On Tue, May 20, 2014 at 12:43:24PM +0800, Nicolin Chen wrote:
On Tue, May 20, 2014 at 01:18:34AM +0100, Mark Brown wrote:
On Fri, May 16, 2014 at 06:59:41PM +0800, Nicolin Chen wrote:
This is moderately common in mainline already. You shouldn't need to have any custom code - we should just be able to figure out that the SRC is needed (and a quick glance at your out of tree code shows now ioctl() so that's fine as you say).
I was thinking about just leaving P2P as an initial version and reserving some essential interfaces for M2M function so that I can add it up later in our internal branch or we can figure out a better approach in community style. And now, it looks like a good idea for me to try this way so as to move on quickly.
Yes, that's going to make progress faster and it's probably going to be the most commonly used bit anyway.
- M2M, memory to memory, can simply make ASRC as a sample rate converter without playback via any BE sound card, just like using any software to convert a WAV file in one sample rate to another WAV in a required sample rate. The driver has its self-designed application to compelte this function by sending the audio data from a wave file into a misc device via non-generic ioctl:
I would expect this to be handled by just routing the audio between the two front ends using DAPM/DPCM rather than by having a new kernel API.a
Two front ends: one for ASRC and the other is...? And how does it transfer audio data with user space?
The front ends are the PCMs userspace actually sees and not usually tied to anything except by routing constraints in the firmware/hardware - I'd expect to see one available for each side of the ASRC, I guess at least one of these is just a normal audio streaming FE used to route to the back ends.
If nothing else representing the ASRC block as a CODEC would do the trick though that doesn't entirely play well with DPCM, it is kind of doing the right thing though in that the ASRC block terminates two digital paths. I'm not loving the elegence there though.
Sorry I can't understand this CODEC approach either...
Yes, ASRC has two digital ends but each of them is just a FIFO register , input FIFO and output FIFO, waiting for DMA to handle the Tx/Rx job, not like a normal CODEC that has DAI outwards.
Right, the DAIs in this case are just connected back to back inside the device like if you looped line input and line output together in a normal CODEC but without the DAC and ADC.