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SubjectRe: [RFC 0/4] iio-input-bridge so that accelerometers which only have an iio driver can still present evdev input events
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Hi Jonathan,

> Am 24.03.2019 um 19:29 schrieb Jonathan Cameron <jic23@kernel.org>:
>
> On Mon, 18 Mar 2019 21:39:30 +0100
> "H. Nikolaus Schaller" <hns@goldelico.com> wrote:
>
>
>> Some user spaces (e.g. some Android) use /dev/input/event* for handling the 3D
>> position of the device with respect to the center of gravity (earth). This can
>> be used for gaming input, rotation of screens etc.
>>
>> This should be the standard because this interface is an abstraction of how
>> this data is acquired from sensor chips. Sensor chips may be connected through
>> different interfaces and in different positions. They may also have different
>> parameters. And, if a chip is replaced by a different one, the values reported
>> by the device position interface should remain the same.
>>
>> But nowadays, new accelerometer chips usually just get iio drivers and rarely
>> an evdev input driver.
>>
>> Therefore we need something like a protocol stack: input device vs. raw data.
>> It can be seen as a similar layering like TCP/IP vs. bare Ethernet. Or keyboard
>> input events vs. raw gpio or raw USB access.
>>
>> This patch set bridges the gap between raw iio data and the input device abstraction
>> so that accelerometer measurements can also be presented as X/Y/Z accelerometer
>> channels (INPUT_PROP_ACCELEROMETER) through /dev/input/event*.
>>
> Hi,
>
> I've kind of run out of time today and want to give this a detailed look.

No problem, please take the time it needs.

>
> In the meantime a few initial comments.
>
> 1. Resend the whole series cc'ing the linux-input list and maintainer.

Ok!

> 2. In the vast majority of devices the interrupt pin is connected for an
> accelerometer. and they support data ready signals. My gut feeling is
> that should be the preferred mode.

Mine too, and the commit message 1/4 describes this by

"If it runs, the driver polls the device(s) once every 100 ms. A mode where the
iio device defines the update rate is not implemented and for further study."

But I didn't manage to get this correctly set up for in-kernel iio on demand
(start/stop when a process does an open/close - it was simpler to start/stop
polling).

Here I am lacking some understanding of details of the subsystems and their
capabilities.

Therefore I focussed on the polling case to leave the interrupt driven case
for later improvements. Also, since 100ms doesn't seem to be a big resource
burden.

I am also not sure if we really want to process every fidget detected by the
raw sensor to the input subsystem. This could require more resources than
polling with 100ms distance.

> It was for that use case that we originally
> put all the demux and multiple buffer code in IIO. The original series for
> that actually had an input bridge.
> https://lore.kernel.org/linux-iio/1351679431-7963-5-git-send-email-jic23@kernel.org/

Oh, nice! I wasn't aware of that. If I had known, we might have based our
code on it.

It seems to be a good blueprint to understand how to set up the callbacks.

What I do not understand is where the "iio map" comes from in your approach.

From device tree? That would IMHO be against the rule that DTS should describe
hardware but bridging data to a different user-space interface is not related
to hardware description.

So our approach does not need a specific mapping.

>
> 3. It's going to be a hard sell to have it 'always' map an accelerometer in IIO
> to an input device when configured. There are lots of other accelerometer use
> cases where this would be crazy. In the repost, give some comentary perhaps on
> the following options:
> a) Explicit binding - like the iio-hwmon bridge.
> b) A userspace bridge (I even wrote one of those years ago using uevent)
> c) Some sort of userspace triggered way of creating these on demand.

Basically, if you have one of these many other use cases, one can just keep this
bridge unconfigured. Then, it does not eat up memory or code space or processor
cycles.

Its only use case is to map iio accelerometers to input devices which are
really used as input devices, i.e. gaming, device orientation etc. Other use
cases (e.g. industrial sensor grid data aggregator) should not consider this as
an alternative interface and use e.g. libiio of course.

Those (handheld) devices in mind usually have only a single accelerometer chip, but
there are exceptions like the GTA04 and the Pyra which can have two of them (with
different precision, mounting orientation and functions). Maybe there are some
devices with more than two. So these iio devices should be reported separately
but the data (X,Y,Z) should mainly agree on input device level.

In the two-sensor case, our proposed driver simply creates two distinct /dev/input/event
files which can be given fixed file names by udev instead of inventing a new trigger
to create these on demand. IMHO it should not be handled differently from plugging in
multiple mice or joysticks or other gaming devices to USB.

And, this driver converts "raw" accelerometer data into a higher abstraction level
input event in a way that user-space becomes independent of the specific chip set
and its orientation. This is like hiding different flash hardware interfaces
by MTD or file systems. All the hardware details are hidden and shielded. Or it
is like mapping gpios or alternatively an i2c scanner chio into standardized key codes.

Finally, there is no polling (in this polling setup) if no process opens the input device.
So the only waste of 'always' mapping 'all' accelerometers but not using them are some
data structure allocations in the kernel and duration of probe().

> 4. Input has polled modes. Don't reinvent them.

Haven't heard of, but that is what a RFC is good for.

Anyways, if we use iio interrupts we don't need it, because the information flow
should go from the chip to the iio driver to the input bridge to the input subsystem
and only then notify user space (wake up the process running a select on the event
device file).

Now, there is something I have learned from studying your comment and struct input_dev.

Although I did not find polled modes, I can simplify our approach significantly
since we do not have to count open/close ourselves and define a mutex for that.

This is already done by the input_dev. So I should improve this part of our patches
before resending to input list. Thanks for inpsiring this.

> 5. The patch break up is very very random. Just have one patch :)

Well, it tries to have small pieces in a specific order that you can bisect and
do not run into compile problems (e.g. adding Makefile before code).

But I can squash it. Seems to make sense since it is not really useful to know
which of these pieces breaks other things. It can only be the driver
and bisect will still pin-point it.

>
> Anyhow, I'll take a look in detail but may be a little while.

No reason to hurry. We can wait.

>
> Thanks,
>
> Jonathan

Thanks and BR,
Nikolaus

>
>
>>
>> H. Nikolaus Schaller (4):
>> iio: input-bridge: optionally bridge iio acceleometers to create a
>> /dev/input
>> iio: input-bridge: add iio-input-bridge to Makefile
>> iio: input-bridge: add IIO_INPUT_BRIDGE kernel config option
>> iio: input-bridge: make the iio-input-bridge driver called by iio-core
>>
>> drivers/iio/Kconfig | 7 +
>> drivers/iio/Makefile | 1 +
>> drivers/iio/industrialio-core.c | 12 +
>> drivers/iio/industrialio-inputbridge.c | 420 +++++++++++++++++++++++++
>> drivers/iio/industrialio-inputbridge.h | 28 ++
>> 5 files changed, 468 insertions(+)
>> create mode 100644 drivers/iio/industrialio-inputbridge.c
>> create mode 100644 drivers/iio/industrialio-inputbridge.h
>>
>

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