media/libaaudio/src/client/AudioStreamInternal.h - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * 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.
  */

 #ifndef ANDROID_AAUDIO_AUDIO_STREAM_INTERNAL_H
 #define ANDROID_AAUDIO_AUDIO_STREAM_INTERNAL_H

 #include <stdint.h>
 #include <aaudio/AAudio.h>

 #include "binding/IAAudioService.h"
 #include "binding/AudioEndpointParcelable.h"
 #include "binding/AAudioServiceInterface.h"
 #include "client/IsochronousClockModel.h"
 #include "client/AudioEndpoint.h"
 #include "core/AudioStream.h"
 #include "utility/AudioClock.h"

 using android::sp;
 using android::IAAudioService;

 namespace aaudio {

     // These are intended to be outside the range of what is normally encountered.
     // TODO MAXes should probably be much bigger.
     constexpr int32_t MIN_FRAMES_PER_BURST = 16; // arbitrary
     constexpr int32_t MAX_FRAMES_PER_BURST = 16 * 1024;  // arbitrary
     constexpr int32_t MAX_BUFFER_CAPACITY_IN_FRAMES = 32 * 1024;  // arbitrary

 // A stream that talks to the AAudioService or directly to a HAL.
 class AudioStreamInternal : public AudioStream {

 public:
     AudioStreamInternal(AAudioServiceInterface  &serviceInterface, bool inService);
     virtual ~AudioStreamInternal();

     aaudio_result_t requestStart() override;

     aaudio_result_t requestStop() override;

     aaudio_result_t getTimestamp(clockid_t clockId,
                                        int64_t *framePosition,
                                        int64_t *timeNanoseconds) override;

     virtual aaudio_result_t updateStateMachine() override;

     aaudio_result_t open(const AudioStreamBuilder &builder) override;

     aaudio_result_t close() override;

     aaudio_result_t setBufferSize(int32_t requestedFrames) override;

     int32_t getBufferSize() const override;

     int32_t getBufferCapacity() const override;

     int32_t getFramesPerBurst() const override;

     int32_t getXRunCount() const override {
         return mXRunCount;
     }

     aaudio_result_t registerThread() override;

     aaudio_result_t unregisterThread() override;

     aaudio_result_t joinThread(void** returnArg);

     // Called internally from 'C'
     virtual void *callbackLoop() = 0;


     bool isMMap() override {
         return true;
     }

     // Calculate timeout based on framesPerBurst
     int64_t calculateReasonableTimeout();

     aaudio_result_t startClient(const android::AudioClient& client,
                                 audio_port_handle_t *clientHandle);

     aaudio_result_t stopClient(audio_port_handle_t clientHandle);

     aaudio_handle_t getServiceHandle() const {
         return mServiceStreamHandle;
     }

 protected:

     aaudio_result_t processData(void *buffer,
                          int32_t numFrames,
                          int64_t timeoutNanoseconds);

 /**
  * Low level data processing that will not block. It will just read or write as much as it can.
  *
  * It passed back a recommended time to wake up if wakeTimePtr is not NULL.
  *
  * @return the number of frames processed or a negative error code.
  */
     virtual aaudio_result_t processDataNow(void *buffer,
                             int32_t numFrames,
                             int64_t currentTimeNanos,
                             int64_t *wakeTimePtr) = 0;

     aaudio_result_t drainTimestampsFromService();

     aaudio_result_t processCommands();

     aaudio_result_t stopCallback();

     virtual void advanceClientToMatchServerPosition() = 0;

     virtual void onFlushFromServer() {}

     aaudio_result_t onEventFromServer(AAudioServiceMessage *message);

     aaudio_result_t onTimestampService(AAudioServiceMessage *message);

     aaudio_result_t onTimestampHardware(AAudioServiceMessage *message);

     void logTimestamp(AAudioServiceMessage &message);

     // Calculate timeout for an operation involving framesPerOperation.
     int64_t calculateReasonableTimeout(int32_t framesPerOperation);

     int32_t getDeviceChannelCount() const { return mDeviceChannelCount; }

     /**
      * @return true if running in audio service, versus in app process
      */
     bool isInService() const { return mInService; }

     /**
      * Is the service FIFO position currently controlled by the AAudio service or HAL,
      * or set based on the Clock Model.
      *
      * @return true if the ClockModel is currently determining the FIFO position
      */
     bool isClockModelInControl() const;

     IsochronousClockModel    mClockModel;      // timing model for chasing the HAL

     AudioEndpoint            mAudioEndpoint;   // source for reads or sink for writes
     aaudio_handle_t          mServiceStreamHandle; // opaque handle returned from service

     int32_t                  mFramesPerBurst = MIN_FRAMES_PER_BURST; // frames per HAL transfer
     int32_t                  mXRunCount = 0;      // how many underrun events?

     // Offset from underlying frame position.
     int64_t                  mFramesOffsetFromService = 0; // offset for timestamps

     uint8_t                 *mCallbackBuffer = nullptr;
     int32_t                  mCallbackFrames = 0;

     // The service uses this for SHARED mode.
     bool                     mInService = false;  // Is this running in the client or the service?

     AAudioServiceInterface  &mServiceInterface;   // abstract interface to the service

     SimpleDoubleBuffer<Timestamp>  mAtomicInternalTimestamp;

     AtomicRequestor          mNeedCatchUp;   // Ask read() or write() to sync on first timestamp.

     float                    mStreamVolume = 1.0f;

 private:
     /*
      * Asynchronous write with data conversion.
      * @param buffer
      * @param numFrames
      * @return fdrames written or negative error
      */
     aaudio_result_t writeNowWithConversion(const void *buffer,
                                      int32_t numFrames);

     // Adjust timing model based on timestamp from service.
     void processTimestamp(uint64_t position, int64_t time);

     // Thread on other side of FIFO will have wakeup jitter.
     // By delaying slightly we can avoid waking up before other side is ready.
     const int32_t            mWakeupDelayNanos; // delay past typical wakeup jitter
     const int32_t            mMinimumSleepNanos; // minimum sleep while polling

     AudioEndpointParcelable  mEndPointParcelable; // description of the buffers filled by service
     EndpointDescriptor       mEndpointDescriptor; // buffer description with resolved addresses

     int64_t                  mServiceLatencyNanos = 0;

     // Sometimes the hardware is operating with a different channel count from the app.
     // Then we require conversion in AAudio.
     int32_t                  mDeviceChannelCount = 0;
 };

 } /* namespace aaudio */

 #endif //ANDROID_AAUDIO_AUDIO_STREAM_INTERNAL_H
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* 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.
	*/

	#ifndef ANDROID_AAUDIO_AUDIO_STREAM_INTERNAL_H
	#define ANDROID_AAUDIO_AUDIO_STREAM_INTERNAL_H

	#include <stdint.h>
	#include <aaudio/AAudio.h>

	#include "binding/IAAudioService.h"
	#include "binding/AudioEndpointParcelable.h"
	#include "binding/AAudioServiceInterface.h"
	#include "client/IsochronousClockModel.h"
	#include "client/AudioEndpoint.h"
	#include "core/AudioStream.h"
	#include "utility/AudioClock.h"

	using android::sp;
	using android::IAAudioService;

	namespace aaudio {

	// These are intended to be outside the range of what is normally encountered.
	// TODO MAXes should probably be much bigger.
	constexpr int32_t MIN_FRAMES_PER_BURST = 16; // arbitrary
	constexpr int32_t MAX_FRAMES_PER_BURST = 16 * 1024; // arbitrary
	constexpr int32_t MAX_BUFFER_CAPACITY_IN_FRAMES = 32 * 1024; // arbitrary

	// A stream that talks to the AAudioService or directly to a HAL.
	class AudioStreamInternal : public AudioStream {

	public:
	AudioStreamInternal(AAudioServiceInterface &serviceInterface, bool inService);
	virtual ~AudioStreamInternal();

	aaudio_result_t requestStart() override;

	aaudio_result_t requestStop() override;

	aaudio_result_t getTimestamp(clockid_t clockId,
	int64_t *framePosition,
	int64_t *timeNanoseconds) override;

	virtual aaudio_result_t updateStateMachine() override;

	aaudio_result_t open(const AudioStreamBuilder &builder) override;

	aaudio_result_t close() override;

	aaudio_result_t setBufferSize(int32_t requestedFrames) override;

	int32_t getBufferSize() const override;

	int32_t getBufferCapacity() const override;

	int32_t getFramesPerBurst() const override;

	int32_t getXRunCount() const override {
	return mXRunCount;
	}

	aaudio_result_t registerThread() override;

	aaudio_result_t unregisterThread() override;

	aaudio_result_t joinThread(void** returnArg);

	// Called internally from 'C'
	virtual void *callbackLoop() = 0;


	bool isMMap() override {
	return true;
	}

	// Calculate timeout based on framesPerBurst
	int64_t calculateReasonableTimeout();

	aaudio_result_t startClient(const android::AudioClient& client,
	audio_port_handle_t *clientHandle);

	aaudio_result_t stopClient(audio_port_handle_t clientHandle);

	aaudio_handle_t getServiceHandle() const {
	return mServiceStreamHandle;
	}

	protected:

	aaudio_result_t processData(void *buffer,
	int32_t numFrames,
	int64_t timeoutNanoseconds);

	/**
	* Low level data processing that will not block. It will just read or write as much as it can.
	*
	* It passed back a recommended time to wake up if wakeTimePtr is not NULL.
	*
	* @return the number of frames processed or a negative error code.
	*/
	virtual aaudio_result_t processDataNow(void *buffer,
	int32_t numFrames,
	int64_t currentTimeNanos,
	int64_t *wakeTimePtr) = 0;

	aaudio_result_t drainTimestampsFromService();

	aaudio_result_t processCommands();

	aaudio_result_t stopCallback();

	virtual void advanceClientToMatchServerPosition() = 0;

	virtual void onFlushFromServer() {}

	aaudio_result_t onEventFromServer(AAudioServiceMessage *message);

	aaudio_result_t onTimestampService(AAudioServiceMessage *message);

	aaudio_result_t onTimestampHardware(AAudioServiceMessage *message);

	void logTimestamp(AAudioServiceMessage &message);

	// Calculate timeout for an operation involving framesPerOperation.
	int64_t calculateReasonableTimeout(int32_t framesPerOperation);

	int32_t getDeviceChannelCount() const { return mDeviceChannelCount; }

	/**
	* @return true if running in audio service, versus in app process
	*/
	bool isInService() const { return mInService; }

	/**
	* Is the service FIFO position currently controlled by the AAudio service or HAL,
	* or set based on the Clock Model.
	*
	* @return true if the ClockModel is currently determining the FIFO position
	*/
	bool isClockModelInControl() const;

	IsochronousClockModel mClockModel; // timing model for chasing the HAL

	AudioEndpoint mAudioEndpoint; // source for reads or sink for writes
	aaudio_handle_t mServiceStreamHandle; // opaque handle returned from service

	int32_t mFramesPerBurst = MIN_FRAMES_PER_BURST; // frames per HAL transfer
	int32_t mXRunCount = 0; // how many underrun events?

	// Offset from underlying frame position.
	int64_t mFramesOffsetFromService = 0; // offset for timestamps

	uint8_t *mCallbackBuffer = nullptr;
	int32_t mCallbackFrames = 0;

	// The service uses this for SHARED mode.
	bool mInService = false; // Is this running in the client or the service?

	AAudioServiceInterface &mServiceInterface; // abstract interface to the service

	SimpleDoubleBuffer<Timestamp> mAtomicInternalTimestamp;

	AtomicRequestor mNeedCatchUp; // Ask read() or write() to sync on first timestamp.

	float mStreamVolume = 1.0f;

	private:
	/*
	* Asynchronous write with data conversion.
	* @param buffer
	* @param numFrames
	* @return fdrames written or negative error
	*/
	aaudio_result_t writeNowWithConversion(const void *buffer,
	int32_t numFrames);

	// Adjust timing model based on timestamp from service.
	void processTimestamp(uint64_t position, int64_t time);

	// Thread on other side of FIFO will have wakeup jitter.
	// By delaying slightly we can avoid waking up before other side is ready.
	const int32_t mWakeupDelayNanos; // delay past typical wakeup jitter
	const int32_t mMinimumSleepNanos; // minimum sleep while polling

	AudioEndpointParcelable mEndPointParcelable; // description of the buffers filled by service
	EndpointDescriptor mEndpointDescriptor; // buffer description with resolved addresses

	int64_t mServiceLatencyNanos = 0;

	// Sometimes the hardware is operating with a different channel count from the app.
	// Then we require conversion in AAudio.
	int32_t mDeviceChannelCount = 0;
	};

	} /* namespace aaudio */

	#endif //ANDROID_AAUDIO_AUDIO_STREAM_INTERNAL_H