On 11/14/2011 11:58 AM, David Daney wrote: > On 11/11/2011 07:55 PM, Rob Herring wrote: >> On 11/11/2011 07:50 PM, ddaney.cavm@xxxxxxxxx wrote: >>> From: David Daney<david.daney@xxxxxxxxxx> >>> >>> This is the first cut at hooking up my Octeon port to the irq_domain >>> things. >>> >>> The Octeon specific patches are part of a larger set, and will need to >>> be applied with that set, the first patch is stand-alone. >>> >>> The basic problem being solved taken from one of my other e-mails: >>> >>> Unfortunately, although a good idea, kernel/irq/irqdomain.c makes a >>> bunch of assumptions that don't hold for Octeon. We may be able to >>> improve it so that it flexible enough to suit us. >>> >>> >>> Here are the problems I see: >>> >>> 1) It is assumed that there is some sort of linear correspondence >>> between 'hwirq' and 'irq', and that the range of valid values is >>> contiguous. >>> >>> 2) It is assumed that the concepts of nr_irq, irq_base and >>> hwirq_base have easy to determine values and you can do iteration >>> over their ranges by adding indexes to the bases. >>> >> >> I still think this is the wrong approach. >> >> Are the gpio interrupts the source of your problem here? > > No. > >> That's how I read it. > > Take a look at Patch 2/2, since the GPIO irqs are contiguous over both > irq and hwirq numbers, I use the existing infrastructure with no > modifications. > I did. You are adding GPIO support to the existing support. It would be nice to separate that from add DT support. >> You have 16 GPIO irqs directly connected into lines on your >> primary interrupt controller which has 128 lines. So for a Linux irq >> number, you want to translate to a GPIO hwirq number and/or a CIU hwirq >> number. Trying to have 2 hwirq mappings for 1 Linux irq number just >> won't work. It seems to me you should use a chained handler here because >> you need to process the interrupt at both the primary ctrlr and gpio >> ctrlr levels. >> > > All moot as it is based on the false predicate of GPIO irqs being the > problem. > Let me rephrase, if you completely ignore GPIO for a minute, what is the issue. Just that irq_descs are sparsely allocated for the primary controller. Then the GPIO interrupts are inserted into the middle of that irq space. Handling sparse irqs is a potentially common problem, so we should address that in the core irqdomain code. > > The root of the problem are all of the irqs that are not GPIO. I have: > > o irq numbers currently in the range [9..196], with holes for any given > SOC/Board implementation. SOCs currently in development will have > additional irq numbers with even more holes. > > o Two different interrupt controllers. One with 128 lines, the other > with 512 or more lines, both sparsely populated. The mapping of hwirq > to irq is done at boot time based on the hardware the kernel image is > running on. Note that the second type of irq controller support is not > in the kernel.org kernel, but it exists, and I intend on getting support > for it merged ASAP. To be clear, those are not holes in hwirq's, but many lines don't have connections so you are not allocating Linux irqs for them. hwirq should reflect interrupt numbers from the controller's perspective and be directly usable to index to the correct register and bit mask. There's no storage associated with a hwirq, so the only cost is iterating over them which is not done frequently. There is not a clean separation of the primary interrupt controller's hwirq numbers and Linux irq numbers in your patch. Then you are overlaying the GPIO interrupts into the Linux irq space. > At a minimum the loop in irq_domain_add() where we iterate over a linear > range of irq numbers is not flexible enough. You may not like my > iterator functions in irq_domain_ops, but we need to provide something > better than the irq_domain_for_each_irq() macro. I'm just trying to back-up some and understand the problem. How about if .to_irq returns 0, the loop can just continue and skip over that hwirq without error. I don't think .each_hwirq is being used, so you can delete that. Rob