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/*
* Copyright (c) 2011 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 WEBRTC_MODULES_VIDEO_CODING_TIMING_H_
#define WEBRTC_MODULES_VIDEO_CODING_TIMING_H_
#include <memory>
#include "webrtc/modules/video_coding/codec_timer.h"
#include "webrtc/rtc_base/criticalsection.h"
#include "webrtc/rtc_base/thread_annotations.h"
#include "webrtc/typedefs.h"
namespace webrtc {
class Clock;
class TimestampExtrapolator;
class VCMTiming {
public:
// The primary timing component should be passed
// if this is the dual timing component.
explicit VCMTiming(Clock* clock, VCMTiming* master_timing = NULL);
virtual ~VCMTiming();
// Resets the timing to the initial state.
void Reset();
void ResetDecodeTime();
// Set the amount of time needed to render an image. Defaults to 10 ms.
void set_render_delay(int render_delay_ms);
// Set the minimum time the video must be delayed on the receiver to
// get the desired jitter buffer level.
void SetJitterDelay(int required_delay_ms);
// Set the minimum playout delay from capture to render in ms.
void set_min_playout_delay(int min_playout_delay_ms);
// Returns the minimum playout delay from capture to render in ms.
int min_playout_delay();
// Set the maximum playout delay from capture to render in ms.
void set_max_playout_delay(int max_playout_delay_ms);
// Returns the maximum playout delay from capture to render in ms.
int max_playout_delay();
// Increases or decreases the current delay to get closer to the target delay.
// Calculates how long it has been since the previous call to this function,
// and increases/decreases the delay in proportion to the time difference.
void UpdateCurrentDelay(uint32_t frame_timestamp);
// Increases or decreases the current delay to get closer to the target delay.
// Given the actual decode time in ms and the render time in ms for a frame,
// this function calculates how late the frame is and increases the delay
// accordingly.
void UpdateCurrentDelay(int64_t render_time_ms,
int64_t actual_decode_time_ms);
// Stops the decoder timer, should be called when the decoder returns a frame
// or when the decoded frame callback is called.
int32_t StopDecodeTimer(uint32_t time_stamp,
int32_t decode_time_ms,
int64_t now_ms,
int64_t render_time_ms);
// Used to report that a frame is passed to decoding. Updates the timestamp
// filter which is used to map between timestamps and receiver system time.
void IncomingTimestamp(uint32_t time_stamp, int64_t last_packet_time_ms);
// Returns the receiver system time when the frame with timestamp
// frame_timestamp should be rendered, assuming that the system time currently
// is now_ms.
virtual int64_t RenderTimeMs(uint32_t frame_timestamp, int64_t now_ms) const;
// Returns the maximum time in ms that we can wait for a frame to become
// complete before we must pass it to the decoder.
virtual uint32_t MaxWaitingTime(int64_t render_time_ms, int64_t now_ms) const;
// Returns the current target delay which is required delay + decode time +
// render delay.
int TargetVideoDelay() const;
// Calculates whether or not there is enough time to decode a frame given a
// certain amount of processing time.
bool EnoughTimeToDecode(uint32_t available_processing_time_ms) const;
// Return current timing information. Returns true if the first frame has been
// decoded, false otherwise.
virtual bool GetTimings(int* decode_ms,
int* max_decode_ms,
int* current_delay_ms,
int* target_delay_ms,
int* jitter_buffer_ms,
int* min_playout_delay_ms,
int* render_delay_ms) const;
void SetTimingFrameInfo(const TimingFrameInfo& info);
rtc::Optional<TimingFrameInfo> GetTimingFrameInfo();
enum { kDefaultRenderDelayMs = 10 };
enum { kDelayMaxChangeMsPerS = 100 };
protected:
int RequiredDecodeTimeMs() const EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
int64_t RenderTimeMsInternal(uint32_t frame_timestamp, int64_t now_ms) const
EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
int TargetDelayInternal() const EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
private:
void UpdateHistograms() const;
rtc::CriticalSection crit_sect_;
Clock* const clock_;
bool master_ GUARDED_BY(crit_sect_);
TimestampExtrapolator* ts_extrapolator_ GUARDED_BY(crit_sect_);
std::unique_ptr<VCMCodecTimer> codec_timer_ GUARDED_BY(crit_sect_);
int render_delay_ms_ GUARDED_BY(crit_sect_);
// Best-effort playout delay range for frames from capture to render.
// The receiver tries to keep the delay between |min_playout_delay_ms_|
// and |max_playout_delay_ms_| taking the network jitter into account.
// A special case is where min_playout_delay_ms_ = max_playout_delay_ms_ = 0,
// in which case the receiver tries to play the frames as they arrive.
int min_playout_delay_ms_ GUARDED_BY(crit_sect_);
int max_playout_delay_ms_ GUARDED_BY(crit_sect_);
int jitter_delay_ms_ GUARDED_BY(crit_sect_);
int current_delay_ms_ GUARDED_BY(crit_sect_);
int last_decode_ms_ GUARDED_BY(crit_sect_);
uint32_t prev_frame_timestamp_ GUARDED_BY(crit_sect_);
rtc::Optional<TimingFrameInfo> timing_frame_info_ GUARDED_BY(crit_sect_);
// Statistics.
size_t num_decoded_frames_ GUARDED_BY(crit_sect_);
size_t num_delayed_decoded_frames_ GUARDED_BY(crit_sect_);
int64_t first_decoded_frame_ms_ GUARDED_BY(crit_sect_);
uint64_t sum_missed_render_deadline_ms_ GUARDED_BY(crit_sect_);
};
} // namespace webrtc
#endif // WEBRTC_MODULES_VIDEO_CODING_TIMING_H_