On 09/16/2013 10:03 AM, Lars Poeschel wrote: > On Monday 16 September 2013 13:43:50, Stephen Warren wrote: >> On 09/10/2013 06:52 PM, Javier Martinez Canillas wrote: >>> On 09/11/2013 12:34 AM, Stephen Warren wrote: >>>> On 09/10/2013 03:37 PM, Mark Brown wrote: >>>>> On Tue, Sep 10, 2013 at 01:53:47PM -0600, Stephen Warren wrote: >>>>>> Doesn't this patch call gpio_request() on the GPIO first, and >>>>>> hence prevent the driver's own gpio_request() from succeeding, >>>>>> since the GPIO is already requested? If this is not a problem, it >>>>>> sounds like a bug in gpio_request() not ensuring mutual exclusion >>>>>> for the GPIO. >>>>> >>>>> Or at the very least something that's likely to break in the >>>>> future. >>>> >>>> Looking at the GPIO code, it already prevents double-requests: >>>>> if (test_and_set_bit(FLAG_REQUESTED, &desc->flags) == 0) { >>>>> >>>>> desc_set_label(desc, label ? : "?"); >>>>> status = 0; >>>>> >>>>> } else { >>>>> >>>>> status = -EBUSY; >>>>> module_put(chip->owner); >>>>> goto done; >>>>> >>>>> } >>>> >>>> And I tested it in practice, and it really does fail. >>> >>> I'm a bit confused now. Doesn't the fact that gpio_request() prevents >>> double-requests mean that the use-case that you say that have not been >>> covered by this patch can't actually happen? >>> >>> I mean, if when using board files an explicit call to gpio_request() is >>> made by platform code then a driver can't call gpio_request() for the >>> same gpio. So this patch shouldn't cause any regression since is just >>> auto-requesting a GPIO when is mapped as an IRQ in a DT which basically >>> will be the same that was made by board files before. >> >> I'm not familiar with the board file path; Linus describe this. > > It seems Linus is busy, I'll try to help out. > >> It sounds like that path is for the case where a driver /only/ cares >> about using a pin as an IRQ, and hence the driver only calls >> request_irq(). The board file is (earlier) calling gpio_request() in >> order to set up that input pin to work correctly as an IRQ. Hence, there >> is no double-call to gpio_request(). > > No, a board file is not a path or something. A board file describes the wirings > and specifics of an (embedded) computer in C code. The complete knowledge of > how things are connected on a board and which drivers to use is in this piece > of code. Devicetree replaces legacy board files. These two do pretty much the > same, but board files have more power, because they are executed and can > contain whatever code is needed to setup a board. > But you are right, the driver only calls request_irq(), the board file set up > the pin before and told the driver which irq to use. path == code path, or execution path. I'm well aware of what board files are in general. I'm just not familiar with board files that employ this particular hack. >> The case I said wouldn't work is: >> >> * This patch calls gpio_request() in order to make the pin work as an IRQ. >> >> * Driver uses the pin as both a GPIO and an IRQ, and hence calls >> gpio_request() and request_irq(). >> >> So, there's a double-call to gpio_request(), which fails, and the driver >> fails to probe. > > Again, no. In that case you don't define your pin as irq in the device tree, > but only as gpio. The driver knows how to handle gpios and turn them into irqs > so you have to present it a gpio not an irq. In that case the patch will not > call gpio_request() and there is no double-call to gpio_request(). That is a way to make this patch work, yes. However, there's no guarantee that every driver or DT binding works this way. Forcing bindings to work that way is forcing Linux-internal details upon bindings, which should not be done. Put another way, I don't believe there's any rule when writing DT bindings that states that bindings must not describe the same pin as both a GPIO and an IRQ, although admittedly that may be unusual. ... > I agree with you that it would be the best if the only call would be > request_irq and the chip driver programs the HW appropriately. It would be a > dream, but unfortunately this is not possible at the moment. This is something > that Linus pointed out very very early in this whole discussion. The gpio and > irq frameworks don't share any information. The irq framework has no chance to > program the HW, because it will never find the related gpio. > For this to work the frameworks have to change (and possibly all drivers/board > files/whatever using request_irq() and/or request_gpio()) have to change. > That is something that I do not dare to do alone. This is a controller-specific issue, and has nothing to do with the GPIO or IRQ frameworks. The driver for the combined irq/gpio_chip simply needs to program the HW when the IRQ is requested or set up. The Tegra driver already works this way, so there's actual proof that it is possible to do this in practice. -- To unsubscribe from this list: send the line "unsubscribe devicetree" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html