services/oboeservice/AAudioServiceStreamShared.cpp - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2017 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.
  */

 #define LOG_TAG "AAudioServiceStreamShared"
 //#define LOG_NDEBUG 0
 #include <utils/Log.h>

 #include <iomanip>
 #include <iostream>
 #include <mutex>

 #include <aaudio/AAudio.h>

 #include "binding/IAAudioService.h"

 #include "binding/AAudioServiceMessage.h"
 #include "AAudioServiceStreamBase.h"
 #include "AAudioServiceStreamShared.h"
 #include "AAudioEndpointManager.h"
 #include "AAudioService.h"
 #include "AAudioServiceEndpoint.h"

 using namespace android;
 using namespace aaudio;

 #define MIN_BURSTS_PER_BUFFER       2
 #define DEFAULT_BURSTS_PER_BUFFER   16
 // This is an arbitrary range. TODO review.
 #define MAX_FRAMES_PER_BUFFER       (32 * 1024)

 AAudioServiceStreamShared::AAudioServiceStreamShared(AAudioService &audioService)
     : AAudioServiceStreamBase(audioService)
     , mTimestampPositionOffset(0)
     , mXRunCount(0) {
 }

 std::string AAudioServiceStreamShared::dumpHeader() {
     std::stringstream result;
     result << AAudioServiceStreamBase::dumpHeader();
     result << "    Write#     Read#   Avail   XRuns";
     return result.str();
 }

 std::string AAudioServiceStreamShared::dump() const {
     std::stringstream result;

     result << AAudioServiceStreamBase::dump();

     auto fifo = mAudioDataQueue->getFifoBuffer();
     int32_t readCounter = fifo->getReadCounter();
     int32_t writeCounter = fifo->getWriteCounter();
     result << std::setw(10) << writeCounter;
     result << std::setw(10) << readCounter;
     result << std::setw(8) << (writeCounter - readCounter);
     result << std::setw(8) << getXRunCount();

     return result.str();
 }

 int32_t AAudioServiceStreamShared::calculateBufferCapacity(int32_t requestedCapacityFrames,
                                                            int32_t framesPerBurst) {

     if (requestedCapacityFrames > MAX_FRAMES_PER_BUFFER) {
         ALOGE("AAudioServiceStreamShared::calculateBufferCapacity() requested capacity %d > max %d",
               requestedCapacityFrames, MAX_FRAMES_PER_BUFFER);
         return AAUDIO_ERROR_OUT_OF_RANGE;
     }

     // Determine how many bursts will fit in the buffer.
     int32_t numBursts;
     if (requestedCapacityFrames == AAUDIO_UNSPECIFIED) {
         // Use fewer bursts if default is too many.
         if ((DEFAULT_BURSTS_PER_BUFFER * framesPerBurst) > MAX_FRAMES_PER_BUFFER) {
             numBursts = MAX_FRAMES_PER_BUFFER / framesPerBurst;
         } else {
             numBursts = DEFAULT_BURSTS_PER_BUFFER;
         }
     } else {
         // round up to nearest burst boundary
         numBursts = (requestedCapacityFrames + framesPerBurst - 1) / framesPerBurst;
     }

     // Clip to bare minimum.
     if (numBursts < MIN_BURSTS_PER_BUFFER) {
         numBursts = MIN_BURSTS_PER_BUFFER;
     }
     // Check for numeric overflow.
     if (numBursts > 0x8000 || framesPerBurst > 0x8000) {
         ALOGE("AAudioServiceStreamShared::calculateBufferCapacity() overflow, capacity = %d * %d",
               numBursts, framesPerBurst);
         return AAUDIO_ERROR_OUT_OF_RANGE;
     }
     int32_t capacityInFrames = numBursts * framesPerBurst;

     // Final sanity check.
     if (capacityInFrames > MAX_FRAMES_PER_BUFFER) {
         ALOGE("AAudioServiceStreamShared::calculateBufferCapacity() calc capacity %d > max %d",
               capacityInFrames, MAX_FRAMES_PER_BUFFER);
         return AAUDIO_ERROR_OUT_OF_RANGE;
     }
     ALOGD("AAudioServiceStreamShared::calculateBufferCapacity() requested %d frames, actual = %d",
           requestedCapacityFrames, capacityInFrames);
     return capacityInFrames;
 }

 aaudio_result_t AAudioServiceStreamShared::open(const aaudio::AAudioStreamRequest &request)  {

     sp<AAudioServiceStreamShared> keep(this);

     aaudio_result_t result = AAudioServiceStreamBase::open(request, AAUDIO_SHARING_MODE_SHARED);
     if (result != AAUDIO_OK) {
         ALOGE("AAudioServiceStreamBase open() returned %d", result);
         return result;
     }

     const AAudioStreamConfiguration &configurationInput = request.getConstantConfiguration();


     // Is the request compatible with the shared endpoint?
     setFormat(configurationInput.getFormat());
     if (getFormat() == AAUDIO_FORMAT_UNSPECIFIED) {
         setFormat(AAUDIO_FORMAT_PCM_FLOAT);
     } else if (getFormat() != AAUDIO_FORMAT_PCM_FLOAT) {
         ALOGE("AAudioServiceStreamShared::open() mAudioFormat = %d, need FLOAT", getFormat());
         result = AAUDIO_ERROR_INVALID_FORMAT;
         goto error;
     }

     setSampleRate(configurationInput.getSampleRate());
     if (getSampleRate() == AAUDIO_UNSPECIFIED) {
         setSampleRate(mServiceEndpoint->getSampleRate());
     } else if (getSampleRate() != mServiceEndpoint->getSampleRate()) {
         ALOGE("AAudioServiceStreamShared::open() mSampleRate = %d, need %d",
               getSampleRate(), mServiceEndpoint->getSampleRate());
         result = AAUDIO_ERROR_INVALID_RATE;
         goto error;
     }

     setSamplesPerFrame(configurationInput.getSamplesPerFrame());
     if (getSamplesPerFrame() == AAUDIO_UNSPECIFIED) {
         setSamplesPerFrame(mServiceEndpoint->getSamplesPerFrame());
     } else if (getSamplesPerFrame() != mServiceEndpoint->getSamplesPerFrame()) {
         ALOGE("AAudioServiceStreamShared::open() mSamplesPerFrame = %d, need %d",
               getSamplesPerFrame(), mServiceEndpoint->getSamplesPerFrame());
         result = AAUDIO_ERROR_OUT_OF_RANGE;
         goto error;
     }

     setBufferCapacity(calculateBufferCapacity(configurationInput.getBufferCapacity(),
                                      mFramesPerBurst));
     if (getBufferCapacity() < 0) {
         result = getBufferCapacity(); // negative error code
         setBufferCapacity(0);
         goto error;
     }

     {
         std::lock_guard<std::mutex> lock(mAudioDataQueueLock);
         // Create audio data shared memory buffer for client.
         mAudioDataQueue = new SharedRingBuffer();
         result = mAudioDataQueue->allocate(calculateBytesPerFrame(), getBufferCapacity());
         if (result != AAUDIO_OK) {
             ALOGE("AAudioServiceStreamShared::open() could not allocate FIFO with %d frames",
                   getBufferCapacity());
             result = AAUDIO_ERROR_NO_MEMORY;
             goto error;
         }
     }

     ALOGD("AAudioServiceStreamShared::open() actual rate = %d, channels = %d, deviceId = %d",
           getSampleRate(), getSamplesPerFrame(), mServiceEndpoint->getDeviceId());

     result = mServiceEndpoint->registerStream(keep);
     if (result != AAUDIO_OK) {
         goto error;
     }

     setState(AAUDIO_STREAM_STATE_OPEN);
     return AAUDIO_OK;

 error:
     close();
     return result;
 }


 aaudio_result_t AAudioServiceStreamShared::close()  {
     aaudio_result_t result = AAudioServiceStreamBase::close();

     {
         std::lock_guard<std::mutex> lock(mAudioDataQueueLock);
         delete mAudioDataQueue;
         mAudioDataQueue = nullptr;
     }

     return result;
 }

 /**
  * Get an immutable description of the data queue created by this service.
  */
 aaudio_result_t AAudioServiceStreamShared::getAudioDataDescription(
         AudioEndpointParcelable &parcelable)
 {
     std::lock_guard<std::mutex> lock(mAudioDataQueueLock);
     if (mAudioDataQueue == nullptr) {
         ALOGE("getAudioDataDescription(): mUpMessageQueue null! - stream not open");
         return AAUDIO_ERROR_NULL;
     }
     // Gather information on the data queue.
     mAudioDataQueue->fillParcelable(parcelable,
                                     parcelable.mDownDataQueueParcelable);
     parcelable.mDownDataQueueParcelable.setFramesPerBurst(getFramesPerBurst());
     return AAUDIO_OK;
 }

 void AAudioServiceStreamShared::markTransferTime(Timestamp &timestamp) {
     mAtomicTimestamp.write(timestamp);
 }

 // Get timestamp that was written by mixer or distributor.
 aaudio_result_t AAudioServiceStreamShared::getFreeRunningPosition(int64_t *positionFrames,
                                                                   int64_t *timeNanos) {
     // TODO Get presentation timestamp from the HAL
     if (mAtomicTimestamp.isValid()) {
         Timestamp timestamp = mAtomicTimestamp.read();
         *positionFrames = timestamp.getPosition();
         *timeNanos = timestamp.getNanoseconds();
         return AAUDIO_OK;
     } else {
         return AAUDIO_ERROR_UNAVAILABLE;
     }
 }

 // Get timestamp from lower level service.
 aaudio_result_t AAudioServiceStreamShared::getHardwareTimestamp(int64_t *positionFrames,
                                                                 int64_t *timeNanos) {

     int64_t position = 0;
     aaudio_result_t result = mServiceEndpoint->getTimestamp(&position, timeNanos);
     if (result == AAUDIO_OK) {
         int64_t offset = mTimestampPositionOffset.load();
         // TODO, do not go below starting value
         position -= offset; // Offset from shared MMAP stream
         ALOGV("getHardwareTimestamp() %8lld = %8lld - %8lld",
               (long long) position, (long long) (position + offset), (long long) offset);
     }
     *positionFrames = position;
     return result;
 }
	/*
	* Copyright (C) 2017 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.
	*/

	#define LOG_TAG "AAudioServiceStreamShared"
	//#define LOG_NDEBUG 0
	#include <utils/Log.h>

	#include <iomanip>
	#include <iostream>
	#include <mutex>

	#include <aaudio/AAudio.h>

	#include "binding/IAAudioService.h"

	#include "binding/AAudioServiceMessage.h"
	#include "AAudioServiceStreamBase.h"
	#include "AAudioServiceStreamShared.h"
	#include "AAudioEndpointManager.h"
	#include "AAudioService.h"
	#include "AAudioServiceEndpoint.h"

	using namespace android;
	using namespace aaudio;

	#define MIN_BURSTS_PER_BUFFER 2
	#define DEFAULT_BURSTS_PER_BUFFER 16
	// This is an arbitrary range. TODO review.
	#define MAX_FRAMES_PER_BUFFER (32 * 1024)

	AAudioServiceStreamShared::AAudioServiceStreamShared(AAudioService &audioService)
	: AAudioServiceStreamBase(audioService)
	, mTimestampPositionOffset(0)
	, mXRunCount(0) {
	}

	std::string AAudioServiceStreamShared::dumpHeader() {
	std::stringstream result;
	result << AAudioServiceStreamBase::dumpHeader();
	result << " Write# Read# Avail XRuns";
	return result.str();
	}

	std::string AAudioServiceStreamShared::dump() const {
	std::stringstream result;

	result << AAudioServiceStreamBase::dump();

	auto fifo = mAudioDataQueue->getFifoBuffer();
	int32_t readCounter = fifo->getReadCounter();
	int32_t writeCounter = fifo->getWriteCounter();
	result << std::setw(10) << writeCounter;
	result << std::setw(10) << readCounter;
	result << std::setw(8) << (writeCounter - readCounter);
	result << std::setw(8) << getXRunCount();

	return result.str();
	}

	int32_t AAudioServiceStreamShared::calculateBufferCapacity(int32_t requestedCapacityFrames,
	int32_t framesPerBurst) {

	if (requestedCapacityFrames > MAX_FRAMES_PER_BUFFER) {
	ALOGE("AAudioServiceStreamShared::calculateBufferCapacity() requested capacity %d > max %d",
	requestedCapacityFrames, MAX_FRAMES_PER_BUFFER);
	return AAUDIO_ERROR_OUT_OF_RANGE;
	}

	// Determine how many bursts will fit in the buffer.
	int32_t numBursts;
	if (requestedCapacityFrames == AAUDIO_UNSPECIFIED) {
	// Use fewer bursts if default is too many.
	if ((DEFAULT_BURSTS_PER_BUFFER * framesPerBurst) > MAX_FRAMES_PER_BUFFER) {
	numBursts = MAX_FRAMES_PER_BUFFER / framesPerBurst;
	} else {
	numBursts = DEFAULT_BURSTS_PER_BUFFER;
	}
	} else {
	// round up to nearest burst boundary
	numBursts = (requestedCapacityFrames + framesPerBurst - 1) / framesPerBurst;
	}

	// Clip to bare minimum.
	if (numBursts < MIN_BURSTS_PER_BUFFER) {
	numBursts = MIN_BURSTS_PER_BUFFER;
	}
	// Check for numeric overflow.
	if (numBursts > 0x8000 \|\| framesPerBurst > 0x8000) {
	ALOGE("AAudioServiceStreamShared::calculateBufferCapacity() overflow, capacity = %d * %d",
	numBursts, framesPerBurst);
	return AAUDIO_ERROR_OUT_OF_RANGE;
	}
	int32_t capacityInFrames = numBursts * framesPerBurst;

	// Final sanity check.
	if (capacityInFrames > MAX_FRAMES_PER_BUFFER) {
	ALOGE("AAudioServiceStreamShared::calculateBufferCapacity() calc capacity %d > max %d",
	capacityInFrames, MAX_FRAMES_PER_BUFFER);
	return AAUDIO_ERROR_OUT_OF_RANGE;
	}
	ALOGD("AAudioServiceStreamShared::calculateBufferCapacity() requested %d frames, actual = %d",
	requestedCapacityFrames, capacityInFrames);
	return capacityInFrames;
	}

	aaudio_result_t AAudioServiceStreamShared::open(const aaudio::AAudioStreamRequest &request) {

	sp<AAudioServiceStreamShared> keep(this);

	aaudio_result_t result = AAudioServiceStreamBase::open(request, AAUDIO_SHARING_MODE_SHARED);
	if (result != AAUDIO_OK) {
	ALOGE("AAudioServiceStreamBase open() returned %d", result);
	return result;
	}

	const AAudioStreamConfiguration &configurationInput = request.getConstantConfiguration();


	// Is the request compatible with the shared endpoint?
	setFormat(configurationInput.getFormat());
	if (getFormat() == AAUDIO_FORMAT_UNSPECIFIED) {
	setFormat(AAUDIO_FORMAT_PCM_FLOAT);
	} else if (getFormat() != AAUDIO_FORMAT_PCM_FLOAT) {
	ALOGE("AAudioServiceStreamShared::open() mAudioFormat = %d, need FLOAT", getFormat());
	result = AAUDIO_ERROR_INVALID_FORMAT;
	goto error;
	}

	setSampleRate(configurationInput.getSampleRate());
	if (getSampleRate() == AAUDIO_UNSPECIFIED) {
	setSampleRate(mServiceEndpoint->getSampleRate());
	} else if (getSampleRate() != mServiceEndpoint->getSampleRate()) {
	ALOGE("AAudioServiceStreamShared::open() mSampleRate = %d, need %d",
	getSampleRate(), mServiceEndpoint->getSampleRate());
	result = AAUDIO_ERROR_INVALID_RATE;
	goto error;
	}

	setSamplesPerFrame(configurationInput.getSamplesPerFrame());
	if (getSamplesPerFrame() == AAUDIO_UNSPECIFIED) {
	setSamplesPerFrame(mServiceEndpoint->getSamplesPerFrame());
	} else if (getSamplesPerFrame() != mServiceEndpoint->getSamplesPerFrame()) {
	ALOGE("AAudioServiceStreamShared::open() mSamplesPerFrame = %d, need %d",
	getSamplesPerFrame(), mServiceEndpoint->getSamplesPerFrame());
	result = AAUDIO_ERROR_OUT_OF_RANGE;
	goto error;
	}

	setBufferCapacity(calculateBufferCapacity(configurationInput.getBufferCapacity(),
	mFramesPerBurst));
	if (getBufferCapacity() < 0) {
	result = getBufferCapacity(); // negative error code
	setBufferCapacity(0);
	goto error;
	}

	{
	std::lock_guard<std::mutex> lock(mAudioDataQueueLock);
	// Create audio data shared memory buffer for client.
	mAudioDataQueue = new SharedRingBuffer();
	result = mAudioDataQueue->allocate(calculateBytesPerFrame(), getBufferCapacity());
	if (result != AAUDIO_OK) {
	ALOGE("AAudioServiceStreamShared::open() could not allocate FIFO with %d frames",
	getBufferCapacity());
	result = AAUDIO_ERROR_NO_MEMORY;
	goto error;
	}
	}

	ALOGD("AAudioServiceStreamShared::open() actual rate = %d, channels = %d, deviceId = %d",
	getSampleRate(), getSamplesPerFrame(), mServiceEndpoint->getDeviceId());

	result = mServiceEndpoint->registerStream(keep);
	if (result != AAUDIO_OK) {
	goto error;
	}

	setState(AAUDIO_STREAM_STATE_OPEN);
	return AAUDIO_OK;

	error:
	close();
	return result;
	}


	aaudio_result_t AAudioServiceStreamShared::close() {
	aaudio_result_t result = AAudioServiceStreamBase::close();

	{
	std::lock_guard<std::mutex> lock(mAudioDataQueueLock);
	delete mAudioDataQueue;
	mAudioDataQueue = nullptr;
	}

	return result;
	}

	/**
	* Get an immutable description of the data queue created by this service.
	*/
	aaudio_result_t AAudioServiceStreamShared::getAudioDataDescription(
	AudioEndpointParcelable &parcelable)
	{
	std::lock_guard<std::mutex> lock(mAudioDataQueueLock);
	if (mAudioDataQueue == nullptr) {
	ALOGE("getAudioDataDescription(): mUpMessageQueue null! - stream not open");
	return AAUDIO_ERROR_NULL;
	}
	// Gather information on the data queue.
	mAudioDataQueue->fillParcelable(parcelable,
	parcelable.mDownDataQueueParcelable);
	parcelable.mDownDataQueueParcelable.setFramesPerBurst(getFramesPerBurst());
	return AAUDIO_OK;
	}

	void AAudioServiceStreamShared::markTransferTime(Timestamp &timestamp) {
	mAtomicTimestamp.write(timestamp);
	}

	// Get timestamp that was written by mixer or distributor.
	aaudio_result_t AAudioServiceStreamShared::getFreeRunningPosition(int64_t *positionFrames,
	int64_t *timeNanos) {
	// TODO Get presentation timestamp from the HAL
	if (mAtomicTimestamp.isValid()) {
	Timestamp timestamp = mAtomicTimestamp.read();
	*positionFrames = timestamp.getPosition();
	*timeNanos = timestamp.getNanoseconds();
	return AAUDIO_OK;
	} else {
	return AAUDIO_ERROR_UNAVAILABLE;
	}
	}

	// Get timestamp from lower level service.
	aaudio_result_t AAudioServiceStreamShared::getHardwareTimestamp(int64_t *positionFrames,
	int64_t *timeNanos) {

	int64_t position = 0;
	aaudio_result_t result = mServiceEndpoint->getTimestamp(&position, timeNanos);
	if (result == AAUDIO_OK) {
	int64_t offset = mTimestampPositionOffset.load();
	// TODO, do not go below starting value
	position -= offset; // Offset from shared MMAP stream
	ALOGV("getHardwareTimestamp() %8lld = %8lld - %8lld",
	(long long) position, (long long) (position + offset), (long long) offset);
	}
	*positionFrames = position;
	return result;
	}