OLD | NEW |
1 /* | 1 /* |
2 * Copyright (c) 2012 The WebRTC project authors. All Rights Reserved. | 2 * Copyright (c) 2012 The WebRTC project authors. All Rights Reserved. |
3 * | 3 * |
4 * Use of this source code is governed by a BSD-style license | 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 | 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 | 6 * tree. An additional intellectual property rights grant can be found |
7 * in the file PATENTS. All contributing project authors may | 7 * in the file PATENTS. All contributing project authors may |
8 * be found in the AUTHORS file in the root of the source tree. | 8 * be found in the AUTHORS file in the root of the source tree. |
9 */ | 9 */ |
10 | 10 |
11 #include "webrtc/video/vie_encoder.h" | 11 #include "webrtc/video/vie_encoder.h" |
12 | 12 |
13 #include <algorithm> | 13 #include <algorithm> |
14 #include <limits> | 14 #include <limits> |
15 #include <numeric> | |
16 #include <utility> | 15 #include <utility> |
17 | 16 |
18 #include "webrtc/base/arraysize.h" | 17 #include "webrtc/base/arraysize.h" |
19 #include "webrtc/base/checks.h" | 18 #include "webrtc/base/checks.h" |
20 #include "webrtc/base/location.h" | 19 #include "webrtc/base/location.h" |
21 #include "webrtc/base/logging.h" | 20 #include "webrtc/base/logging.h" |
22 #include "webrtc/base/timeutils.h" | 21 #include "webrtc/base/timeutils.h" |
23 #include "webrtc/base/trace_event.h" | 22 #include "webrtc/base/trace_event.h" |
24 #include "webrtc/common_video/include/video_bitrate_allocator.h" | 23 #include "webrtc/common_video/include/video_bitrate_allocator.h" |
25 #include "webrtc/modules/pacing/paced_sender.h" | 24 #include "webrtc/modules/pacing/paced_sender.h" |
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36 using DegradationPreference = VideoSendStream::DegradationPreference; | 35 using DegradationPreference = VideoSendStream::DegradationPreference; |
37 | 36 |
38 // Time interval for logging frame counts. | 37 // Time interval for logging frame counts. |
39 const int64_t kFrameLogIntervalMs = 60000; | 38 const int64_t kFrameLogIntervalMs = 60000; |
40 | 39 |
41 // We will never ask for a resolution lower than this. | 40 // We will never ask for a resolution lower than this. |
42 // TODO(kthelgason): Lower this limit when better testing | 41 // TODO(kthelgason): Lower this limit when better testing |
43 // on MediaCodec and fallback implementations are in place. | 42 // on MediaCodec and fallback implementations are in place. |
44 // See https://bugs.chromium.org/p/webrtc/issues/detail?id=7206 | 43 // See https://bugs.chromium.org/p/webrtc/issues/detail?id=7206 |
45 const int kMinPixelsPerFrame = 320 * 180; | 44 const int kMinPixelsPerFrame = 320 * 180; |
46 const int kMinFramerateFps = 2; | |
47 | 45 |
48 // The maximum number of frames to drop at beginning of stream | 46 // The maximum number of frames to drop at beginning of stream |
49 // to try and achieve desired bitrate. | 47 // to try and achieve desired bitrate. |
50 const int kMaxInitialFramedrop = 4; | 48 const int kMaxInitialFramedrop = 4; |
51 | 49 |
52 // TODO(pbos): Lower these thresholds (to closer to 100%) when we handle | 50 // TODO(pbos): Lower these thresholds (to closer to 100%) when we handle |
53 // pipelining encoders better (multiple input frames before something comes | 51 // pipelining encoders better (multiple input frames before something comes |
54 // out). This should effectively turn off CPU adaptations for systems that | 52 // out). This should effectively turn off CPU adaptations for systems that |
55 // remotely cope with the load right now. | 53 // remotely cope with the load right now. |
56 CpuOveruseOptions GetCpuOveruseOptions(bool full_overuse_time) { | 54 CpuOveruseOptions GetCpuOveruseOptions(bool full_overuse_time) { |
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145 }; | 143 }; |
146 | 144 |
147 // VideoSourceProxy is responsible ensuring thread safety between calls to | 145 // VideoSourceProxy is responsible ensuring thread safety between calls to |
148 // ViEEncoder::SetSource that will happen on libjingle's worker thread when a | 146 // ViEEncoder::SetSource that will happen on libjingle's worker thread when a |
149 // video capturer is connected to the encoder and the encoder task queue | 147 // video capturer is connected to the encoder and the encoder task queue |
150 // (encoder_queue_) where the encoder reports its VideoSinkWants. | 148 // (encoder_queue_) where the encoder reports its VideoSinkWants. |
151 class ViEEncoder::VideoSourceProxy { | 149 class ViEEncoder::VideoSourceProxy { |
152 public: | 150 public: |
153 explicit VideoSourceProxy(ViEEncoder* vie_encoder) | 151 explicit VideoSourceProxy(ViEEncoder* vie_encoder) |
154 : vie_encoder_(vie_encoder), | 152 : vie_encoder_(vie_encoder), |
155 degradation_preference_(DegradationPreference::kDegradationDisabled), | 153 degradation_preference_(DegradationPreference::kMaintainResolution), |
156 source_(nullptr) {} | 154 source_(nullptr) {} |
157 | 155 |
158 void SetSource(rtc::VideoSourceInterface<VideoFrame>* source, | 156 void SetSource(rtc::VideoSourceInterface<VideoFrame>* source, |
159 const DegradationPreference& degradation_preference) { | 157 const DegradationPreference& degradation_preference) { |
160 // Called on libjingle's worker thread. | 158 // Called on libjingle's worker thread. |
161 RTC_DCHECK_CALLED_SEQUENTIALLY(&main_checker_); | 159 RTC_DCHECK_CALLED_SEQUENTIALLY(&main_checker_); |
162 rtc::VideoSourceInterface<VideoFrame>* old_source = nullptr; | 160 rtc::VideoSourceInterface<VideoFrame>* old_source = nullptr; |
163 rtc::VideoSinkWants wants; | 161 rtc::VideoSinkWants wants; |
164 { | 162 { |
165 rtc::CritScope lock(&crit_); | 163 rtc::CritScope lock(&crit_); |
166 degradation_preference_ = degradation_preference; | |
167 old_source = source_; | 164 old_source = source_; |
168 source_ = source; | 165 source_ = source; |
169 wants = GetActiveSinkWants(); | 166 degradation_preference_ = degradation_preference; |
| 167 wants = current_wants(); |
170 } | 168 } |
171 | 169 |
172 if (old_source != source && old_source != nullptr) { | 170 if (old_source != source && old_source != nullptr) { |
173 old_source->RemoveSink(vie_encoder_); | 171 old_source->RemoveSink(vie_encoder_); |
174 } | 172 } |
175 | 173 |
176 if (!source) { | 174 if (!source) { |
177 return; | 175 return; |
178 } | 176 } |
179 | 177 |
180 source->AddOrUpdateSink(vie_encoder_, wants); | 178 source->AddOrUpdateSink(vie_encoder_, wants); |
181 } | 179 } |
182 | 180 |
183 void SetWantsRotationApplied(bool rotation_applied) { | 181 void SetWantsRotationApplied(bool rotation_applied) { |
184 rtc::CritScope lock(&crit_); | 182 rtc::CritScope lock(&crit_); |
185 sink_wants_.rotation_applied = rotation_applied; | 183 sink_wants_.rotation_applied = rotation_applied; |
186 if (source_) | 184 disabled_scaling_sink_wants_.rotation_applied = rotation_applied; |
187 source_->AddOrUpdateSink(vie_encoder_, sink_wants_); | 185 if (source_) { |
188 } | 186 source_->AddOrUpdateSink(vie_encoder_, current_wants()); |
189 | |
190 rtc::VideoSinkWants GetActiveSinkWants() EXCLUSIVE_LOCKS_REQUIRED(&crit_) { | |
191 rtc::VideoSinkWants wants = sink_wants_; | |
192 // Clear any constraints from the current sink wants that don't apply to | |
193 // the used degradation_preference. | |
194 switch (degradation_preference_) { | |
195 case DegradationPreference::kBalanced: | |
196 FALLTHROUGH(); | |
197 case DegradationPreference::kMaintainFramerate: | |
198 wants.max_framerate_fps = std::numeric_limits<int>::max(); | |
199 break; | |
200 case DegradationPreference::kMaintainResolution: | |
201 wants.max_pixel_count = std::numeric_limits<int>::max(); | |
202 wants.target_pixel_count.reset(); | |
203 break; | |
204 case DegradationPreference::kDegradationDisabled: | |
205 wants.max_pixel_count = std::numeric_limits<int>::max(); | |
206 wants.target_pixel_count.reset(); | |
207 wants.max_framerate_fps = std::numeric_limits<int>::max(); | |
208 } | 187 } |
209 return wants; | |
210 } | 188 } |
211 | 189 |
212 void RequestResolutionLowerThan(int pixel_count) { | 190 void RequestResolutionLowerThan(int pixel_count) { |
213 // Called on the encoder task queue. | 191 // Called on the encoder task queue. |
214 rtc::CritScope lock(&crit_); | 192 rtc::CritScope lock(&crit_); |
215 if (!IsResolutionScalingEnabledLocked()) { | 193 if (!IsResolutionScalingEnabledLocked()) { |
216 // This can happen since |degradation_preference_| is set on | 194 // This can happen since |degradation_preference_| is set on |
217 // libjingle's worker thread but the adaptation is done on the encoder | 195 // libjingle's worker thread but the adaptation is done on the encoder |
218 // task queue. | 196 // task queue. |
219 return; | 197 return; |
220 } | 198 } |
221 // The input video frame size will have a resolution with less than or | 199 // The input video frame size will have a resolution with less than or |
222 // equal to |max_pixel_count| depending on how the source can scale the | 200 // equal to |max_pixel_count| depending on how the source can scale the |
223 // input frame size. | 201 // input frame size. |
224 const int pixels_wanted = (pixel_count * 3) / 5; | 202 const int pixels_wanted = (pixel_count * 3) / 5; |
225 if (pixels_wanted < kMinPixelsPerFrame) | 203 if (pixels_wanted < kMinPixelsPerFrame) |
226 return; | 204 return; |
227 sink_wants_.max_pixel_count = pixels_wanted; | 205 sink_wants_.max_pixel_count = rtc::Optional<int>(pixels_wanted); |
228 sink_wants_.target_pixel_count = rtc::Optional<int>(); | 206 sink_wants_.target_pixel_count = rtc::Optional<int>(); |
229 if (source_) | 207 if (source_) |
230 source_->AddOrUpdateSink(vie_encoder_, GetActiveSinkWants()); | 208 source_->AddOrUpdateSink(vie_encoder_, sink_wants_); |
231 } | |
232 | |
233 void RequestFramerateLowerThan(int framerate_fps) { | |
234 // Called on the encoder task queue. | |
235 rtc::CritScope lock(&crit_); | |
236 if (!IsFramerateScalingEnabledLocked()) { | |
237 // This can happen since |degradation_preference_| is set on | |
238 // libjingle's worker thread but the adaptation is done on the encoder | |
239 // task queue. | |
240 return; | |
241 } | |
242 // The input video frame rate will be scaled down to 2/3 of input fps, | |
243 // rounding down. | |
244 const int framerate_wanted = | |
245 std::max(kMinFramerateFps, (framerate_fps * 2) / 3); | |
246 sink_wants_.max_framerate_fps = framerate_wanted; | |
247 if (source_) | |
248 source_->AddOrUpdateSink(vie_encoder_, GetActiveSinkWants()); | |
249 } | 209 } |
250 | 210 |
251 void RequestHigherResolutionThan(int pixel_count) { | 211 void RequestHigherResolutionThan(int pixel_count) { |
252 rtc::CritScope lock(&crit_); | 212 rtc::CritScope lock(&crit_); |
253 if (!IsResolutionScalingEnabledLocked()) { | 213 if (!IsResolutionScalingEnabledLocked()) { |
254 // This can happen since |degradation_preference_| is set on | 214 // This can happen since |degradation_preference_| is set on |
255 // libjingle's worker thread but the adaptation is done on the encoder | 215 // libjingle's worker thread but the adaptation is done on the encoder |
256 // task queue. | 216 // task queue. |
257 return; | 217 return; |
258 } | 218 } |
259 | 219 // On step down we request at most 3/5 the pixel count of the previous |
260 if (pixel_count == std::numeric_limits<int>::max()) { | 220 // resolution, so in order to take "one step up" we request a resolution as |
261 // Remove any constraints. | 221 // close as possible to 5/3 of the current resolution. The actual pixel |
262 sink_wants_.target_pixel_count.reset(); | 222 // count selected depends on the capabilities of the source. In order to not |
263 sink_wants_.max_pixel_count = std::numeric_limits<int>::max(); | 223 // take a too large step up, we cap the requested pixel count to be at most |
264 } else { | 224 // four time the current number of pixels. |
265 // On step down we request at most 3/5 the pixel count of the previous | 225 sink_wants_.target_pixel_count = rtc::Optional<int>((pixel_count * 5) / 3); |
266 // resolution, so in order to take "one step up" we request a resolution | 226 sink_wants_.max_pixel_count = rtc::Optional<int>(pixel_count * 4); |
267 // as close as possible to 5/3 of the current resolution. The actual pixel | |
268 // count selected depends on the capabilities of the source. In order to | |
269 // not take a too large step up, we cap the requested pixel count to be at | |
270 // most four time the current number of pixels. | |
271 sink_wants_.target_pixel_count = | |
272 rtc::Optional<int>((pixel_count * 5) / 3); | |
273 sink_wants_.max_pixel_count = pixel_count * 4; | |
274 } | |
275 if (source_) | 227 if (source_) |
276 source_->AddOrUpdateSink(vie_encoder_, GetActiveSinkWants()); | 228 source_->AddOrUpdateSink(vie_encoder_, sink_wants_); |
277 } | |
278 | |
279 void RequestHigherFramerateThan(int framerate_fps) { | |
280 // Called on the encoder task queue. | |
281 rtc::CritScope lock(&crit_); | |
282 if (!IsFramerateScalingEnabledLocked()) { | |
283 // This can happen since |degradation_preference_| is set on | |
284 // libjingle's worker thread but the adaptation is done on the encoder | |
285 // task queue. | |
286 return; | |
287 } | |
288 if (framerate_fps == std::numeric_limits<int>::max()) { | |
289 // Remove any restrains. | |
290 sink_wants_.max_framerate_fps = std::numeric_limits<int>::max(); | |
291 } else { | |
292 // The input video frame rate will be scaled up to the last step, with | |
293 // rounding. | |
294 const int framerate_wanted = (framerate_fps * 3) / 2; | |
295 sink_wants_.max_framerate_fps = framerate_wanted; | |
296 } | |
297 if (source_) | |
298 source_->AddOrUpdateSink(vie_encoder_, GetActiveSinkWants()); | |
299 } | 229 } |
300 | 230 |
301 private: | 231 private: |
302 bool IsResolutionScalingEnabledLocked() const | 232 bool IsResolutionScalingEnabledLocked() const |
303 EXCLUSIVE_LOCKS_REQUIRED(&crit_) { | 233 EXCLUSIVE_LOCKS_REQUIRED(&crit_) { |
304 return degradation_preference_ != | 234 return degradation_preference_ != |
305 DegradationPreference::kMaintainResolution; | 235 DegradationPreference::kMaintainResolution; |
306 } | 236 } |
307 | 237 |
308 bool IsFramerateScalingEnabledLocked() const | 238 const rtc::VideoSinkWants& current_wants() const |
309 EXCLUSIVE_LOCKS_REQUIRED(&crit_) { | 239 EXCLUSIVE_LOCKS_REQUIRED(&crit_) { |
310 return degradation_preference_ == | 240 return IsResolutionScalingEnabledLocked() ? sink_wants_ |
311 DegradationPreference::kMaintainResolution; | 241 : disabled_scaling_sink_wants_; |
312 } | 242 } |
313 | 243 |
314 rtc::CriticalSection crit_; | 244 rtc::CriticalSection crit_; |
315 rtc::SequencedTaskChecker main_checker_; | 245 rtc::SequencedTaskChecker main_checker_; |
316 ViEEncoder* const vie_encoder_; | 246 ViEEncoder* const vie_encoder_; |
317 rtc::VideoSinkWants sink_wants_ GUARDED_BY(&crit_); | 247 rtc::VideoSinkWants sink_wants_ GUARDED_BY(&crit_); |
| 248 rtc::VideoSinkWants disabled_scaling_sink_wants_ GUARDED_BY(&crit_); |
318 DegradationPreference degradation_preference_ GUARDED_BY(&crit_); | 249 DegradationPreference degradation_preference_ GUARDED_BY(&crit_); |
319 rtc::VideoSourceInterface<VideoFrame>* source_ GUARDED_BY(&crit_); | 250 rtc::VideoSourceInterface<VideoFrame>* source_ GUARDED_BY(&crit_); |
320 | 251 |
321 RTC_DISALLOW_COPY_AND_ASSIGN(VideoSourceProxy); | 252 RTC_DISALLOW_COPY_AND_ASSIGN(VideoSourceProxy); |
322 }; | 253 }; |
323 | 254 |
324 ViEEncoder::ViEEncoder(uint32_t number_of_cores, | 255 ViEEncoder::ViEEncoder(uint32_t number_of_cores, |
325 SendStatisticsProxy* stats_proxy, | 256 SendStatisticsProxy* stats_proxy, |
326 const VideoSendStream::Config::EncoderSettings& settings, | 257 const VideoSendStream::Config::EncoderSettings& settings, |
327 rtc::VideoSinkInterface<VideoFrame>* pre_encode_callback, | 258 rtc::VideoSinkInterface<VideoFrame>* pre_encode_callback, |
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346 encoder_start_bitrate_bps_(0), | 277 encoder_start_bitrate_bps_(0), |
347 max_data_payload_length_(0), | 278 max_data_payload_length_(0), |
348 nack_enabled_(false), | 279 nack_enabled_(false), |
349 last_observed_bitrate_bps_(0), | 280 last_observed_bitrate_bps_(0), |
350 encoder_paused_and_dropped_frame_(false), | 281 encoder_paused_and_dropped_frame_(false), |
351 has_received_sli_(false), | 282 has_received_sli_(false), |
352 picture_id_sli_(0), | 283 picture_id_sli_(0), |
353 has_received_rpsi_(false), | 284 has_received_rpsi_(false), |
354 picture_id_rpsi_(0), | 285 picture_id_rpsi_(0), |
355 clock_(Clock::GetRealTimeClock()), | 286 clock_(Clock::GetRealTimeClock()), |
356 degradation_preference_(DegradationPreference::kDegradationDisabled), | 287 scale_counter_(kScaleReasonSize, 0), |
| 288 degradation_preference_(DegradationPreference::kMaintainResolution), |
357 last_captured_timestamp_(0), | 289 last_captured_timestamp_(0), |
358 delta_ntp_internal_ms_(clock_->CurrentNtpInMilliseconds() - | 290 delta_ntp_internal_ms_(clock_->CurrentNtpInMilliseconds() - |
359 clock_->TimeInMilliseconds()), | 291 clock_->TimeInMilliseconds()), |
360 last_frame_log_ms_(clock_->TimeInMilliseconds()), | 292 last_frame_log_ms_(clock_->TimeInMilliseconds()), |
361 captured_frame_count_(0), | 293 captured_frame_count_(0), |
362 dropped_frame_count_(0), | 294 dropped_frame_count_(0), |
363 bitrate_observer_(nullptr), | 295 bitrate_observer_(nullptr), |
364 encoder_queue_("EncoderQueue") { | 296 encoder_queue_("EncoderQueue") { |
365 RTC_DCHECK(stats_proxy); | 297 RTC_DCHECK(stats_proxy); |
366 encoder_queue_.PostTask([this] { | 298 encoder_queue_.PostTask([this] { |
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417 }); | 349 }); |
418 } | 350 } |
419 | 351 |
420 void ViEEncoder::SetSource( | 352 void ViEEncoder::SetSource( |
421 rtc::VideoSourceInterface<VideoFrame>* source, | 353 rtc::VideoSourceInterface<VideoFrame>* source, |
422 const VideoSendStream::DegradationPreference& degradation_preference) { | 354 const VideoSendStream::DegradationPreference& degradation_preference) { |
423 RTC_DCHECK_RUN_ON(&thread_checker_); | 355 RTC_DCHECK_RUN_ON(&thread_checker_); |
424 source_proxy_->SetSource(source, degradation_preference); | 356 source_proxy_->SetSource(source, degradation_preference); |
425 encoder_queue_.PostTask([this, degradation_preference] { | 357 encoder_queue_.PostTask([this, degradation_preference] { |
426 RTC_DCHECK_RUN_ON(&encoder_queue_); | 358 RTC_DCHECK_RUN_ON(&encoder_queue_); |
427 if (degradation_preference_ != degradation_preference) { | 359 |
428 // Reset adaptation state, so that we're not tricked into thinking there's | |
429 // an already pending request of the same type. | |
430 last_adaptation_request_.reset(); | |
431 } | |
432 degradation_preference_ = degradation_preference; | 360 degradation_preference_ = degradation_preference; |
433 initial_rampup_ = | 361 initial_rampup_ = |
434 degradation_preference_ != DegradationPreference::kMaintainResolution | 362 degradation_preference_ != DegradationPreference::kMaintainResolution |
435 ? 0 | 363 ? 0 |
436 : kMaxInitialFramedrop; | 364 : kMaxInitialFramedrop; |
437 ConfigureQualityScaler(); | 365 ConfigureQualityScaler(); |
438 }); | 366 }); |
439 } | 367 } |
440 | 368 |
441 void ViEEncoder::SetSink(EncoderSink* sink, bool rotation_applied) { | 369 void ViEEncoder::SetSink(EncoderSink* sink, bool rotation_applied) { |
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540 if (scaling_settings.thresholds) { | 468 if (scaling_settings.thresholds) { |
541 quality_scaler_.reset( | 469 quality_scaler_.reset( |
542 new QualityScaler(this, *(scaling_settings.thresholds))); | 470 new QualityScaler(this, *(scaling_settings.thresholds))); |
543 } else { | 471 } else { |
544 quality_scaler_.reset(new QualityScaler(this, codec_type_)); | 472 quality_scaler_.reset(new QualityScaler(this, codec_type_)); |
545 } | 473 } |
546 } else { | 474 } else { |
547 quality_scaler_.reset(nullptr); | 475 quality_scaler_.reset(nullptr); |
548 initial_rampup_ = kMaxInitialFramedrop; | 476 initial_rampup_ = kMaxInitialFramedrop; |
549 } | 477 } |
550 const std::vector<int>& scale_counters = GetScaleCounters(); | |
551 stats_proxy_->SetResolutionRestrictionStats( | 478 stats_proxy_->SetResolutionRestrictionStats( |
552 degradation_preference_allows_scaling, scale_counters[kCpu] > 0, | 479 degradation_preference_allows_scaling, scale_counter_[kCpu] > 0, |
553 scale_counters[kQuality]); | 480 scale_counter_[kQuality]); |
554 } | 481 } |
555 | 482 |
556 void ViEEncoder::OnFrame(const VideoFrame& video_frame) { | 483 void ViEEncoder::OnFrame(const VideoFrame& video_frame) { |
557 RTC_DCHECK_RUNS_SERIALIZED(&incoming_frame_race_checker_); | 484 RTC_DCHECK_RUNS_SERIALIZED(&incoming_frame_race_checker_); |
558 VideoFrame incoming_frame = video_frame; | 485 VideoFrame incoming_frame = video_frame; |
559 | 486 |
560 // Local time in webrtc time base. | 487 // Local time in webrtc time base. |
561 int64_t current_time_us = clock_->TimeInMicroseconds(); | 488 int64_t current_time_us = clock_->TimeInMicroseconds(); |
562 int64_t current_time_ms = current_time_us / rtc::kNumMicrosecsPerMillisec; | 489 int64_t current_time_ms = current_time_us / rtc::kNumMicrosecsPerMillisec; |
563 // TODO(nisse): This always overrides the incoming timestamp. Don't | 490 // TODO(nisse): This always overrides the incoming timestamp. Don't |
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806 | 733 |
807 if (video_suspension_changed) { | 734 if (video_suspension_changed) { |
808 LOG(LS_INFO) << "Video suspend state changed to: " | 735 LOG(LS_INFO) << "Video suspend state changed to: " |
809 << (video_is_suspended ? "suspended" : "not suspended"); | 736 << (video_is_suspended ? "suspended" : "not suspended"); |
810 stats_proxy_->OnSuspendChange(video_is_suspended); | 737 stats_proxy_->OnSuspendChange(video_is_suspended); |
811 } | 738 } |
812 } | 739 } |
813 | 740 |
814 void ViEEncoder::AdaptDown(AdaptReason reason) { | 741 void ViEEncoder::AdaptDown(AdaptReason reason) { |
815 RTC_DCHECK_RUN_ON(&encoder_queue_); | 742 RTC_DCHECK_RUN_ON(&encoder_queue_); |
816 AdaptationRequest adaptation_request = { | 743 if (degradation_preference_ != DegradationPreference::kBalanced) |
817 last_frame_info_->pixel_count(), | 744 return; |
818 stats_proxy_->GetStats().input_frame_rate, | 745 RTC_DCHECK(static_cast<bool>(last_frame_info_)); |
819 AdaptationRequest::Mode::kAdaptDown}; | 746 int current_pixel_count = last_frame_info_->pixel_count(); |
820 bool downgrade_requested = | 747 if (last_adaptation_request_ && |
821 last_adaptation_request_ && | 748 last_adaptation_request_->mode_ == AdaptationRequest::Mode::kAdaptDown && |
822 last_adaptation_request_->mode_ == AdaptationRequest::Mode::kAdaptDown; | 749 current_pixel_count >= last_adaptation_request_->input_pixel_count_) { |
823 | 750 // Don't request lower resolution if the current resolution is not lower |
824 int max_downgrades = 0; | 751 // than the last time we asked for the resolution to be lowered. |
825 switch (degradation_preference_) { | 752 return; |
826 case DegradationPreference::kBalanced: | |
827 FALLTHROUGH(); | |
828 case DegradationPreference::kMaintainFramerate: | |
829 max_downgrades = kMaxCpuResolutionDowngrades; | |
830 if (downgrade_requested && | |
831 adaptation_request.input_pixel_count_ >= | |
832 last_adaptation_request_->input_pixel_count_) { | |
833 // Don't request lower resolution if the current resolution is not | |
834 // lower than the last time we asked for the resolution to be lowered. | |
835 return; | |
836 } | |
837 break; | |
838 case DegradationPreference::kMaintainResolution: | |
839 max_downgrades = kMaxCpuFramerateDowngrades; | |
840 if (adaptation_request.framerate_fps_ <= 0 || | |
841 (downgrade_requested && | |
842 adaptation_request.framerate_fps_ < kMinFramerateFps)) { | |
843 // If no input fps estimate available, can't determine how to scale down | |
844 // framerate. Otherwise, don't request lower framerate if we don't have | |
845 // a valid frame rate. Since framerate, unlike resolution, is a measure | |
846 // we have to estimate, and can fluctuate naturally over time, don't | |
847 // make the same kind of limitations as for resolution, but trust the | |
848 // overuse detector to not trigger too often. | |
849 return; | |
850 } | |
851 break; | |
852 case DegradationPreference::kDegradationDisabled: | |
853 return; | |
854 } | 753 } |
855 | 754 last_adaptation_request_.emplace(AdaptationRequest{ |
856 last_adaptation_request_.emplace(adaptation_request); | 755 current_pixel_count, AdaptationRequest::Mode::kAdaptDown}); |
857 const std::vector<int>& scale_counter = GetScaleCounters(); | |
858 | 756 |
859 switch (reason) { | 757 switch (reason) { |
860 case kQuality: | 758 case kQuality: |
861 stats_proxy_->OnQualityRestrictedResolutionChanged(scale_counter[reason] + | 759 stats_proxy_->OnQualityRestrictedResolutionChanged( |
862 1); | 760 scale_counter_[reason] + 1); |
863 break; | 761 break; |
864 case kCpu: | 762 case kCpu: |
865 if (scale_counter[reason] >= max_downgrades) | 763 if (scale_counter_[reason] >= kMaxCpuDowngrades) |
866 return; | 764 return; |
867 // Update stats accordingly. | 765 // Update stats accordingly. |
868 stats_proxy_->OnCpuRestrictedResolutionChanged(true); | 766 stats_proxy_->OnCpuRestrictedResolutionChanged(true); |
869 break; | 767 break; |
870 } | 768 } |
871 | 769 ++scale_counter_[reason]; |
872 IncrementScaleCounter(reason, 1); | 770 source_proxy_->RequestResolutionLowerThan(current_pixel_count); |
873 | 771 LOG(LS_INFO) << "Scaling down resolution."; |
874 switch (degradation_preference_) { | |
875 case DegradationPreference::kBalanced: | |
876 FALLTHROUGH(); | |
877 case DegradationPreference::kMaintainFramerate: | |
878 source_proxy_->RequestResolutionLowerThan( | |
879 adaptation_request.input_pixel_count_); | |
880 LOG(LS_INFO) << "Scaling down resolution."; | |
881 break; | |
882 case DegradationPreference::kMaintainResolution: | |
883 source_proxy_->RequestFramerateLowerThan( | |
884 adaptation_request.framerate_fps_); | |
885 LOG(LS_INFO) << "Scaling down framerate."; | |
886 break; | |
887 case DegradationPreference::kDegradationDisabled: | |
888 RTC_NOTREACHED(); | |
889 } | |
890 | |
891 for (size_t i = 0; i < kScaleReasonSize; ++i) { | 772 for (size_t i = 0; i < kScaleReasonSize; ++i) { |
892 LOG(LS_INFO) << "Scaled " << GetScaleCounters()[i] | 773 LOG(LS_INFO) << "Scaled " << scale_counter_[i] |
893 << " times for reason: " << (i ? "cpu" : "quality"); | 774 << " times for reason: " << (i ? "cpu" : "quality"); |
894 } | 775 } |
895 } | 776 } |
896 | 777 |
897 void ViEEncoder::AdaptUp(AdaptReason reason) { | 778 void ViEEncoder::AdaptUp(AdaptReason reason) { |
898 RTC_DCHECK_RUN_ON(&encoder_queue_); | 779 RTC_DCHECK_RUN_ON(&encoder_queue_); |
899 int scale_counter = GetScaleCounters()[reason]; | 780 if (scale_counter_[reason] == 0 || |
900 if (scale_counter == 0) | 781 degradation_preference_ != DegradationPreference::kBalanced) { |
901 return; | 782 return; |
902 RTC_DCHECK_GT(scale_counter, 0); | |
903 AdaptationRequest adaptation_request = { | |
904 last_frame_info_->pixel_count(), | |
905 stats_proxy_->GetStats().input_frame_rate, | |
906 AdaptationRequest::Mode::kAdaptUp}; | |
907 | |
908 bool adapt_up_requested = | |
909 last_adaptation_request_ && | |
910 last_adaptation_request_->mode_ == AdaptationRequest::Mode::kAdaptUp; | |
911 switch (degradation_preference_) { | |
912 case DegradationPreference::kBalanced: | |
913 FALLTHROUGH(); | |
914 case DegradationPreference::kMaintainFramerate: | |
915 if (adapt_up_requested && | |
916 adaptation_request.input_pixel_count_ <= | |
917 last_adaptation_request_->input_pixel_count_) { | |
918 // Don't request higher resolution if the current resolution is not | |
919 // higher than the last time we asked for the resolution to be higher. | |
920 return; | |
921 } | |
922 break; | |
923 case DegradationPreference::kMaintainResolution: | |
924 // TODO(sprang): Don't request higher framerate if we are already at | |
925 // max requested fps? | |
926 break; | |
927 case DegradationPreference::kDegradationDisabled: | |
928 return; | |
929 } | 783 } |
| 784 // Only scale if resolution is higher than last time we requested higher |
| 785 // resolution. |
| 786 RTC_DCHECK(static_cast<bool>(last_frame_info_)); |
| 787 int current_pixel_count = last_frame_info_->pixel_count(); |
| 788 if (last_adaptation_request_ && |
| 789 last_adaptation_request_->mode_ == AdaptationRequest::Mode::kAdaptUp && |
| 790 current_pixel_count <= last_adaptation_request_->input_pixel_count_) { |
| 791 // Don't request higher resolution if the current resolution is not higher |
| 792 // than the last time we asked for the resolution to be higher. |
| 793 return; |
| 794 } |
| 795 last_adaptation_request_.emplace(AdaptationRequest{ |
| 796 current_pixel_count, AdaptationRequest::Mode::kAdaptUp}); |
930 | 797 |
931 switch (reason) { | 798 switch (reason) { |
932 case kQuality: | 799 case kQuality: |
933 stats_proxy_->OnQualityRestrictedResolutionChanged(scale_counter - 1); | 800 stats_proxy_->OnQualityRestrictedResolutionChanged( |
| 801 scale_counter_[reason] - 1); |
934 break; | 802 break; |
935 case kCpu: | 803 case kCpu: |
936 // Update stats accordingly. | 804 // Update stats accordingly. |
937 stats_proxy_->OnCpuRestrictedResolutionChanged(scale_counter > 1); | 805 stats_proxy_->OnCpuRestrictedResolutionChanged(scale_counter_[reason] > |
| 806 1); |
938 break; | 807 break; |
939 } | 808 } |
940 | 809 --scale_counter_[reason]; |
941 // Decrease counter of how many times we have scaled down, for this | 810 source_proxy_->RequestHigherResolutionThan(current_pixel_count); |
942 // degradation preference mode and reason. | 811 LOG(LS_INFO) << "Scaling up resolution."; |
943 IncrementScaleCounter(reason, -1); | |
944 | |
945 // Get a sum of how many times have scaled down, in total, for this | |
946 // degradation preference mode. If it is 0, remove any restraints. | |
947 const std::vector<int>& current_scale_counters = GetScaleCounters(); | |
948 const int scale_sum = std::accumulate(current_scale_counters.begin(), | |
949 current_scale_counters.end(), 0); | |
950 switch (degradation_preference_) { | |
951 case DegradationPreference::kBalanced: | |
952 FALLTHROUGH(); | |
953 case DegradationPreference::kMaintainFramerate: | |
954 if (scale_sum == 0) { | |
955 LOG(LS_INFO) << "Removing resolution down-scaling setting."; | |
956 source_proxy_->RequestHigherResolutionThan( | |
957 std::numeric_limits<int>::max()); | |
958 } else { | |
959 source_proxy_->RequestHigherResolutionThan( | |
960 adaptation_request.input_pixel_count_); | |
961 LOG(LS_INFO) << "Scaling up resolution."; | |
962 } | |
963 break; | |
964 case DegradationPreference::kMaintainResolution: | |
965 if (scale_sum == 0) { | |
966 LOG(LS_INFO) << "Removing framerate down-scaling setting."; | |
967 source_proxy_->RequestHigherFramerateThan( | |
968 std::numeric_limits<int>::max()); | |
969 } else { | |
970 source_proxy_->RequestHigherFramerateThan( | |
971 adaptation_request.framerate_fps_); | |
972 LOG(LS_INFO) << "Scaling up framerate."; | |
973 } | |
974 break; | |
975 case DegradationPreference::kDegradationDisabled: | |
976 RTC_NOTREACHED(); | |
977 } | |
978 | |
979 for (size_t i = 0; i < kScaleReasonSize; ++i) { | 812 for (size_t i = 0; i < kScaleReasonSize; ++i) { |
980 LOG(LS_INFO) << "Scaled " << current_scale_counters[i] | 813 LOG(LS_INFO) << "Scaled " << scale_counter_[i] |
981 << " times for reason: " << (i ? "cpu" : "quality"); | 814 << " times for reason: " << (i ? "cpu" : "quality"); |
982 } | 815 } |
983 } | 816 } |
984 | 817 |
985 const std::vector<int>& ViEEncoder::GetScaleCounters() { | |
986 auto it = scale_counters_.find(degradation_preference_); | |
987 if (it == scale_counters_.end()) { | |
988 scale_counters_[degradation_preference_].resize(kScaleReasonSize); | |
989 return scale_counters_[degradation_preference_]; | |
990 } | |
991 return it->second; | |
992 } | |
993 | |
994 void ViEEncoder::IncrementScaleCounter(int reason, int delta) { | |
995 // Get the counters and validate. This may also lazily initialize the state. | |
996 const std::vector<int>& counter = GetScaleCounters(); | |
997 if (delta < 0) { | |
998 RTC_DCHECK_GE(counter[reason], delta); | |
999 } | |
1000 scale_counters_[degradation_preference_][reason] += delta; | |
1001 } | |
1002 | |
1003 } // namespace webrtc | 818 } // namespace webrtc |
OLD | NEW |