src/starboard/audio_sink.h - cobalt - Git at Google

 // Copyright 2016 Google Inc. All Rights Reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 // Module Overview: Starboard Audio Sink API
 //
 // Provides an interface to output raw audio data.

 #ifndef STARBOARD_AUDIO_SINK_H_
 #define STARBOARD_AUDIO_SINK_H_

 #include "starboard/configuration.h"

 #include "starboard/export.h"
 #include "starboard/media.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 // --- Types -----------------------------------------------------------------

 // An array of frame buffers.  For interleaved audio streams, there will be
 // only one element in the array.  For planar audio streams, the number of
 // elements in the array equal to the number of channels.
 typedef void** SbAudioSinkFrameBuffers;

 // An opaque handle to an implementation-private structure representing an
 // audio sink.
 typedef struct SbAudioSinkPrivate* SbAudioSink;

 // Callback being called periodically to retrieve the status of the audio
 // source.  The first two output parameters indicating the filling level of the
 // audio frame buffer passed to SbAudioSinkCreate as |frame_buffers|.  As
 // |frame_buffers| is a circular buffer, |offset_in_frames| can be used to
 // calculate the number of continuous frames towards the end of the buffer.
 // The audio sink can play the frames only when |is_playing| is true.  It should
 // pause the playback when |is_playing| is false.
 // The audio sink may cache certain amount of audio frames before start
 // playback.  It will start playback immediately when |is_eos_reached| is true
 // even if the amount of cached audio frames are not enough as no more frames
 // will be appended into the buffer when |is_eos_reached| is true.
 // It is possible for a host to set |is_eos_reached| to false after setting it
 // to true, usually this is caused by a seek.
 // All parameters except |context| cannot be NULL.
 // Note that this function only reports the status of the source, it doesn't
 // remove audio data from the source frame buffer.
 typedef void (*SbAudioSinkUpdateSourceStatusFunc)(int* frames_in_buffer,
                                                   int* offset_in_frames,
                                                   bool* is_playing,
                                                   bool* is_eos_reached,
                                                   void* context);

 // Callback used to report frames consumed.  The consumed frames will be
 // removed from the source frame buffer to free space for new audio frames.
 #if SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
 // When |frames_consumed| is updated asynchnously and the last time that it has
 // been updated is known, it can be passed in |frames_consumed_at| so the audio
 // time calculating can be more accurate.
 #endif  // SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
 typedef void (*SbAudioSinkConsumeFramesFunc)(int frames_consumed,
 #if SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
                                              SbTime frames_consumed_at,
 #endif  // SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
                                              void* context);

 // Well-defined value for an invalid audio sink.
 #define kSbAudioSinkInvalid ((SbAudioSink)NULL)

 // --- Functions -------------------------------------------------------------

 // Indicates whether the given audio sink handle is valid.
 //
 // |audio_sink|: The audio sink handle to check.
 SB_EXPORT bool SbAudioSinkIsValid(SbAudioSink audio_sink);

 // Creates an audio sink for the specified |channels| and
 // |sampling_frequency_hz|, acquires all resources needed to operate the
 // audio sink, and returns an opaque handle to the audio sink.
 //
 // If the particular platform doesn't support the requested audio sink, the
 // function returns |kSbAudioSinkInvalid| without calling any of the callbacks.
 // If there is a platform limitation on how many audio sinks can coexist
 // simultaneously, then calls made to this function that attempt to exceed
 // that limit must return |kSbAudioSinkInvalid|. Multiple calls to
 // SbAudioSinkCreate must not cause a crash.
 //
 // |channels|: The number of audio channels, such as left and right channels
 // in stereo audio.
 // |sampling_frequency_hz|: The sample frequency of the audio data being
 // streamed. For example, 22,000 Hz means 22,000 sample elements represents
 // one second of audio data.
 // |audio_sample_type|: The type of each sample of the audio data --
 // |int16|, |float32|, etc.
 // |audio_frame_storage_type|: Indicates whether frames are interleaved or
 // planar.
 // |frame_buffers|: An array of pointers to sample data.
 // - If the sink is operating in interleaved mode, the array contains only
 //   one element, which is an array containing (|frames_per_channel| *
 //   |channels|) samples.
 // - If the sink is operating in planar mode, the number of elements in the
 //   array is the same as |channels|, and each element is an array of
 //   |frames_per_channel| samples. The caller has to ensure that
 //   |frame_buffers| is valid until SbAudioSinkDestroy is called.
 // |frames_per_channel|: The size of the frame buffers, in units of the
 // number of samples per channel. The frame, in this case, represents a
 // group of samples at the same media time, one for each channel.
 // |update_source_status_func|: The audio sink calls this function on an
 // internal thread to query the status of the source. The value cannot be NULL.
 // |consume_frames_func|: The audio sink calls this function on an internal
 // thread to report consumed frames. The value cannot be NULL.
 // |context|: A value that is passed back to all callbacks and is generally
 // used to point at a class or struct that contains state associated with the
 // audio sink.
 // |update_source_status_func|: A function that the audio sink starts to call
 // immediately after SbAudioSinkCreate is called, even before it returns.
 // The caller has to ensure that the callback functions above return
 // meaningful values in this case.
 SB_EXPORT SbAudioSink
 SbAudioSinkCreate(int channels,
                   int sampling_frequency_hz,
                   SbMediaAudioSampleType audio_sample_type,
                   SbMediaAudioFrameStorageType audio_frame_storage_type,
                   SbAudioSinkFrameBuffers frame_buffers,
                   int frames_per_channel,
                   SbAudioSinkUpdateSourceStatusFunc update_source_status_func,
                   SbAudioSinkConsumeFramesFunc consume_frames_func,
                   void* context);

 // Destroys |audio_sink|, freeing all associated resources. Before
 // returning, the function waits until all callbacks that are in progress
 // have finished. After the function returns, no further calls are made
 // callbacks passed into SbAudioSinkCreate. In addition, you can not pass
 // |audio_sink| to any other SbAudioSink functions after SbAudioSinkDestroy
 // has been called on it.
 //
 // This function can be called on any thread. However, it cannot be called
 // within any of the callbacks passed into SbAudioSinkCreate.
 //
 // |audio_sink|: The audio sink to destroy.
 SB_EXPORT void SbAudioSinkDestroy(SbAudioSink audio_sink);

 // Returns the maximum number of channels supported on the platform. For
 // example, the number would be |2| if the platform only supports stereo.
 SB_EXPORT int SbAudioSinkGetMaxChannels();

 // Returns the supported sample rate closest to |sampling_frequency_hz|.
 // On platforms that don't support all sample rates, it is the caller's
 // responsibility to resample the audio frames into the supported sample rate
 // returned by this function.
 SB_EXPORT int SbAudioSinkGetNearestSupportedSampleFrequency(
     int sampling_frequency_hz);

 // Indicates whether |audio_sample_type| is supported on this platform.
 SB_EXPORT bool SbAudioSinkIsAudioSampleTypeSupported(
     SbMediaAudioSampleType audio_sample_type);

 // Indicates whether |audio_frame_storage_type| is supported on this
 // platform.
 SB_EXPORT bool SbAudioSinkIsAudioFrameStorageTypeSupported(
     SbMediaAudioFrameStorageType audio_frame_storage_type);

 #ifdef __cplusplus
 }  // extern "C"
 #endif

 #endif  // STARBOARD_AUDIO_SINK_H_
	// Copyright 2016 Google Inc. All Rights Reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	// Module Overview: Starboard Audio Sink API
	//
	// Provides an interface to output raw audio data.

	#ifndef STARBOARD_AUDIO_SINK_H_
	#define STARBOARD_AUDIO_SINK_H_

	#include "starboard/configuration.h"

	#include "starboard/export.h"
	#include "starboard/media.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	// --- Types -----------------------------------------------------------------

	// An array of frame buffers. For interleaved audio streams, there will be
	// only one element in the array. For planar audio streams, the number of
	// elements in the array equal to the number of channels.
	typedef void** SbAudioSinkFrameBuffers;

	// An opaque handle to an implementation-private structure representing an
	// audio sink.
	typedef struct SbAudioSinkPrivate* SbAudioSink;

	// Callback being called periodically to retrieve the status of the audio
	// source. The first two output parameters indicating the filling level of the
	// audio frame buffer passed to SbAudioSinkCreate as \|frame_buffers\|. As
	// \|frame_buffers\| is a circular buffer, \|offset_in_frames\| can be used to
	// calculate the number of continuous frames towards the end of the buffer.
	// The audio sink can play the frames only when \|is_playing\| is true. It should
	// pause the playback when \|is_playing\| is false.
	// The audio sink may cache certain amount of audio frames before start
	// playback. It will start playback immediately when \|is_eos_reached\| is true
	// even if the amount of cached audio frames are not enough as no more frames
	// will be appended into the buffer when \|is_eos_reached\| is true.
	// It is possible for a host to set \|is_eos_reached\| to false after setting it
	// to true, usually this is caused by a seek.
	// All parameters except \|context\| cannot be NULL.
	// Note that this function only reports the status of the source, it doesn't
	// remove audio data from the source frame buffer.
	typedef void (SbAudioSinkUpdateSourceStatusFunc)(int frames_in_buffer,
	int* offset_in_frames,
	bool* is_playing,
	bool* is_eos_reached,
	void* context);

	// Callback used to report frames consumed. The consumed frames will be
	// removed from the source frame buffer to free space for new audio frames.
	#if SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
	// When \|frames_consumed\| is updated asynchnously and the last time that it has
	// been updated is known, it can be passed in \|frames_consumed_at\| so the audio
	// time calculating can be more accurate.
	#endif // SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
	typedef void (*SbAudioSinkConsumeFramesFunc)(int frames_consumed,
	#if SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
	SbTime frames_consumed_at,
	#endif // SB_HAS(ASYNC_AUDIO_FRAMES_REPORTING)
	void* context);

	// Well-defined value for an invalid audio sink.
	#define kSbAudioSinkInvalid ((SbAudioSink)NULL)

	// --- Functions -------------------------------------------------------------

	// Indicates whether the given audio sink handle is valid.
	//
	// \|audio_sink\|: The audio sink handle to check.
	SB_EXPORT bool SbAudioSinkIsValid(SbAudioSink audio_sink);

	// Creates an audio sink for the specified \|channels\| and
	// \|sampling_frequency_hz\|, acquires all resources needed to operate the
	// audio sink, and returns an opaque handle to the audio sink.
	//
	// If the particular platform doesn't support the requested audio sink, the
	// function returns \|kSbAudioSinkInvalid\| without calling any of the callbacks.
	// If there is a platform limitation on how many audio sinks can coexist
	// simultaneously, then calls made to this function that attempt to exceed
	// that limit must return \|kSbAudioSinkInvalid\|. Multiple calls to
	// SbAudioSinkCreate must not cause a crash.
	//
	// \|channels\|: The number of audio channels, such as left and right channels
	// in stereo audio.
	// \|sampling_frequency_hz\|: The sample frequency of the audio data being
	// streamed. For example, 22,000 Hz means 22,000 sample elements represents
	// one second of audio data.
	// \|audio_sample_type\|: The type of each sample of the audio data --
	// \|int16\|, \|float32\|, etc.
	// \|audio_frame_storage_type\|: Indicates whether frames are interleaved or
	// planar.
	// \|frame_buffers\|: An array of pointers to sample data.
	// - If the sink is operating in interleaved mode, the array contains only
	// one element, which is an array containing (\|frames_per_channel\| *
	// \|channels\|) samples.
	// - If the sink is operating in planar mode, the number of elements in the
	// array is the same as \|channels\|, and each element is an array of
	// \|frames_per_channel\| samples. The caller has to ensure that
	// \|frame_buffers\| is valid until SbAudioSinkDestroy is called.
	// \|frames_per_channel\|: The size of the frame buffers, in units of the
	// number of samples per channel. The frame, in this case, represents a
	// group of samples at the same media time, one for each channel.
	// \|update_source_status_func\|: The audio sink calls this function on an
	// internal thread to query the status of the source. The value cannot be NULL.
	// \|consume_frames_func\|: The audio sink calls this function on an internal
	// thread to report consumed frames. The value cannot be NULL.
	// \|context\|: A value that is passed back to all callbacks and is generally
	// used to point at a class or struct that contains state associated with the
	// audio sink.
	// \|update_source_status_func\|: A function that the audio sink starts to call
	// immediately after SbAudioSinkCreate is called, even before it returns.
	// The caller has to ensure that the callback functions above return
	// meaningful values in this case.
	SB_EXPORT SbAudioSink
	SbAudioSinkCreate(int channels,
	int sampling_frequency_hz,
	SbMediaAudioSampleType audio_sample_type,
	SbMediaAudioFrameStorageType audio_frame_storage_type,
	SbAudioSinkFrameBuffers frame_buffers,
	int frames_per_channel,
	SbAudioSinkUpdateSourceStatusFunc update_source_status_func,
	SbAudioSinkConsumeFramesFunc consume_frames_func,
	void* context);

	// Destroys \|audio_sink\|, freeing all associated resources. Before
	// returning, the function waits until all callbacks that are in progress
	// have finished. After the function returns, no further calls are made
	// callbacks passed into SbAudioSinkCreate. In addition, you can not pass
	// \|audio_sink\| to any other SbAudioSink functions after SbAudioSinkDestroy
	// has been called on it.
	//
	// This function can be called on any thread. However, it cannot be called
	// within any of the callbacks passed into SbAudioSinkCreate.
	//
	// \|audio_sink\|: The audio sink to destroy.
	SB_EXPORT void SbAudioSinkDestroy(SbAudioSink audio_sink);

	// Returns the maximum number of channels supported on the platform. For
	// example, the number would be \|2\| if the platform only supports stereo.
	SB_EXPORT int SbAudioSinkGetMaxChannels();

	// Returns the supported sample rate closest to \|sampling_frequency_hz\|.
	// On platforms that don't support all sample rates, it is the caller's
	// responsibility to resample the audio frames into the supported sample rate
	// returned by this function.
	SB_EXPORT int SbAudioSinkGetNearestSupportedSampleFrequency(
	int sampling_frequency_hz);

	// Indicates whether \|audio_sample_type\| is supported on this platform.
	SB_EXPORT bool SbAudioSinkIsAudioSampleTypeSupported(
	SbMediaAudioSampleType audio_sample_type);

	// Indicates whether \|audio_frame_storage_type\| is supported on this
	// platform.
	SB_EXPORT bool SbAudioSinkIsAudioFrameStorageTypeSupported(
	SbMediaAudioFrameStorageType audio_frame_storage_type);

	#ifdef __cplusplus
	} // extern "C"
	#endif

	#endif // STARBOARD_AUDIO_SINK_H_