/* Copyright (c) 2015 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 #include "webrtc/modules/video_coding/codecs/vp9/screenshare_layers.h" #include "webrtc/base/checks.h" namespace webrtc { ScreenshareLayersVP9::ScreenshareLayersVP9(uint8_t num_layers) : num_layers_(num_layers), start_layer_(0), last_timestamp_(0), timestamp_initialized_(false) { RTC_DCHECK_GT(num_layers, 0); RTC_DCHECK_LE(num_layers, kMaxVp9NumberOfSpatialLayers); memset(bits_used_, 0, sizeof(bits_used_)); memset(threshold_kbps_, 0, sizeof(threshold_kbps_)); } uint8_t ScreenshareLayersVP9::GetStartLayer() const { return start_layer_; } void ScreenshareLayersVP9::ConfigureBitrate(int threshold_kbps, uint8_t layer_id) { // The upper layer is always the layer we spill frames // to when the bitrate becomes to high, therefore setting // a max limit is not allowed. The top layer bitrate is // never used either so configuring it makes no difference. RTC_DCHECK_LT(layer_id, num_layers_ - 1); threshold_kbps_[layer_id] = threshold_kbps; } void ScreenshareLayersVP9::LayerFrameEncoded(unsigned int size_bytes, uint8_t layer_id) { RTC_DCHECK_LT(layer_id, num_layers_); bits_used_[layer_id] += size_bytes * 8; } VP9EncoderImpl::SuperFrameRefSettings ScreenshareLayersVP9::GetSuperFrameSettings(uint32_t timestamp, bool is_keyframe) { VP9EncoderImpl::SuperFrameRefSettings settings; if (!timestamp_initialized_) { last_timestamp_ = timestamp; timestamp_initialized_ = true; } float time_diff = (timestamp - last_timestamp_) / 90.f; float total_bits_used = 0; float total_threshold_kbps = 0; start_layer_ = 0; // Up to (num_layers - 1) because we only have // (num_layers - 1) thresholds to check. for (int layer_id = 0; layer_id < num_layers_ - 1; ++layer_id) { bits_used_[layer_id] = std::max( 0.f, bits_used_[layer_id] - time_diff * threshold_kbps_[layer_id]); total_bits_used += bits_used_[layer_id]; total_threshold_kbps += threshold_kbps_[layer_id]; // If this is a keyframe then there should be no // references to any previous frames. if (!is_keyframe) { settings.layer[layer_id].ref_buf1 = layer_id; if (total_bits_used > total_threshold_kbps * 1000) start_layer_ = layer_id + 1; } settings.layer[layer_id].upd_buf = layer_id; } // Since the above loop does not iterate over the last layer // the reference of the last layer has to be set after the loop, // and if this is a keyframe there should be no references to // any previous frames. if (!is_keyframe) settings.layer[num_layers_ - 1].ref_buf1 = num_layers_ - 1; settings.layer[num_layers_ - 1].upd_buf = num_layers_ - 1; settings.is_keyframe = is_keyframe; settings.start_layer = start_layer_; settings.stop_layer = num_layers_ - 1; last_timestamp_ = timestamp; return settings; } } // namespace webrtc