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fuchsia / third_party / android / platform / frameworks / av / 122ec92c425ce898753d24edd4a43d634a630959 / . / media / libaaudio / src / fifo / FifoBuffer.cpp
blob: 6b4a772207cdb2fb7d34c05cbad1bc7063655fa0 [file] [log] [blame]
/*
* Copyright 2015 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.
*/
#include <cstring>
#include <unistd.h>
#define LOG_TAG "FifoBuffer"
//#define LOG_NDEBUG 0
#include <utils/Log.h>
#include "FifoControllerBase.h"
#include "FifoController.h"
#include "FifoControllerIndirect.h"
#include "FifoBuffer.h"
using namespace android; // TODO just import names needed
FifoBuffer::FifoBuffer(int32_t bytesPerFrame, fifo_frames_t capacityInFrames)
: mFrameCapacity(capacityInFrames)
, mBytesPerFrame(bytesPerFrame)
, mStorage(nullptr)
, mFramesReadCount(0)
, mFramesUnderrunCount(0)
, mUnderrunCount(0)
{
// TODO Handle possible failures to allocate. Move out of constructor?
mFifo = new FifoController(capacityInFrames, capacityInFrames);
// allocate buffer
int32_t bytesPerBuffer = bytesPerFrame * capacityInFrames;
mStorage = new uint8_t[bytesPerBuffer];
mStorageOwned = true;
ALOGD("FifoBuffer: capacityInFrames = %d, bytesPerFrame = %d",
capacityInFrames, bytesPerFrame);
}
FifoBuffer::FifoBuffer( int32_t bytesPerFrame,
fifo_frames_t capacityInFrames,
fifo_counter_t * readIndexAddress,
fifo_counter_t * writeIndexAddress,
void * dataStorageAddress
)
: mFrameCapacity(capacityInFrames)
, mBytesPerFrame(bytesPerFrame)
, mStorage(static_cast<uint8_t *>(dataStorageAddress))
, mFramesReadCount(0)
, mFramesUnderrunCount(0)
, mUnderrunCount(0)
{
mFifo = new FifoControllerIndirect(capacityInFrames,
capacityInFrames,
readIndexAddress,
writeIndexAddress);
mStorageOwned = false;
}
FifoBuffer::~FifoBuffer() {
if (mStorageOwned) {
delete[] mStorage;
}
delete mFifo;
}
int32_t FifoBuffer::convertFramesToBytes(fifo_frames_t frames) {
return frames * mBytesPerFrame;
}
void FifoBuffer::fillWrappingBuffer(WrappingBuffer *wrappingBuffer,
int32_t framesAvailable,
int32_t startIndex) {
wrappingBuffer->data[1] = nullptr;
wrappingBuffer->numFrames[1] = 0;
if (framesAvailable > 0) {
uint8_t *source = &mStorage[convertFramesToBytes(startIndex)];
// Does the available data cross the end of the FIFO?
if ((startIndex + framesAvailable) > mFrameCapacity) {
wrappingBuffer->data[0] = source;
wrappingBuffer->numFrames[0] = mFrameCapacity - startIndex;
wrappingBuffer->data[1] = &mStorage[0];
wrappingBuffer->numFrames[1] = mFrameCapacity - startIndex;
} else {
wrappingBuffer->data[0] = source;
wrappingBuffer->numFrames[0] = framesAvailable;
}
} else {
wrappingBuffer->data[0] = nullptr;
wrappingBuffer->numFrames[0] = 0;
}
}
void FifoBuffer::getFullDataAvailable(WrappingBuffer *wrappingBuffer) {
fifo_frames_t framesAvailable = mFifo->getFullFramesAvailable();
fifo_frames_t startIndex = mFifo->getReadIndex();
fillWrappingBuffer(wrappingBuffer, framesAvailable, startIndex);
}
void FifoBuffer::getEmptyRoomAvailable(WrappingBuffer *wrappingBuffer) {
fifo_frames_t framesAvailable = mFifo->getEmptyFramesAvailable();
fifo_frames_t startIndex = mFifo->getWriteIndex();
fillWrappingBuffer(wrappingBuffer, framesAvailable, startIndex);
}
fifo_frames_t FifoBuffer::read(void *buffer, fifo_frames_t numFrames) {
WrappingBuffer wrappingBuffer;
uint8_t *destination = (uint8_t *) buffer;
fifo_frames_t framesLeft = numFrames;
getFullDataAvailable(&wrappingBuffer);
// Read data in one or two parts.
int partIndex = 0;
while (framesLeft > 0 && partIndex < WrappingBuffer::SIZE) {
fifo_frames_t framesToRead = framesLeft;
fifo_frames_t framesAvailable = wrappingBuffer.numFrames[partIndex];
if (framesAvailable > 0) {
if (framesToRead > framesAvailable) {
framesToRead = framesAvailable;
}
int32_t numBytes = convertFramesToBytes(framesToRead);
memcpy(destination, wrappingBuffer.data[partIndex], numBytes);
destination += numBytes;
framesLeft -= framesToRead;
} else {
break;
}
partIndex++;
}
fifo_frames_t framesRead = numFrames - framesLeft;
mFifo->advanceReadIndex(framesRead);
return framesRead;
}
fifo_frames_t FifoBuffer::write(const void *buffer, fifo_frames_t numFrames) {
WrappingBuffer wrappingBuffer;
uint8_t *source = (uint8_t *) buffer;
fifo_frames_t framesLeft = numFrames;
getEmptyRoomAvailable(&wrappingBuffer);
// Read data in one or two parts.
int partIndex = 0;
while (framesLeft > 0 && partIndex < WrappingBuffer::SIZE) {
fifo_frames_t framesToWrite = framesLeft;
fifo_frames_t framesAvailable = wrappingBuffer.numFrames[partIndex];
if (framesAvailable > 0) {
if (framesToWrite > framesAvailable) {
framesToWrite = framesAvailable;
}
int32_t numBytes = convertFramesToBytes(framesToWrite);
memcpy(wrappingBuffer.data[partIndex], source, numBytes);
source += numBytes;
framesLeft -= framesToWrite;
} else {
break;
}
partIndex++;
}
fifo_frames_t framesWritten = numFrames - framesLeft;
mFifo->advanceWriteIndex(framesWritten);
return framesWritten;
}
fifo_frames_t FifoBuffer::readNow(void *buffer, fifo_frames_t numFrames) {
mLastReadSize = numFrames;
fifo_frames_t framesLeft = numFrames;
fifo_frames_t framesRead = read(buffer, numFrames);
framesLeft -= framesRead;
mFramesReadCount += framesRead;
mFramesUnderrunCount += framesLeft;
// Zero out any samples we could not set.
if (framesLeft > 0) {
mUnderrunCount++;
int32_t bytesToZero = convertFramesToBytes(framesLeft);
memset(buffer, 0, bytesToZero);
}
return framesRead;
}
fifo_frames_t FifoBuffer::getThreshold() {
return mFifo->getThreshold();
}
void FifoBuffer::setThreshold(fifo_frames_t threshold) {
mFifo->setThreshold(threshold);
}
fifo_frames_t FifoBuffer::getBufferCapacityInFrames() {
return mFifo->getCapacity();
}