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1 /*
2  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
3  *
4  *  Use of this source code is governed by a BSD-style license
5  *  that can be found in the LICENSE file in the root of the source
6  *  tree. An additional intellectual property rights grant can be found
7  *  in the file PATENTS.  All contributing project authors may
8  *  be found in the AUTHORS file in the root of the source tree.
9  */
10 
11 #include "webrtc/video_engine/vie_encoder.h"
12 
13 #include <assert.h>
14 
15 #include <algorithm>
16 
17 #include "webrtc/common_video/interface/video_image.h"
18 #include "webrtc/common_video/libyuv/include/webrtc_libyuv.h"
19 #include "webrtc/modules/pacing/include/paced_sender.h"
20 #include "webrtc/modules/rtp_rtcp/interface/rtp_rtcp.h"
21 #include "webrtc/modules/utility/interface/process_thread.h"
22 #include "webrtc/modules/video_coding/codecs/interface/video_codec_interface.h"
23 #include "webrtc/modules/video_coding/main/interface/video_coding.h"
24 #include "webrtc/modules/video_coding/main/interface/video_coding_defines.h"
25 #include "webrtc/modules/video_coding/main/source/encoded_frame.h"
26 #include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
27 #include "webrtc/system_wrappers/interface/logging.h"
28 #include "webrtc/system_wrappers/interface/tick_util.h"
29 #include "webrtc/system_wrappers/interface/trace_event.h"
30 #include "webrtc/video_engine/include/vie_codec.h"
31 #include "webrtc/video_engine/include/vie_image_process.h"
32 #include "webrtc/frame_callback.h"
33 #include "webrtc/video_engine/vie_defines.h"
34 
35 namespace webrtc {
36 
37 // Pace in kbits/s until we receive first estimate.
38 static const int kInitialPace = 2000;
39 
40 // Pacing-rate relative to our target send rate.
41 // Multiplicative factor that is applied to the target bitrate to calculate the
42 // number of bytes that can be transmitted per interval.
43 // Increasing this factor will result in lower delays in cases of bitrate
44 // overshoots from the encoder.
45 static const float kPaceMultiplier = 2.5f;
46 
47 // Margin on when we pause the encoder when the pacing buffer overflows relative
48 // to the configured buffer delay.
49 static const float kEncoderPausePacerMargin = 2.0f;
50 
51 // Don't stop the encoder unless the delay is above this configured value.
52 static const int kMinPacingDelayMs = 200;
53 
54 // Allow packets to be transmitted in up to 2 times max video bitrate if the
55 // bandwidth estimate allows it.
56 // TODO(holmer): Expose transmission start, min and max bitrates in the
57 // VideoEngine API and remove the kTransmissionMaxBitrateMultiplier.
58 static const int kTransmissionMaxBitrateMultiplier = 2;
59 
60 static const float kStopPaddingThresholdMs = 2000;
61 
AllocateStreamBitrates(uint32_t total_bitrate,const SimulcastStream * stream_configs,size_t number_of_streams)62 std::vector<uint32_t> AllocateStreamBitrates(
63     uint32_t total_bitrate,
64     const SimulcastStream* stream_configs,
65     size_t number_of_streams) {
66   if (number_of_streams == 0) {
67     std::vector<uint32_t> stream_bitrates(1, 0);
68     stream_bitrates[0] = total_bitrate;
69     return stream_bitrates;
70   }
71   std::vector<uint32_t> stream_bitrates(number_of_streams, 0);
72   uint32_t bitrate_remainder = total_bitrate;
73   for (size_t i = 0; i < stream_bitrates.size() && bitrate_remainder > 0; ++i) {
74     if (stream_configs[i].maxBitrate * 1000 > bitrate_remainder) {
75       stream_bitrates[i] = bitrate_remainder;
76     } else {
77       stream_bitrates[i] = stream_configs[i].maxBitrate * 1000;
78     }
79     bitrate_remainder -= stream_bitrates[i];
80   }
81   return stream_bitrates;
82 }
83 
84 class QMVideoSettingsCallback : public VCMQMSettingsCallback {
85  public:
86   explicit QMVideoSettingsCallback(VideoProcessingModule* vpm);
87 
88   ~QMVideoSettingsCallback();
89 
90   // Update VPM with QM (quality modes: frame size & frame rate) settings.
91   int32_t SetVideoQMSettings(const uint32_t frame_rate,
92                              const uint32_t width,
93                              const uint32_t height);
94 
95  private:
96   VideoProcessingModule* vpm_;
97 };
98 
99 class ViEBitrateObserver : public BitrateObserver {
100  public:
ViEBitrateObserver(ViEEncoder * owner)101   explicit ViEBitrateObserver(ViEEncoder* owner)
102       : owner_(owner) {
103   }
~ViEBitrateObserver()104   virtual ~ViEBitrateObserver() {}
105   // Implements BitrateObserver.
OnNetworkChanged(const uint32_t bitrate_bps,const uint8_t fraction_lost,const uint32_t rtt)106   virtual void OnNetworkChanged(const uint32_t bitrate_bps,
107                                 const uint8_t fraction_lost,
108                                 const uint32_t rtt) {
109     owner_->OnNetworkChanged(bitrate_bps, fraction_lost, rtt);
110   }
111  private:
112   ViEEncoder* owner_;
113 };
114 
115 class ViEPacedSenderCallback : public PacedSender::Callback {
116  public:
ViEPacedSenderCallback(ViEEncoder * owner)117   explicit ViEPacedSenderCallback(ViEEncoder* owner)
118       : owner_(owner) {
119   }
~ViEPacedSenderCallback()120   virtual ~ViEPacedSenderCallback() {}
TimeToSendPacket(uint32_t ssrc,uint16_t sequence_number,int64_t capture_time_ms,bool retransmission)121   virtual bool TimeToSendPacket(uint32_t ssrc, uint16_t sequence_number,
122                                 int64_t capture_time_ms, bool retransmission) {
123     return owner_->TimeToSendPacket(ssrc, sequence_number, capture_time_ms,
124                                     retransmission);
125   }
TimeToSendPadding(int bytes)126   virtual int TimeToSendPadding(int bytes) {
127     return owner_->TimeToSendPadding(bytes);
128   }
129  private:
130   ViEEncoder* owner_;
131 };
132 
ViEEncoder(int32_t engine_id,int32_t channel_id,uint32_t number_of_cores,const Config & config,ProcessThread & module_process_thread,BitrateController * bitrate_controller)133 ViEEncoder::ViEEncoder(int32_t engine_id,
134                        int32_t channel_id,
135                        uint32_t number_of_cores,
136                        const Config& config,
137                        ProcessThread& module_process_thread,
138                        BitrateController* bitrate_controller)
139   : engine_id_(engine_id),
140     channel_id_(channel_id),
141     number_of_cores_(number_of_cores),
142     vcm_(*webrtc::VideoCodingModule::Create()),
143     vpm_(*webrtc::VideoProcessingModule::Create(ViEModuleId(engine_id,
144                                                             channel_id))),
145     callback_cs_(CriticalSectionWrapper::CreateCriticalSection()),
146     data_cs_(CriticalSectionWrapper::CreateCriticalSection()),
147     bitrate_controller_(bitrate_controller),
148     time_of_last_incoming_frame_ms_(0),
149     send_padding_(false),
150     min_transmit_bitrate_kbps_(0),
151     target_delay_ms_(0),
152     network_is_transmitting_(true),
153     encoder_paused_(false),
154     encoder_paused_and_dropped_frame_(false),
155     fec_enabled_(false),
156     nack_enabled_(false),
157     codec_observer_(NULL),
158     effect_filter_(NULL),
159     module_process_thread_(module_process_thread),
160     has_received_sli_(false),
161     picture_id_sli_(0),
162     has_received_rpsi_(false),
163     picture_id_rpsi_(0),
164     qm_callback_(NULL),
165     video_suspended_(false),
166     pre_encode_callback_(NULL) {
167   RtpRtcp::Configuration configuration;
168   configuration.id = ViEModuleId(engine_id_, channel_id_);
169   configuration.audio = false;  // Video.
170 
171   default_rtp_rtcp_.reset(RtpRtcp::CreateRtpRtcp(configuration));
172   bitrate_observer_.reset(new ViEBitrateObserver(this));
173   pacing_callback_.reset(new ViEPacedSenderCallback(this));
174   paced_sender_.reset(
175       new PacedSender(pacing_callback_.get(), kInitialPace, kPaceMultiplier));
176 }
177 
Init()178 bool ViEEncoder::Init() {
179   if (vcm_.InitializeSender() != 0) {
180     return false;
181   }
182   vpm_.EnableTemporalDecimation(true);
183 
184   // Enable/disable content analysis: off by default for now.
185   vpm_.EnableContentAnalysis(false);
186 
187   if (module_process_thread_.RegisterModule(&vcm_) != 0 ||
188       module_process_thread_.RegisterModule(default_rtp_rtcp_.get()) != 0 ||
189       module_process_thread_.RegisterModule(paced_sender_.get()) != 0) {
190     return false;
191   }
192   if (qm_callback_) {
193     delete qm_callback_;
194   }
195   qm_callback_ = new QMVideoSettingsCallback(&vpm_);
196 
197 #ifdef VIDEOCODEC_VP8
198   VideoCodec video_codec;
199   if (vcm_.Codec(webrtc::kVideoCodecVP8, &video_codec) != VCM_OK) {
200     return false;
201   }
202   {
203     CriticalSectionScoped cs(data_cs_.get());
204     send_padding_ = video_codec.numberOfSimulcastStreams > 1;
205   }
206   if (vcm_.RegisterSendCodec(&video_codec, number_of_cores_,
207                              default_rtp_rtcp_->MaxDataPayloadLength()) != 0) {
208     return false;
209   }
210   if (default_rtp_rtcp_->RegisterSendPayload(video_codec) != 0) {
211     return false;
212   }
213 #else
214   VideoCodec video_codec;
215   if (vcm_.Codec(webrtc::kVideoCodecI420, &video_codec) == VCM_OK) {
216     {
217       CriticalSectionScoped cs(data_cs_.get());
218       send_padding_ = video_codec.numberOfSimulcastStreams > 1;
219     }
220     vcm_.RegisterSendCodec(&video_codec, number_of_cores_,
221                            default_rtp_rtcp_->MaxDataPayloadLength());
222     default_rtp_rtcp_->RegisterSendPayload(video_codec);
223   } else {
224     return false;
225   }
226 #endif
227 
228   if (vcm_.RegisterTransportCallback(this) != 0) {
229     return false;
230   }
231   if (vcm_.RegisterSendStatisticsCallback(this) != 0) {
232     return false;
233   }
234   if (vcm_.RegisterVideoQMCallback(qm_callback_) != 0) {
235     return false;
236   }
237   return true;
238 }
239 
~ViEEncoder()240 ViEEncoder::~ViEEncoder() {
241   if (bitrate_controller_) {
242     bitrate_controller_->RemoveBitrateObserver(bitrate_observer_.get());
243   }
244   module_process_thread_.DeRegisterModule(&vcm_);
245   module_process_thread_.DeRegisterModule(&vpm_);
246   module_process_thread_.DeRegisterModule(default_rtp_rtcp_.get());
247   module_process_thread_.DeRegisterModule(paced_sender_.get());
248   VideoCodingModule::Destroy(&vcm_);
249   VideoProcessingModule::Destroy(&vpm_);
250   delete qm_callback_;
251 }
252 
Owner() const253 int ViEEncoder::Owner() const {
254   return channel_id_;
255 }
256 
SetNetworkTransmissionState(bool is_transmitting)257 void ViEEncoder::SetNetworkTransmissionState(bool is_transmitting) {
258   {
259     CriticalSectionScoped cs(data_cs_.get());
260     network_is_transmitting_ = is_transmitting;
261   }
262   if (is_transmitting) {
263     paced_sender_->Resume();
264   } else {
265     paced_sender_->Pause();
266   }
267 }
268 
Pause()269 void ViEEncoder::Pause() {
270   CriticalSectionScoped cs(data_cs_.get());
271   encoder_paused_ = true;
272 }
273 
Restart()274 void ViEEncoder::Restart() {
275   CriticalSectionScoped cs(data_cs_.get());
276   encoder_paused_ = false;
277 }
278 
NumberOfCodecs()279 uint8_t ViEEncoder::NumberOfCodecs() {
280   return vcm_.NumberOfCodecs();
281 }
282 
GetCodec(uint8_t list_index,VideoCodec * video_codec)283 int32_t ViEEncoder::GetCodec(uint8_t list_index, VideoCodec* video_codec) {
284   if (vcm_.Codec(list_index, video_codec) != 0) {
285     return -1;
286   }
287   return 0;
288 }
289 
RegisterExternalEncoder(webrtc::VideoEncoder * encoder,uint8_t pl_type,bool internal_source)290 int32_t ViEEncoder::RegisterExternalEncoder(webrtc::VideoEncoder* encoder,
291                                             uint8_t pl_type,
292                                             bool internal_source) {
293   if (encoder == NULL)
294     return -1;
295 
296   if (vcm_.RegisterExternalEncoder(encoder, pl_type, internal_source) !=
297       VCM_OK) {
298     return -1;
299   }
300   return 0;
301 }
302 
DeRegisterExternalEncoder(uint8_t pl_type)303 int32_t ViEEncoder::DeRegisterExternalEncoder(uint8_t pl_type) {
304   webrtc::VideoCodec current_send_codec;
305   if (vcm_.SendCodec(&current_send_codec) == VCM_OK) {
306     uint32_t current_bitrate_bps = 0;
307     if (vcm_.Bitrate(&current_bitrate_bps) != 0) {
308       LOG(LS_WARNING) << "Failed to get the current encoder target bitrate.";
309     }
310     current_send_codec.startBitrate = (current_bitrate_bps + 500) / 1000;
311   }
312 
313   if (vcm_.RegisterExternalEncoder(NULL, pl_type) != VCM_OK) {
314     return -1;
315   }
316 
317   // If the external encoder is the current send codec, use vcm internal
318   // encoder.
319   if (current_send_codec.plType == pl_type) {
320     uint16_t max_data_payload_length =
321         default_rtp_rtcp_->MaxDataPayloadLength();
322     {
323       CriticalSectionScoped cs(data_cs_.get());
324       send_padding_ = current_send_codec.numberOfSimulcastStreams > 1;
325     }
326     // TODO(mflodman): Unfortunately the VideoCodec that VCM has cached a
327     // raw pointer to an |extra_options| that's long gone.  Clearing it here is
328     // a hack to prevent the following code from crashing.  This should be fixed
329     // for realz.  https://code.google.com/p/chromium/issues/detail?id=348222
330     current_send_codec.extra_options = NULL;
331     if (vcm_.RegisterSendCodec(&current_send_codec, number_of_cores_,
332                                max_data_payload_length) != VCM_OK) {
333       return -1;
334     }
335   }
336   return 0;
337 }
338 
SetEncoder(const webrtc::VideoCodec & video_codec)339 int32_t ViEEncoder::SetEncoder(const webrtc::VideoCodec& video_codec) {
340   // Setting target width and height for VPM.
341   if (vpm_.SetTargetResolution(video_codec.width, video_codec.height,
342                                video_codec.maxFramerate) != VPM_OK) {
343     return -1;
344   }
345 
346   if (default_rtp_rtcp_->RegisterSendPayload(video_codec) != 0) {
347     return -1;
348   }
349   // Convert from kbps to bps.
350   std::vector<uint32_t> stream_bitrates = AllocateStreamBitrates(
351       video_codec.startBitrate * 1000,
352       video_codec.simulcastStream,
353       video_codec.numberOfSimulcastStreams);
354   default_rtp_rtcp_->SetTargetSendBitrate(stream_bitrates);
355 
356   uint16_t max_data_payload_length =
357       default_rtp_rtcp_->MaxDataPayloadLength();
358 
359   {
360     CriticalSectionScoped cs(data_cs_.get());
361     send_padding_ = video_codec.numberOfSimulcastStreams > 1;
362   }
363   if (vcm_.RegisterSendCodec(&video_codec, number_of_cores_,
364                              max_data_payload_length) != VCM_OK) {
365     return -1;
366   }
367 
368   // Set this module as sending right away, let the slave module in the channel
369   // start and stop sending.
370   if (default_rtp_rtcp_->Sending() == false) {
371     if (default_rtp_rtcp_->SetSendingStatus(true) != 0) {
372       return -1;
373     }
374   }
375   bitrate_controller_->SetBitrateObserver(bitrate_observer_.get(),
376                                           video_codec.startBitrate * 1000,
377                                           video_codec.minBitrate * 1000,
378                                           kTransmissionMaxBitrateMultiplier *
379                                           video_codec.maxBitrate * 1000);
380 
381   CriticalSectionScoped crit(data_cs_.get());
382   int pad_up_to_bitrate_kbps = video_codec.startBitrate;
383   if (pad_up_to_bitrate_kbps < min_transmit_bitrate_kbps_)
384     pad_up_to_bitrate_kbps = min_transmit_bitrate_kbps_;
385 
386   paced_sender_->UpdateBitrate(kPaceMultiplier * video_codec.startBitrate,
387                                pad_up_to_bitrate_kbps);
388 
389   return 0;
390 }
391 
GetEncoder(VideoCodec * video_codec)392 int32_t ViEEncoder::GetEncoder(VideoCodec* video_codec) {
393   if (vcm_.SendCodec(video_codec) != 0) {
394     return -1;
395   }
396   return 0;
397 }
398 
GetCodecConfigParameters(unsigned char config_parameters[kConfigParameterSize],unsigned char & config_parameters_size)399 int32_t ViEEncoder::GetCodecConfigParameters(
400     unsigned char config_parameters[kConfigParameterSize],
401     unsigned char& config_parameters_size) {
402   int32_t num_parameters =
403       vcm_.CodecConfigParameters(config_parameters, kConfigParameterSize);
404   if (num_parameters <= 0) {
405     config_parameters_size = 0;
406     return -1;
407   }
408   config_parameters_size = static_cast<unsigned char>(num_parameters);
409   return 0;
410 }
411 
ScaleInputImage(bool enable)412 int32_t ViEEncoder::ScaleInputImage(bool enable) {
413   VideoFrameResampling resampling_mode = kFastRescaling;
414   // TODO(mflodman) What?
415   if (enable) {
416     // kInterpolation is currently not supported.
417     LOG_F(LS_ERROR) << "Not supported.";
418     return -1;
419   }
420   vpm_.SetInputFrameResampleMode(resampling_mode);
421 
422   return 0;
423 }
424 
TimeToSendPacket(uint32_t ssrc,uint16_t sequence_number,int64_t capture_time_ms,bool retransmission)425 bool ViEEncoder::TimeToSendPacket(uint32_t ssrc,
426                                   uint16_t sequence_number,
427                                   int64_t capture_time_ms,
428                                   bool retransmission) {
429   return default_rtp_rtcp_->TimeToSendPacket(ssrc, sequence_number,
430                                              capture_time_ms, retransmission);
431 }
432 
TimeToSendPadding(int bytes)433 int ViEEncoder::TimeToSendPadding(int bytes) {
434   bool send_padding;
435   {
436     CriticalSectionScoped cs(data_cs_.get());
437     send_padding =
438         send_padding_ || video_suspended_ || min_transmit_bitrate_kbps_ > 0;
439   }
440   if (send_padding) {
441     return default_rtp_rtcp_->TimeToSendPadding(bytes);
442   }
443   return 0;
444 }
445 
EncoderPaused() const446 bool ViEEncoder::EncoderPaused() const {
447   // Pause video if paused by caller or as long as the network is down or the
448   // pacer queue has grown too large in buffered mode.
449   if (encoder_paused_) {
450     return true;
451   }
452   if (target_delay_ms_ > 0) {
453     // Buffered mode.
454     // TODO(pwestin): Workaround until nack is configured as a time and not
455     // number of packets.
456     return paced_sender_->QueueInMs() >=
457         std::max(static_cast<int>(target_delay_ms_ * kEncoderPausePacerMargin),
458                  kMinPacingDelayMs);
459   }
460   return !network_is_transmitting_;
461 }
462 
SendRtpRtcpModule()463 RtpRtcp* ViEEncoder::SendRtpRtcpModule() {
464   return default_rtp_rtcp_.get();
465 }
466 
DeliverFrame(int id,I420VideoFrame * video_frame,int num_csrcs,const uint32_t CSRC[kRtpCsrcSize])467 void ViEEncoder::DeliverFrame(int id,
468                               I420VideoFrame* video_frame,
469                               int num_csrcs,
470                               const uint32_t CSRC[kRtpCsrcSize]) {
471   if (default_rtp_rtcp_->SendingMedia() == false) {
472     // We've paused or we have no channels attached, don't encode.
473     return;
474   }
475   {
476     CriticalSectionScoped cs(data_cs_.get());
477     time_of_last_incoming_frame_ms_ = TickTime::MillisecondTimestamp();
478     if (EncoderPaused()) {
479       if (!encoder_paused_and_dropped_frame_) {
480         TRACE_EVENT_ASYNC_BEGIN0("webrtc", "EncoderPaused", this);
481       }
482       encoder_paused_and_dropped_frame_ = true;
483       return;
484     }
485     if (encoder_paused_and_dropped_frame_) {
486       TRACE_EVENT_ASYNC_END0("webrtc", "EncoderPaused", this);
487     }
488     encoder_paused_and_dropped_frame_ = false;
489   }
490   if (video_frame->native_handle() != NULL) {
491     // TODO(wuchengli): add texture support. http://crbug.com/362437
492     return;
493   }
494 
495   // Convert render time, in ms, to RTP timestamp.
496   const int kMsToRtpTimestamp = 90;
497   const uint32_t time_stamp =
498       kMsToRtpTimestamp *
499       static_cast<uint32_t>(video_frame->render_time_ms());
500 
501   TRACE_EVENT_ASYNC_STEP0("webrtc", "Video", video_frame->render_time_ms(),
502                           "Encode");
503   video_frame->set_timestamp(time_stamp);
504   {
505     CriticalSectionScoped cs(callback_cs_.get());
506     if (effect_filter_) {
507       unsigned int length = CalcBufferSize(kI420,
508                                            video_frame->width(),
509                                            video_frame->height());
510       scoped_ptr<uint8_t[]> video_buffer(new uint8_t[length]);
511       ExtractBuffer(*video_frame, length, video_buffer.get());
512       effect_filter_->Transform(length,
513                                 video_buffer.get(),
514                                 video_frame->ntp_time_ms(),
515                                 video_frame->timestamp(),
516                                 video_frame->width(),
517                                 video_frame->height());
518     }
519   }
520 
521   // Make sure the CSRC list is correct.
522   if (num_csrcs > 0) {
523     uint32_t tempCSRC[kRtpCsrcSize];
524     for (int i = 0; i < num_csrcs; i++) {
525       if (CSRC[i] == 1) {
526         tempCSRC[i] = default_rtp_rtcp_->SSRC();
527       } else {
528         tempCSRC[i] = CSRC[i];
529       }
530     }
531     default_rtp_rtcp_->SetCSRCs(tempCSRC, (uint8_t) num_csrcs);
532   }
533   // Pass frame via preprocessor.
534   I420VideoFrame* decimated_frame = NULL;
535   const int ret = vpm_.PreprocessFrame(*video_frame, &decimated_frame);
536   if (ret == 1) {
537     // Drop this frame.
538     return;
539   }
540   if (ret != VPM_OK) {
541     return;
542   }
543   // Frame was not sampled => use original.
544   if (decimated_frame == NULL)  {
545     decimated_frame = video_frame;
546   }
547 
548   {
549     CriticalSectionScoped cs(callback_cs_.get());
550     if (pre_encode_callback_)
551       pre_encode_callback_->FrameCallback(decimated_frame);
552   }
553 
554 #ifdef VIDEOCODEC_VP8
555   if (vcm_.SendCodec() == webrtc::kVideoCodecVP8) {
556     webrtc::CodecSpecificInfo codec_specific_info;
557     codec_specific_info.codecType = webrtc::kVideoCodecVP8;
558     codec_specific_info.codecSpecific.VP8.hasReceivedRPSI =
559         has_received_rpsi_;
560     codec_specific_info.codecSpecific.VP8.hasReceivedSLI =
561         has_received_sli_;
562     codec_specific_info.codecSpecific.VP8.pictureIdRPSI =
563         picture_id_rpsi_;
564     codec_specific_info.codecSpecific.VP8.pictureIdSLI  =
565         picture_id_sli_;
566     has_received_sli_ = false;
567     has_received_rpsi_ = false;
568 
569     vcm_.AddVideoFrame(*decimated_frame, vpm_.ContentMetrics(),
570                        &codec_specific_info);
571     return;
572   }
573 #endif
574   vcm_.AddVideoFrame(*decimated_frame);
575 }
576 
DelayChanged(int id,int frame_delay)577 void ViEEncoder::DelayChanged(int id, int frame_delay) {
578   default_rtp_rtcp_->SetCameraDelay(frame_delay);
579 }
580 
GetPreferedFrameSettings(int * width,int * height,int * frame_rate)581 int ViEEncoder::GetPreferedFrameSettings(int* width,
582                                          int* height,
583                                          int* frame_rate) {
584   webrtc::VideoCodec video_codec;
585   memset(&video_codec, 0, sizeof(video_codec));
586   if (vcm_.SendCodec(&video_codec) != VCM_OK) {
587     return -1;
588   }
589 
590   *width = video_codec.width;
591   *height = video_codec.height;
592   *frame_rate = video_codec.maxFramerate;
593   return 0;
594 }
595 
SendKeyFrame()596 int ViEEncoder::SendKeyFrame() {
597   return vcm_.IntraFrameRequest(0);
598 }
599 
SendCodecStatistics(uint32_t * num_key_frames,uint32_t * num_delta_frames)600 int32_t ViEEncoder::SendCodecStatistics(
601     uint32_t* num_key_frames, uint32_t* num_delta_frames) {
602   webrtc::VCMFrameCount sent_frames;
603   if (vcm_.SentFrameCount(sent_frames) != VCM_OK) {
604     return -1;
605   }
606   *num_key_frames = sent_frames.numKeyFrames;
607   *num_delta_frames = sent_frames.numDeltaFrames;
608   return 0;
609 }
610 
PacerQueuingDelayMs() const611 int32_t ViEEncoder::PacerQueuingDelayMs() const {
612   return paced_sender_->QueueInMs();
613 }
614 
CodecTargetBitrate(uint32_t * bitrate) const615 int ViEEncoder::CodecTargetBitrate(uint32_t* bitrate) const {
616   if (vcm_.Bitrate(bitrate) != 0)
617     return -1;
618   return 0;
619 }
620 
UpdateProtectionMethod(bool enable_nack)621 int32_t ViEEncoder::UpdateProtectionMethod(bool enable_nack) {
622   bool fec_enabled = false;
623   uint8_t dummy_ptype_red = 0;
624   uint8_t dummy_ptypeFEC = 0;
625 
626   // Updated protection method to VCM to get correct packetization sizes.
627   // FEC has larger overhead than NACK -> set FEC if used.
628   int32_t error = default_rtp_rtcp_->GenericFECStatus(fec_enabled,
629                                                       dummy_ptype_red,
630                                                       dummy_ptypeFEC);
631   if (error) {
632     return -1;
633   }
634   if (fec_enabled_ == fec_enabled && nack_enabled_ == enable_nack) {
635     // No change needed, we're already in correct state.
636     return 0;
637   }
638   fec_enabled_ = fec_enabled;
639   nack_enabled_ = enable_nack;
640 
641   // Set Video Protection for VCM.
642   if (fec_enabled && nack_enabled_) {
643     vcm_.SetVideoProtection(webrtc::kProtectionNackFEC, true);
644   } else {
645     vcm_.SetVideoProtection(webrtc::kProtectionFEC, fec_enabled_);
646     vcm_.SetVideoProtection(webrtc::kProtectionNackSender, nack_enabled_);
647     vcm_.SetVideoProtection(webrtc::kProtectionNackFEC, false);
648   }
649 
650   if (fec_enabled_ || nack_enabled_) {
651     vcm_.RegisterProtectionCallback(this);
652     // The send codec must be registered to set correct MTU.
653     webrtc::VideoCodec codec;
654     if (vcm_.SendCodec(&codec) == 0) {
655       uint16_t max_pay_load = default_rtp_rtcp_->MaxDataPayloadLength();
656       uint32_t current_bitrate_bps = 0;
657       if (vcm_.Bitrate(&current_bitrate_bps) != 0) {
658         LOG_F(LS_WARNING) <<
659             "Failed to get the current encoder target bitrate.";
660       }
661       // Convert to start bitrate in kbps.
662       codec.startBitrate = (current_bitrate_bps + 500) / 1000;
663       if (vcm_.RegisterSendCodec(&codec, number_of_cores_, max_pay_load) != 0) {
664         return -1;
665       }
666     }
667     return 0;
668   } else {
669     // FEC and NACK are disabled.
670     vcm_.RegisterProtectionCallback(NULL);
671   }
672   return 0;
673 }
674 
SetSenderBufferingMode(int target_delay_ms)675 void ViEEncoder::SetSenderBufferingMode(int target_delay_ms) {
676   {
677     CriticalSectionScoped cs(data_cs_.get());
678     target_delay_ms_ = target_delay_ms;
679   }
680   if (target_delay_ms > 0) {
681     // Disable external frame-droppers.
682     vcm_.EnableFrameDropper(false);
683     vpm_.EnableTemporalDecimation(false);
684     // We don't put any limits on the pacer queue when running in buffered mode
685     // since the encoder will be paused if the queue grow too large.
686     paced_sender_->set_max_queue_length_ms(-1);
687   } else {
688     // Real-time mode - enable frame droppers.
689     vpm_.EnableTemporalDecimation(true);
690     vcm_.EnableFrameDropper(true);
691     paced_sender_->set_max_queue_length_ms(
692         PacedSender::kDefaultMaxQueueLengthMs);
693   }
694 }
695 
SendData(const FrameType frame_type,const uint8_t payload_type,const uint32_t time_stamp,int64_t capture_time_ms,const uint8_t * payload_data,const uint32_t payload_size,const webrtc::RTPFragmentationHeader & fragmentation_header,const RTPVideoHeader * rtp_video_hdr)696 int32_t ViEEncoder::SendData(
697     const FrameType frame_type,
698     const uint8_t payload_type,
699     const uint32_t time_stamp,
700     int64_t capture_time_ms,
701     const uint8_t* payload_data,
702     const uint32_t payload_size,
703     const webrtc::RTPFragmentationHeader& fragmentation_header,
704     const RTPVideoHeader* rtp_video_hdr) {
705   // New encoded data, hand over to the rtp module.
706   return default_rtp_rtcp_->SendOutgoingData(frame_type,
707                                              payload_type,
708                                              time_stamp,
709                                              capture_time_ms,
710                                              payload_data,
711                                              payload_size,
712                                              &fragmentation_header,
713                                              rtp_video_hdr);
714 }
715 
ProtectionRequest(const FecProtectionParams * delta_fec_params,const FecProtectionParams * key_fec_params,uint32_t * sent_video_rate_bps,uint32_t * sent_nack_rate_bps,uint32_t * sent_fec_rate_bps)716 int32_t ViEEncoder::ProtectionRequest(
717     const FecProtectionParams* delta_fec_params,
718     const FecProtectionParams* key_fec_params,
719     uint32_t* sent_video_rate_bps,
720     uint32_t* sent_nack_rate_bps,
721     uint32_t* sent_fec_rate_bps) {
722   default_rtp_rtcp_->SetFecParameters(delta_fec_params, key_fec_params);
723   default_rtp_rtcp_->BitrateSent(NULL, sent_video_rate_bps, sent_fec_rate_bps,
724                                 sent_nack_rate_bps);
725   return 0;
726 }
727 
SendStatistics(const uint32_t bit_rate,const uint32_t frame_rate)728 int32_t ViEEncoder::SendStatistics(const uint32_t bit_rate,
729                                    const uint32_t frame_rate) {
730   CriticalSectionScoped cs(callback_cs_.get());
731   if (codec_observer_) {
732     codec_observer_->OutgoingRate(channel_id_, frame_rate, bit_rate);
733   }
734   return 0;
735 }
736 
RegisterCodecObserver(ViEEncoderObserver * observer)737 int32_t ViEEncoder::RegisterCodecObserver(ViEEncoderObserver* observer) {
738   CriticalSectionScoped cs(callback_cs_.get());
739   if (observer && codec_observer_) {
740     LOG_F(LS_ERROR) << "Observer already set.";
741     return -1;
742   }
743   codec_observer_ = observer;
744   return 0;
745 }
746 
OnReceivedSLI(uint32_t,uint8_t picture_id)747 void ViEEncoder::OnReceivedSLI(uint32_t /*ssrc*/,
748                                uint8_t picture_id) {
749   picture_id_sli_ = picture_id;
750   has_received_sli_ = true;
751 }
752 
OnReceivedRPSI(uint32_t,uint64_t picture_id)753 void ViEEncoder::OnReceivedRPSI(uint32_t /*ssrc*/,
754                                 uint64_t picture_id) {
755   picture_id_rpsi_ = picture_id;
756   has_received_rpsi_ = true;
757 }
758 
OnReceivedIntraFrameRequest(uint32_t ssrc)759 void ViEEncoder::OnReceivedIntraFrameRequest(uint32_t ssrc) {
760   // Key frame request from remote side, signal to VCM.
761   TRACE_EVENT0("webrtc", "OnKeyFrameRequest");
762 
763   int idx = 0;
764   {
765     CriticalSectionScoped cs(data_cs_.get());
766     std::map<unsigned int, int>::iterator stream_it = ssrc_streams_.find(ssrc);
767     if (stream_it == ssrc_streams_.end()) {
768       LOG_F(LS_WARNING) << "ssrc not found: " << ssrc << ", map size "
769                         << ssrc_streams_.size();
770       return;
771     }
772     std::map<unsigned int, int64_t>::iterator time_it =
773         time_last_intra_request_ms_.find(ssrc);
774     if (time_it == time_last_intra_request_ms_.end()) {
775       time_last_intra_request_ms_[ssrc] = 0;
776     }
777 
778     int64_t now = TickTime::MillisecondTimestamp();
779     if (time_last_intra_request_ms_[ssrc] + kViEMinKeyRequestIntervalMs > now) {
780       return;
781     }
782     time_last_intra_request_ms_[ssrc] = now;
783     idx = stream_it->second;
784   }
785   // Release the critsect before triggering key frame.
786   vcm_.IntraFrameRequest(idx);
787 }
788 
OnLocalSsrcChanged(uint32_t old_ssrc,uint32_t new_ssrc)789 void ViEEncoder::OnLocalSsrcChanged(uint32_t old_ssrc, uint32_t new_ssrc) {
790   CriticalSectionScoped cs(data_cs_.get());
791   std::map<unsigned int, int>::iterator it = ssrc_streams_.find(old_ssrc);
792   if (it == ssrc_streams_.end()) {
793     return;
794   }
795 
796   ssrc_streams_[new_ssrc] = it->second;
797   ssrc_streams_.erase(it);
798 
799   std::map<unsigned int, int64_t>::iterator time_it =
800       time_last_intra_request_ms_.find(old_ssrc);
801   int64_t last_intra_request_ms = 0;
802   if (time_it != time_last_intra_request_ms_.end()) {
803     last_intra_request_ms = time_it->second;
804     time_last_intra_request_ms_.erase(time_it);
805   }
806   time_last_intra_request_ms_[new_ssrc] = last_intra_request_ms;
807 }
808 
SetSsrcs(const std::list<unsigned int> & ssrcs)809 bool ViEEncoder::SetSsrcs(const std::list<unsigned int>& ssrcs) {
810   VideoCodec codec;
811   if (vcm_.SendCodec(&codec) != 0)
812     return false;
813 
814   if (codec.numberOfSimulcastStreams > 0 &&
815       ssrcs.size() != codec.numberOfSimulcastStreams) {
816     return false;
817   }
818 
819   CriticalSectionScoped cs(data_cs_.get());
820   ssrc_streams_.clear();
821   time_last_intra_request_ms_.clear();
822   int idx = 0;
823   for (std::list<unsigned int>::const_iterator it = ssrcs.begin();
824        it != ssrcs.end(); ++it, ++idx) {
825     unsigned int ssrc = *it;
826     ssrc_streams_[ssrc] = idx;
827   }
828   return true;
829 }
830 
SetMinTransmitBitrate(int min_transmit_bitrate_kbps)831 void ViEEncoder::SetMinTransmitBitrate(int min_transmit_bitrate_kbps) {
832   assert(min_transmit_bitrate_kbps >= 0);
833   CriticalSectionScoped crit(data_cs_.get());
834   min_transmit_bitrate_kbps_ = min_transmit_bitrate_kbps;
835 }
836 
837 // Called from ViEBitrateObserver.
OnNetworkChanged(const uint32_t bitrate_bps,const uint8_t fraction_lost,const uint32_t round_trip_time_ms)838 void ViEEncoder::OnNetworkChanged(const uint32_t bitrate_bps,
839                                   const uint8_t fraction_lost,
840                                   const uint32_t round_trip_time_ms) {
841   LOG(LS_VERBOSE) << "OnNetworkChanged, bitrate" << bitrate_bps
842                   << " packet loss " << fraction_lost
843                   << " rtt " << round_trip_time_ms;
844   vcm_.SetChannelParameters(bitrate_bps, fraction_lost, round_trip_time_ms);
845   bool video_is_suspended = vcm_.VideoSuspended();
846   int bitrate_kbps = bitrate_bps / 1000;
847   VideoCodec send_codec;
848   if (vcm_.SendCodec(&send_codec) != 0) {
849     return;
850   }
851   SimulcastStream* stream_configs = send_codec.simulcastStream;
852   // Allocate the bandwidth between the streams.
853   std::vector<uint32_t> stream_bitrates = AllocateStreamBitrates(
854       bitrate_bps,
855       stream_configs,
856       send_codec.numberOfSimulcastStreams);
857   // Find the max amount of padding we can allow ourselves to send at this
858   // point, based on which streams are currently active and what our current
859   // available bandwidth is.
860   int pad_up_to_bitrate_kbps = 0;
861   if (send_codec.numberOfSimulcastStreams == 0) {
862     pad_up_to_bitrate_kbps = send_codec.minBitrate;
863   } else {
864     pad_up_to_bitrate_kbps =
865         stream_configs[send_codec.numberOfSimulcastStreams - 1].minBitrate;
866     for (int i = 0; i < send_codec.numberOfSimulcastStreams - 1; ++i) {
867       pad_up_to_bitrate_kbps += stream_configs[i].targetBitrate;
868     }
869   }
870 
871   // Disable padding if only sending one stream and video isn't suspended and
872   // min-transmit bitrate isn't used (applied later).
873   if (!video_is_suspended && send_codec.numberOfSimulcastStreams <= 1)
874     pad_up_to_bitrate_kbps = 0;
875 
876   {
877     CriticalSectionScoped cs(data_cs_.get());
878     // The amount of padding should decay to zero if no frames are being
879     // captured unless a min-transmit bitrate is used.
880     int64_t now_ms = TickTime::MillisecondTimestamp();
881     if (now_ms - time_of_last_incoming_frame_ms_ > kStopPaddingThresholdMs)
882       pad_up_to_bitrate_kbps = 0;
883 
884     // Pad up to min bitrate.
885     if (pad_up_to_bitrate_kbps < min_transmit_bitrate_kbps_)
886       pad_up_to_bitrate_kbps = min_transmit_bitrate_kbps_;
887 
888     // Padding may never exceed bitrate estimate.
889     if (pad_up_to_bitrate_kbps > bitrate_kbps)
890       pad_up_to_bitrate_kbps = bitrate_kbps;
891 
892     paced_sender_->UpdateBitrate(kPaceMultiplier * bitrate_kbps,
893                                  pad_up_to_bitrate_kbps);
894     default_rtp_rtcp_->SetTargetSendBitrate(stream_bitrates);
895     if (video_suspended_ == video_is_suspended)
896       return;
897     video_suspended_ = video_is_suspended;
898   }
899 
900   // Video suspend-state changed, inform codec observer.
901   CriticalSectionScoped crit(callback_cs_.get());
902   if (codec_observer_) {
903     LOG(LS_INFO) << "Video suspended " << video_is_suspended
904                  << " for channel " << channel_id_;
905     codec_observer_->SuspendChange(channel_id_, video_is_suspended);
906   }
907 }
908 
GetPacedSender()909 PacedSender* ViEEncoder::GetPacedSender() {
910   return paced_sender_.get();
911 }
912 
RegisterEffectFilter(ViEEffectFilter * effect_filter)913 int32_t ViEEncoder::RegisterEffectFilter(ViEEffectFilter* effect_filter) {
914   CriticalSectionScoped cs(callback_cs_.get());
915   if (effect_filter != NULL && effect_filter_ != NULL) {
916     LOG_F(LS_ERROR) << "Filter already set.";
917     return -1;
918   }
919   effect_filter_ = effect_filter;
920   return 0;
921 }
922 
StartDebugRecording(const char * fileNameUTF8)923 int ViEEncoder::StartDebugRecording(const char* fileNameUTF8) {
924   return vcm_.StartDebugRecording(fileNameUTF8);
925 }
926 
StopDebugRecording()927 int ViEEncoder::StopDebugRecording() {
928   return vcm_.StopDebugRecording();
929 }
930 
SuspendBelowMinBitrate()931 void ViEEncoder::SuspendBelowMinBitrate() {
932   vcm_.SuspendBelowMinBitrate();
933   bitrate_controller_->EnforceMinBitrate(false);
934 }
935 
RegisterPreEncodeCallback(I420FrameCallback * pre_encode_callback)936 void ViEEncoder::RegisterPreEncodeCallback(
937     I420FrameCallback* pre_encode_callback) {
938   CriticalSectionScoped cs(callback_cs_.get());
939   pre_encode_callback_ = pre_encode_callback;
940 }
941 
DeRegisterPreEncodeCallback()942 void ViEEncoder::DeRegisterPreEncodeCallback() {
943   CriticalSectionScoped cs(callback_cs_.get());
944   pre_encode_callback_ = NULL;
945 }
946 
RegisterPostEncodeImageCallback(EncodedImageCallback * post_encode_callback)947 void ViEEncoder::RegisterPostEncodeImageCallback(
948       EncodedImageCallback* post_encode_callback) {
949   vcm_.RegisterPostEncodeImageCallback(post_encode_callback);
950 }
951 
DeRegisterPostEncodeImageCallback()952 void ViEEncoder::DeRegisterPostEncodeImageCallback() {
953   vcm_.RegisterPostEncodeImageCallback(NULL);
954 }
955 
QMVideoSettingsCallback(VideoProcessingModule * vpm)956 QMVideoSettingsCallback::QMVideoSettingsCallback(VideoProcessingModule* vpm)
957     : vpm_(vpm) {
958 }
959 
~QMVideoSettingsCallback()960 QMVideoSettingsCallback::~QMVideoSettingsCallback() {
961 }
962 
SetVideoQMSettings(const uint32_t frame_rate,const uint32_t width,const uint32_t height)963 int32_t QMVideoSettingsCallback::SetVideoQMSettings(
964     const uint32_t frame_rate,
965     const uint32_t width,
966     const uint32_t height) {
967   return vpm_->SetTargetResolution(width, height, frame_rate);
968 }
969 
970 }  // namespace webrtc
971