modules/video_coding/media_opt_util.h - src - Git at Google

 /*
  *  Copyright (c) 2012 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 MODULES_VIDEO_CODING_MEDIA_OPT_UTIL_H_
 #define MODULES_VIDEO_CODING_MEDIA_OPT_UTIL_H_

 #include <math.h>
 #include <stdlib.h>

 #include <memory>

 #include "modules/video_coding/internal_defines.h"
 #include "rtc_base/experiments/rate_control_settings.h"
 #include "rtc_base/numerics/exp_filter.h"

 namespace webrtc {
 namespace media_optimization {

 // Number of time periods used for (max) window filter for packet loss
 // TODO(marpan): set reasonable window size for filtered packet loss,
 // adjustment should be based on logged/real data of loss stats/correlation.
 enum { kLossPrHistorySize = 10 };

 // 1000 ms, total filter length is (kLossPrHistorySize * 1000) ms
 enum { kLossPrShortFilterWinMs = 1000 };

 // The type of filter used on the received packet loss reports.
 enum FilterPacketLossMode {
   kNoFilter,   // No filtering on received loss.
   kAvgFilter,  // Recursive average filter.
   kMaxFilter   // Max-window filter, over the time interval of:
                // (kLossPrHistorySize * kLossPrShortFilterWinMs) ms.
 };

 // Thresholds for hybrid NACK/FEC
 // common to media optimization and the jitter buffer.
 const int64_t kLowRttNackMs = 20;

 // If the RTT is higher than this an extra RTT wont be added to to the jitter
 // buffer delay.
 const int kMaxRttDelayThreshold = 500;

 struct VCMProtectionParameters {
   VCMProtectionParameters();

   int64_t rtt;
   float lossPr;
   float bitRate;
   float packetsPerFrame;
   float packetsPerFrameKey;
   float frameRate;
   float keyFrameSize;
   uint8_t fecRateDelta;
   uint8_t fecRateKey;
   uint16_t codecWidth;
   uint16_t codecHeight;
   int numLayers;
 };

 /******************************/
 /* VCMProtectionMethod class  */
 /******************************/

 enum VCMProtectionMethodEnum { kNack, kFec, kNackFec, kNone };

 class VCMLossProbabilitySample {
  public:
   VCMLossProbabilitySample() : lossPr255(0), timeMs(-1) {}

   uint8_t lossPr255;
   int64_t timeMs;
 };

 class VCMProtectionMethod {
  public:
   VCMProtectionMethod();
   virtual ~VCMProtectionMethod();

   // Updates the efficiency of the method using the parameters provided
   //
   // Input:
   //         - parameters         : Parameters used to calculate efficiency
   //
   // Return value                 : True if this method is recommended in
   //                                the given conditions.
   virtual bool UpdateParameters(const VCMProtectionParameters* parameters) = 0;

   // Returns the protection type
   //
   // Return value                 : The protection type
   VCMProtectionMethodEnum Type() const;

   // Returns the effective packet loss for ER, required by this protection
   // method
   //
   // Return value                 : Required effective packet loss
   virtual uint8_t RequiredPacketLossER();

   // Extracts the FEC protection factor for Key frame, required by this
   // protection method
   //
   // Return value                 : Required protectionFactor for Key frame
   virtual uint8_t RequiredProtectionFactorK();

   // Extracts the FEC protection factor for Delta frame, required by this
   // protection method
   //
   // Return value                 : Required protectionFactor for delta frame
   virtual uint8_t RequiredProtectionFactorD();

   // Extracts whether the FEC Unequal protection (UEP) is used for Key frame.
   //
   // Return value                 : Required Unequal protection on/off state.
   virtual bool RequiredUepProtectionK();

   // Extracts whether the the FEC Unequal protection (UEP) is used for Delta
   // frame.
   //
   // Return value                 : Required Unequal protection on/off state.
   virtual bool RequiredUepProtectionD();

   virtual int MaxFramesFec() const;

  protected:
   uint8_t _effectivePacketLoss;
   uint8_t _protectionFactorK;
   uint8_t _protectionFactorD;
   // Estimation of residual loss after the FEC
   float _scaleProtKey;
   int32_t _maxPayloadSize;

   bool _useUepProtectionK;
   bool _useUepProtectionD;
   float _corrFecCost;
   VCMProtectionMethodEnum _type;
 };

 class VCMNackMethod : public VCMProtectionMethod {
  public:
   VCMNackMethod();
   ~VCMNackMethod() override;
   bool UpdateParameters(const VCMProtectionParameters* parameters) override;
   // Get the effective packet loss
   bool EffectivePacketLoss(const VCMProtectionParameters* parameter);
 };

 class VCMFecMethod : public VCMProtectionMethod {
  public:
   VCMFecMethod();
   ~VCMFecMethod() override;
   bool UpdateParameters(const VCMProtectionParameters* parameters) override;
   // Get the effective packet loss for ER
   bool EffectivePacketLoss(const VCMProtectionParameters* parameters);
   // Get the FEC protection factors
   bool ProtectionFactor(const VCMProtectionParameters* parameters);
   // Get the boost for key frame protection
   uint8_t BoostCodeRateKey(uint8_t packetFrameDelta,
                            uint8_t packetFrameKey) const;
   // Convert the rates: defined relative to total# packets or source# packets
   uint8_t ConvertFECRate(uint8_t codeRate) const;
   // Get the average effective recovery from FEC: for random loss model
   float AvgRecoveryFEC(const VCMProtectionParameters* parameters) const;
   // Update FEC with protectionFactorD
   void UpdateProtectionFactorD(uint8_t protectionFactorD);
   // Update FEC with protectionFactorK
   void UpdateProtectionFactorK(uint8_t protectionFactorK);
   // Compute the bits per frame. Account for temporal layers when applicable.
   int BitsPerFrame(const VCMProtectionParameters* parameters);

  protected:
   enum { kUpperLimitFramesFec = 6 };
   // Thresholds values for the bytes/frame and round trip time, below which we
   // may turn off FEC, depending on |_numLayers| and |_maxFramesFec|.
   // Max bytes/frame for VGA, corresponds to ~140k at 25fps.
   enum { kMaxBytesPerFrameForFec = 700 };
   // Max bytes/frame for CIF and lower: corresponds to ~80k at 25fps.
   enum { kMaxBytesPerFrameForFecLow = 400 };
   // Max bytes/frame for frame size larger than VGA, ~200k at 25fps.
   enum { kMaxBytesPerFrameForFecHigh = 1000 };

   const RateControlSettings rate_control_settings_;
 };

 class VCMNackFecMethod : public VCMFecMethod {
  public:
   VCMNackFecMethod(int64_t lowRttNackThresholdMs,
                    int64_t highRttNackThresholdMs);
   ~VCMNackFecMethod() override;
   bool UpdateParameters(const VCMProtectionParameters* parameters) override;
   // Get the effective packet loss for ER
   bool EffectivePacketLoss(const VCMProtectionParameters* parameters);
   // Get the protection factors
   bool ProtectionFactor(const VCMProtectionParameters* parameters);
   // Get the max number of frames the FEC is allowed to be based on.
   int MaxFramesFec() const override;
   // Turn off the FEC based on low bitrate and other factors.
   bool BitRateTooLowForFec(const VCMProtectionParameters* parameters);

  private:
   int ComputeMaxFramesFec(const VCMProtectionParameters* parameters);

   int64_t _lowRttNackMs;
   int64_t _highRttNackMs;
   int _maxFramesFec;
 };

 class VCMLossProtectionLogic {
  public:
   explicit VCMLossProtectionLogic(int64_t nowMs);
   ~VCMLossProtectionLogic();

   // Set the protection method to be used
   //
   // Input:
   //        - newMethodType    : New requested protection method type. If one
   //                           is already set, it will be deleted and replaced
   void SetMethod(VCMProtectionMethodEnum newMethodType);

   // Update the round-trip time
   //
   // Input:
   //          - rtt           : Round-trip time in seconds.
   void UpdateRtt(int64_t rtt);

   // Update the filtered packet loss.
   //
   // Input:
   //          - packetLossEnc :  The reported packet loss filtered
   //                             (max window or average)
   void UpdateFilteredLossPr(uint8_t packetLossEnc);

   // Update the current target bit rate.
   //
   // Input:
   //          - bitRate          : The current target bit rate in kbits/s
   void UpdateBitRate(float bitRate);

   // Update the number of packets per frame estimate, for delta frames
   //
   // Input:
   //          - nPackets         : Number of packets in the latest sent frame.
   void UpdatePacketsPerFrame(float nPackets, int64_t nowMs);

   // Update the number of packets per frame estimate, for key frames
   //
   // Input:
   //          - nPackets         : umber of packets in the latest sent frame.
   void UpdatePacketsPerFrameKey(float nPackets, int64_t nowMs);

   // Update the keyFrameSize estimate
   //
   // Input:
   //          - keyFrameSize     : The size of the latest sent key frame.
   void UpdateKeyFrameSize(float keyFrameSize);

   // Update the frame rate
   //
   // Input:
   //          - frameRate        : The current target frame rate.
   void UpdateFrameRate(float frameRate) { _frameRate = frameRate; }

   // Update the frame size
   //
   // Input:
   //          - width        : The codec frame width.
   //          - height       : The codec frame height.
   void UpdateFrameSize(size_t width, size_t height);

   // Update the number of active layers
   //
   // Input:
   //          - numLayers    : Number of layers used.
   void UpdateNumLayers(int numLayers);

   // The amount of packet loss to cover for with FEC.
   //
   // Input:
   //          - fecRateKey      : Packet loss to cover for with FEC when
   //                              sending key frames.
   //          - fecRateDelta    : Packet loss to cover for with FEC when
   //                              sending delta frames.
   void UpdateFECRates(uint8_t fecRateKey, uint8_t fecRateDelta) {
     _fecRateKey = fecRateKey;
     _fecRateDelta = fecRateDelta;
   }

   // Update the protection methods with the current VCMProtectionParameters
   // and set the requested protection settings.
   // Return value     : Returns true on update
   bool UpdateMethod();

   // Returns the method currently selected.
   //
   // Return value                 : The protection method currently selected.
   VCMProtectionMethod* SelectedMethod() const;

   // Return the protection type of the currently selected method
   VCMProtectionMethodEnum SelectedType() const;

   // Updates the filtered loss for the average and max window packet loss,
   // and returns the filtered loss probability in the interval [0, 255].
   // The returned filtered loss value depends on the parameter |filter_mode|.
   // The input parameter |lossPr255| is the received packet loss.

   // Return value                 : The filtered loss probability
   uint8_t FilteredLoss(int64_t nowMs,
                        FilterPacketLossMode filter_mode,
                        uint8_t lossPr255);

   void Reset(int64_t nowMs);

   void Release();

  private:
   // Sets the available loss protection methods.
   void UpdateMaxLossHistory(uint8_t lossPr255, int64_t now);
   uint8_t MaxFilteredLossPr(int64_t nowMs) const;
   std::unique_ptr<VCMProtectionMethod> _selectedMethod;
   VCMProtectionParameters _currentParameters;
   int64_t _rtt;
   float _lossPr;
   float _bitRate;
   float _frameRate;
   float _keyFrameSize;
   uint8_t _fecRateKey;
   uint8_t _fecRateDelta;
   int64_t _lastPrUpdateT;
   int64_t _lastPacketPerFrameUpdateT;
   int64_t _lastPacketPerFrameUpdateTKey;
   rtc::ExpFilter _lossPr255;
   VCMLossProbabilitySample _lossPrHistory[kLossPrHistorySize];
   uint8_t _shortMaxLossPr255;
   rtc::ExpFilter _packetsPerFrame;
   rtc::ExpFilter _packetsPerFrameKey;
   size_t _codecWidth;
   size_t _codecHeight;
   int _numLayers;
 };

 }  // namespace media_optimization
 }  // namespace webrtc

 #endif  // MODULES_VIDEO_CODING_MEDIA_OPT_UTIL_H_
	/*
	* Copyright (c) 2012 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 MODULES_VIDEO_CODING_MEDIA_OPT_UTIL_H_
	#define MODULES_VIDEO_CODING_MEDIA_OPT_UTIL_H_

	#include <math.h>
	#include <stdlib.h>

	#include <memory>

	#include "modules/video_coding/internal_defines.h"
	#include "rtc_base/experiments/rate_control_settings.h"
	#include "rtc_base/numerics/exp_filter.h"

	namespace webrtc {
	namespace media_optimization {

	// Number of time periods used for (max) window filter for packet loss
	// TODO(marpan): set reasonable window size for filtered packet loss,
	// adjustment should be based on logged/real data of loss stats/correlation.
	enum { kLossPrHistorySize = 10 };

	// 1000 ms, total filter length is (kLossPrHistorySize * 1000) ms
	enum { kLossPrShortFilterWinMs = 1000 };

	// The type of filter used on the received packet loss reports.
	enum FilterPacketLossMode {
	kNoFilter, // No filtering on received loss.
	kAvgFilter, // Recursive average filter.
	kMaxFilter // Max-window filter, over the time interval of:
	// (kLossPrHistorySize * kLossPrShortFilterWinMs) ms.
	};

	// Thresholds for hybrid NACK/FEC
	// common to media optimization and the jitter buffer.
	const int64_t kLowRttNackMs = 20;

	// If the RTT is higher than this an extra RTT wont be added to to the jitter
	// buffer delay.
	const int kMaxRttDelayThreshold = 500;

	struct VCMProtectionParameters {
	VCMProtectionParameters();

	int64_t rtt;
	float lossPr;
	float bitRate;
	float packetsPerFrame;
	float packetsPerFrameKey;
	float frameRate;
	float keyFrameSize;
	uint8_t fecRateDelta;
	uint8_t fecRateKey;
	uint16_t codecWidth;
	uint16_t codecHeight;
	int numLayers;
	};

	/******************************/
	/* VCMProtectionMethod class */
	/******************************/

	enum VCMProtectionMethodEnum { kNack, kFec, kNackFec, kNone };

	class VCMLossProbabilitySample {
	public:
	VCMLossProbabilitySample() : lossPr255(0), timeMs(-1) {}

	uint8_t lossPr255;
	int64_t timeMs;
	};

	class VCMProtectionMethod {
	public:
	VCMProtectionMethod();
	virtual ~VCMProtectionMethod();

	// Updates the efficiency of the method using the parameters provided
	//
	// Input:
	// - parameters : Parameters used to calculate efficiency
	//
	// Return value : True if this method is recommended in
	// the given conditions.
	virtual bool UpdateParameters(const VCMProtectionParameters* parameters) = 0;

	// Returns the protection type
	//
	// Return value : The protection type
	VCMProtectionMethodEnum Type() const;

	// Returns the effective packet loss for ER, required by this protection
	// method
	//
	// Return value : Required effective packet loss
	virtual uint8_t RequiredPacketLossER();

	// Extracts the FEC protection factor for Key frame, required by this
	// protection method
	//
	// Return value : Required protectionFactor for Key frame
	virtual uint8_t RequiredProtectionFactorK();

	// Extracts the FEC protection factor for Delta frame, required by this
	// protection method
	//
	// Return value : Required protectionFactor for delta frame
	virtual uint8_t RequiredProtectionFactorD();

	// Extracts whether the FEC Unequal protection (UEP) is used for Key frame.
	//
	// Return value : Required Unequal protection on/off state.
	virtual bool RequiredUepProtectionK();

	// Extracts whether the the FEC Unequal protection (UEP) is used for Delta
	// frame.
	//
	// Return value : Required Unequal protection on/off state.
	virtual bool RequiredUepProtectionD();

	virtual int MaxFramesFec() const;

	protected:
	uint8_t _effectivePacketLoss;
	uint8_t _protectionFactorK;
	uint8_t _protectionFactorD;
	// Estimation of residual loss after the FEC
	float _scaleProtKey;
	int32_t _maxPayloadSize;

	bool _useUepProtectionK;
	bool _useUepProtectionD;
	float _corrFecCost;
	VCMProtectionMethodEnum _type;
	};

	class VCMNackMethod : public VCMProtectionMethod {
	public:
	VCMNackMethod();
	~VCMNackMethod() override;
	bool UpdateParameters(const VCMProtectionParameters* parameters) override;
	// Get the effective packet loss
	bool EffectivePacketLoss(const VCMProtectionParameters* parameter);
	};

	class VCMFecMethod : public VCMProtectionMethod {
	public:
	VCMFecMethod();
	~VCMFecMethod() override;
	bool UpdateParameters(const VCMProtectionParameters* parameters) override;
	// Get the effective packet loss for ER
	bool EffectivePacketLoss(const VCMProtectionParameters* parameters);
	// Get the FEC protection factors
	bool ProtectionFactor(const VCMProtectionParameters* parameters);
	// Get the boost for key frame protection
	uint8_t BoostCodeRateKey(uint8_t packetFrameDelta,
	uint8_t packetFrameKey) const;
	// Convert the rates: defined relative to total# packets or source# packets
	uint8_t ConvertFECRate(uint8_t codeRate) const;
	// Get the average effective recovery from FEC: for random loss model
	float AvgRecoveryFEC(const VCMProtectionParameters* parameters) const;
	// Update FEC with protectionFactorD
	void UpdateProtectionFactorD(uint8_t protectionFactorD);
	// Update FEC with protectionFactorK
	void UpdateProtectionFactorK(uint8_t protectionFactorK);
	// Compute the bits per frame. Account for temporal layers when applicable.
	int BitsPerFrame(const VCMProtectionParameters* parameters);

	protected:
	enum { kUpperLimitFramesFec = 6 };
	// Thresholds values for the bytes/frame and round trip time, below which we
	// may turn off FEC, depending on \|_numLayers\| and \|_maxFramesFec\|.
	// Max bytes/frame for VGA, corresponds to ~140k at 25fps.
	enum { kMaxBytesPerFrameForFec = 700 };
	// Max bytes/frame for CIF and lower: corresponds to ~80k at 25fps.
	enum { kMaxBytesPerFrameForFecLow = 400 };
	// Max bytes/frame for frame size larger than VGA, ~200k at 25fps.
	enum { kMaxBytesPerFrameForFecHigh = 1000 };

	const RateControlSettings rate_control_settings_;
	};

	class VCMNackFecMethod : public VCMFecMethod {
	public:
	VCMNackFecMethod(int64_t lowRttNackThresholdMs,
	int64_t highRttNackThresholdMs);
	~VCMNackFecMethod() override;
	bool UpdateParameters(const VCMProtectionParameters* parameters) override;
	// Get the effective packet loss for ER
	bool EffectivePacketLoss(const VCMProtectionParameters* parameters);
	// Get the protection factors
	bool ProtectionFactor(const VCMProtectionParameters* parameters);
	// Get the max number of frames the FEC is allowed to be based on.
	int MaxFramesFec() const override;
	// Turn off the FEC based on low bitrate and other factors.
	bool BitRateTooLowForFec(const VCMProtectionParameters* parameters);

	private:
	int ComputeMaxFramesFec(const VCMProtectionParameters* parameters);

	int64_t _lowRttNackMs;
	int64_t _highRttNackMs;
	int _maxFramesFec;
	};

	class VCMLossProtectionLogic {
	public:
	explicit VCMLossProtectionLogic(int64_t nowMs);
	~VCMLossProtectionLogic();

	// Set the protection method to be used
	//
	// Input:
	// - newMethodType : New requested protection method type. If one
	// is already set, it will be deleted and replaced
	void SetMethod(VCMProtectionMethodEnum newMethodType);

	// Update the round-trip time
	//
	// Input:
	// - rtt : Round-trip time in seconds.
	void UpdateRtt(int64_t rtt);

	// Update the filtered packet loss.
	//
	// Input:
	// - packetLossEnc : The reported packet loss filtered
	// (max window or average)
	void UpdateFilteredLossPr(uint8_t packetLossEnc);

	// Update the current target bit rate.
	//
	// Input:
	// - bitRate : The current target bit rate in kbits/s
	void UpdateBitRate(float bitRate);

	// Update the number of packets per frame estimate, for delta frames
	//
	// Input:
	// - nPackets : Number of packets in the latest sent frame.
	void UpdatePacketsPerFrame(float nPackets, int64_t nowMs);

	// Update the number of packets per frame estimate, for key frames
	//
	// Input:
	// - nPackets : umber of packets in the latest sent frame.
	void UpdatePacketsPerFrameKey(float nPackets, int64_t nowMs);

	// Update the keyFrameSize estimate
	//
	// Input:
	// - keyFrameSize : The size of the latest sent key frame.
	void UpdateKeyFrameSize(float keyFrameSize);

	// Update the frame rate
	//
	// Input:
	// - frameRate : The current target frame rate.
	void UpdateFrameRate(float frameRate) { _frameRate = frameRate; }

	// Update the frame size
	//
	// Input:
	// - width : The codec frame width.
	// - height : The codec frame height.
	void UpdateFrameSize(size_t width, size_t height);

	// Update the number of active layers
	//
	// Input:
	// - numLayers : Number of layers used.
	void UpdateNumLayers(int numLayers);

	// The amount of packet loss to cover for with FEC.
	//
	// Input:
	// - fecRateKey : Packet loss to cover for with FEC when
	// sending key frames.
	// - fecRateDelta : Packet loss to cover for with FEC when
	// sending delta frames.
	void UpdateFECRates(uint8_t fecRateKey, uint8_t fecRateDelta) {
	_fecRateKey = fecRateKey;
	_fecRateDelta = fecRateDelta;
	}

	// Update the protection methods with the current VCMProtectionParameters
	// and set the requested protection settings.
	// Return value : Returns true on update
	bool UpdateMethod();

	// Returns the method currently selected.
	//
	// Return value : The protection method currently selected.
	VCMProtectionMethod* SelectedMethod() const;

	// Return the protection type of the currently selected method
	VCMProtectionMethodEnum SelectedType() const;

	// Updates the filtered loss for the average and max window packet loss,
	// and returns the filtered loss probability in the interval [0, 255].
	// The returned filtered loss value depends on the parameter \|filter_mode\|.
	// The input parameter \|lossPr255\| is the received packet loss.

	// Return value : The filtered loss probability
	uint8_t FilteredLoss(int64_t nowMs,
	FilterPacketLossMode filter_mode,
	uint8_t lossPr255);

	void Reset(int64_t nowMs);

	void Release();

	private:
	// Sets the available loss protection methods.
	void UpdateMaxLossHistory(uint8_t lossPr255, int64_t now);
	uint8_t MaxFilteredLossPr(int64_t nowMs) const;
	std::unique_ptr<VCMProtectionMethod> _selectedMethod;
	VCMProtectionParameters _currentParameters;
	int64_t _rtt;
	float _lossPr;
	float _bitRate;
	float _frameRate;
	float _keyFrameSize;
	uint8_t _fecRateKey;
	uint8_t _fecRateDelta;
	int64_t _lastPrUpdateT;
	int64_t _lastPacketPerFrameUpdateT;
	int64_t _lastPacketPerFrameUpdateTKey;
	rtc::ExpFilter _lossPr255;
	VCMLossProbabilitySample _lossPrHistory[kLossPrHistorySize];
	uint8_t _shortMaxLossPr255;
	rtc::ExpFilter _packetsPerFrame;
	rtc::ExpFilter _packetsPerFrameKey;
	size_t _codecWidth;
	size_t _codecHeight;
	int _numLayers;
	};

	} // namespace media_optimization
	} // namespace webrtc

	#endif // MODULES_VIDEO_CODING_MEDIA_OPT_UTIL_H_