On Mon, 2015-04-20 at 21:48 +0100, Mark Brown wrote:
On Mon, Apr 20, 2015 at 06:37:47AM +0200, Sascha Hauer wrote:
On Sat, Apr 18, 2015 at 06:34:07PM +0100, Mark Brown wrote:
On Fri, Apr 10, 2015 at 04:14:07PM +0800, Koro Chen wrote:
+Each external interface (called "IO" in this driver) is presented as a +DAI to ASoC. An IO must be connected via the interconnect to a memif. +The connection paths are configured through the device tree.
Why are these connection paths configured via device tree? I would expect that either there would be runtime configurability of these things (particularly if loopback configurations within the hardware are possible) or we'd just allocate memory interfaces to DAIs automatically as DAIs come into use.
There is a crossbar switch between the memory interfaces and the DAIs. Not every connection is possible, so not every memory interface can be used for every DAI. An algorithm choosing a suitable memory interface must be quite clever, complicated and also SoC dependent (the same but different hardware is used on MT8135 aswell), so I thought offering a static configuration via device tree is a good start. Should there be runtime configuration possible later the device tree settings could provide a good default.
What exactly do the restrictions look like and how often do they vary in practice (can we get away with just doing a single static setup in the driver)? I'd have thought it should be fairly straightforward to have a table of valid mappings and just pick the first free memory interface? I'd rather not get stuck with the tables in the DT. It's partly to avoid setting bad precendents, we really don't want everyone coming along hard coding this stuff, and partly because the hardware you described didn't seem that hard to handle.
If using DPCM, it seems the most suitable FE DAIs will be memif, and external interface like I2S should be BE DAIs. Do you think it is suitable for our memif to be FE DAIs? Then which memif to used can be described in a machine driver's FE DAIs. But I think this has a problem that our memif is one-direction, playback or capture. So the binded pcm device cannot have playback and capture capability together. May it cause trouble for user space apps that assumes there will be pcmC0D0p, pcmC0D0c?
+- mem-interface-playback:
- mem-interface-capture: property of memif, format is: <memif irq use_sram>;
memif: which memif to be used
(defined in include/dt-bindings/sound/mtk-afe.h)
irq: which irq to be used
(defined in include/dt-bindings/sound/mtk-afe.h)
use_sram: 1 is yes, 0 is no
Again, this looks like stuff we should be able to figure out at runtime
- the use of SRAM in particular looks like something we might want to
change depending on use case. Assuming it adds buffering then for a VoIP application we might not want to use SRAM to minimize latency but during music playback we might want to enable SRAM to minimize power consumption.
That's exactly the usecase. How could such a runtime configurability look like? sysfs? Or something based on the buffer sizes?
Yeah, one of those :) but probably an ALSA control is going to be the easiest for applications.