video/stream_synchronization.cc - 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.
  */

 #include "video/stream_synchronization.h"

 #include <stdlib.h>

 #include <algorithm>

 #include "rtc_base/logging.h"

 namespace webrtc {

 static const int kMaxChangeMs = 80;
 static const int kMaxDeltaDelayMs = 10000;
 static const int kFilterLength = 4;
 // Minimum difference between audio and video to warrant a change.
 static const int kMinDeltaMs = 30;

 StreamSynchronization::StreamSynchronization(uint32_t video_stream_id,
                                              uint32_t audio_stream_id)
     : video_stream_id_(video_stream_id),
       audio_stream_id_(audio_stream_id),
       base_target_delay_ms_(0),
       avg_diff_ms_(0) {}

 bool StreamSynchronization::ComputeRelativeDelay(
     const Measurements& audio_measurement,
     const Measurements& video_measurement,
     int* relative_delay_ms) {
   int64_t audio_last_capture_time_ms;
   if (!audio_measurement.rtp_to_ntp.Estimate(audio_measurement.latest_timestamp,
                                              &audio_last_capture_time_ms)) {
     return false;
   }
   int64_t video_last_capture_time_ms;
   if (!video_measurement.rtp_to_ntp.Estimate(video_measurement.latest_timestamp,
                                              &video_last_capture_time_ms)) {
     return false;
   }
   if (video_last_capture_time_ms < 0) {
     return false;
   }
   // Positive diff means that video_measurement is behind audio_measurement.
   *relative_delay_ms =
       video_measurement.latest_receive_time_ms -
       audio_measurement.latest_receive_time_ms -
       (video_last_capture_time_ms - audio_last_capture_time_ms);

   if (*relative_delay_ms > kMaxDeltaDelayMs ||
       *relative_delay_ms < -kMaxDeltaDelayMs) {
     return false;
   }
   return true;
 }

 bool StreamSynchronization::ComputeDelays(int relative_delay_ms,
                                           int current_audio_delay_ms,
                                           int* total_audio_delay_target_ms,
                                           int* total_video_delay_target_ms) {
   int current_video_delay_ms = *total_video_delay_target_ms;

   RTC_LOG(LS_VERBOSE) << "Audio delay: " << current_audio_delay_ms
                       << " current diff: " << relative_delay_ms
                       << " for stream " << audio_stream_id_;

   // Calculate the difference between the lowest possible video delay and the
   // current audio delay.
   int current_diff_ms =
       current_video_delay_ms - current_audio_delay_ms + relative_delay_ms;

   avg_diff_ms_ =
       ((kFilterLength - 1) * avg_diff_ms_ + current_diff_ms) / kFilterLength;
   if (abs(avg_diff_ms_) < kMinDeltaMs) {
     // Don't adjust if the diff is within our margin.
     return false;
   }

   // Make sure we don't move too fast.
   int diff_ms = avg_diff_ms_ / 2;
   diff_ms = std::min(diff_ms, kMaxChangeMs);
   diff_ms = std::max(diff_ms, -kMaxChangeMs);

   // Reset the average after a move to prevent overshooting reaction.
   avg_diff_ms_ = 0;

   if (diff_ms > 0) {
     // The minimum video delay is longer than the current audio delay.
     // We need to decrease extra video delay, or add extra audio delay.
     if (video_delay_.extra_ms > base_target_delay_ms_) {
       // We have extra delay added to ViE. Reduce this delay before adding
       // extra delay to VoE.
       video_delay_.extra_ms -= diff_ms;
       audio_delay_.extra_ms = base_target_delay_ms_;
     } else {  // video_delay_.extra_ms > 0
       // We have no extra video delay to remove, increase the audio delay.
       audio_delay_.extra_ms += diff_ms;
       video_delay_.extra_ms = base_target_delay_ms_;
     }
   } else {  // if (diff_ms > 0)
     // The video delay is lower than the current audio delay.
     // We need to decrease extra audio delay, or add extra video delay.
     if (audio_delay_.extra_ms > base_target_delay_ms_) {
       // We have extra delay in VoiceEngine.
       // Start with decreasing the voice delay.
       // Note: diff_ms is negative; add the negative difference.
       audio_delay_.extra_ms += diff_ms;
       video_delay_.extra_ms = base_target_delay_ms_;
     } else {  // audio_delay_.extra_ms > base_target_delay_ms_
       // We have no extra delay in VoiceEngine, increase the video delay.
       // Note: diff_ms is negative; subtract the negative difference.
       video_delay_.extra_ms -= diff_ms;  // X - (-Y) = X + Y.
       audio_delay_.extra_ms = base_target_delay_ms_;
     }
   }

   // Make sure that video is never below our target.
   video_delay_.extra_ms =
       std::max(video_delay_.extra_ms, base_target_delay_ms_);

   int new_video_delay_ms;
   if (video_delay_.extra_ms > base_target_delay_ms_) {
     new_video_delay_ms = video_delay_.extra_ms;
   } else {
     // No change to the extra video delay. We are changing audio and we only
     // allow to change one at the time.
     new_video_delay_ms = video_delay_.last_ms;
   }

   // Make sure that we don't go below the extra video delay.
   new_video_delay_ms = std::max(new_video_delay_ms, video_delay_.extra_ms);

   // Verify we don't go above the maximum allowed video delay.
   new_video_delay_ms =
       std::min(new_video_delay_ms, base_target_delay_ms_ + kMaxDeltaDelayMs);

   int new_audio_delay_ms;
   if (audio_delay_.extra_ms > base_target_delay_ms_) {
     new_audio_delay_ms = audio_delay_.extra_ms;
   } else {
     // No change to the audio delay. We are changing video and we only allow to
     // change one at the time.
     new_audio_delay_ms = audio_delay_.last_ms;
   }

   // Make sure that we don't go below the extra audio delay.
   new_audio_delay_ms = std::max(new_audio_delay_ms, audio_delay_.extra_ms);

   // Verify we don't go above the maximum allowed audio delay.
   new_audio_delay_ms =
       std::min(new_audio_delay_ms, base_target_delay_ms_ + kMaxDeltaDelayMs);

   video_delay_.last_ms = new_video_delay_ms;
   audio_delay_.last_ms = new_audio_delay_ms;

   RTC_LOG(LS_VERBOSE) << "Sync video delay " << new_video_delay_ms
                       << " for video stream " << video_stream_id_
                       << " and audio delay " << audio_delay_.extra_ms
                       << " for audio stream " << audio_stream_id_;

   *total_video_delay_target_ms = new_video_delay_ms;
   *total_audio_delay_target_ms = new_audio_delay_ms;
   return true;
 }

 void StreamSynchronization::SetTargetBufferingDelay(int target_delay_ms) {
   // Initial extra delay for audio (accounting for existing extra delay).
   audio_delay_.extra_ms += target_delay_ms - base_target_delay_ms_;
   audio_delay_.last_ms += target_delay_ms - base_target_delay_ms_;

   // The video delay is compared to the last value (and how much we can update
   // is limited by that as well).
   video_delay_.last_ms += target_delay_ms - base_target_delay_ms_;
   video_delay_.extra_ms += target_delay_ms - base_target_delay_ms_;

   // Video is already delayed by the desired amount.
   base_target_delay_ms_ = target_delay_ms;
 }

 void StreamSynchronization::ReduceAudioDelay() {
   audio_delay_.extra_ms *= 0.9f;
 }

 void StreamSynchronization::ReduceVideoDelay() {
   video_delay_.extra_ms *= 0.9f;
 }

 }  // namespace webrtc
	/*
	* 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.
	*/

	#include "video/stream_synchronization.h"

	#include <stdlib.h>

	#include <algorithm>

	#include "rtc_base/logging.h"

	namespace webrtc {

	static const int kMaxChangeMs = 80;
	static const int kMaxDeltaDelayMs = 10000;
	static const int kFilterLength = 4;
	// Minimum difference between audio and video to warrant a change.
	static const int kMinDeltaMs = 30;

	StreamSynchronization::StreamSynchronization(uint32_t video_stream_id,
	uint32_t audio_stream_id)
	: video_stream_id_(video_stream_id),
	audio_stream_id_(audio_stream_id),
	base_target_delay_ms_(0),
	avg_diff_ms_(0) {}

	bool StreamSynchronization::ComputeRelativeDelay(
	const Measurements& audio_measurement,
	const Measurements& video_measurement,
	int* relative_delay_ms) {
	int64_t audio_last_capture_time_ms;
	if (!audio_measurement.rtp_to_ntp.Estimate(audio_measurement.latest_timestamp,
	&audio_last_capture_time_ms)) {
	return false;
	}
	int64_t video_last_capture_time_ms;
	if (!video_measurement.rtp_to_ntp.Estimate(video_measurement.latest_timestamp,
	&video_last_capture_time_ms)) {
	return false;
	}
	if (video_last_capture_time_ms < 0) {
	return false;
	}
	// Positive diff means that video_measurement is behind audio_measurement.
	*relative_delay_ms =
	video_measurement.latest_receive_time_ms -
	audio_measurement.latest_receive_time_ms -
	(video_last_capture_time_ms - audio_last_capture_time_ms);

	if (*relative_delay_ms > kMaxDeltaDelayMs \|\|
	*relative_delay_ms < -kMaxDeltaDelayMs) {
	return false;
	}
	return true;
	}

	bool StreamSynchronization::ComputeDelays(int relative_delay_ms,
	int current_audio_delay_ms,
	int* total_audio_delay_target_ms,
	int* total_video_delay_target_ms) {
	int current_video_delay_ms = *total_video_delay_target_ms;

	RTC_LOG(LS_VERBOSE) << "Audio delay: " << current_audio_delay_ms
	<< " current diff: " << relative_delay_ms
	<< " for stream " << audio_stream_id_;

	// Calculate the difference between the lowest possible video delay and the
	// current audio delay.
	int current_diff_ms =
	current_video_delay_ms - current_audio_delay_ms + relative_delay_ms;

	avg_diff_ms_ =
	((kFilterLength - 1) * avg_diff_ms_ + current_diff_ms) / kFilterLength;
	if (abs(avg_diff_ms_) < kMinDeltaMs) {
	// Don't adjust if the diff is within our margin.
	return false;
	}

	// Make sure we don't move too fast.
	int diff_ms = avg_diff_ms_ / 2;
	diff_ms = std::min(diff_ms, kMaxChangeMs);
	diff_ms = std::max(diff_ms, -kMaxChangeMs);

	// Reset the average after a move to prevent overshooting reaction.
	avg_diff_ms_ = 0;

	if (diff_ms > 0) {
	// The minimum video delay is longer than the current audio delay.
	// We need to decrease extra video delay, or add extra audio delay.
	if (video_delay_.extra_ms > base_target_delay_ms_) {
	// We have extra delay added to ViE. Reduce this delay before adding
	// extra delay to VoE.
	video_delay_.extra_ms -= diff_ms;
	audio_delay_.extra_ms = base_target_delay_ms_;
	} else { // video_delay_.extra_ms > 0
	// We have no extra video delay to remove, increase the audio delay.
	audio_delay_.extra_ms += diff_ms;
	video_delay_.extra_ms = base_target_delay_ms_;
	}
	} else { // if (diff_ms > 0)
	// The video delay is lower than the current audio delay.
	// We need to decrease extra audio delay, or add extra video delay.
	if (audio_delay_.extra_ms > base_target_delay_ms_) {
	// We have extra delay in VoiceEngine.
	// Start with decreasing the voice delay.
	// Note: diff_ms is negative; add the negative difference.
	audio_delay_.extra_ms += diff_ms;
	video_delay_.extra_ms = base_target_delay_ms_;
	} else { // audio_delay_.extra_ms > base_target_delay_ms_
	// We have no extra delay in VoiceEngine, increase the video delay.
	// Note: diff_ms is negative; subtract the negative difference.
	video_delay_.extra_ms -= diff_ms; // X - (-Y) = X + Y.
	audio_delay_.extra_ms = base_target_delay_ms_;
	}
	}

	// Make sure that video is never below our target.
	video_delay_.extra_ms =
	std::max(video_delay_.extra_ms, base_target_delay_ms_);

	int new_video_delay_ms;
	if (video_delay_.extra_ms > base_target_delay_ms_) {
	new_video_delay_ms = video_delay_.extra_ms;
	} else {
	// No change to the extra video delay. We are changing audio and we only
	// allow to change one at the time.
	new_video_delay_ms = video_delay_.last_ms;
	}

	// Make sure that we don't go below the extra video delay.
	new_video_delay_ms = std::max(new_video_delay_ms, video_delay_.extra_ms);

	// Verify we don't go above the maximum allowed video delay.
	new_video_delay_ms =
	std::min(new_video_delay_ms, base_target_delay_ms_ + kMaxDeltaDelayMs);

	int new_audio_delay_ms;
	if (audio_delay_.extra_ms > base_target_delay_ms_) {
	new_audio_delay_ms = audio_delay_.extra_ms;
	} else {
	// No change to the audio delay. We are changing video and we only allow to
	// change one at the time.
	new_audio_delay_ms = audio_delay_.last_ms;
	}

	// Make sure that we don't go below the extra audio delay.
	new_audio_delay_ms = std::max(new_audio_delay_ms, audio_delay_.extra_ms);

	// Verify we don't go above the maximum allowed audio delay.
	new_audio_delay_ms =
	std::min(new_audio_delay_ms, base_target_delay_ms_ + kMaxDeltaDelayMs);

	video_delay_.last_ms = new_video_delay_ms;
	audio_delay_.last_ms = new_audio_delay_ms;

	RTC_LOG(LS_VERBOSE) << "Sync video delay " << new_video_delay_ms
	<< " for video stream " << video_stream_id_
	<< " and audio delay " << audio_delay_.extra_ms
	<< " for audio stream " << audio_stream_id_;

	*total_video_delay_target_ms = new_video_delay_ms;
	*total_audio_delay_target_ms = new_audio_delay_ms;
	return true;
	}

	void StreamSynchronization::SetTargetBufferingDelay(int target_delay_ms) {
	// Initial extra delay for audio (accounting for existing extra delay).
	audio_delay_.extra_ms += target_delay_ms - base_target_delay_ms_;
	audio_delay_.last_ms += target_delay_ms - base_target_delay_ms_;

	// The video delay is compared to the last value (and how much we can update
	// is limited by that as well).
	video_delay_.last_ms += target_delay_ms - base_target_delay_ms_;
	video_delay_.extra_ms += target_delay_ms - base_target_delay_ms_;

	// Video is already delayed by the desired amount.
	base_target_delay_ms_ = target_delay_ms;
	}

	void StreamSynchronization::ReduceAudioDelay() {
	audio_delay_.extra_ms *= 0.9f;
	}

	void StreamSynchronization::ReduceVideoDelay() {
	video_delay_.extra_ms *= 0.9f;
	}

	} // namespace webrtc