api/video/video_timing.h - src - Git at Google

 /*
  *  Copyright (c) 2017 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_VIDEO_TIMING_H_
 #define API_VIDEO_VIDEO_TIMING_H_

 #include <stdint.h>

 #include <limits>
 #include <string>

 namespace webrtc {

 // Video timing timestamps in ms counted from capture_time_ms of a frame.
 // This structure represents data sent in video-timing RTP header extension.
 struct VideoSendTiming {
   enum TimingFrameFlags : uint8_t {
     kNotTriggered = 0,  // Timing info valid, but not to be transmitted.
                         // Used on send-side only.
     kTriggeredByTimer = 1 << 0,  // Frame marked for tracing by periodic timer.
     kTriggeredBySize = 1 << 1,   // Frame marked for tracing due to size.
     kInvalid = std::numeric_limits<uint8_t>::max()  // Invalid, ignore!
   };

   // Returns |time_ms - base_ms| capped at max 16-bit value.
   // Used to fill this data structure as per
   // https://webrtc.org/experiments/rtp-hdrext/video-timing/ extension stores
   // 16-bit deltas of timestamps from packet capture time.
   static uint16_t GetDeltaCappedMs(int64_t base_ms, int64_t time_ms);

   uint16_t encode_start_delta_ms;
   uint16_t encode_finish_delta_ms;
   uint16_t packetization_finish_delta_ms;
   uint16_t pacer_exit_delta_ms;
   uint16_t network_timestamp_delta_ms;
   uint16_t network2_timestamp_delta_ms;
   uint8_t flags = TimingFrameFlags::kInvalid;
 };

 // Used to report precise timings of a 'timing frames'. Contains all important
 // timestamps for a lifetime of that specific frame. Reported as a string via
 // GetStats(). Only frame which took the longest between two GetStats calls is
 // reported.
 struct TimingFrameInfo {
   TimingFrameInfo();

   // Returns end-to-end delay of a frame, if sender and receiver timestamps are
   // synchronized, -1 otherwise.
   int64_t EndToEndDelay() const;

   // Returns true if current frame took longer to process than `other` frame.
   // If other frame's clocks are not synchronized, current frame is always
   // preferred.
   bool IsLongerThan(const TimingFrameInfo& other) const;

   // Returns true if flags are set to indicate this frame was marked for tracing
   // due to the size being outside some limit.
   bool IsOutlier() const;

   // Returns true if flags are set to indicate this frame was marked fro tracing
   // due to cyclic timer.
   bool IsTimerTriggered() const;

   // Returns true if the timing data is marked as invalid, in which case it
   // should be ignored.
   bool IsInvalid() const;

   std::string ToString() const;

   bool operator<(const TimingFrameInfo& other) const;

   bool operator<=(const TimingFrameInfo& other) const;

   uint32_t rtp_timestamp;  // Identifier of a frame.
   // All timestamps below are in local monotonous clock of a receiver.
   // If sender clock is not yet estimated, sender timestamps
   // (capture_time_ms ... pacer_exit_ms) are negative values, still
   // relatively correct.
   int64_t capture_time_ms;          // Captrue time of a frame.
   int64_t encode_start_ms;          // Encode start time.
   int64_t encode_finish_ms;         // Encode completion time.
   int64_t packetization_finish_ms;  // Time when frame was passed to pacer.
   int64_t pacer_exit_ms;  // Time when last packet was pushed out of pacer.
   // Two in-network RTP processor timestamps: meaning is application specific.
   int64_t network_timestamp_ms;
   int64_t network2_timestamp_ms;
   int64_t receive_start_ms;   // First received packet time.
   int64_t receive_finish_ms;  // Last received packet time.
   int64_t decode_start_ms;    // Decode start time.
   int64_t decode_finish_ms;   // Decode completion time.
   int64_t render_time_ms;     // Proposed render time to insure smooth playback.

   uint8_t flags;  // Flags indicating validity and/or why tracing was triggered.
 };

 // Minimum and maximum playout delay values from capture to render.
 // These are best effort values.
 //
 // A value < 0 indicates no change from previous valid value.
 //
 // min = max = 0 indicates that the receiver should try and render
 // frame as soon as possible.
 //
 // min = x, max = y indicates that the receiver is free to adapt
 // in the range (x, y) based on network jitter.
 struct VideoPlayoutDelay {
   VideoPlayoutDelay() = default;
   VideoPlayoutDelay(int min_ms, int max_ms) : min_ms(min_ms), max_ms(max_ms) {}
   int min_ms = -1;
   int max_ms = -1;

   bool operator==(const VideoPlayoutDelay& rhs) const {
     return min_ms == rhs.min_ms && max_ms == rhs.max_ms;
   }
 };

 // TODO(bugs.webrtc.org/7660): Old name, delete after downstream use is updated.
 using PlayoutDelay = VideoPlayoutDelay;

 }  // namespace webrtc

 #endif  // API_VIDEO_VIDEO_TIMING_H_
	/*
	* Copyright (c) 2017 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_VIDEO_TIMING_H_
	#define API_VIDEO_VIDEO_TIMING_H_

	#include <stdint.h>

	#include <limits>
	#include <string>

	namespace webrtc {

	// Video timing timestamps in ms counted from capture_time_ms of a frame.
	// This structure represents data sent in video-timing RTP header extension.
	struct VideoSendTiming {
	enum TimingFrameFlags : uint8_t {
	kNotTriggered = 0, // Timing info valid, but not to be transmitted.
	// Used on send-side only.
	kTriggeredByTimer = 1 << 0, // Frame marked for tracing by periodic timer.
	kTriggeredBySize = 1 << 1, // Frame marked for tracing due to size.
	kInvalid = std::numeric_limits<uint8_t>::max() // Invalid, ignore!
	};

	// Returns \|time_ms - base_ms\| capped at max 16-bit value.
	// Used to fill this data structure as per
	// https://webrtc.org/experiments/rtp-hdrext/video-timing/ extension stores
	// 16-bit deltas of timestamps from packet capture time.
	static uint16_t GetDeltaCappedMs(int64_t base_ms, int64_t time_ms);

	uint16_t encode_start_delta_ms;
	uint16_t encode_finish_delta_ms;
	uint16_t packetization_finish_delta_ms;
	uint16_t pacer_exit_delta_ms;
	uint16_t network_timestamp_delta_ms;
	uint16_t network2_timestamp_delta_ms;
	uint8_t flags = TimingFrameFlags::kInvalid;
	};

	// Used to report precise timings of a 'timing frames'. Contains all important
	// timestamps for a lifetime of that specific frame. Reported as a string via
	// GetStats(). Only frame which took the longest between two GetStats calls is
	// reported.
	struct TimingFrameInfo {
	TimingFrameInfo();

	// Returns end-to-end delay of a frame, if sender and receiver timestamps are
	// synchronized, -1 otherwise.
	int64_t EndToEndDelay() const;

	// Returns true if current frame took longer to process than `other` frame.
	// If other frame's clocks are not synchronized, current frame is always
	// preferred.
	bool IsLongerThan(const TimingFrameInfo& other) const;

	// Returns true if flags are set to indicate this frame was marked for tracing
	// due to the size being outside some limit.
	bool IsOutlier() const;

	// Returns true if flags are set to indicate this frame was marked fro tracing
	// due to cyclic timer.
	bool IsTimerTriggered() const;

	// Returns true if the timing data is marked as invalid, in which case it
	// should be ignored.
	bool IsInvalid() const;

	std::string ToString() const;

	bool operator<(const TimingFrameInfo& other) const;

	bool operator<=(const TimingFrameInfo& other) const;

	uint32_t rtp_timestamp; // Identifier of a frame.
	// All timestamps below are in local monotonous clock of a receiver.
	// If sender clock is not yet estimated, sender timestamps
	// (capture_time_ms ... pacer_exit_ms) are negative values, still
	// relatively correct.
	int64_t capture_time_ms; // Captrue time of a frame.
	int64_t encode_start_ms; // Encode start time.
	int64_t encode_finish_ms; // Encode completion time.
	int64_t packetization_finish_ms; // Time when frame was passed to pacer.
	int64_t pacer_exit_ms; // Time when last packet was pushed out of pacer.
	// Two in-network RTP processor timestamps: meaning is application specific.
	int64_t network_timestamp_ms;
	int64_t network2_timestamp_ms;
	int64_t receive_start_ms; // First received packet time.
	int64_t receive_finish_ms; // Last received packet time.
	int64_t decode_start_ms; // Decode start time.
	int64_t decode_finish_ms; // Decode completion time.
	int64_t render_time_ms; // Proposed render time to insure smooth playback.

	uint8_t flags; // Flags indicating validity and/or why tracing was triggered.
	};

	// Minimum and maximum playout delay values from capture to render.
	// These are best effort values.
	//
	// A value < 0 indicates no change from previous valid value.
	//
	// min = max = 0 indicates that the receiver should try and render
	// frame as soon as possible.
	//
	// min = x, max = y indicates that the receiver is free to adapt
	// in the range (x, y) based on network jitter.
	struct VideoPlayoutDelay {
	VideoPlayoutDelay() = default;
	VideoPlayoutDelay(int min_ms, int max_ms) : min_ms(min_ms), max_ms(max_ms) {}
	int min_ms = -1;
	int max_ms = -1;

	bool operator==(const VideoPlayoutDelay& rhs) const {
	return min_ms == rhs.min_ms && max_ms == rhs.max_ms;
	}
	};

	// TODO(bugs.webrtc.org/7660): Old name, delete after downstream use is updated.
	using PlayoutDelay = VideoPlayoutDelay;

	} // namespace webrtc

	#endif // API_VIDEO_VIDEO_TIMING_H_