Re: [PATCH] uio: Allow to take irq bottom-half into irq_handler with additional dt-binding
From: Greg KH
Date: Wed Dec 06 2017 - 10:31:14 EST
On Wed, Dec 06, 2017 at 03:55:40PM +0100, Andrey Zhizhikin wrote:
> Certain Kernel preemption models are using threaded interrupt handlers,
> which is in general quite beneficial. However, threaded handlers
> introducing additional scheduler overhead, when the bottom-half thread
> should be woken up and scheduled for execution. This can result is
> additional latency, which in certain cases is not desired.
>
> UIO driver with Generic IRQ handler, that wraps a HW block might suffer
> a small degradation when it's bottom half is executed, since it needs
> its bottom half to be woken up by the scheduler every time INT is
> delivered. For high rate INT signals, this also bring additional
> undesired load on the scheduler itself.
>
> Since the actual ACK is performed in the top-half, and bottom-half of
> the UIO driver with Generic IRQ handler is relatively slick (only flag
> is set based on the INT reception), it might be beneficial to move this
> bottom-half to the irq_handler itself, rather than to have a separate
> thread to service it.
>
> This patch aims to address the task above, and in addition introduces
> a new dt-binding which could be configured on a per-node basis. That
> means developers utilizing the UIO driver could decide which UIO
> instance is critical in terms of interrupt processing, and move their
> corresponding bottom-halves to the irq_handler to fight additional
> scheduling latency.
>
> New DT binding:
> - no-threaded-irq: when present, request_irq() is called with
> IRQF_NO_THREAD flag set, effectively skipping threaded interrupt
> handler and taking bottom-half into irq_handler
>
> Signed-off-by: Andrey Zhizhikin <andrey.z@xxxxxxxxx>
For new DT bindings, don't you have to add them to the in-kernel
documentation and get an ack from the DT maintainers? Please do that
here.
ALso, how much does this really save in latency/delay by not allowing a
threaded irq? What about systems that run all irqs in threaded mode?
Will that break something here?
thanks,
greg k-h