/* * Copyright (c) 2013 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. */ #ifndef API_VIDEO_CODECS_VIDEO_ENCODER_CONFIG_H_ #define API_VIDEO_CODECS_VIDEO_ENCODER_CONFIG_H_ #include #include #include #include "absl/types/optional.h" #include "api/scoped_refptr.h" #include "api/video_codecs/sdp_video_format.h" #include "api/video_codecs/video_codec.h" #include "rtc_base/ref_count.h" namespace webrtc { // The |VideoStream| struct describes a simulcast layer, or "stream". struct VideoStream { VideoStream(); ~VideoStream(); VideoStream(const VideoStream& other); std::string ToString() const; // Width in pixels. size_t width; // Height in pixels. size_t height; // Frame rate in fps. int max_framerate; // Bitrate, in bps, for the stream. int min_bitrate_bps; int target_bitrate_bps; int max_bitrate_bps; // Scaling factor applied to the stream size. // |width| and |height| values are already scaled down. double scale_resolution_down_by; // Maximum Quantization Parameter to use when encoding the stream. int max_qp; // Determines the number of temporal layers that the stream should be // encoded with. This value should be greater than zero. // TODO(brandtr): This class is used both for configuring the encoder // (meaning that this field _must_ be set), and for signaling the app-level // encoder settings (meaning that the field _may_ be set). We should separate // this and remove this optional instead. absl::optional num_temporal_layers; // The priority of this stream, to be used when allocating resources // between multiple streams. absl::optional bitrate_priority; // If this stream is enabled by the user, or not. bool active; }; class VideoEncoderConfig { public: // These are reference counted to permit copying VideoEncoderConfig and be // kept alive until all encoder_specific_settings go out of scope. // TODO(kthelgason): Consider removing the need for copying VideoEncoderConfig // and use absl::optional for encoder_specific_settings instead. class EncoderSpecificSettings : public rtc::RefCountInterface { public: // TODO(pbos): Remove FillEncoderSpecificSettings as soon as VideoCodec is // not in use and encoder implementations ask for codec-specific structs // directly. void FillEncoderSpecificSettings(VideoCodec* codec_struct) const; virtual void FillVideoCodecVp8(VideoCodecVP8* vp8_settings) const; virtual void FillVideoCodecVp9(VideoCodecVP9* vp9_settings) const; virtual void FillVideoCodecH264(VideoCodecH264* h264_settings) const; private: ~EncoderSpecificSettings() override {} friend class VideoEncoderConfig; }; class H264EncoderSpecificSettings : public EncoderSpecificSettings { public: explicit H264EncoderSpecificSettings(const VideoCodecH264& specifics); void FillVideoCodecH264(VideoCodecH264* h264_settings) const override; private: VideoCodecH264 specifics_; }; class Vp8EncoderSpecificSettings : public EncoderSpecificSettings { public: explicit Vp8EncoderSpecificSettings(const VideoCodecVP8& specifics); void FillVideoCodecVp8(VideoCodecVP8* vp8_settings) const override; private: VideoCodecVP8 specifics_; }; class Vp9EncoderSpecificSettings : public EncoderSpecificSettings { public: explicit Vp9EncoderSpecificSettings(const VideoCodecVP9& specifics); void FillVideoCodecVp9(VideoCodecVP9* vp9_settings) const override; private: VideoCodecVP9 specifics_; }; enum class ContentType { kRealtimeVideo, kScreen, }; class VideoStreamFactoryInterface : public rtc::RefCountInterface { public: // An implementation should return a std::vector with the // wanted VideoStream settings for the given video resolution. // The size of the vector may not be larger than // |encoder_config.number_of_streams|. virtual std::vector CreateEncoderStreams( int width, int height, const VideoEncoderConfig& encoder_config) = 0; protected: ~VideoStreamFactoryInterface() override {} }; VideoEncoderConfig& operator=(VideoEncoderConfig&&) = default; VideoEncoderConfig& operator=(const VideoEncoderConfig&) = delete; // Mostly used by tests. Avoid creating copies if you can. VideoEncoderConfig Copy() const { return VideoEncoderConfig(*this); } VideoEncoderConfig(); VideoEncoderConfig(VideoEncoderConfig&&); ~VideoEncoderConfig(); std::string ToString() const; // TODO(nisse): Consolidate on one of these. VideoCodecType codec_type; SdpVideoFormat video_format; rtc::scoped_refptr video_stream_factory; std::vector spatial_layers; ContentType content_type; rtc::scoped_refptr encoder_specific_settings; // Padding will be used up to this bitrate regardless of the bitrate produced // by the encoder. Padding above what's actually produced by the encoder helps // maintaining a higher bitrate estimate. Padding will however not be sent // unless the estimated bandwidth indicates that the link can handle it. int min_transmit_bitrate_bps; int max_bitrate_bps; // The bitrate priority used for all VideoStreams. double bitrate_priority; // The simulcast layer's configurations set by the application for this video // sender. These are modified by the video_stream_factory before being passed // down to lower layers for the video encoding. // |simulcast_layers| is also used for configuring non-simulcast (when there // is a single VideoStream). std::vector simulcast_layers; // Max number of encoded VideoStreams to produce. size_t number_of_streams; // Legacy Google conference mode flag for simulcast screenshare bool legacy_conference_mode; private: // Access to the copy constructor is private to force use of the Copy() // method for those exceptional cases where we do use it. VideoEncoderConfig(const VideoEncoderConfig&); }; } // namespace webrtc #endif // API_VIDEO_CODECS_VIDEO_ENCODER_CONFIG_H_