api/video_codecs/vp8_frame_buffer_controller.h - src - Git at Google

 /*
  *  Copyright (c) 2019 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_VP8_FRAME_BUFFER_CONTROLLER_H_
 #define API_VIDEO_CODECS_VP8_FRAME_BUFFER_CONTROLLER_H_

 #include <memory>
 #include <vector>

 #include "absl/types/optional.h"
 #include "api/video_codecs/video_codec.h"
 #include "api/video_codecs/video_encoder.h"
 #include "api/video_codecs/vp8_frame_config.h"

 namespace webrtc {

 // Some notes on the prerequisites of the TemporalLayers interface.
 // * Vp8FrameBufferController is not thread safe, synchronization is the
 //   caller's responsibility.
 // * The encoder is assumed to encode all frames in order, and callbacks to
 //   PopulateCodecSpecific() / OnEncodeDone() must happen in the same order.
 //
 // This means that in the case of pipelining encoders, it is OK to have a chain
 // of calls such as this:
 // - NextFrameConfig(timestampA)
 // - NextFrameConfig(timestampB)
 // - PopulateCodecSpecific(timestampA, ...)
 // - NextFrameConfig(timestampC)
 // - OnEncodeDone(timestampA, 1234, ...)
 // - NextFrameConfig(timestampC)
 // - OnEncodeDone(timestampB, 0, ...)
 // - OnEncodeDone(timestampC, 1234, ...)
 // Note that NextFrameConfig() for a new frame can happen before
 // OnEncodeDone() for a previous one, but calls themselves must be both
 // synchronized (e.g. run on a task queue) and in order (per type).
 //
 // TODO(eladalon): Revise comment (referring to PopulateCodecSpecific in this
 // context is not very meaningful).

 struct CodecSpecificInfo;

 // TODO(eladalon): This configuration is temporal-layers specific; refactor.
 struct Vp8EncoderConfig {
   static constexpr size_t kMaxPeriodicity = 16;
   static constexpr size_t kMaxLayers = 5;

   // Number of active temporal layers. Set to 0 if not used.
   uint32_t ts_number_layers;
   // Arrays of length |ts_number_layers|, indicating (cumulative) target bitrate
   // and rate decimator (e.g. 4 if every 4th frame is in the given layer) for
   // each active temporal layer, starting with temporal id 0.
   uint32_t ts_target_bitrate[kMaxLayers];
   uint32_t ts_rate_decimator[kMaxLayers];

   // The periodicity of the temporal pattern. Set to 0 if not used.
   uint32_t ts_periodicity;
   // Array of length |ts_periodicity| indicating the sequence of temporal id's
   // to assign to incoming frames.
   uint32_t ts_layer_id[kMaxPeriodicity];

   // Target bitrate, in bps.
   uint32_t rc_target_bitrate;

   // Clamp QP to min/max. Use 0 to disable clamping.
   uint32_t rc_min_quantizer;
   uint32_t rc_max_quantizer;
 };

 // This interface defines a way of delegating the logic of buffer management.
 // Multiple streams may be controlled by a single controller, demuxing between
 // them using stream_index.
 class Vp8FrameBufferController {
  public:
   virtual ~Vp8FrameBufferController() = default;

   // Number of streamed controlled by |this|.
   virtual size_t StreamCount() const = 0;

   // If this method returns true, the encoder is free to drop frames for
   // instance in an effort to uphold encoding bitrate.
   // If this return false, the encoder must not drop any frames unless:
   //  1. Requested to do so via Vp8FrameConfig.drop_frame
   //  2. The frame to be encoded is requested to be a keyframe
   //  3. The encoded detected a large overshoot and decided to drop and then
   //     re-encode the image at a low bitrate. In this case the encoder should
   //     call OnEncodeDone() once with size = 0 to indicate drop, and then call
   //     OnEncodeDone() again when the frame has actually been encoded.
   virtual bool SupportsEncoderFrameDropping(size_t stream_index) const = 0;

   // New target bitrate for a stream (each entry in
   // |bitrates_bps| is for another temporal layer).
   virtual void OnRatesUpdated(size_t stream_index,
                               const std::vector<uint32_t>& bitrates_bps,
                               int framerate_fps) = 0;

   // Called by the encoder before encoding a frame. |cfg| contains the current
   // configuration. If the encoder wishes any part of that to be changed before
   // the encode step, |cfg| should be changed and then return true. If false is
   // returned, the encoder will proceed without updating the configuration.
   virtual bool UpdateConfiguration(size_t stream_index,
                                    Vp8EncoderConfig* cfg) = 0;

   // Returns the recommended VP8 encode flags needed.
   // The timestamp may be used as both a time and a unique identifier, and so
   // the caller must make sure no two frames use the same timestamp.
   // The timestamp uses a 90kHz RTP clock.
   // After calling this method, first call the actual encoder with the provided
   // frame configuration, and then OnEncodeDone() below.
   virtual Vp8FrameConfig NextFrameConfig(size_t stream_index,
                                          uint32_t rtp_timestamp) = 0;

   // Called after the encode step is done. |rtp_timestamp| must match the
   // parameter use in the NextFrameConfig() call.
   // |is_keyframe| must be true iff the encoder decided to encode this frame as
   // a keyframe.
   // If |info| is not null, the encoder may update |info| with codec specific
   // data such as temporal id. |qp| should indicate the frame-level QP this
   // frame was encoded at. If the encoder does not support extracting this, |qp|
   // should be set to 0.
   virtual void OnEncodeDone(size_t stream_index,
                             uint32_t rtp_timestamp,
                             size_t size_bytes,
                             bool is_keyframe,
                             int qp,
                             CodecSpecificInfo* info) = 0;

   // Called when a frame is dropped by the encoder.
   virtual void OnFrameDropped(size_t stream_index, uint32_t rtp_timestamp) = 0;

   // Called by the encoder when the packet loss rate changes.
   // |packet_loss_rate| runs between 0.0 (no loss) and 1.0 (everything lost).
   virtual void OnPacketLossRateUpdate(float packet_loss_rate) = 0;

   // Called by the encoder when the round trip time changes.
   virtual void OnRttUpdate(int64_t rtt_ms) = 0;

   // Called when a loss notification is received.
   virtual void OnLossNotification(
       const VideoEncoder::LossNotification& loss_notification) = 0;
 };

 // Interface for a factory of Vp8FrameBufferController instances.
 class Vp8FrameBufferControllerFactory {
  public:
   virtual ~Vp8FrameBufferControllerFactory() = default;

   virtual std::unique_ptr<Vp8FrameBufferController> Create(
       const VideoCodec& codec) = 0;
 };

 }  // namespace webrtc

 #endif  // API_VIDEO_CODECS_VP8_FRAME_BUFFER_CONTROLLER_H_
	/*
	* Copyright (c) 2019 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_VP8_FRAME_BUFFER_CONTROLLER_H_
	#define API_VIDEO_CODECS_VP8_FRAME_BUFFER_CONTROLLER_H_

	#include <memory>
	#include <vector>

	#include "absl/types/optional.h"
	#include "api/video_codecs/video_codec.h"
	#include "api/video_codecs/video_encoder.h"
	#include "api/video_codecs/vp8_frame_config.h"

	namespace webrtc {

	// Some notes on the prerequisites of the TemporalLayers interface.
	// * Vp8FrameBufferController is not thread safe, synchronization is the
	// caller's responsibility.
	// * The encoder is assumed to encode all frames in order, and callbacks to
	// PopulateCodecSpecific() / OnEncodeDone() must happen in the same order.
	//
	// This means that in the case of pipelining encoders, it is OK to have a chain
	// of calls such as this:
	// - NextFrameConfig(timestampA)
	// - NextFrameConfig(timestampB)
	// - PopulateCodecSpecific(timestampA, ...)
	// - NextFrameConfig(timestampC)
	// - OnEncodeDone(timestampA, 1234, ...)
	// - NextFrameConfig(timestampC)
	// - OnEncodeDone(timestampB, 0, ...)
	// - OnEncodeDone(timestampC, 1234, ...)
	// Note that NextFrameConfig() for a new frame can happen before
	// OnEncodeDone() for a previous one, but calls themselves must be both
	// synchronized (e.g. run on a task queue) and in order (per type).
	//
	// TODO(eladalon): Revise comment (referring to PopulateCodecSpecific in this
	// context is not very meaningful).

	struct CodecSpecificInfo;

	// TODO(eladalon): This configuration is temporal-layers specific; refactor.
	struct Vp8EncoderConfig {
	static constexpr size_t kMaxPeriodicity = 16;
	static constexpr size_t kMaxLayers = 5;

	// Number of active temporal layers. Set to 0 if not used.
	uint32_t ts_number_layers;
	// Arrays of length \|ts_number_layers\|, indicating (cumulative) target bitrate
	// and rate decimator (e.g. 4 if every 4th frame is in the given layer) for
	// each active temporal layer, starting with temporal id 0.
	uint32_t ts_target_bitrate[kMaxLayers];
	uint32_t ts_rate_decimator[kMaxLayers];

	// The periodicity of the temporal pattern. Set to 0 if not used.
	uint32_t ts_periodicity;
	// Array of length \|ts_periodicity\| indicating the sequence of temporal id's
	// to assign to incoming frames.
	uint32_t ts_layer_id[kMaxPeriodicity];

	// Target bitrate, in bps.
	uint32_t rc_target_bitrate;

	// Clamp QP to min/max. Use 0 to disable clamping.
	uint32_t rc_min_quantizer;
	uint32_t rc_max_quantizer;
	};

	// This interface defines a way of delegating the logic of buffer management.
	// Multiple streams may be controlled by a single controller, demuxing between
	// them using stream_index.
	class Vp8FrameBufferController {
	public:
	virtual ~Vp8FrameBufferController() = default;

	// Number of streamed controlled by \|this\|.
	virtual size_t StreamCount() const = 0;

	// If this method returns true, the encoder is free to drop frames for
	// instance in an effort to uphold encoding bitrate.
	// If this return false, the encoder must not drop any frames unless:
	// 1. Requested to do so via Vp8FrameConfig.drop_frame
	// 2. The frame to be encoded is requested to be a keyframe
	// 3. The encoded detected a large overshoot and decided to drop and then
	// re-encode the image at a low bitrate. In this case the encoder should
	// call OnEncodeDone() once with size = 0 to indicate drop, and then call
	// OnEncodeDone() again when the frame has actually been encoded.
	virtual bool SupportsEncoderFrameDropping(size_t stream_index) const = 0;

	// New target bitrate for a stream (each entry in
	// \|bitrates_bps\| is for another temporal layer).
	virtual void OnRatesUpdated(size_t stream_index,
	const std::vector<uint32_t>& bitrates_bps,
	int framerate_fps) = 0;

	// Called by the encoder before encoding a frame. \|cfg\| contains the current
	// configuration. If the encoder wishes any part of that to be changed before
	// the encode step, \|cfg\| should be changed and then return true. If false is
	// returned, the encoder will proceed without updating the configuration.
	virtual bool UpdateConfiguration(size_t stream_index,
	Vp8EncoderConfig* cfg) = 0;

	// Returns the recommended VP8 encode flags needed.
	// The timestamp may be used as both a time and a unique identifier, and so
	// the caller must make sure no two frames use the same timestamp.
	// The timestamp uses a 90kHz RTP clock.
	// After calling this method, first call the actual encoder with the provided
	// frame configuration, and then OnEncodeDone() below.
	virtual Vp8FrameConfig NextFrameConfig(size_t stream_index,
	uint32_t rtp_timestamp) = 0;

	// Called after the encode step is done. \|rtp_timestamp\| must match the
	// parameter use in the NextFrameConfig() call.
	// \|is_keyframe\| must be true iff the encoder decided to encode this frame as
	// a keyframe.
	// If \|info\| is not null, the encoder may update \|info\| with codec specific
	// data such as temporal id. \|qp\| should indicate the frame-level QP this
	// frame was encoded at. If the encoder does not support extracting this, \|qp\|
	// should be set to 0.
	virtual void OnEncodeDone(size_t stream_index,
	uint32_t rtp_timestamp,
	size_t size_bytes,
	bool is_keyframe,
	int qp,
	CodecSpecificInfo* info) = 0;

	// Called when a frame is dropped by the encoder.
	virtual void OnFrameDropped(size_t stream_index, uint32_t rtp_timestamp) = 0;

	// Called by the encoder when the packet loss rate changes.
	// \|packet_loss_rate\| runs between 0.0 (no loss) and 1.0 (everything lost).
	virtual void OnPacketLossRateUpdate(float packet_loss_rate) = 0;

	// Called by the encoder when the round trip time changes.
	virtual void OnRttUpdate(int64_t rtt_ms) = 0;

	// Called when a loss notification is received.
	virtual void OnLossNotification(
	const VideoEncoder::LossNotification& loss_notification) = 0;
	};

	// Interface for a factory of Vp8FrameBufferController instances.
	class Vp8FrameBufferControllerFactory {
	public:
	virtual ~Vp8FrameBufferControllerFactory() = default;

	virtual std::unique_ptr<Vp8FrameBufferController> Create(
	const VideoCodec& codec) = 0;
	};

	} // namespace webrtc

	#endif // API_VIDEO_CODECS_VP8_FRAME_BUFFER_CONTROLLER_H_