On 3/30/20 4:57 PM, Alexandru Ardelean wrote:
This is WIP.
It hasn't been tested yet. Mostly serves as base for some discussion.
There have been some offline discussions about how to go about this.
Since I wasn't involved in any of those discussions, this kind of tries to
re-build things from various bits.
1. First approach is: we keep 1 buffer per device, and we make it either
in/out, which means that for devices that for devices that have both in/out
2 iio_dev instances are required, or an ADC needs to be connected on the in
path and a DAC on out-path. This is predominantly done in the ADI tree.
2. One discussion/proposal was to have multiple buffers per-device. But the
details are vague since they were relayed to me.
One detail was, to have indexes for devices that have more than 1
buffer:
Iio_deviceX:
buffer
scan_elements
Iio_deviceX:
BufferY
scan_elementsY
BufferZ
scan_elementsZ
I am not sure how feasible this is for a single chrdev, as when you look at
the fileops that get assigned to a chrdev, it looks like it can have at
most two buffers (one for input, out for output).
Multiplexing input buffers can work (from ADCs), but demultiplexing output
buffers into a DAC, not so well. Especially on a single chrdev.
Question 1: do we want to support more than 2 buffers per chrdev?
This is what ADI currently has in it's tree (and works).
Example, ADC:
# ls iio\:device3/buffer/
data_available enable length length_align_bytes watermark
# ls iio\:device3/scan_elements/
in_voltage0_en in_voltage0_index in_voltage0_type in_voltage1_en in_voltage1_index in_voltage1_type
Example, DAC:
# ls iio\:device4/buffer/
data_available enable length length_align_bytes watermark
# ls iio\:device4/scan_elements/
out_voltage0_en out_voltage0_type out_voltage1_index out_voltage2_en out_voltage2_type out_voltage3_index
out_voltage0_index out_voltage1_en out_voltage1_type out_voltage2_index out_voltage3_en out_voltage3_type
The direction of each element is encoded into the filename of each channel.
Another question is:
Does it make sense to have more than 1 'scan_elements' folder?
That is, for devices that would have both in & out channels.
For 'buffer' folders I was thinking that it may make sense to have,
'buffer_in' && 'buffer_out'.
So, one idea is:
Iio_deviceX:
buffer_in
buffer_out
scan_elements
Currently, this patch kind of implements 2 buffers per iio_dev/chrdev.
But the format is:
Iio_deviceX:
buffer_in
buffer_out
scan_elements_in
scan_elements_out
I'd make scan_elements as a sub-folder of the buffer folder. And have
symlink for the legacy case
Obviously it shouldn't work as-is [as it wasn't tested], but at least gives
some glimpse of where this could go.
I believe the basic idea behind the multiple buffers per device was,
that if we do it, we should do it in a way that you can have an
arbitrary number of buffers. E.g. not just one input and output but also
multiple input buffers.
3. A side question is about the 'iio_buffer -> pollq' field. I was
wondering if it would make sense to move that on to 'iio_dev pollq' if
adding multiple buffers are added per-device. It almost makes sense to
unify the 'pollq' on indio_dev.
But, it looks a bit difficult, and would require some more change [which is
doable] if it makes sense for whatever reason.
The only reason to do it, is because the iio_buffer_fileops has a .poll =
iio_buffer_poll() function attached to it. Adding multiple buffers for an
IIO device may require some consideration on the iio_buffer_poll() function
as well.
I think we need one chardev per buffer. Conceptually that is the right
approach in my option since the two buffers are independent streams. But
also from a practical point of view we want to have the ability to have
the buffers opened by different applications. E.g. iio_readdev on the
input buffer and iio_writedev on the output buffer. And there might be
some other operations that wont multiplex as nicely as read/write. The
high speed interface for example would not work as it is right now.
