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I am implementing a RTP receiver. It receives UDP packets, decodes the codec and writes the PCM samples to an AudioTrack for playback. A problem seems to be, that AudioTrack.write is blocking and as such I’ll miss UDP packets in the meantime.

Is there any known solution on how to deal with this problem?

I tried using my own buffer for audio data and setNotificationMarkerPosition, but it seems, the audioTrack will only play once it’s buffer is filled to some degree and as such the marker position is never reached or audioTrack.write becomes blocking again.

I also tried doing audioTrack.pause() before each write and then .play() again, but that seems to impact sound quality noticably.

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2 Answers 2

up vote 1 down vote accepted

I don't know whether you have solved your problem or not, I have some problem. The best I could do is to grab UDP packets in a thread into ArrayBlockingQueue(ABQ), and play them in another thread taking one by one from ABQ. But this time playing suffers(not all devices, some devices are cool with double thread) and size of ABQ grows which means delay increases. So I check the size and drop some packets systematically(simply not writing into AudioTrack) in order to decrease delay, but it is your call if you are okay with delay.

One more thing, I am increasing priority of threads as such:

private class Player extends Thread {
  public void run() {
     Process.setThreadPriority(Process.THREAD_PRIORITY_AUDIO );
       ....
  }
}

which gives better speed.

The solution is still blocking in a manner but, UDP packets wont be blocked by player until ABQ size increases as its capacity.

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I’m indeed using a similar solution: I have a manual ringbuffer for the audioData. One thread reads it and plays it, the other writes to it. If it is full, the packet is dropped. Not yet perfect, but fine for now. –  rumpel Feb 25 '13 at 20:56
    
I guess amount of delay is depending on size of ringbuffer if you are dropping on writer thread. In case of a problem will be dropped like this(assume * is fine _ is dropped): **********___________****** Instead, if you use packet dropping on player side, this time you will get something: ***_*_**_*_*_**_*** which is more ear-friendly and also delay is better and not really depending on size of ringbuffer. Last Thing on dropping, you dont have to drop whole packet, I am simply dividing packets into 8, and dropping none if buffer is good, dropping two if buffer is so-so. –  bluebrain Feb 26 '13 at 9:40
    
and dropping all if buffer really suffers. In between, change from 0 to 8, your call. If you find a better way, just lemme know, I should check too. –  bluebrain Feb 26 '13 at 9:45

I think I might have a more attractive solution than the "add a buffer and a thread" solution. That solution adds some latency to your (presumably) latency sensitive system. Here's what you can do:

Note the buffer size of your AudioTrack. Then keep track of how many bytes have been written to the buffer in the last X milliseconds (this should be doable in a not-too-computationally-intense manner), where X is the number of milliseconds of audio that you can fit into the buffer (simple calculation based on buffer size and sampling rate and quantization rate (bits/sample) and number of channels). If you've written "buffer size" amount of data in X milliseconds, then you should drop the packet of audio. Note that dropping packets is going to be a symptom of the "add a buffer and a thread" solution, also.

You may want to add a small threshold so that you never actually fill the buffer (assume the buffer is a little smaller than it actually is).

Good luck!

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