[PATCH v2 1/2] devicetree: i2c-hid: Add Wacom digitizer + regulator support
Doug Anderson
dianders at chromium.org
Tue Dec 6 08:18:01 PST 2016
Hi,
On Tue, Dec 6, 2016 at 6:56 AM, Rob Herring <robh at kernel.org> wrote:
> On Tue, Dec 6, 2016 at 2:48 AM, Benjamin Tissoires
> <benjamin.tissoires at redhat.com> wrote:
>> On Dec 05 2016 or thereabouts, Rob Herring wrote:
>>> On Thu, Dec 01, 2016 at 09:24:50AM -0800, Brian Norris wrote:
>>> > Hi Benjamin and Rob,
>>> >
>>> > On Thu, Dec 01, 2016 at 03:34:34PM +0100, Benjamin Tissoires wrote:
>>> > > On Nov 30 2016 or thereabouts, Brian Norris wrote:
>>> > > > From: Caesar Wang <wxt at rock-chips.com>
>>> > > >
>>> > > > Add a compatible string and regulator property for Wacom W9103
>>> > > > digitizer. Its VDD supply may need to be enabled before using it.
>>> > > >
>>> > > > Signed-off-by: Caesar Wang <wxt at rock-chips.com>
>>> > > > Cc: Rob Herring <robh+dt at kernel.org>
>>> > > > Cc: Jiri Kosina <jikos at kernel.org>
>>> > > > Cc: linux-input at vger.kernel.org
>>> > > > Signed-off-by: Brian Norris <briannorris at chromium.org>
>>> > > > ---
>>> > > > v1 was a few months back. I finally got around to rewriting it based on
>>> > > > DT binding feedback.
>>> > > >
>>> > > > v2:
>>> > > > * add compatible property for wacom
>>> > > > * name the regulator property specifically (VDD)
>>> > > >
>>> > > > Documentation/devicetree/bindings/input/hid-over-i2c.txt | 6 +++++-
>>> > > > 1 file changed, 5 insertions(+), 1 deletion(-)
>>> > > >
>>> > > > diff --git a/Documentation/devicetree/bindings/input/hid-over-i2c.txt b/Documentation/devicetree/bindings/input/hid-over-i2c.txt
>>> > > > index 488edcb264c4..eb98054e60c9 100644
>>> > > > --- a/Documentation/devicetree/bindings/input/hid-over-i2c.txt
>>> > > > +++ b/Documentation/devicetree/bindings/input/hid-over-i2c.txt
>>> > > > @@ -11,12 +11,16 @@ If this binding is used, the kernel module i2c-hid will handle the communication
>>> > > > with the device and the generic hid core layer will handle the protocol.
>>> > > >
>>> > > > Required properties:
>>> > > > -- compatible: must be "hid-over-i2c"
>>> > > > +- compatible: must be "hid-over-i2c", or a device-specific string like:
>>> > > > + * "wacom,w9013"
>>> > >
>>> > > NACK on this one.
>>> > >
>>> > > After re-reading the v1 submission I realized Rob asked for this change,
>>> > > but I strongly disagree.
>>> > >
>>> > > HID over I2C is a generic protocol, in the same way HID over USB is. We
>>> > > can not start adding device specifics here, this is opening the can of
>>> > > worms. If the device is a HID one, nothing else should matter. The rest
>>> > > (description of the device, name, etc...) is all provided by the
>>> > > protocol.
>>> >
>>> > I should have spoken up when Rob made the suggestion, because I more or
>>> > less agree with Benjamin here. I don't really see why this needs to have
>>> > a specialized compatible string, as the property is still fairly
>>> > generic, and the entire device handling is via a generic protocol. The
>>> > fact that we manage its power via a regulator is not very
>>> > device-specific.
>>>
>>> It doesn't matter that the protocol is generic. The device attached and
>>> the implementation is not. Implementations have been known to have
>>> bugs/quirks (generally speaking, not HID over I2C in particular). There
>>> are also things outside the scope of what is 'hid-over-i2c' like what's
>>> needed to power-on the device which this patch clearly show.
>>
>> Yes, there are bugs, quirks, even with HID. But the HID declares within
>> the protocol the Vendor ID and the Product ID, which means once we pass
>> the initial "device is ready" step and can do a single i2c write/read,
>> we don't give a crap about device tree anymore.
>>
>> This is just about setting the device in shape so that it can answer a
>> single write/read.
>>
>>>
>>> This is no different than a panel attached via LVDS, eDP, etc., or
>>> USB/PCIe device hard-wired on a board. They all use standard protocols
>>> and all need additional data to describe them. Of course, adding a
>>> single property for a delay would not be a big deal, but it's never
>>> ending. Next you need multiple supplies, GPIO controls, mutiple
>>> delays... This has been discussed to death already. As Thierry Reding
>>> said, you're not special[1].
>>
>> I can somewhat understand what you mean. The official specification is
>> for ACPI. And ACPI allows to calls various settings while querying the
>> _STA method for instance. So in the ACPI world, we don't need to care
>> about regulators or GPIOs because the OEM deals with this in its own
>> blob.
>>
>> Now, coming back to our issue. We are not special, maybe, if he says so.
>> But this really feels like a design choice between putting the burden on
>> device tree and OEMs or in the module maintainers. And I'd rather have
>> the OEM deal with their device than me having to update the module for
>> each generations of hardware. Indeed, this looks like an "endless"
>> amount of quirks, but I'd rather have this endless amount of quirks than
>> having to maintain an endless amount of list of new devices that behaves
>> the same way. We are talking here about "wacom,w9013", but then comes
>> "wacom,w9014" and we need to upgrade the kernel.
>
> No. If the w9014 can claim compatibility with then w9013, then you
> don't need a kernel change. The DT should list the w9014 AND w9013,
> but the kernel only needs to know about the w9013. That is until there
> is some difference which is why the DT should list w9014 to start
> with.
>
> If you don't have any power control to deal with, then the kernel can
> always just match on "hid-over-i2c" compatible.
Just my $0.02. Feel free to ignore.
One thought is that I would say that the need to power on the device
explicitly seems more like a board level difference and less like a
difference associated with a particular digitizer. Said another way,
it seems likely there will be boards with a w9013 without explicit
control of the regulator in software and it seems like there will be
boards with other digitizers where suddenly a new board will come out
that needs explicit control of the regulator.
In this particular case I feel like we can draw a lot of parallels to
an SDIO bus.
When you specify an SDIO bus you don't specify what kind of card will
be present, you just say "I've got an SDIO bus" and then the specific
device underneath is probed. Here we've say "I've got an i2c
connection intended for HID" and then you probe for the HID device
that's on the connection.
Also for an SDIO bus, you've possibly got a regulators / GPIOs /
resets that need to be controlled, but the specific details of these
regulator / GPIOs / resets are specific to a given board and not
necessarily a given SDIO device.
-Doug
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