Hi Harish, On Tue, Nov 12, 2019 at 12:52 PM Harish Jenny K N <harish_kandiga@xxxxxxxxxx> wrote: > On 11/10/19 10:05 AM, Harish Jenny K N wrote: > > On 07/10/19 1:48 PM, Geert Uytterhoeven wrote: > >> On Sat, Oct 5, 2019 at 3:08 PM Eugeniu Rosca <roscaeugeniu@xxxxxxxxx> wrote: > >>> On Fri, Sep 27, 2019 at 11:07:20AM +0200, Geert Uytterhoeven wrote: > >>>> My standard reply would be: describe the device connected to the GPIO(s) > >>>> in DT. The GPIO line polarities are specified in the device's "gpios" > >>>> properties. > >>>> Next step would be to use the device from Linux. For that to work, you > >>>> need a dedicated driver (for the complex case), or something generic > >>>> (for the simple case). > >>>> The latter is not unlike e.g. spidev. Once you have a generic driver, > >>>> you can use "driver_override" in sysfs to bind the generic driver to > >>>> your device. See e.g. commit 5039563e7c25eccd ("spi: Add > >>>> driver_override SPI device attribute"). > >>> We have passed your suggestions along. Many thanks. > >>> > >>>> Currently we don't have a "generic" driver for GPIOs. We do have the > >>>> GPIO chardev interface, which exports a full gpio_chip. > >>>> It indeed looks like this "gpio-inverter" could be used as a generic > >>>> driver. But it is limited to GPIOs that are inverted, which rules out > >>>> some use cases. > >>>> > >>>> So what about making it more generic, and dropping the "inverter" from > >>>> its name, and the "inverted" from the "inverted-gpios" property? After > >>>> all the inversion can be specified by the polarity of the GPIO cells in > >>>> the "gpios" property, and the GPIO core will take care of it[*]? > >>>> Which boils down to adding a simple DT interface to my gpio-aggregator > >>>> ("[PATCH/RFC v2 0/5] gpio: Add GPIO Aggregator Driver", > >>>> https://lore.kernel.org/lkml/20190911143858.13024-1-geert+renesas@xxxxxxxxx/). > >>>> And now I have realized[*], we probably no longer need the GPIO > >>>> Forwarder Helper, as there is no need to add inversion on top. > >>> After having a look at the gpio aggregator (and giving it a try on > >>> R-Car3 H3ULCB), here is how I interpret the above comment: > >>> > >>> If there is still a compelling reason for having gpio-inverter, then it > >>> probably makes sense to strip it from its "inverter" function (hence, > >>> transforming it into some kind of "repeater") on the basis that the > >>> inverting function is more of a collateral/secondary feature, rather > >>> than its primary one. Just like in the case of gpio aggregator, the > >>> primary function of gpio inverter is to accept a bunch of GPIO lines and > >>> to expose those via a dedicated gpiochip. I hope this is a proper > >>> summary of the first point in your comment. In any case, this is the > >>> understanding I get based on my experiments with both drivers. > >> Yes, the inverter is basically a "repeater" (or "aggregator", when it has > >> multiple GPIOs connected), hardcoded to invert. > >> > >>> What I also infer is that, assuming gpio-inverter will stay (potentially > >>> renamed and stripped of its non-essential inverting function), the gpio > >>> aggregator will need to keep its Forwarder Helper (supposed to act as a > >>> common foundation for both drivers). > >> What I meant is that if the inverter and aggregator would be combinoed > >> into a single driver, there would no longer be a need[*] for a separate > >> helper, and it could be incorporated into the single driver. > >> > >> [*] The individual helper functions may still be useful for some other > >> driver, though. > > > > Agree. > > > > > >>> The second point which I extract from your comment is that the "gpio > >>> aggregator" could alternatively acquire the role of "gpio-inverter" > >>> (hence superseding it) by adding a "simple DT interface". I actually > >>> tend to like this proposal, since (as said above) both drivers are > >>> essentially doing the same thing, i.e. they cluster a number of gpio > >>> lines and expose this cluster as a new gpiochip (keeping the > >>> reserved/used gpio lines on hold). That looks like a huge overlap in > >>> the functionalities of the two drivers. > >> Yes, both drivers are very similar. The difference lies in how they > >> acquire the list of GPIO descriptors. > > Yes. In fact my V2 version of the patch tried to implement the same role as repeater/forwarder albeit with a different naming/intention. > > > > Linus Walleij mentioned that using GPIO_ACTIVE_LOW just to get free inversion inside GPIOLIB was not OK really and this is a hardware description problem and totally different from the implementation problem inside the driver. > > > > Hence we changed the logic to inverter consumer driver doing inversion inside get and set functions. > > > >>> The only difference which I see is that "gpio-inverter" is getting its > >>> input from DT and generates the gpiochips at probe time, while > >>> "gpio aggregator" is getting its input from sysfs and generates the > >>> gpiochips at runtime, post-probe. > >> Exactly. > >> > >> For my virtualization use case, I need to create the list of GPIO > >> descriptors at run-time, hence the sysfs interface. This is > >> polarity-agnostic (i.e. the end user needs to care about polarity). > >> > >> For Harish use case, he needs to describe the list from DT, with > >> polarity inverted, which can be done by specifying the GPIO_ACTIVE_LOW > >> flag in the node's"gpios" property. > >> > >> For your use case, you want to describe the list in DT, with line-names, > >> and polarity specified. > >> > >>> So, assuming no objections from Harish and other reviewers, I would be > >>> very happy to review and test the DT-based gpio inversion functionality > >>> as part of gpio aggregator. Thanks! > > > > I tested your aggregator driver with the below minor changes in gpio-aggregator (combined with some minor changes in GPIO forwarder) to get devicetree support. > > > > > > 195,196d194 > > < int index = 0; > > < int count; > > 278,295d275 > > < count = gpiod_count(dev, NULL); > > < if (count > 0) { > > < while (index < count) { > > < desc = devm_gpiod_get_index(dev, NULL, index, GPIOD_ASIS); > > < > > < if (desc == ERR_PTR(-ENOENT)) > > < return -EPROBE_DEFER; > > < > > < if (IS_ERR(desc)) > > < return PTR_ERR(desc); > > < > > < error = add_gpio(dev, &descs, &n, desc); > > < if (error) > > < return error; > > < index++; > > < } > > < } > > < > > 316,319d295 > > < static const struct of_device_id gpio_aggregator_match[] = { > > < { .compatible = "gpio-aggregator", }, { }, > > < }; > > < > > 326d301 > > < .of_match_table = of_match_ptr(gpio_aggregator_match), > > > > > > This does work and achieve our aim of inverter driver. > > > > Hence no objection from my side to merge the drivers. Please let me know if I need to send you a patch on top of your aggregator patch. > > > > Hoping to get some credits for my work of 5 months effort ! ;) > > > > > > Best Regards, > > > > Harish Jenny K N > > > Is any attempt being made for the newer version of the aggregator/inverter driver ? It's on my list, and I hope to tackle it soon (later this week, or next week). Thanks for your patience! Gr{oetje,eeting}s, Geert -- Geert Uytterhoeven -- There's lots of Linux beyond ia32 -- geert@xxxxxxxxxxxxxx In personal conversations with technical people, I call myself a hacker. But when I'm talking to journalists I just say "programmer" or something like that. -- Linus Torvalds