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217 lines
6.1 KiB
Objective-C
217 lines
6.1 KiB
Objective-C
//
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// AudioQueue.m
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// Clock Signal
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//
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// Created by Thomas Harte on 14/01/2016.
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// Copyright 2016 Thomas Harte. All rights reserved.
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//
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#import "CSAudioQueue.h"
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@import AudioToolbox;
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#include <stdatomic.h>
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#define OSSGuard(x) { \
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const OSStatus status = x; \
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assert(!status); \
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(void)status; \
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}
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#define IsDry(x) (x) < 2
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#define MaximumBacklog 4
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#define NumBuffers (MaximumBacklog + 1)
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@implementation CSAudioQueue {
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AudioQueueRef _audioQueue;
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NSLock *_deallocLock;
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NSLock *_queueLock;
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atomic_int _enqueuedBuffers;
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AudioQueueBufferRef _buffers[NumBuffers];
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int _bufferWritePointer;
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unsigned int _numChannels;
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}
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#pragma mark - Status
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- (BOOL)isRunningDry {
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return IsDry(atomic_load_explicit(&_enqueuedBuffers, memory_order_relaxed));
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}
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#pragma mark - Object lifecycle
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- (instancetype)initWithSamplingRate:(Float64)samplingRate isStereo:(BOOL)isStereo {
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self = [super init];
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if(self) {
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_deallocLock = [[NSLock alloc] init];
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_deallocLock.name = @"Dealloc lock";
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_queueLock = [[NSLock alloc] init];
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_queueLock.name = @"Audio queue access lock";
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atomic_store_explicit(&_enqueuedBuffers, 0, memory_order_relaxed);
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_samplingRate = samplingRate;
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_numChannels = isStereo ? 2 : 1;
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// Determine preferred buffer size as being the first power of two
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// not less than 1/100th of a second.
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_preferredBufferSize = 1;
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const NSUInteger oneHundredthOfRate = (NSUInteger)(samplingRate / 100.0);
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while(_preferredBufferSize < oneHundredthOfRate) _preferredBufferSize <<= 1;
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// Describe a 16bit stream of the requested sampling rate.
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AudioStreamBasicDescription outputDescription;
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outputDescription.mSampleRate = samplingRate;
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outputDescription.mChannelsPerFrame = isStereo ? 2 : 1;
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outputDescription.mFormatID = kAudioFormatLinearPCM;
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outputDescription.mFormatFlags = kLinearPCMFormatFlagIsSignedInteger;
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outputDescription.mFramesPerPacket = 1;
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outputDescription.mBytesPerFrame = 2 * outputDescription.mChannelsPerFrame;
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outputDescription.mBytesPerPacket = outputDescription.mBytesPerFrame * outputDescription.mFramesPerPacket;
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outputDescription.mBitsPerChannel = 16;
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outputDescription.mReserved = 0;
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// Create an audio output queue along those lines.
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__weak CSAudioQueue *weakSelf = self;
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if(AudioQueueNewOutputWithDispatchQueue(
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&_audioQueue,
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&outputDescription,
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0,
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dispatch_get_global_queue(QOS_CLASS_USER_INTERACTIVE, 0),
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^(AudioQueueRef inAQ, AudioQueueBufferRef inBuffer) {
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(void)inBuffer;
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CSAudioQueue *queue = weakSelf;
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if(!queue) {
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return;
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}
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if([queue->_deallocLock tryLock]) {
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const int buffers = atomic_fetch_add(&queue->_enqueuedBuffers, -1) - 1;
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if(!buffers) {
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[queue->_queueLock lock];
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OSSGuard(AudioQueuePause(inAQ));
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[queue->_queueLock unlock];
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}
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id<CSAudioQueueDelegate> delegate = queue.delegate;
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[queue->_deallocLock unlock];
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if(IsDry(buffers)) [delegate audioQueueIsRunningDry:queue];
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}
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}
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)
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) {
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return nil;
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}
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}
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return self;
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}
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- (void)dealloc {
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[_deallocLock lock];
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// Ensure no buffers remain enqueued by stopping the queue.
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if(_audioQueue) {
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OSSGuard(AudioQueueStop(_audioQueue, true));
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}
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// Free all buffers.
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for(size_t c = 0; c < NumBuffers; c++) {
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if(_buffers[c]) {
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OSSGuard(AudioQueueFreeBuffer(_audioQueue, _buffers[c]));
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_buffers[c] = NULL;
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}
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}
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// Dispose of the queue.
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if(_audioQueue) {
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OSSGuard(AudioQueueDispose(_audioQueue, true));
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_audioQueue = NULL;
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}
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// nil out the dealloc lock before entering the critical section such
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// that it becomes impossible for anyone else to acquire.
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NSLock *deallocLock = _deallocLock;
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_deallocLock = nil;
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[deallocLock unlock];
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}
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#pragma mark - Audio enqueuer
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- (void)setBufferSize:(NSUInteger)bufferSize {
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_bufferSize = bufferSize;
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// Allocate future audio buffers.
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[_queueLock lock];
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const size_t bufferBytes = self.bufferSize * sizeof(int16_t) * _numChannels;
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for(size_t c = 0; c < NumBuffers; c++) {
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if(_buffers[c]) {
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OSSGuard(AudioQueueFreeBuffer(_audioQueue, _buffers[c]));
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}
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OSSGuard(AudioQueueAllocateBuffer(_audioQueue, (UInt32)bufferBytes, &_buffers[c]));
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_buffers[c]->mAudioDataByteSize = (UInt32)bufferBytes;
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}
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[_queueLock unlock];
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}
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- (void)enqueueAudioBuffer:(const int16_t *)buffer {
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const size_t bufferBytes = self.bufferSize * sizeof(int16_t) * _numChannels;
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// Don't enqueue more than the allowed number of future buffers,
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// to ensure not too much latency accrues.
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if(atomic_load_explicit(&_enqueuedBuffers, memory_order_relaxed) == MaximumBacklog) {
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return;
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}
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const int enqueuedBuffers = atomic_fetch_add(&_enqueuedBuffers, 1) + 1;
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const int targetBuffer = _bufferWritePointer;
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_bufferWritePointer = (_bufferWritePointer + 1) % NumBuffers;
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memcpy(_buffers[targetBuffer]->mAudioData, buffer, bufferBytes);
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[_queueLock lock];
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OSSGuard(AudioQueueEnqueueBuffer(_audioQueue, _buffers[targetBuffer], 0, NULL));
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// Starting is a no-op if the queue is already playing, but it may not have been started
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// yet, or may have been paused due to a pipeline failure if the producer is running slowly.
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if(enqueuedBuffers > 1) {
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OSSGuard(AudioQueueStart(_audioQueue, NULL));
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}
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[_queueLock unlock];
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}
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#pragma mark - Sampling Rate getters
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+ (AudioDeviceID)defaultOutputDevice {
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AudioObjectPropertyAddress address;
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address.mSelector = kAudioHardwarePropertyDefaultOutputDevice;
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address.mScope = kAudioObjectPropertyScopeGlobal;
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address.mElement = kAudioObjectPropertyElementMaster;
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AudioDeviceID deviceID;
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UInt32 size = sizeof(AudioDeviceID);
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return AudioObjectGetPropertyData(kAudioObjectSystemObject, &address, sizeof(AudioObjectPropertyAddress), NULL, &size, &deviceID) ? 0 : deviceID;
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}
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+ (Float64)preferredSamplingRate {
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AudioObjectPropertyAddress address;
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address.mSelector = kAudioDevicePropertyNominalSampleRate;
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address.mScope = kAudioObjectPropertyScopeGlobal;
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address.mElement = kAudioObjectPropertyElementMaster;
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Float64 samplingRate;
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UInt32 size = sizeof(Float64);
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return AudioObjectGetPropertyData([self defaultOutputDevice], &address, sizeof(AudioObjectPropertyAddress), NULL, &size, &samplingRate) ? 0.0 : samplingRate;
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}
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@end
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