services/audio/snooper_node.h - chromium/src - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef SERVICES_AUDIO_SNOOPER_NODE_H_
 #define SERVICES_AUDIO_SNOOPER_NODE_H_

 #include <limits>
 #include <memory>

 #include "base/macros.h"
 #include "base/synchronization/lock.h"
 #include "base/time/time.h"
 #include "media/base/audio_parameters.h"
 #include "media/base/channel_mixer.h"
 #include "media/base/multi_channel_resampler.h"
 #include "services/audio/delay_buffer.h"
 #include "services/audio/group_member.h"

 namespace media {
 class AudioBus;
 }  // namespace media

 namespace audio {

 // Thread-safe implementation of Snooper that records the audio from a
 // GroupMember on one thread, and re-renders it to the desired output format on
 // another thread. Since the data flow rates are known to be driven by different
 // clocks (audio hardware clock versus system clock), the base::TimeTicks
 // reference clock is used to detect drift and automatically correct for it to
 // maintain proper synchronization.
 //
 // Throughout this class, there are sample counters (in terms of the input
 // audio's sample rate) that are tracked/computed. They refer to the media
 // timestamp of the audio flowing through specific parts of the processing
 // pipeline: inbound from OnData() calls → through the delay buffer → through
 // the resampler → and outbound via Render() calls:
 //
 //   write position:  The position of audio about to be written into the delay
 //                    buffer. This is managed by OnData().
 //   read position:   The position of audio about to be read from the delay
 //                    buffer and pushed into the resampler. This is managed by
 //                    ReadFromDelayBuffer().
 //   output position: The position of the audio about to come out of the
 //                    resampler. This is computed within Render(). Note that
 //                    this is a "virtual" position since it is in terms of the
 //                    input audio's sample count, but refers to audio about to
 //                    be generated in the output format (with a possibly
 //                    different sample rate).
 //
 // Note that the media timestamps represented by the "positions," as well as the
 // surrounding math operations, might seem backwards; but they are not. This is
 // because the inbound audio is from a source that pre-renders audio for playout
 // in the near future, while the outbound audio is audio that would have been
 // played-out in the recent past.
 class SnooperNode : public GroupMember::Snooper {
  public:
   // Use sample counts as a precise measure of audio signal position and time
   // duration.
   using FrameTicks = int64_t;

   // Contruct a SnooperNode that buffers input of one format and renders output
   // in [possibly] another format.
   SnooperNode(const media::AudioParameters& input_params,
               const media::AudioParameters& output_params);

   ~SnooperNode() final;

   // GroupMember::Snooper implementation. Inserts more data into the delay
   // buffer.
   void OnData(const media::AudioBus& input_bus,
               base::TimeTicks reference_time,
               double volume) final;

   // Renders more audio that was recorded from the GroupMember until
   // |output_bus| is filled, resampling and remixing the channels if necessary.
   // |reference_time| is used for detecting skip-ahead (i.e., a significant
   // forward jump in the reference time) and also to maintain synchronization
   // with the input.
   void Render(base::TimeTicks reference_time, media::AudioBus* output_bus);

  private:
   // Helper to store the new |correction_fps|, recompute the resampling I/O
   // ratio, and reconfigure the resampler with the new ratio.
   void UpdateCorrectionRate(int correction_fps);

   // Called by the MultiChannelResampler to acquire more data from the delay
   // buffer. This is invoked in the same call stack (and thread) as Render(),
   // zero or more times as data is needed by the resampler.
   void ReadFromDelayBuffer(int ignored, media::AudioBus* resampler_bus);

   // Input and output audio parameters.
   const media::AudioParameters input_params_;
   const media::AudioParameters output_params_;

   // Input and output AudioBus time durations, pre-computed from the input and
   // output AudioParameters.
   const base::TimeDelta input_bus_duration_;
   const base::TimeDelta output_bus_duration_;

   // The ratio between the input sampling rate and the output sampling rate. It
   // is "perfect" because it assumes no clock skew. Corrections are applied to
   // this to determine the actual resampler I/O ratio.
   const double perfect_io_ratio_;

   // Protects concurrent access to |buffer_| and the |write_position_| and
   // |write_reference_time_|. All other members are either read-only, or are not
   // accessed by multiple threads.
   base::Lock lock_;

   // Allows input data to be recorded and then read-back from any position
   // later (by the resampler).
   DelayBuffer buffer_;  // Guarded by |lock_|.

   // The next frame position at which to write into the delay buffer, and the
   // TimeTicks representing its corresponding system clock timestamp.
   FrameTicks write_position_;             // Guarded by |lock_|.
   base::TimeTicks write_reference_time_;  // Guarded by |lock_|.

   // The next frame position from which to read from the delay buffer. This is
   // the position of the frames about to be pushed into the resampler, not the
   // position of frames about to be Render()'ed.
   FrameTicks read_position_;

   // The expected |reference_time| to be provided in the next call to Render().
   // This is used to detect skip-ahead in the output, and compensate when
   // necessary.
   base::TimeTicks render_reference_time_;

   // The additional number of frames currently being consumed by the resampler
   // each second to correct for drift.
   int correction_fps_;

   // Resamples input audio that is read from the delay buffer. Even if the input
   // and output have the same sampling rate, this is used to subtly stretch the
   // audio signal to correct for drift.
   media::MultiChannelResampler resampler_;

   // Specifies whether channel mixing should occur before or after resampling,
   // or is not needed. The strategy is chosen such that the minimal number of
   // channels are resampled, as resampling is the more-expensive operation.
   enum { kBefore, kAfter, kNone } const channel_mix_strategy_;

   // Only used when the input channel layout differs from the output.
   media::ChannelMixer channel_mixer_;

   // Only allocated when using the channel mixer. When using the kAfter
   // strategy, it is allocated just once, in the constructor, since its frame
   // length is constant. When using the kBefore strategy, it is re-allocated
   // whenever a larger one is needed and is reused thereafter.
   std::unique_ptr<media::AudioBus> mix_bus_;

   // An impossible value re-purposed to represent the "null" or "not set yet"
   // condition for |read_position_| and |write_position_|.
   static constexpr FrameTicks kNullPosition =
       std::numeric_limits<FrameTicks>::min();

   // The frame position where recording into the delay buffer always starts.
   static constexpr FrameTicks kWriteStartPosition = 0;

   DISALLOW_COPY_AND_ASSIGN(SnooperNode);
 };

 }  // namespace audio

 #endif  // SERVICES_AUDIO_SNOOPER_NODE_H_
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef SERVICES_AUDIO_SNOOPER_NODE_H_
	#define SERVICES_AUDIO_SNOOPER_NODE_H_

	#include <limits>
	#include <memory>

	#include "base/macros.h"
	#include "base/synchronization/lock.h"
	#include "base/time/time.h"
	#include "media/base/audio_parameters.h"
	#include "media/base/channel_mixer.h"
	#include "media/base/multi_channel_resampler.h"
	#include "services/audio/delay_buffer.h"
	#include "services/audio/group_member.h"

	namespace media {
	class AudioBus;
	} // namespace media

	namespace audio {

	// Thread-safe implementation of Snooper that records the audio from a
	// GroupMember on one thread, and re-renders it to the desired output format on
	// another thread. Since the data flow rates are known to be driven by different
	// clocks (audio hardware clock versus system clock), the base::TimeTicks
	// reference clock is used to detect drift and automatically correct for it to
	// maintain proper synchronization.
	//
	// Throughout this class, there are sample counters (in terms of the input
	// audio's sample rate) that are tracked/computed. They refer to the media
	// timestamp of the audio flowing through specific parts of the processing
	// pipeline: inbound from OnData() calls → through the delay buffer → through
	// the resampler → and outbound via Render() calls:
	//
	// write position: The position of audio about to be written into the delay
	// buffer. This is managed by OnData().
	// read position: The position of audio about to be read from the delay
	// buffer and pushed into the resampler. This is managed by
	// ReadFromDelayBuffer().
	// output position: The position of the audio about to come out of the
	// resampler. This is computed within Render(). Note that
	// this is a "virtual" position since it is in terms of the
	// input audio's sample count, but refers to audio about to
	// be generated in the output format (with a possibly
	// different sample rate).
	//
	// Note that the media timestamps represented by the "positions," as well as the
	// surrounding math operations, might seem backwards; but they are not. This is
	// because the inbound audio is from a source that pre-renders audio for playout
	// in the near future, while the outbound audio is audio that would have been
	// played-out in the recent past.
	class SnooperNode : public GroupMember::Snooper {
	public:
	// Use sample counts as a precise measure of audio signal position and time
	// duration.
	using FrameTicks = int64_t;

	// Contruct a SnooperNode that buffers input of one format and renders output
	// in [possibly] another format.
	SnooperNode(const media::AudioParameters& input_params,
	const media::AudioParameters& output_params);

	~SnooperNode() final;

	// GroupMember::Snooper implementation. Inserts more data into the delay
	// buffer.
	void OnData(const media::AudioBus& input_bus,
	base::TimeTicks reference_time,
	double volume) final;

	// Renders more audio that was recorded from the GroupMember until
	// \|output_bus\| is filled, resampling and remixing the channels if necessary.
	// \|reference_time\| is used for detecting skip-ahead (i.e., a significant
	// forward jump in the reference time) and also to maintain synchronization
	// with the input.
	void Render(base::TimeTicks reference_time, media::AudioBus* output_bus);

	private:
	// Helper to store the new \|correction_fps\|, recompute the resampling I/O
	// ratio, and reconfigure the resampler with the new ratio.
	void UpdateCorrectionRate(int correction_fps);

	// Called by the MultiChannelResampler to acquire more data from the delay
	// buffer. This is invoked in the same call stack (and thread) as Render(),
	// zero or more times as data is needed by the resampler.
	void ReadFromDelayBuffer(int ignored, media::AudioBus* resampler_bus);

	// Input and output audio parameters.
	const media::AudioParameters input_params_;
	const media::AudioParameters output_params_;

	// Input and output AudioBus time durations, pre-computed from the input and
	// output AudioParameters.
	const base::TimeDelta input_bus_duration_;
	const base::TimeDelta output_bus_duration_;

	// The ratio between the input sampling rate and the output sampling rate. It
	// is "perfect" because it assumes no clock skew. Corrections are applied to
	// this to determine the actual resampler I/O ratio.
	const double perfect_io_ratio_;

	// Protects concurrent access to \|buffer_\| and the \|write_position_\| and
	// \|write_reference_time_\|. All other members are either read-only, or are not
	// accessed by multiple threads.
	base::Lock lock_;

	// Allows input data to be recorded and then read-back from any position
	// later (by the resampler).
	DelayBuffer buffer_; // Guarded by \|lock_\|.

	// The next frame position at which to write into the delay buffer, and the
	// TimeTicks representing its corresponding system clock timestamp.
	FrameTicks write_position_; // Guarded by \|lock_\|.
	base::TimeTicks write_reference_time_; // Guarded by \|lock_\|.

	// The next frame position from which to read from the delay buffer. This is
	// the position of the frames about to be pushed into the resampler, not the
	// position of frames about to be Render()'ed.
	FrameTicks read_position_;

	// The expected \|reference_time\| to be provided in the next call to Render().
	// This is used to detect skip-ahead in the output, and compensate when
	// necessary.
	base::TimeTicks render_reference_time_;

	// The additional number of frames currently being consumed by the resampler
	// each second to correct for drift.
	int correction_fps_;

	// Resamples input audio that is read from the delay buffer. Even if the input
	// and output have the same sampling rate, this is used to subtly stretch the
	// audio signal to correct for drift.
	media::MultiChannelResampler resampler_;

	// Specifies whether channel mixing should occur before or after resampling,
	// or is not needed. The strategy is chosen such that the minimal number of
	// channels are resampled, as resampling is the more-expensive operation.
	enum { kBefore, kAfter, kNone } const channel_mix_strategy_;

	// Only used when the input channel layout differs from the output.
	media::ChannelMixer channel_mixer_;

	// Only allocated when using the channel mixer. When using the kAfter
	// strategy, it is allocated just once, in the constructor, since its frame
	// length is constant. When using the kBefore strategy, it is re-allocated
	// whenever a larger one is needed and is reused thereafter.
	std::unique_ptr<media::AudioBus> mix_bus_;

	// An impossible value re-purposed to represent the "null" or "not set yet"
	// condition for \|read_position_\| and \|write_position_\|.
	static constexpr FrameTicks kNullPosition =
	std::numeric_limits<FrameTicks>::min();

	// The frame position where recording into the delay buffer always starts.
	static constexpr FrameTicks kWriteStartPosition = 0;

	DISALLOW_COPY_AND_ASSIGN(SnooperNode);
	};

	} // namespace audio

	#endif // SERVICES_AUDIO_SNOOPER_NODE_H_