Hi Benjamin,
On 30/11/2021 16:44, Benjamin Tissoires wrote:
Hi Tero,
On Fri, Nov 26, 2021 at 2:02 PM Tero Kristo <tero.kristo@xxxxxxxxxxxxxxx> wrote:
Hi,
This series is an update based on comments from Benjamin. What is done
is this series is to ditch the separate hid-driver for USI, and add the
generic support to core layers. This part basically brings the support
for providing USI events, without programmability (patches 1-6).
That part seems to be almost good for now. I have a few things to check:
- patch2: "HID: hid-input: Add suffix also for HID_DG_PEN" I need to
ensure there are no touchscreens affected by this (there used to be a
mess with some vendors where they would not declare things properly)
- patch5: "HID: core: map USI pen style reports directly" this one
feels plain wrong. I would need to have a look at the report
descriptor but this is too specific in a very generic code
Relevant part of the report descriptor is here:
Field(8)
Physical(Digitizers.Stylus)
Logical(Digitizers.Preferred Line Style)
Application(Digitizers.Pen)
Usage(6)
Digitizers.Ink
Digitizers.Pencil
Digitizers.Highlighter
Digitizers.Chisel Marker
Digitizers.Brush
Digitizers.No Preference
Logical Minimum(1)
Logical Maximum(6)
Physical Minimum(0)
Physical Maximum(255)
Unit Exponent(-1)
Unit(SI Linear : Centimeter)
Report Size(8)
Report Count(1)
Report Offset(88)
Flags( Variable Absolute NoPreferredState )
To me, it looks almost like it is a bug in the report descriptor itself;
as you see there are 6 usage values but the report size / count is 1
byte. The fact that there are 6 usage values in the field confuses
hid-core. Basically the usage values are used as encoded content for the
field.
Alternatively I think this could be patched up in the BPF program, as I
am modifying the content of the raw hid report already; I could just as
well modify this one also. Or, maybe I could fix the report descriptor
itself to act as a sane variable, as I am parsing the report descriptor
already?
Additionally, a HID-BPF based sample is provided which can be used to
program / query pen parameters in comparison to the old driver level
implementation (patches 7-8, patch #8 is an incremental change on top of
patch #7 which just converts the fifo to socket so that the client can
also get results back from the server.)
After a few more thoughts, I wondered what your input is on this. We
should be able to do the very same with plain hidraw... However, you
added a `hid/raw_event` processing that will still be kept in the
kernel, so maybe bpf would be useful for that at least.
Yes, plain hidraw can be sort of used to program the values, however the
interface is kind of annoying to use for the USI pens. You need to be
touching the display with the pen before anything is accepted. Maybe
writing some support code to the libevdev would help.
The hidraw hook is needed for processing the cached values also, USI
pens report their parameters with a delay of some few hundred ms
depending on controller vendor. And in some cases they don't report
anything back before forcibly querying the value from the controller,
and also the write mechanism acts differently; some controllers report
the programmed value back, others keep reporting the old value until the
pen leaves the screen and touches it again.
The whole series is based on top of Benjamin's hid-bpf support work, and
I've pushed a branch at [1] with a series that works and brings in
the dependency. There are also a few separate patches in this series to
fix the problems I found from Benjamin's initial work for hid-bpf; I
wasn't able to get things working without those. The branch is also
based on top of 5.16-rc2 which required some extra changes to the
patches from Benjamin.
Yeah, I also rebased on top of 5.16 shortly after sharing that branch
and got roughly the same last fix (HID: bpf: compile fix for
bpf_hid_foreach_rdesc_item). I am *very* interested in your "HID: bpf:
execute BPF programs in proper context" because that is something that
was bothering me a lot :)
Right, I think I have plenty of lockdep / scheduler checks enabled in my
kernel. They generate plenty of spam with i2c-hid without that patch.
The same issue may not be visible with some other low level hid devices
though, I don't have testing capability for anything but the i2c-hid
right now. I2C is quite notorious for the locking aspects as it is slow
and is used to control some pretty low level stuff like power management
etc.
"HID: bpf: add expected_attach_type to bpf prog during detach" is
something I'll need to bring in too
but "HID: bpf: fix file mapping" is actually wrong. I initially wanted
to attach BPF programs to hidraw, but shortly realized that this is
not working because the `hid/rdesc_fixup` kills the hidraw node and so
releases the BPF programs. The way I am now attaching it is to use the
fd associated with the modalias in the sysfs file (for instance: `sudo
./hid_surface_dial /sys/bus/hid/devices/0005:045E:091B.*/modalias`).
This way, the reference to the struct hid_device is kept even if we
disconnect the device and reprobe it.
Ok I can check this out if it works me also. The samples lead me to
/dev/hidraw usage.
Thanks again for your work, and I'd be curious to have your thoughts
on hid-bpf and if you think it is better than hidraw/evdev write/new
ioctls for your use case.
The new driver was 777 lines diff, the BPF one is 496 lines so it
appears smaller. The driver did support two different vendors though
(ELAN+Goodix, with their specific quirks in place), the BPF only a
single one right now (ELAN).
The vendor specific quirks are a question, do we want to support that
somehow in a single BPF binary, or should we attach vendor specific BPF
programs?
Chromium-os devices are one of the main customers for USI pens right
now, and I am not sure how well they will take the BPF concept. :) I did
ask their feedback though, and I'll come back on this once I have something.
Personally, I don't have much preference either way at this moment, both
seem like feasible options. I might lean a bit towards evdev/ioctl as it
seems a cleaner implementation as of now. The write mechanism I
implemented for the USI-BPF is a bit hacky, as it just directly writes
to a shared memory buffer and the buffer gets parsed by the kernel part
when it processes hidraw event. Anyways, do you have any feedback on
that part? BPF is completely new to me again so would love to get some
feedback.
One option is of course to push the write portion of the code to
userspace and just use hidraw, but we still need to filter out the bogus
events somehow, and do that in vendor specific manner. I don't think
this can be done on userspace, as plenty of information that would be
needed to do this properly has been lost at the input-event level.
-Tero
Cheers,
Benjamin
-Tero
[1] https://github.com/t-kristo/linux/tree/usi-5.16-rfc-v2-bpf