sdk/android/src/jni/audio_device/opensles_recorder.h - src - Git at Google

 /*
  *  Copyright (c) 2016 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 SDK_ANDROID_SRC_JNI_AUDIO_DEVICE_OPENSLES_RECORDER_H_
 #define SDK_ANDROID_SRC_JNI_AUDIO_DEVICE_OPENSLES_RECORDER_H_

 #include <SLES/OpenSLES.h>
 #include <SLES/OpenSLES_Android.h>
 #include <SLES/OpenSLES_AndroidConfiguration.h>

 #include <memory>

 #include "api/scoped_refptr.h"
 #include "api/sequence_checker.h"
 #include "modules/audio_device/audio_device_buffer.h"
 #include "modules/audio_device/fine_audio_buffer.h"
 #include "modules/audio_device/include/audio_device_defines.h"
 #include "sdk/android/src/jni/audio_device/audio_common.h"
 #include "sdk/android/src/jni/audio_device/audio_device_module.h"
 #include "sdk/android/src/jni/audio_device/opensles_common.h"

 namespace webrtc {

 class FineAudioBuffer;

 namespace jni {

 // Implements 16-bit mono PCM audio input support for Android using the
 // C based OpenSL ES API. No calls from C/C++ to Java using JNI is done.
 //
 // An instance can be created on any thread, but must then be used on one and
 // the same thread. All public methods must also be called on the same thread. A
 // thread checker will RTC_DCHECK if any method is called on an invalid thread.
 // Recorded audio buffers are provided on a dedicated internal thread managed by
 // the OpenSL ES layer.
 //
 // The existing design forces the user to call InitRecording() after
 // StopRecording() to be able to call StartRecording() again. This is inline
 // with how the Java-based implementation works.
 //
 // As of API level 21, lower latency audio input is supported on select devices.
 // To take advantage of this feature, first confirm that lower latency output is
 // available. The capability for lower latency output is a prerequisite for the
 // lower latency input feature. Then, create an AudioRecorder with the same
 // sample rate and buffer size as would be used for output. OpenSL ES interfaces
 // for input effects preclude the lower latency path.
 // See https://developer.android.com/ndk/guides/audio/opensl-prog-notes.html
 // for more details.
 class OpenSLESRecorder : public AudioInput {
  public:
   // Beginning with API level 17 (Android 4.2), a buffer count of 2 or more is
   // required for lower latency. Beginning with API level 18 (Android 4.3), a
   // buffer count of 1 is sufficient for lower latency. In addition, the buffer
   // size and sample rate must be compatible with the device's native input
   // configuration provided via the audio manager at construction.
   // TODO(henrika): perhaps set this value dynamically based on OS version.
   static const int kNumOfOpenSLESBuffers = 2;

   OpenSLESRecorder(const AudioParameters& audio_parameters,
                    rtc::scoped_refptr<OpenSLEngineManager> engine_manager);
   ~OpenSLESRecorder() override;

   int Init() override;
   int Terminate() override;

   int InitRecording() override;
   bool RecordingIsInitialized() const override;

   int StartRecording() override;
   int StopRecording() override;
   bool Recording() const override;

   void AttachAudioBuffer(AudioDeviceBuffer* audio_buffer) override;

   // TODO(henrika): add support using OpenSL ES APIs when available.
   bool IsAcousticEchoCancelerSupported() const override;
   bool IsNoiseSuppressorSupported() const override;
   int EnableBuiltInAEC(bool enable) override;
   int EnableBuiltInNS(bool enable) override;

  private:
   // Obtaines the SL Engine Interface from the existing global Engine object.
   // The interface exposes creation methods of all the OpenSL ES object types.
   // This method defines the `engine_` member variable.
   bool ObtainEngineInterface();

   // Creates/destroys the audio recorder and the simple-buffer queue object.
   bool CreateAudioRecorder();
   void DestroyAudioRecorder();

   // Allocate memory for audio buffers which will be used to capture audio
   // via the SLAndroidSimpleBufferQueueItf interface.
   void AllocateDataBuffers();

   // These callback methods are called when data has been written to the input
   // buffer queue. They are both called from an internal "OpenSL ES thread"
   // which is not attached to the Dalvik VM.
   static void SimpleBufferQueueCallback(SLAndroidSimpleBufferQueueItf caller,
                                         void* context);
   void ReadBufferQueue();

   // Wraps calls to SLAndroidSimpleBufferQueueState::Enqueue() and it can be
   // called both on the main thread (but before recording has started) and from
   // the internal audio thread while input streaming is active. It uses
   // `simple_buffer_queue_` but no lock is needed since the initial calls from
   // the main thread and the native callback thread are mutually exclusive.
   bool EnqueueAudioBuffer();

   // Returns the current recorder state.
   SLuint32 GetRecordState() const;

   // Returns the current buffer queue state.
   SLAndroidSimpleBufferQueueState GetBufferQueueState() const;

   // Number of buffers currently in the queue.
   SLuint32 GetBufferCount();

   // Prints a log message of the current queue state. Can be used for debugging
   // purposes.
   void LogBufferState() const;

   // Ensures that methods are called from the same thread as this object is
   // created on.
   SequenceChecker thread_checker_;

   // Stores thread ID in first call to SimpleBufferQueueCallback() from internal
   // non-application thread which is not attached to the Dalvik JVM.
   // Detached during construction of this object.
   SequenceChecker thread_checker_opensles_;

   const AudioParameters audio_parameters_;

   // Raw pointer handle provided to us in AttachAudioBuffer(). Owned by the
   // AudioDeviceModuleImpl class and called by AudioDeviceModule::Create().
   AudioDeviceBuffer* audio_device_buffer_;

   // PCM-type format definition.
   // TODO(henrika): add support for SLAndroidDataFormat_PCM_EX (android-21) if
   // 32-bit float representation is needed.
   SLDataFormat_PCM pcm_format_;

   bool initialized_;
   bool recording_;

   const rtc::scoped_refptr<OpenSLEngineManager> engine_manager_;
   // This interface exposes creation methods for all the OpenSL ES object types.
   // It is the OpenSL ES API entry point.
   SLEngineItf engine_;

   // The audio recorder media object records audio to the destination specified
   // by the data sink capturing it from the input specified by the data source.
   ScopedSLObjectItf recorder_object_;

   // This interface is supported on the audio recorder object and it controls
   // the state of the audio recorder.
   SLRecordItf recorder_;

   // The Android Simple Buffer Queue interface is supported on the audio
   // recorder. For recording, an app should enqueue empty buffers. When a
   // registered callback sends notification that the system has finished writing
   // data to the buffer, the app can read the buffer.
   SLAndroidSimpleBufferQueueItf simple_buffer_queue_;

   // Consumes audio of native buffer size and feeds the WebRTC layer with 10ms
   // chunks of audio.
   std::unique_ptr<FineAudioBuffer> fine_audio_buffer_;

   // Queue of audio buffers to be used by the recorder object for capturing
   // audio. They will be used in a Round-robin way and the size of each buffer
   // is given by AudioParameters::frames_per_buffer(), i.e., it corresponds to
   // the native OpenSL ES buffer size.
   std::unique_ptr<std::unique_ptr<SLint16[]>[]> audio_buffers_;

   // Keeps track of active audio buffer 'n' in the audio_buffers_[n] queue.
   // Example (kNumOfOpenSLESBuffers = 2): counts 0, 1, 0, 1, ...
   int buffer_index_;

   // Last time the OpenSL ES layer delivered recorded audio data.
   uint32_t last_rec_time_;
 };

 }  // namespace jni

 }  // namespace webrtc

 #endif  // SDK_ANDROID_SRC_JNI_AUDIO_DEVICE_OPENSLES_RECORDER_H_
	/*
	* Copyright (c) 2016 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 SDK_ANDROID_SRC_JNI_AUDIO_DEVICE_OPENSLES_RECORDER_H_
	#define SDK_ANDROID_SRC_JNI_AUDIO_DEVICE_OPENSLES_RECORDER_H_

	#include <SLES/OpenSLES.h>
	#include <SLES/OpenSLES_Android.h>
	#include <SLES/OpenSLES_AndroidConfiguration.h>

	#include <memory>

	#include "api/scoped_refptr.h"
	#include "api/sequence_checker.h"
	#include "modules/audio_device/audio_device_buffer.h"
	#include "modules/audio_device/fine_audio_buffer.h"
	#include "modules/audio_device/include/audio_device_defines.h"
	#include "sdk/android/src/jni/audio_device/audio_common.h"
	#include "sdk/android/src/jni/audio_device/audio_device_module.h"
	#include "sdk/android/src/jni/audio_device/opensles_common.h"

	namespace webrtc {

	class FineAudioBuffer;

	namespace jni {

	// Implements 16-bit mono PCM audio input support for Android using the
	// C based OpenSL ES API. No calls from C/C++ to Java using JNI is done.
	//
	// An instance can be created on any thread, but must then be used on one and
	// the same thread. All public methods must also be called on the same thread. A
	// thread checker will RTC_DCHECK if any method is called on an invalid thread.
	// Recorded audio buffers are provided on a dedicated internal thread managed by
	// the OpenSL ES layer.
	//
	// The existing design forces the user to call InitRecording() after
	// StopRecording() to be able to call StartRecording() again. This is inline
	// with how the Java-based implementation works.
	//
	// As of API level 21, lower latency audio input is supported on select devices.
	// To take advantage of this feature, first confirm that lower latency output is
	// available. The capability for lower latency output is a prerequisite for the
	// lower latency input feature. Then, create an AudioRecorder with the same
	// sample rate and buffer size as would be used for output. OpenSL ES interfaces
	// for input effects preclude the lower latency path.
	// See https://developer.android.com/ndk/guides/audio/opensl-prog-notes.html
	// for more details.
	class OpenSLESRecorder : public AudioInput {
	public:
	// Beginning with API level 17 (Android 4.2), a buffer count of 2 or more is
	// required for lower latency. Beginning with API level 18 (Android 4.3), a
	// buffer count of 1 is sufficient for lower latency. In addition, the buffer
	// size and sample rate must be compatible with the device's native input
	// configuration provided via the audio manager at construction.
	// TODO(henrika): perhaps set this value dynamically based on OS version.
	static const int kNumOfOpenSLESBuffers = 2;

	OpenSLESRecorder(const AudioParameters& audio_parameters,
	rtc::scoped_refptr<OpenSLEngineManager> engine_manager);
	~OpenSLESRecorder() override;

	int Init() override;
	int Terminate() override;

	int InitRecording() override;
	bool RecordingIsInitialized() const override;

	int StartRecording() override;
	int StopRecording() override;
	bool Recording() const override;

	void AttachAudioBuffer(AudioDeviceBuffer* audio_buffer) override;

	// TODO(henrika): add support using OpenSL ES APIs when available.
	bool IsAcousticEchoCancelerSupported() const override;
	bool IsNoiseSuppressorSupported() const override;
	int EnableBuiltInAEC(bool enable) override;
	int EnableBuiltInNS(bool enable) override;

	private:
	// Obtaines the SL Engine Interface from the existing global Engine object.
	// The interface exposes creation methods of all the OpenSL ES object types.
	// This method defines the `engine_` member variable.
	bool ObtainEngineInterface();

	// Creates/destroys the audio recorder and the simple-buffer queue object.
	bool CreateAudioRecorder();
	void DestroyAudioRecorder();

	// Allocate memory for audio buffers which will be used to capture audio
	// via the SLAndroidSimpleBufferQueueItf interface.
	void AllocateDataBuffers();

	// These callback methods are called when data has been written to the input
	// buffer queue. They are both called from an internal "OpenSL ES thread"
	// which is not attached to the Dalvik VM.
	static void SimpleBufferQueueCallback(SLAndroidSimpleBufferQueueItf caller,
	void* context);
	void ReadBufferQueue();

	// Wraps calls to SLAndroidSimpleBufferQueueState::Enqueue() and it can be
	// called both on the main thread (but before recording has started) and from
	// the internal audio thread while input streaming is active. It uses
	// `simple_buffer_queue_` but no lock is needed since the initial calls from
	// the main thread and the native callback thread are mutually exclusive.
	bool EnqueueAudioBuffer();

	// Returns the current recorder state.
	SLuint32 GetRecordState() const;

	// Returns the current buffer queue state.
	SLAndroidSimpleBufferQueueState GetBufferQueueState() const;

	// Number of buffers currently in the queue.
	SLuint32 GetBufferCount();

	// Prints a log message of the current queue state. Can be used for debugging
	// purposes.
	void LogBufferState() const;

	// Ensures that methods are called from the same thread as this object is
	// created on.
	SequenceChecker thread_checker_;

	// Stores thread ID in first call to SimpleBufferQueueCallback() from internal
	// non-application thread which is not attached to the Dalvik JVM.
	// Detached during construction of this object.
	SequenceChecker thread_checker_opensles_;

	const AudioParameters audio_parameters_;

	// Raw pointer handle provided to us in AttachAudioBuffer(). Owned by the
	// AudioDeviceModuleImpl class and called by AudioDeviceModule::Create().
	AudioDeviceBuffer* audio_device_buffer_;

	// PCM-type format definition.
	// TODO(henrika): add support for SLAndroidDataFormat_PCM_EX (android-21) if
	// 32-bit float representation is needed.
	SLDataFormat_PCM pcm_format_;

	bool initialized_;
	bool recording_;

	const rtc::scoped_refptr<OpenSLEngineManager> engine_manager_;
	// This interface exposes creation methods for all the OpenSL ES object types.
	// It is the OpenSL ES API entry point.
	SLEngineItf engine_;

	// The audio recorder media object records audio to the destination specified
	// by the data sink capturing it from the input specified by the data source.
	ScopedSLObjectItf recorder_object_;

	// This interface is supported on the audio recorder object and it controls
	// the state of the audio recorder.
	SLRecordItf recorder_;

	// The Android Simple Buffer Queue interface is supported on the audio
	// recorder. For recording, an app should enqueue empty buffers. When a
	// registered callback sends notification that the system has finished writing
	// data to the buffer, the app can read the buffer.
	SLAndroidSimpleBufferQueueItf simple_buffer_queue_;

	// Consumes audio of native buffer size and feeds the WebRTC layer with 10ms
	// chunks of audio.
	std::unique_ptr<FineAudioBuffer> fine_audio_buffer_;

	// Queue of audio buffers to be used by the recorder object for capturing
	// audio. They will be used in a Round-robin way and the size of each buffer
	// is given by AudioParameters::frames_per_buffer(), i.e., it corresponds to
	// the native OpenSL ES buffer size.
	std::unique_ptr<std::unique_ptr<SLint16[]>[]> audio_buffers_;

	// Keeps track of active audio buffer 'n' in the audio_buffers_[n] queue.
	// Example (kNumOfOpenSLESBuffers = 2): counts 0, 1, 0, 1, ...
	int buffer_index_;

	// Last time the OpenSL ES layer delivered recorded audio data.
	uint32_t last_rec_time_;
	};

	} // namespace jni

	} // namespace webrtc

	#endif // SDK_ANDROID_SRC_JNI_AUDIO_DEVICE_OPENSLES_RECORDER_H_