/* * Copyright (c) 2016 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "modules/video_coding/fec_controller_default.h" // NOLINT #include #include #include #include "modules/include/module_fec_types.h" #include "rtc_base/logging.h" #include "system_wrappers/include/field_trial.h" namespace webrtc { const float kProtectionOverheadRateThreshold = 0.5; FecControllerDefault::FecControllerDefault( Clock* clock, VCMProtectionCallback* protection_callback) : clock_(clock), protection_callback_(protection_callback), loss_prot_logic_(new media_optimization::VCMLossProtectionLogic( clock_->TimeInMilliseconds())), max_payload_size_(1460), overhead_threshold_(GetProtectionOverheadRateThreshold()) {} FecControllerDefault::FecControllerDefault(Clock* clock) : clock_(clock), loss_prot_logic_(new media_optimization::VCMLossProtectionLogic( clock_->TimeInMilliseconds())), max_payload_size_(1460), overhead_threshold_(GetProtectionOverheadRateThreshold()) {} FecControllerDefault::~FecControllerDefault(void) { loss_prot_logic_->Release(); } void FecControllerDefault::SetProtectionCallback( VCMProtectionCallback* protection_callback) { protection_callback_ = protection_callback; } void FecControllerDefault::SetEncodingData(size_t width, size_t height, size_t num_temporal_layers, size_t max_payload_size) { MutexLock lock(&mutex_); loss_prot_logic_->UpdateFrameSize(width, height); loss_prot_logic_->UpdateNumLayers(num_temporal_layers); max_payload_size_ = max_payload_size; } float FecControllerDefault::GetProtectionOverheadRateThreshold() { float overhead_threshold = strtof(webrtc::field_trial::FindFullName( "WebRTC-ProtectionOverheadRateThreshold") .c_str(), nullptr); if (overhead_threshold > 0 && overhead_threshold <= 1) { RTC_LOG(LS_INFO) << "ProtectionOverheadRateThreshold is set to " << overhead_threshold; return overhead_threshold; } else if (overhead_threshold < 0 || overhead_threshold > 1) { RTC_LOG(WARNING) << "ProtectionOverheadRateThreshold field trial is set to " "an invalid value, expecting a value between (0, 1]."; } // WebRTC-ProtectionOverheadRateThreshold field trial string is not found, use // the default value. return kProtectionOverheadRateThreshold; } uint32_t FecControllerDefault::UpdateFecRates( uint32_t estimated_bitrate_bps, int actual_framerate_fps, uint8_t fraction_lost, std::vector loss_mask_vector, int64_t round_trip_time_ms) { float target_bitrate_kbps = static_cast(estimated_bitrate_bps) / 1000.0f; // Sanity check. if (actual_framerate_fps < 1.0) { actual_framerate_fps = 1.0; } FecProtectionParams delta_fec_params; FecProtectionParams key_fec_params; { MutexLock lock(&mutex_); loss_prot_logic_->UpdateBitRate(target_bitrate_kbps); loss_prot_logic_->UpdateRtt(round_trip_time_ms); // Update frame rate for the loss protection logic class: frame rate should // be the actual/sent rate. loss_prot_logic_->UpdateFrameRate(actual_framerate_fps); // Returns the filtered packet loss, used for the protection setting. // The filtered loss may be the received loss (no filter), or some // filtered value (average or max window filter). // Use max window filter for now. media_optimization::FilterPacketLossMode filter_mode = media_optimization::kMaxFilter; uint8_t packet_loss_enc = loss_prot_logic_->FilteredLoss( clock_->TimeInMilliseconds(), filter_mode, fraction_lost); // For now use the filtered loss for computing the robustness settings. loss_prot_logic_->UpdateFilteredLossPr(packet_loss_enc); if (loss_prot_logic_->SelectedType() == media_optimization::kNone) { return estimated_bitrate_bps; } // Update method will compute the robustness settings for the given // protection method and the overhead cost // the protection method is set by the user via SetVideoProtection. loss_prot_logic_->UpdateMethod(); // Get the bit cost of protection method, based on the amount of // overhead data actually transmitted (including headers) the last // second. // Get the FEC code rate for Key frames (set to 0 when NA). key_fec_params.fec_rate = loss_prot_logic_->SelectedMethod()->RequiredProtectionFactorK(); // Get the FEC code rate for Delta frames (set to 0 when NA). delta_fec_params.fec_rate = loss_prot_logic_->SelectedMethod()->RequiredProtectionFactorD(); // The RTP module currently requires the same |max_fec_frames| for both // key and delta frames. delta_fec_params.max_fec_frames = loss_prot_logic_->SelectedMethod()->MaxFramesFec(); key_fec_params.max_fec_frames = loss_prot_logic_->SelectedMethod()->MaxFramesFec(); } // Set the FEC packet mask type. |kFecMaskBursty| is more effective for // consecutive losses and little/no packet re-ordering. As we currently // do not have feedback data on the degree of correlated losses and packet // re-ordering, we keep default setting to |kFecMaskRandom| for now. delta_fec_params.fec_mask_type = kFecMaskRandom; key_fec_params.fec_mask_type = kFecMaskRandom; // Update protection callback with protection settings. uint32_t sent_video_rate_bps = 0; uint32_t sent_nack_rate_bps = 0; uint32_t sent_fec_rate_bps = 0; // Rate cost of the protection methods. float protection_overhead_rate = 0.0f; // TODO(Marco): Pass FEC protection values per layer. protection_callback_->ProtectionRequest( &delta_fec_params, &key_fec_params, &sent_video_rate_bps, &sent_nack_rate_bps, &sent_fec_rate_bps); uint32_t sent_total_rate_bps = sent_video_rate_bps + sent_nack_rate_bps + sent_fec_rate_bps; // Estimate the overhead costs of the next second as staying the same // wrt the source bitrate. if (sent_total_rate_bps > 0) { protection_overhead_rate = static_cast(sent_nack_rate_bps + sent_fec_rate_bps) / sent_total_rate_bps; } // Cap the overhead estimate to a threshold, default is 50%. protection_overhead_rate = std::min(protection_overhead_rate, overhead_threshold_); // Source coding rate: total rate - protection overhead. return estimated_bitrate_bps * (1.0 - protection_overhead_rate); } void FecControllerDefault::SetProtectionMethod(bool enable_fec, bool enable_nack) { media_optimization::VCMProtectionMethodEnum method(media_optimization::kNone); if (enable_fec && enable_nack) { method = media_optimization::kNackFec; } else if (enable_nack) { method = media_optimization::kNack; } else if (enable_fec) { method = media_optimization::kFec; } MutexLock lock(&mutex_); loss_prot_logic_->SetMethod(method); } void FecControllerDefault::UpdateWithEncodedData( const size_t encoded_image_length, const VideoFrameType encoded_image_frametype) { const size_t encoded_length = encoded_image_length; MutexLock lock(&mutex_); if (encoded_length > 0) { const bool delta_frame = encoded_image_frametype != VideoFrameType::kVideoFrameKey; if (max_payload_size_ > 0 && encoded_length > 0) { const float min_packets_per_frame = encoded_length / static_cast(max_payload_size_); if (delta_frame) { loss_prot_logic_->UpdatePacketsPerFrame(min_packets_per_frame, clock_->TimeInMilliseconds()); } else { loss_prot_logic_->UpdatePacketsPerFrameKey( min_packets_per_frame, clock_->TimeInMilliseconds()); } } if (!delta_frame && encoded_length > 0) { loss_prot_logic_->UpdateKeyFrameSize(static_cast(encoded_length)); } } } bool FecControllerDefault::UseLossVectorMask() { return false; } } // namespace webrtc