/* * 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. */ #define LOG_TAG "AAudio" //#define LOG_NDEBUG 0 #include #include #include #include "AudioEndpointParcelable.h" #include "AudioEndpoint.h" #include "AAudioServiceMessage.h" using namespace android; using namespace aaudio; #define RIDICULOUSLY_LARGE_BUFFER_CAPACITY (256 * 1024) #define RIDICULOUSLY_LARGE_FRAME_SIZE 4096 AudioEndpoint::AudioEndpoint() : mFreeRunning(false) , mDataReadCounter(0) , mDataWriteCounter(0) { } AudioEndpoint::~AudioEndpoint() { } static aaudio_result_t AudioEndpoint_validateQueueDescriptor(const char *type, const RingBufferDescriptor *descriptor) { if (descriptor == nullptr) { ALOGE("AudioEndpoint_validateQueueDescriptor() NULL descriptor"); return AAUDIO_ERROR_NULL; } if (descriptor->capacityInFrames < 1 || descriptor->capacityInFrames > RIDICULOUSLY_LARGE_BUFFER_CAPACITY) { ALOGE("AudioEndpoint_validateQueueDescriptor() bad capacityInFrames = %d", descriptor->capacityInFrames); return AAUDIO_ERROR_OUT_OF_RANGE; } // Reject extreme values to catch bugs and prevent numeric overflows. if (descriptor->bytesPerFrame < 1 || descriptor->bytesPerFrame > RIDICULOUSLY_LARGE_FRAME_SIZE) { ALOGE("AudioEndpoint_validateQueueDescriptor() bad bytesPerFrame = %d", descriptor->bytesPerFrame); return AAUDIO_ERROR_OUT_OF_RANGE; } if (descriptor->dataAddress == nullptr) { ALOGE("AudioEndpoint_validateQueueDescriptor() NULL dataAddress"); return AAUDIO_ERROR_NULL; } ALOGV("AudioEndpoint_validateQueueDescriptor %s, dataAddress at %p ====================", type, descriptor->dataAddress); ALOGV("AudioEndpoint_validateQueueDescriptor readCounter at %p, writeCounter at %p", descriptor->readCounterAddress, descriptor->writeCounterAddress); // Try to READ from the data area. // This code will crash if the mmap failed. uint8_t value = descriptor->dataAddress[0]; ALOGV("AudioEndpoint_validateQueueDescriptor() dataAddress[0] = %d, then try to write", (int) value); // Try to WRITE to the data area. descriptor->dataAddress[0] = value * 3; ALOGV("AudioEndpoint_validateQueueDescriptor() wrote successfully"); if (descriptor->readCounterAddress) { fifo_counter_t counter = *descriptor->readCounterAddress; ALOGV("AudioEndpoint_validateQueueDescriptor() *readCounterAddress = %d, now write", (int) counter); *descriptor->readCounterAddress = counter; ALOGV("AudioEndpoint_validateQueueDescriptor() wrote readCounterAddress successfully"); } if (descriptor->writeCounterAddress) { fifo_counter_t counter = *descriptor->writeCounterAddress; ALOGV("AudioEndpoint_validateQueueDescriptor() *writeCounterAddress = %d, now write", (int) counter); *descriptor->writeCounterAddress = counter; ALOGV("AudioEndpoint_validateQueueDescriptor() wrote writeCounterAddress successfully"); } return AAUDIO_OK; } aaudio_result_t AudioEndpoint_validateDescriptor(const EndpointDescriptor *pEndpointDescriptor) { aaudio_result_t result = AudioEndpoint_validateQueueDescriptor("messages", &pEndpointDescriptor->upMessageQueueDescriptor); if (result == AAUDIO_OK) { result = AudioEndpoint_validateQueueDescriptor("data", &pEndpointDescriptor->dataQueueDescriptor); } return result; } aaudio_result_t AudioEndpoint::configure(const EndpointDescriptor *pEndpointDescriptor) { aaudio_result_t result = AudioEndpoint_validateDescriptor(pEndpointDescriptor); if (result != AAUDIO_OK) { ALOGE("AudioEndpoint_validateQueueDescriptor returned %d %s", result, AAudio_convertResultToText(result)); return result; } // ============================ up message queue ============================= const RingBufferDescriptor *descriptor = &pEndpointDescriptor->upMessageQueueDescriptor; if(descriptor->bytesPerFrame != sizeof(AAudioServiceMessage)) { ALOGE("AudioEndpoint::configure() bytesPerFrame != sizeof(AAudioServiceMessage) = %d", descriptor->bytesPerFrame); return AAUDIO_ERROR_INTERNAL; } if(descriptor->readCounterAddress == nullptr || descriptor->writeCounterAddress == nullptr) { ALOGE("AudioEndpoint_validateQueueDescriptor() NULL counter address"); return AAUDIO_ERROR_NULL; } mUpCommandQueue = new FifoBuffer( descriptor->bytesPerFrame, descriptor->capacityInFrames, descriptor->readCounterAddress, descriptor->writeCounterAddress, descriptor->dataAddress ); // ============================ down data queue ============================= descriptor = &pEndpointDescriptor->dataQueueDescriptor; ALOGV("AudioEndpoint::configure() data framesPerBurst = %d", descriptor->framesPerBurst); ALOGV("AudioEndpoint::configure() data readCounterAddress = %p", descriptor->readCounterAddress); mFreeRunning = descriptor->readCounterAddress == nullptr; ALOGV("AudioEndpoint::configure() mFreeRunning = %d", mFreeRunning ? 1 : 0); int64_t *readCounterAddress = (descriptor->readCounterAddress == nullptr) ? &mDataReadCounter : descriptor->readCounterAddress; int64_t *writeCounterAddress = (descriptor->writeCounterAddress == nullptr) ? &mDataWriteCounter : descriptor->writeCounterAddress; mDataQueue = new FifoBuffer( descriptor->bytesPerFrame, descriptor->capacityInFrames, readCounterAddress, writeCounterAddress, descriptor->dataAddress ); uint32_t threshold = descriptor->capacityInFrames / 2; mDataQueue->setThreshold(threshold); return result; } aaudio_result_t AudioEndpoint::readUpCommand(AAudioServiceMessage *commandPtr) { return mUpCommandQueue->read(commandPtr, 1); } aaudio_result_t AudioEndpoint::writeDataNow(const void *buffer, int32_t numFrames) { return mDataQueue->write(buffer, numFrames); } void AudioEndpoint::getEmptyFramesAvailable(WrappingBuffer *wrappingBuffer) { mDataQueue->getEmptyRoomAvailable(wrappingBuffer); } int32_t AudioEndpoint::getEmptyFramesAvailable() { return mDataQueue->getFifoControllerBase()->getEmptyFramesAvailable(); } void AudioEndpoint::getFullFramesAvailable(WrappingBuffer *wrappingBuffer) { return mDataQueue->getFullDataAvailable(wrappingBuffer); } int32_t AudioEndpoint::getFullFramesAvailable() { return mDataQueue->getFifoControllerBase()->getFullFramesAvailable(); } void AudioEndpoint::advanceWriteIndex(int32_t deltaFrames) { mDataQueue->getFifoControllerBase()->advanceWriteIndex(deltaFrames); } void AudioEndpoint::advanceReadIndex(int32_t deltaFrames) { mDataQueue->getFifoControllerBase()->advanceReadIndex(deltaFrames); } void AudioEndpoint::setDataReadCounter(fifo_counter_t framesRead) { mDataQueue->setReadCounter(framesRead); } fifo_counter_t AudioEndpoint::getDataReadCounter() { return mDataQueue->getReadCounter(); } void AudioEndpoint::setDataWriteCounter(fifo_counter_t framesRead) { mDataQueue->setWriteCounter(framesRead); } fifo_counter_t AudioEndpoint::getDataWriteCounter() { return mDataQueue->getWriteCounter(); } int32_t AudioEndpoint::setBufferSizeInFrames(int32_t requestedFrames, int32_t *actualFrames) { if (requestedFrames < ENDPOINT_DATA_QUEUE_SIZE_MIN) { requestedFrames = ENDPOINT_DATA_QUEUE_SIZE_MIN; } mDataQueue->setThreshold(requestedFrames); *actualFrames = mDataQueue->getThreshold(); return AAUDIO_OK; } int32_t AudioEndpoint::getBufferSizeInFrames() const { return mDataQueue->getThreshold(); } int32_t AudioEndpoint::getBufferCapacityInFrames() const { return (int32_t)mDataQueue->getBufferCapacityInFrames(); }