Re: [PATCH 04/15] can: m_can: Use transmit event FIFO watermark level interrupt
From: Markus Schneider-Pargmann
Date: Thu Dec 01 2022 - 12:00:00 EST
On Thu, Dec 01, 2022 at 12:00:33PM +0100, Marc Kleine-Budde wrote:
> On 01.12.2022 11:12:20, Markus Schneider-Pargmann wrote:
> > > > For the upcoming receive side patch I already added a hrtimer. I may try
> > > > to use the same timer for both directions as it is going to do the exact
> > > > same thing in both cases (call the interrupt routine). Of course that
> > > > depends on the details of the coalescing support. Any objections on
> > > > that?
> > >
> > > For the mcp251xfd I implemented the RX and TX coalescing independent of
> > > each other and made it configurable via ethtool's IRQ coalescing
> > > options.
> > >
> > > The hardware doesn't support any timeouts and only FIFO not empty, FIFO
> > > half full and FIFO full IRQs and the on chip RAM for mailboxes is rather
> > > limited. I think the mcan core has the same limitations.
> >
> > Yes and no, the mcan core provides watermark levels so it has more
> > options, but there is no hardware timer as well (at least I didn't see
> > anything usable).
>
> Are there any limitations to the water mark level?
Anything specific? I can't really see any limitation. You can set the
watermark between 1 and 32. I guess we could also always use it instead
of the new-element interrupt, but I haven't tried that yet. That may
simplify the code.
>
> > > The configuration for the mcp251xfd looks like this:
> > >
> > > - First decide for classical CAN or CAN-FD mode
> > > - configure RX and TX ring size
> > > 9263c2e92be9 ("can: mcp251xfd: ring: add support for runtime configurable RX/TX ring parameters")
> > > For TX only a single FIFO is used.
> > > For RX up to 3 FIFOs (up to a depth of 32 each).
> > > FIFO depth is limited to power of 2.
> > > On the mcan cores this is currently done with a DT property.
> > > Runtime configurable ring size is optional but gives more flexibility
> > > for our use-cases due to limited RAM size.
> > > - configure RX and TX coalescing via ethtools
> > > Set a timeout and the max CAN frames to coalesce.
> > > The max frames are limited to half or full FIFO.
> >
> > mcan can offer more options for the max frames limit fortunately.
> >
> > >
> > > How does coalescing work?
> > >
> > > If coalescing is activated during reading of the RX'ed frames the FIFO
> > > not empty IRQ is disabled (the half or full IRQ stays enabled). After
> > > handling the RX'ed frames a hrtimer is started. In the hrtimer's
> > > functions the FIFO not empty IRQ is enabled again.
> >
> > My rx path patches are working similarly though not 100% the same. I
> > will adopt everything and add it to the next version of this series.
> >
> > >
> > > I decided not to call the IRQ handler from the hrtimer to avoid
> > > concurrency, but enable the FIFO not empty IRQ.
> >
> > mcan uses a threaded irq and I found this nice helper function I am
> > currently using for the receive path.
> > irq_wake_thread()
> >
> > It is not widely used so I hope this is fine. But this hopefully avoids
> > the concurrency issue. Also I don't need to artificially create an IRQ
> > as you do.
>
> I think it's Ok to use the function. Which IRQs are enabled after you
> leave the RX handler? The mcp251xfd driver enables only a high watermark
> IRQ and sets up the hrtimer. Then we have 3 scenarios:
> - high watermark IRQ triggers -> IRQ is handled,
> - FIFO level between 0 and high water mark -> no IRQ triggered, but
> hrtimer will run, irq_wake_thread() is called, IRQ is handled
> - FIFO level 0 -> no IRQ triggered, hrtimer will run. What do you do in
> the IRQ handler? Check if FIFO is empty and enable the FIFO not empty
> IRQ?
I am currently doing the normal IRQ handler run. It checks the
"Interrupt Register" at the beginning. This register does not show the
interrupts that fired, it shows the status. So even though the watermark
interrupt didn't trigger when called by a timer, RF0N 'new message'
status bit is still set if there is something new in the FIFO. Of course
it is the same for the transmit status bits.
So there is no need to read the FIFO fill levels directly, just the
general status register.
Best,
Markus