frame_timestamp;
184 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &frame_timestamp));
185 ASSERT_FALSE(frame_timestamp.is_null());
186 if (!last_frame_timestamp.is_null()) {
187 const base::TimeDelta delta = frame_timestamp - last_frame_timestamp;
188 EXPECT_LE(event_increment.InMicroseconds(), delta.InMicroseconds());
189 // Right after the AnimatedContentSampler lock-out transition, there were
190 // a few frames dropped, so allow a gap in the timestamps. Otherwise, the
191 // delta between frame timestamps should never be more than 2X the
192 // |event_increment|.
193 const base::TimeDelta max_acceptable_delta =
194 (i % 100) == 78 ? event_increment * 5 : event_increment * 2;
195 EXPECT_GE(max_acceptable_delta.InMicroseconds(), delta.InMicroseconds());
197 last_frame_timestamp = frame_timestamp;
201 // Tests that VideoCaptureOracle prevents timer polling from initiating
202 // simultaneous captures.
203 TEST(VideoCaptureOracleTest, SamplesOnlyOneOverdueFrameAtATime) {
204 const base::TimeDelta vsync_interval = base::TimeDelta::FromSeconds(1) / 60;
205 const base::TimeDelta timer_interval = base::TimeDelta::FromMilliseconds(
206 VideoCaptureOracle::kMinTimerPollPeriodMillis);
208 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
209 media::RESOLUTION_POLICY_FIXED_RESOLUTION, false);
211 // Have the oracle observe some compositor events. Simulate that each capture
212 // completes successfully.
213 base::TimeTicks t = InitialTestTimeTicks();
214 base::TimeTicks ignored;
215 bool did_complete_a_capture = false;
216 for (int i = 0; i < 10; ++i) {
217 t += vsync_interval;
218 if (oracle.ObserveEventAndDecideCapture(
219 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(), t)) {
220 ASSERT_TRUE(
221 oracle.CompleteCapture(oracle.RecordCapture(0.0), true, &ignored));
222 did_complete_a_capture = true;
225 ASSERT_TRUE(did_complete_a_capture);
227 // Start one more compositor-based capture, but do not notify of completion
228 // yet.
229 for (int i = 0; i <= 10; ++i) {
230 ASSERT_GT(10, i) << "BUG: Seems like it'll never happen!";
231 t += vsync_interval;
232 if (oracle.ObserveEventAndDecideCapture(
233 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(), t)) {
234 break;
237 int frame_number = oracle.RecordCapture(0.0);
239 // Stop providing the compositor events and start providing timer polling
240 // events. No overdue samplings should be recommended because of the
241 // not-yet-complete compositor-based capture.
242 for (int i = 0; i < 10; ++i) {
243 t += timer_interval;
244 ASSERT_FALSE(oracle.ObserveEventAndDecideCapture(
245 VideoCaptureOracle::kTimerPoll, gfx::Rect(), t));
248 // Now, complete the oustanding compositor-based capture and continue
249 // providing timer polling events. The oracle should start recommending
250 // sampling again.
251 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
252 did_complete_a_capture = false;
253 for (int i = 0; i < 10; ++i) {
254 t += timer_interval;
255 if (oracle.ObserveEventAndDecideCapture(VideoCaptureOracle::kTimerPoll,
256 gfx::Rect(), t)) {
257 ASSERT_TRUE(
258 oracle.CompleteCapture(oracle.RecordCapture(0.0), true, &ignored));
259 did_complete_a_capture = true;
262 ASSERT_TRUE(did_complete_a_capture);
264 // Start one more timer-based capture, but do not notify of completion yet.
265 for (int i = 0; i <= 10; ++i) {
266 ASSERT_GT(10, i) << "BUG: Seems like it'll never happen!";
267 t += timer_interval;
268 if (oracle.ObserveEventAndDecideCapture(VideoCaptureOracle::kTimerPoll,
269 gfx::Rect(), t)) {
270 break;
273 frame_number = oracle.RecordCapture(0.0);
275 // Confirm that the oracle does not recommend sampling until the outstanding
276 // timer-based capture completes.
277 for (int i = 0; i < 10; ++i) {
278 t += timer_interval;
279 ASSERT_FALSE(oracle.ObserveEventAndDecideCapture(
280 VideoCaptureOracle::kTimerPoll, gfx::Rect(), t));
282 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
283 for (int i = 0; i <= 10; ++i) {
284 ASSERT_GT(10, i) << "BUG: Seems like it'll never happen!";
285 t += timer_interval;
286 if (oracle.ObserveEventAndDecideCapture(VideoCaptureOracle::kTimerPoll,
287 gfx::Rect(), t)) {
288 break;
293 // Tests that VideoCaptureOracle does not rapidly change proposed capture sizes,
294 // to allow both the source content and the rest of the end-to-end system to
295 // stabilize.
296 TEST(VideoCaptureOracleTest, DoesNotRapidlyChangeCaptureSize) {
297 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
298 media::RESOLUTION_POLICY_ANY_WITHIN_LIMIT, true);
300 // Run 30 seconds of frame captures without any source size changes.
301 base::TimeTicks t = InitialTestTimeTicks();
302 const base::TimeDelta event_increment = Get30HzPeriod() * 2;
303 base::TimeTicks end_t = t + base::TimeDelta::FromSeconds(30);
304 for (; t < end_t; t += event_increment) {
305 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
306 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(), t));
307 ASSERT_EQ(Get720pSize(), oracle.capture_size());
308 base::TimeTicks ignored;
309 ASSERT_TRUE(
310 oracle.CompleteCapture(oracle.RecordCapture(0.0), true, &ignored));
313 // Now run 30 seconds of frame captures with lots of random source size
314 // changes. Check that there was no more than one size change per second.
315 gfx::Size source_size = oracle.capture_size();
316 base::TimeTicks time_of_last_size_change = InitialTestTimeTicks();
317 gfx::Size last_capture_size = oracle.capture_size();
318 end_t = t + base::TimeDelta::FromSeconds(30);
319 for (; t < end_t; t += event_increment) {
320 // Change the source size every frame to a random non-empty size.
321 const gfx::Size last_source_size = source_size;
322 source_size.SetSize(((last_source_size.width() * 11 + 12345) % 1280) + 1,
323 ((last_source_size.height() * 11 + 12345) % 720) + 1);
324 ASSERT_NE(last_source_size, source_size);
325 oracle.SetSourceSize(source_size);
327 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
328 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(), t));
330 if (oracle.capture_size() != last_capture_size) {
331 ASSERT_GE(t - time_of_last_size_change, base::TimeDelta::FromSeconds(1));
332 time_of_last_size_change = t;
333 last_capture_size = oracle.capture_size();
336 base::TimeTicks ignored;
337 ASSERT_TRUE(
338 oracle.CompleteCapture(oracle.RecordCapture(0.0), true, &ignored));
342 namespace {
344 // Tests that VideoCaptureOracle can auto-throttle by stepping the capture size
345 // up or down. When |is_content_animating| is false, there is more
346 // aggressiveness expected in the timing of stepping upwards. If
347 // |with_consumer_feedback| is false, only buffer pool utilization varies and no
348 // consumer feedback is provided. If |with_consumer_feedback| is true, the
349 // buffer pool utilization is held constant at 25%, and the consumer utilization
350 // feedback varies.
351 void RunAutoThrottleTest(bool is_content_animating,
352 bool with_consumer_feedback) {
353 SCOPED_TRACE(::testing::Message()
354 << "RunAutoThrottleTest("
355 << "(is_content_animating=" << is_content_animating
356 << ", with_consumer_feedback=" << with_consumer_feedback << ")");
358 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
359 media::RESOLUTION_POLICY_ANY_WITHIN_LIMIT, true);
361 // Run 10 seconds of frame captures with 90% utilization expect no capture
362 // size changes.
363 base::TimeTicks t = InitialTestTimeTicks();
364 base::TimeTicks time_of_last_size_change = t;
365 const base::TimeDelta event_increment = Get30HzPeriod() * 2;
366 base::TimeTicks end_t = t + base::TimeDelta::FromSeconds(10);
367 for (; t < end_t; t += event_increment) {
368 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
369 VideoCaptureOracle::kCompositorUpdate,
370 is_content_animating ? gfx::Rect(Get720pSize()) : gfx::Rect(), t));
371 ASSERT_EQ(Get720pSize(), oracle.capture_size());
372 const double utilization = 0.9;
373 const int frame_number =
374 oracle.RecordCapture(with_consumer_feedback ? 0.25 : utilization);
375 base::TimeTicks ignored;
376 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
377 if (with_consumer_feedback)
378 oracle.RecordConsumerFeedback(frame_number, utilization);
381 // Cause two downward steppings in resolution. First, indicate overload
382 // until the resolution steps down. Then, indicate a 90% utilization and
383 // expect the resolution to remain constant. Repeat.
384 for (int i = 0; i < 2; ++i) {
385 const gfx::Size starting_size = oracle.capture_size();
386 SCOPED_TRACE(::testing::Message() << "Stepping down from "
387 << starting_size.ToString()
388 << ", i=" << i);
390 gfx::Size stepped_down_size;
391 end_t = t + base::TimeDelta::FromSeconds(10);
392 for (; t < end_t; t += event_increment) {
393 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
394 VideoCaptureOracle::kCompositorUpdate,
395 is_content_animating ? gfx::Rect(Get720pSize()) : gfx::Rect(), t));
397 if (stepped_down_size.IsEmpty()) {
398 if (oracle.capture_size() != starting_size) {
399 time_of_last_size_change = t;
400 stepped_down_size = oracle.capture_size();
401 ASSERT_GT(starting_size.width(), stepped_down_size.width());
402 ASSERT_GT(starting_size.height(), stepped_down_size.height());
404 } else {
405 ASSERT_EQ(stepped_down_size, oracle.capture_size());
408 const double utilization = stepped_down_size.IsEmpty() ? 1.5 : 0.9;
409 const int frame_number =
410 oracle.RecordCapture(with_consumer_feedback ? 0.25 : utilization);
411 base::TimeTicks ignored;
412 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
413 if (with_consumer_feedback)
414 oracle.RecordConsumerFeedback(frame_number, utilization);
418 // Now, cause two upward steppings in resolution. First, indicate
419 // under-utilization until the resolution steps up. Then, indicate a 90%
420 // utilization and expect the resolution to remain constant. Repeat.
421 for (int i = 0; i < 2; ++i) {
422 const gfx::Size starting_size = oracle.capture_size();
423 SCOPED_TRACE(::testing::Message() << "Stepping up from "
424 << starting_size.ToString()
425 << ", i=" << i);
427 gfx::Size stepped_up_size;
428 end_t = t + base::TimeDelta::FromSeconds(is_content_animating ? 90 : 10);
429 for (; t < end_t; t += event_increment) {
430 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
431 VideoCaptureOracle::kCompositorUpdate,
432 is_content_animating ? gfx::Rect(Get720pSize()) : gfx::Rect(), t));
434 if (stepped_up_size.IsEmpty()) {
435 if (oracle.capture_size() != starting_size) {
436 // When content is animating, a much longer amount of time must pass
437 // before the capture size will step up.
438 ASSERT_LT(base::TimeDelta::FromSeconds(is_content_animating ? 15 : 1),
439 t - time_of_last_size_change);
440 time_of_last_size_change = t;
441 stepped_up_size = oracle.capture_size();
442 ASSERT_LT(starting_size.width(), stepped_up_size.width());
443 ASSERT_LT(starting_size.height(), stepped_up_size.height());
445 } else {
446 ASSERT_EQ(stepped_up_size, oracle.capture_size());
449 const double utilization = stepped_up_size.IsEmpty() ? 0.0 : 0.9;
450 const int frame_number =
451 oracle.RecordCapture(with_consumer_feedback ? 0.25 : utilization);
452 base::TimeTicks ignored;
453 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
454 if (with_consumer_feedback)
455 oracle.RecordConsumerFeedback(frame_number, utilization);
460 } // namespace
462 // Tests that VideoCaptureOracle can auto-throttle by stepping the capture size
463 // up or down, using utilization feedback signals from either the buffer pool or
464 // the consumer, and with slightly different behavior depending on whether
465 // content is animating.
466 TEST(VideoCaptureOracleTest, AutoThrottlesBasedOnUtilizationFeedback) {
467 RunAutoThrottleTest(false, false);
468 RunAutoThrottleTest(false, true);
469 RunAutoThrottleTest(true, false);
470 RunAutoThrottleTest(true, true);
473 // Tests that, while content is animating, VideoCaptureOracle can make frequent
474 // capture size increases only just after the source size has changed.
475 // Otherwise, capture size increases should only be made cautiously, after a
476 // long "proving period of under-utilization" has elapsed.
477 TEST(VideoCaptureOracleTest, IncreasesFrequentlyOnlyAfterSourceSizeChange) {
478 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
479 media::RESOLUTION_POLICY_ANY_WITHIN_LIMIT, true);
481 // Start out the source size at 360p, so there is room to grow to the 720p
482 // maximum.
483 oracle.SetSourceSize(Get360pSize());
485 // Run 10 seconds of frame captures with under-utilization to represent a
486 // machine that can do more, but won't because the source size is small.
487 base::TimeTicks t = InitialTestTimeTicks();
488 const base::TimeDelta event_increment = Get30HzPeriod() * 2;
489 base::TimeTicks end_t = t + base::TimeDelta::FromSeconds(10);
490 for (; t < end_t; t += event_increment) {
491 if (!oracle.ObserveEventAndDecideCapture(
492 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(Get360pSize()),
493 t)) {
494 continue;
496 ASSERT_EQ(Get360pSize(), oracle.capture_size());
497 const int frame_number = oracle.RecordCapture(0.25);
498 base::TimeTicks ignored;
499 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
502 // Now, set the source size to 720p, continuing to report under-utilization,
503 // and expect the capture size increases to reach a full 720p within 15
504 // seconds.
505 oracle.SetSourceSize(Get720pSize());
506 gfx::Size last_capture_size = oracle.capture_size();
507 end_t = t + base::TimeDelta::FromSeconds(15);
508 for (; t < end_t; t += event_increment) {
509 if (!oracle.ObserveEventAndDecideCapture(
510 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(Get720pSize()),
511 t)) {
512 continue;
514 ASSERT_LE(last_capture_size.width(), oracle.capture_size().width());
515 ASSERT_LE(last_capture_size.height(), oracle.capture_size().height());
516 last_capture_size = oracle.capture_size();
517 const int frame_number = oracle.RecordCapture(0.25);
518 base::TimeTicks ignored;
519 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
521 ASSERT_EQ(Get720pSize(), oracle.capture_size());
523 // Now, change the source size again, but report over-utilization so the
524 // capture size will decrease. Once it decreases one step, report 90%
525 // utilization to achieve a steady-state.
526 oracle.SetSourceSize(Get1080pSize());
527 gfx::Size stepped_down_size;
528 end_t = t + base::TimeDelta::FromSeconds(10);
529 for (; t < end_t; t += event_increment) {
530 if (!oracle.ObserveEventAndDecideCapture(
531 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(Get1080pSize()),
532 t)) {
533 continue;
536 if (stepped_down_size.IsEmpty()) {
537 if (oracle.capture_size() != Get720pSize()) {
538 stepped_down_size = oracle.capture_size();
539 ASSERT_GT(Get720pSize().width(), stepped_down_size.width());
540 ASSERT_GT(Get720pSize().height(), stepped_down_size.height());
542 } else {
543 ASSERT_EQ(stepped_down_size, oracle.capture_size());
546 const double utilization = stepped_down_size.IsEmpty() ? 1.5 : 0.9;
547 const int frame_number = oracle.RecordCapture(utilization);
548 base::TimeTicks ignored;
549 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
551 ASSERT_FALSE(stepped_down_size.IsEmpty());
553 // Now, if we report under-utilization again (without any source size change),
554 // there should be a long "proving period" before there is any increase in
555 // capture size made by the oracle.
556 const base::TimeTicks proving_period_end_time =
557 t + base::TimeDelta::FromSeconds(15);
558 gfx::Size stepped_up_size;
559 end_t = t + base::TimeDelta::FromSeconds(60);
560 for (; t < end_t; t += event_increment) {
561 if (!oracle.ObserveEventAndDecideCapture(
562 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(Get1080pSize()),
563 t)) {
564 continue;
567 if (stepped_up_size.IsEmpty()) {
568 if (oracle.capture_size() != stepped_down_size) {
569 ASSERT_LT(proving_period_end_time, t);
570 stepped_up_size = oracle.capture_size();
571 ASSERT_LT(stepped_down_size.width(), stepped_up_size.width());
572 ASSERT_LT(stepped_down_size.height(), stepped_up_size.height());
574 } else {
575 ASSERT_EQ(stepped_up_size, oracle.capture_size());
578 const double utilization = stepped_up_size.IsEmpty() ? 0.25 : 0.9;
579 const int frame_number = oracle.RecordCapture(utilization);
580 base::TimeTicks ignored;
581 ASSERT_TRUE(oracle.CompleteCapture(frame_number, true, &ignored));
583 ASSERT_FALSE(stepped_up_size.IsEmpty());
586 // Tests that VideoCaptureOracle does not change the capture size if
587 // auto-throttling is enabled when using a fixed resolution policy.
588 TEST(VideoCaptureOracleTest, DoesNotAutoThrottleWhenResolutionIsFixed) {
589 VideoCaptureOracle oracle(Get30HzPeriod(), Get720pSize(),
590 media::RESOLUTION_POLICY_FIXED_RESOLUTION, true);
592 // Run 10 seconds of frame captures with 90% utilization expect no capture
593 // size changes.
594 base::TimeTicks t = InitialTestTimeTicks();
595 const base::TimeDelta event_increment = Get30HzPeriod() * 2;
596 base::TimeTicks end_t = t + base::TimeDelta::FromSeconds(10);
597 for (; t < end_t; t += event_increment) {
598 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
599 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(), t));
600 ASSERT_EQ(Get720pSize(), oracle.capture_size());
601 base::TimeTicks ignored;
602 ASSERT_TRUE(
603 oracle.CompleteCapture(oracle.RecordCapture(0.9), true, &ignored));
606 // Now run 10 seconds with overload indicated. Still, expect no capture size
607 // changes.
608 end_t = t + base::TimeDelta::FromSeconds(10);
609 for (; t < end_t; t += event_increment) {
610 ASSERT_TRUE(oracle.ObserveEventAndDecideCapture(
611 VideoCaptureOracle::kCompositorUpdate, gfx::Rect(), t));
612 ASSERT_EQ(Get720pSize(), oracle.capture_size());
613 base::TimeTicks ignored;
614 ASSERT_TRUE(
615 oracle.CompleteCapture(oracle.RecordCapture(2.0), true, &ignored));
619 } // namespace media