[PATCH v3 5/6] i2c: iproc: handle master read request

Rayagonda Kokatanur rayagonda.kokatanur at broadcom.com
Mon Nov 9 23:23:41 EST 2020


Hi Ray,

Could you please check Dhananjay comments and update your thoughts.

On Fri, Nov 6, 2020 at 11:11 PM Dhananjay Phadke
<dphadke at linux.microsoft.com> wrote:
>
> On Thu, 5 Nov 2020 15:13:04 +0530, Rayagonda Kokatanur wrote:
> >> So the suggestion was to set HW threshold for rx fifo interrupt, not
> >> really a SW property. By setting it in DT, makes it easier to
> >> customize for target system, module param needs or ioctl makes it
> >> dependent on userpsace to configure it.
> >>
> >> The need for tasklet seems to arise from the fact that many bytes are
> >> left in the fifo. If there's a common problem here, such tasklet would be
> >> needed in i2c subsys rather than controller specific tweak, akin to
> >> how networking uses NAPI or adding block transactions to the interface?
> >>
> >> For master write-read event, it seems both IS_S_RD_EVENT_SHIFT and
> >> IS_S_RX_EVENT_SHIFT are detected, which implies that core is late to
> >> drain rx fifo i.e. write is complete and the read has started on the bus?
> >
> >Yes it's true that for master write-read events both
> >IS_S_RD_EVENT_SHIFT and IS_S_RX_EVENT_SHIFT  are coming together.
> >So before the slave starts transmitting data to the master, it should
> >first read all data from rx-fifo i.e. complete master write and then
> >process master read.
> >
> >To minimise interrupt overhead, we are batching 64bytes.
> >To keep isr running for less time, we are using a tasklet.
> >Again to keep the tasklet not running for more than 20u, we have set
> >max of 10 bytes data read from rx-fifo per tasklet run.
> >
> >If we start processing everything in isr and using rx threshold
> >interrupt, then isr will run for a longer time and this may hog the
> >system.
> >For example, to process 10 bytes it takes 20us, to process 30 bytes it
> >takes 60us and so on.
> >So is it okay to run isr for so long ?
> >
> >Keeping all this in mind we thought a tasklet would be a good option
> >and kept max of 10 bytes read per tasklet.
> >
> >Please let me know if you still feel we should not use a tasklet and
> >don't batch 64 bytes.
>
> Deferring to tasklet is OK, could use a kernel thread (i.e. threaded_irq)
> as i2c rate is quite low.
>
> But do enable rx_threshold and read out early. This will avoid fifo full
> or master write-read situation where lot of bytes must be drained from rx
> fifo before serving tx fifo (avoid tx underrun).
>
> Best would have been setting up DMA into mem (some controllers seem capable).
> In absence of that, it's a trade off: if rx intr threshold is low,
> there will be more interrupts, but less time spent in each. Default could
> still be 64B or no-thresh (allow override in dtb).
>
> Few other comments -
>
> >+              /* schedule tasklet to read data later */
> >+              tasklet_schedule(&iproc_i2c->slave_rx_tasklet);
> >+
> >+              /* clear only IS_S_RX_EVENT_SHIFT interrupt */
> >+              iproc_i2c_wr_reg(iproc_i2c, IS_OFFSET,
> >+                               BIT(IS_S_RX_EVENT_SHIFT));
> >+      }
>
> Why clearing one rx interrupt bit here after scheduling tasklet? Should all that
> be done by tasklet? Also should just return after scheduling tasklet?
>
> Thanks,
> Dhananjay
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