Re: [PATCH 1/1] IIO: Added write function in iio_buffer_fileops
From: Lars-Peter Clausen
Date: Thu Aug 14 2014 - 05:42:08 EST
On 08/13/2014 06:33 PM, Aniroop Mathur wrote:
On Wed, Aug 13, 2014 at 8:18 PM, Lars-Peter Clausen <lars@xxxxxxxxxx> wrote:
On 08/13/2014 03:42 PM, Aniroop Mathur wrote:
On Wed, Aug 13, 2014 at 2:38 PM, Lars-Peter Clausen <lars@xxxxxxxxxx>
wrote:
On 08/13/2014 08:29 AM, a.mathur@xxxxxxxxxxx wrote:
From: Aniroop Mathur <a.mathur@xxxxxxxxxxx>
Earlier, user space can only read from iio device node but cannot write
to
it.
This patch adds write function in iio buffer file operations,
which will allow user-space applications/HAL to write the data
to iio device node.
So now there will be two way communication between IIO subsystem
and user space. (userspace <--> kernel)
It can be used by HAL or any user-space application which wants to
write data to iio device node/buffer upon receiving some data from it.
As an example,
It is useful for iio device simulator application which need to record
the data by reading from iio device node and replay the recorded data
by writing back to iio device node.
I'm not convinced that this is something that should be added to the
kernel.
I'm wondering why can't this be done in userspace, e.g. by having a
simulator mode for the application or by using LD_PRELOAD. Having this in
userspace will be much more flexible and will be easier to implement
correctly and you'll most likely want to simulate more than just buffer
access, for example setting/getting properties of the device or channel.
For
the libiio[1] we are planning to implement a test backend that when
activated will allow to simulate a whole device rather than just buffer
support.
[1] https://github.com/analogdevicesinc/libiio
In normal Input Subsystem, there is two way communication between
kernel and userpace. It has both read and write functionality. :)
Why there is only one way communication in case of IIO ?
I've not seen a compelling reason yet why this must be implemented in kernel
space. In my opinion, as outlined above, userspace if both easier and more
flexible.
For Input devices, I completed simulation just by reading and writing at
input device node /dev/input/eventX.
But for IIO devices, I am stuck as there is no write function available
for iio device node /dev/iio:device0.
As per my understanding, if we do the simulation in userspace
then we need to create one more buffer in userpace. This will lead to
extra memory usage. With write functionality in IIO just like
in Input subsystem, we can avoid extra memory space. :)
No, you don't actually have to create a additional buffer. Just return the
data that you'd otherwise have passed to write().
If there is no buffer, then there is clearly a chance of data loss/miss. :)
Because if one application is reading the data with frequency 5 Hz
and other application is writing the data at frequency 50 Hz (20 ms delay)
so this reading application will miss reading a lot of data.
Like in this case, after every 200 ms, 9 out of 10 data will be missed.
Not if implemented correctly. Even with the current kernel implementation
you'll have this issues as the buffer will simply overflow when you write
faster than you read.
[...]
Are you sure that this works? iio_push_to_buffer() expects a data buffer
of
size rb->bytes_per_datum bytes. On the other hand rb->bytes_per_datum is
only valid when the buffer is enabled, so for this to work the buffer
would
need to be enabled. Which means you'd inject the fake data in the middle
of
the real data stream.
Yes, It works :)
In one patch, bytes_per_datum has been removed from kifo_in.
Patch - iio:kfifo_buf Take advantage of the fixed record size used in IIO
commit c559afbfb08c7eac215ba417251225d3a8e01062
- ret = kfifo_in(&kf->kf, data, r->bytes_per_datum);
+ ret = kfifo_in(&kf->kf, data, 1);
So, I think we can now write only one byte of data.
No, we need to write 1 record and the size of one record is bytes_per_datum.
If you only write one byte you'll cause a out of bounds access.
This is the code flow below which I checked:
kfifo_in(&kf->kf, data, 1);
so len=1
kfifo_copy_in(fifo, buf, len, fifo->in);
l = min(len, size - off);
memcpy(fifo->data + off, src, l);
In memcpy, if l is 1, so it will copy one byte only.
So, how it is writing one record and not one byte ?
You missed this part:
if (esize != 1) {
off *= esize;
size *= esize;
len *= esize;
}
so len gets multiplied by the record size. len=1 means 1 record.
Initially, I wrote the code for write functionality in kernel version 3.6
using bytes_per_datum instead of fixed size of 1 byte.
It worked fine. :)
For this, we just need to replace size 1 by r->bytes_per_datum.
We are not injecting data in middle of real data stream.
When we inject the recorded data, we disabled the hardware chip,
so no new/real data is pushed to the buffer during that time.
To record, we enabled the buffer, read the real data and save it.
To replay, we disabled the hardware chip and injected saved data by
writing back to iio device node.
So, Buffer is still enabled at time of writing to iio device node. :)
How do you disable the hardware without disabling the buffer?
I disabled the hardware by powering off the chip.
And after writing is complete, chip is powered on again. :)
But how do you disable the device when the buffer is still active?
IIO expects the device to be active when the buffer is active.
- Lars
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