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I am using the render callback of the ioUnit to store the audio data into a circular buffer:

OSStatus ioUnitRenderCallback(
                          void *inRefCon,
                          AudioUnitRenderActionFlags *ioActionFlags,
                          const AudioTimeStamp *inTimeStamp,
                          UInt32 inBusNumber,
                          UInt32 inNumberFrames,
                          AudioBufferList *ioData)
{
    OSStatus err = noErr;

    AMNAudioController *This = (__bridge AMNAudioController*)inRefCon;

    err = AudioUnitRender(This.encoderMixerNode->unit,
                          ioActionFlags,
                          inTimeStamp,
                          inBusNumber,
                          inNumberFrames,
                          ioData);

    // Copy the audio to the encoder buffer
    TPCircularBufferCopyAudioBufferList(&(This->encoderBuffer), ioData, inTimeStamp, kTPCircularBufferCopyAll, NULL);

    return err;
}

I then want to read the bytes out of the circular buffer, feed them to libLame and then to libShout. I have tried starting a thread and using NSCondition to make it wait until data is available but this causes all sorts of issues due to using locks on the Core Audio callback.

What would be the recommended way to do this?

Thanks in advance.


More detail on how I implemented Adam's answer

I ended up taking Adam's advice and implemented it like so.

Producer

I use TPCircularBufferProduceBytes in the Core Audio Render callback to add the bytes to the circular buffer. In my case I have non-interleaved audio data so I ended up using two circular buffers.

Consumer

  1. I spawn a new thread using pthread_create
  2. Within the new thread create a new CFTimer and add it to the current CFRunLoop (an interval of 0.005 seconds appears to work well)
  3. I tell the current CFRunLoop to run
  4. Within my timer callback I encode the audio and send it to the server (returning quickly if no data is buffered)
  5. I also have a buffer size of 5MB which appears to work well (2MB was giving me overruns). This does seem a bit high :/
share|improve this question
    
It's not really clear from the example above which thread is blocking which other. Blocking the Core Audio's thread is definitely not something you should do - otherwise potential exists for priority inversion. –  marko Feb 24 at 8:10
    
@marko, If I use NSCondition to have my thread wait until the Core Audio thread sets a value, then the Core Audio thread locks up. I have since tried using semaphores and this appears to be the way to go. –  Anthony Myatt Feb 24 at 10:13
    
What is TPCircularBufferCopyAudioBufferList doing? Does it block when the circular buffer is full? That could certainly explain the deadlock you are seeing. Get your app in this state, interrupt it in the debugger and post the backtraces for the thread stacks here. –  marko Feb 24 at 11:43

2 Answers 2

up vote 1 down vote accepted

You're on the right track, but you don't need NSCondition. You definitely don't want to block. The circular buffer implementation you're using is lock free and should do the trick. In the audio render callback, put the data into the buffer by calling TPCircularBufferProduceBytes. Then in the reader context (a timer callback is good, as hotpaw suggests), call TPCircularBufferTail to get the tail pointer (read address) and number of available bytes to read, and then call TPCircularBufferConsume to do the actual reading. Now you've done the transfer without taking any locks. Just make sure the buffer you allocate is large enough to handle the worst-case condition where your reader thread gets held off by the os for whatever reason, otherwise you can hit a buffer overrun condition and will lose data.

share|improve this answer
    
Thanks @Adam Bryant. A buffer size of 2,646,000bytes should hold 30 seconds of audio (surely this should be enough). But obviously I can't send this much in one packet (if the buffer gets full during the worst case). So, sending a fixed amount every iteration of my timer would be best, no? In that case, how much should I send (if my timer goes off every 200ms) 17,640bytes (200ms of audio) or should I send like 5 seconds of audio (having the timer return quickly if not enough bytes)? –  Anthony Myatt Feb 25 at 4:20
    
I don't know all the details on what you're doing, but you need to be consuming audio at the same rate that it is produced, or else eventually you'll get a buffer under- or overrun. You know what rate audio is produced at - typically 44,100 samples per second. Now do the math and set your timer to wake up at the block size that your consumer (libShout?) prefers. –  Adam Bryant Feb 26 at 1:54
    
Once you're rolling, during most timer-wakeups you'll just consume one packet. But occasionally when you wake up you'll find that the consumer thread has been held off for whatever reason, and you need to consume multiple packets. You can determine this by the call to TPCircularBufferTail, which tells you how much audio is sitting there waiting for you to consume in the ring buffer ('availableBytes'). You basically want to drain the buffer each time you wake up to within the nearest consumer packet size. If there are multiple packets, just sit in a loop and send to libShout until all consumed. –  Adam Bryant Feb 26 at 2:03
    
In a client/server audio system, usually the receiving end accumulates a reservoir of audio from which it can draw if there are network stalls and audio isn't delivered for a while. So this means you need to prime the system with audio at the beginning before playing out. –  Adam Bryant Feb 26 at 2:11
    
How big you make this reservoir is dependent on how much network disruption you expect. The bigger the reservoir, the more the latency, though, so usually you try to find the right balance through experimentation. –  Adam Bryant Feb 26 at 2:13

Use a repeating timer (NSTimer or CADisplayLink) to poll your lock-free circular buffer or FIFO. Skip doing work if there is not enough data in the buffer, and return (to the run loop). This works because you know the sample rate and how much data you prefer or need to handle at a time, so can set the polling rate slightly faster to be safe but still very close to the same efficiency as using conditional locks.

Using locks in a real-time audio thread callback is not recommended.

share|improve this answer
    
Thanks @hotpaw2. So I should instantiate an NSRunLoop on my new thread, and then use an NSTimer running every 200ms or so? –  Anthony Myatt Feb 25 at 4:07

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