This one keeps me awake:
I have an OS X audio application which has to react if the user changes the current sample rate of the device.
To do this I register a callback for both in- and output devices on ‘kAudioDevicePropertyNominalSampleRate’.
So if one of the devices sample rates get changed I get the callback and set the new sample rate on the devices with 'AudioObjectSetPropertyData' and 'kAudioDevicePropertyNominalSampleRate' as the selector.
The next steps were mentioned on the apple mailing list and i followed them:
- stop the input AudioUnit and the AUGraph which consists of a mixer and the output AudioUnit
- uninitalize them both.
- check for the node count, step over them and use AUGraphDisconnectNodeInput to disconnect the mixer from the output
- now set the new sample rate on the output scope of the input unit
- and on the in- and output scope on the mixer unit
- reconnect the mixer node to the output unit
- update the graph
- init input and graph
- start input and graph
Render and Output callbacks start again but now the audio is distorted. I believe it's the input render callback which is responsible for the signal but I'm not sure.
What did I forget?
The sample rate doesn't affect the buffer size as far as i know.
If I start my application with the other sample rate everything is OK, it's the change that leads to the distorted signal.
I look at the stream format (kAudioUnitProperty_StreamFormat) before and after. Everything stays the same except the sample rate which of course changes to the new value.
As I said I think it's the input render callback which needs to be changed. Do I have to notify the callback that more samples are needed? I checked the callbacks and buffer sizes with 44k and 48k and nothing was different.
I wrote a small test application so if you want me to provide code, I can show you.
Edit: I recorded the distorted audio(a sine) and looked at it in Audacity.
What I found was that after every 495 samples the audio drops for another 17 samples. I think you see where this is going: 495 samples + 17 samples = 512 samples. Which is the buffer size of my devices.
But I still don't know what I can do with this finding.
I checked my Input and Output render procs and their access of the RingBuffer(I'm using the fixed Version of CARingBuffer)
Both store and fetch 512 frames so nothing is missing here...