On 04/15/2013 05:16 PM, Stephen Warren wrote:
> On 04/15/2013 03:40 PM, Jon Hunter wrote:
>>
>> On 04/15/2013 11:58 AM, Stephen Warren wrote:
>>> On 04/14/2013 02:53 PM, Linus Walleij wrote:
>>>> On Sun, Apr 14, 2013 at 3:35 AM, Javier Martinez Canillas
>>>> <martinez.javier@xxxxxxxxx> wrote:
>>>>
>>>>> Is the following inlined patch [1] what you were thinking that would
>>>>> be the right approach?
>>>>
>>>> This looks sort of OK, but I'm still struggling with the question of
>>>> what we could do to help other implementations facing the same issue.
>>>>
>>>> This is a pretty hard design pattern to properly replicate in every such
>>>> driver is it not?
>>>
>>> Well, instead of adding .request_irq() to the irqchip, and then making
>>> each driver call gpio_request() from the implementation, perhaps you
>>> could add a .irq_to_gpio() to the irqchip, have the IRQ core call that,
>>> and if it gets back a non-error response, the IRQ core could call
>>> gpio_request(). That means that the change to each GPIO+IRQ driver is
>>> simply to implement a standalone data transformation function
>>> .irq_to_gpio().
>>
>> I am still concerned about the case where a driver may have already
>> called gpio_request() and then calls request_irq(). I think that the
>> solution needs to handle cases where the driver may or may not call
>> gpio_request() to allocate the gpio.
>
> Are there actually drivers that do this? Perhaps they could just be
> fixed not to.
Yes ideally, but my fear is that there are several. I know both omap
display and mmc drivers do this. There are many drivers calling
gpio_direction_input() but I have not looked to see which of those are
just reading state versus configuring an interrupt.
>> Although it could be argued that this is problem is not DT specific,
>> it does become a bigger problem to handle in the case of DT. Therefore,
>> I am wondering if we should just focus on the DT case for now.
>
> That doesn't sound like a good idea; this issue is entirely orthogonal
> to DT.
True, but it is proving to be difficult to find a solution that everyone
can agree on.
>>> Now, this does re-introduce irq_to_gpio() in some way, but with the
>>> following advantages:
>>>
>>> 1) The implementation is per-controller, not a single global function,
>>> so isn't introducing any kind of centralized mapping scheme again.
>>>
>>> 2) This irq-chip-specific .irq_to_gpio() would only be implemented for
>>> IRQ+GPIO chips that actually have a 1:1 mapping between GPIOs and IRQs.
>>> Its potential existence doesn't imply that all IRQ chips need implement
>>> this; it would be very specifically be for this one particular case.
>>>
>>> So, I think it's reasonable to introduce this.
>>
>> How about using the gpio irq domain xlate function?
>
> That translates DT IRQ-specifiers to Linux IRQ numbers. There's no
> reason to believe that, as an absolute rule, it would work for anything
> GPIO-related. The fact that in practice most GPIO+IRQ controllers happen
> to use the same numbering for GPIOs and IRQs is just co-incidence.
Yes but provides a hook where we could call gpio_request(). However, I
am not sure if this would be considered abuse :-p
>> Typically, in DT land a device using a gpio as an interrupt source
>> will have something like the following ...
>>
>> eth@0 {
>> compatible = "ks8851";
>> ...
>> interrupt-parent = <&gpio2>;
>> interrupts = <2 8>; /* gpio line 34, low triggered */
>> };
>
> OK, that really is an interrupt...
>
>> ... or ...
>>
>> mmc {
>> label = "pandaboard::status2";
>> gpios = <&gpio1 8 0>;
>> ...
>> };
>
> But that's a gpio-leds instance, not an MMC controller... I really
> really hope there's no DT node using "gpios" to mean "interrupts"... And
> it wouldn't make any sense for an on-SoC device anyway.
Oops yes, I overlooked that. However, the omap mmc driver
(drivers/mmc/host/omap_hsmmc.c) does call gpio_request() and
request_threaded_irq() for the mmc card-detect interrupt. I believe
tegra is doing the same ...
sdhci@78000000 {
...
cd-gpios = <&gpio 69 0>; /* gpio PI5 */
...
};
>> Both these devices are using a gpio as an interrupt source, but the mmc
>> driver is requesting the gpio directly. In the first case the xlate
>> function for the gpio irq domain will be called where as it is not used
>> in the 2nd case. Therefore, we could add a custom xlate function. For
>> example ...
>>
>> diff --git a/drivers/gpio/gpio-omap.c b/drivers/gpio/gpio-omap.c
>
>> +int omap_irq_domain_xlate(struct irq_domain *d, struct device_node *ctrlr,
> ...
>> + gpio_request_one(irq_to_gpio(bank, intspec[0]), GPIOF_IN, ctrlr->name);
>
> I guess that could work, but:
>
> a) It still means doing the gpio_request() in each driver instead of
> centrally.
Right this is device specific, but it avoids exposing irq_to_gpio for a
device. However, we could make this generic if we did expose irq_to_gpio
for each device.
> b) This approach doesn't solve the issue where some client driver has
> already requested the GPIO. This code would simply prevent that call
> from succeeding, which would probably make the driver probe() error out,
> which isn't any different to the equivalent proposed centralized
> gpio_request() inside some request_irq() failing, and causing the
> device's probe() to error out.
If some driver is calling gpio_request() directly, then they will most
likely just call gpio_to_irq() when requesting the interrupt and so the
xlate function would not be called in this case (mmc drivers are a good
example). So I don't see that as being a problem. In fact that's the
benefit of this approach as AFAICT it solves this problem.
Cheers
Jon
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