[PATCH V3 1/5] ARM: tegra: add pending SGI checking API

Santosh Shilimkar santosh.shilimkar at ti.com
Thu Dec 20 05:24:44 EST 2012


On Thursday 20 December 2012 03:29 PM, Peter De Schrijver wrote:
> On Thu, Dec 20, 2012 at 10:49:57AM +0100, Santosh Shilimkar wrote:
>> On Thursday 20 December 2012 03:04 PM, Peter De Schrijver wrote:
>>> On Thu, Dec 20, 2012 at 08:16:33AM +0100, Santosh Shilimkar wrote:
>>>> On Wednesday 19 December 2012 01:06 AM, Colin Cross wrote:
>>>>> On Tue, Dec 18, 2012 at 2:15 AM, Peter De Schrijver
>>>>> <pdeschrijver at nvidia.com> wrote:
>>>>>> On Tue, Dec 18, 2012 at 03:42:24AM +0100, Colin Cross wrote:
>>>>>>> On Mon, Dec 17, 2012 at 6:30 PM, Joseph Lo <josephl at nvidia.com> wrote:
>>>>>>>> The "powered-down" CPU idle mode of Tegra cut off the vdd_cpu rail, it
>>>>>>>> include the power of GIC. That caused the SGI (Software Generated
>>>>>>>> Interrupt) been lost. Because the SGI can't wake up the CPU that in
>>>>>>>> the "powered-down" CPU idle mode. We need to check if there is any
>>>>>>>> pending SGI when go into "powered-down" CPU idle mode. This is important
>>>>>>>> especially when applying the coupled cpuidle framework into "power-down"
>>>>>>>> cpuidle dirver. Because the coupled cpuidle framework may have the
>>>>>>>> chance that misses IPI_SINGLE_FUNC handling sometimes.
>>>>>>>
>>>>>>> This problem exists for any GIC-based SoC, and needs to be fixed in
>>>>>>> gic_cpu_save or gic_dist_save, whichever one loses the interrupt.
>>>>>>
>>>>>> Not necessarily. It depends on the SoC design. On Tegra20, the entire CPU
>>>>>> cluster is railgated, including the GIC. This causes a pending IPI to be lost.
>>>>>> But for example on OMAP4, only the actual CPU cores are powergated. The GIC
>>>>>> stays alive until also the core domain hits idle. By that time a potential
>>>>>> pending IPI has long woken up the target CPU again, so no additional
>>>>>> checks are needed for functional correct behavior.
>>>>>
>>>>> I'm not sure that is correct for OMAP4.  C2 and C3 will put the power
>>>>> rail for the GIC in retention, and I don't think an IPI will wake it
>>>>> up.  I believe the same problem also exists for Exynos5.  In any case,
>>>>> checking for an IPI early during idle and aborting won't hurt those
>>>>> platforms, so I still think it should be in the GIC driver and not by
>>>>> mapping the GIC registers into a separate driver.
>>>>>
>>>> I second Colin on the GIC power states on OMAP.
>>>
>>> But even then PRCM will only trigger the transition to retention voltage after
>>> both CPUs hit off mode. I guess a pending IPI will wakeup the core before the
>>> PRCM starts the transition.
>>>
>> No it won't. You are talking about the voltage domain retention while
>> the point is SGI becomes useless once CPU power domain transition to
>> low power state. And btw, voltage transition also can not happen just
>> with two CPU's in retention. It does have dependency like cluster power
>> state to hit retention.
>>
>> CPUs have their own power domain state and once they enter into any low
>> power state apart from ON power state, SGI doesn't work. hope this is
>> clear.
>
> So why does OMAP4 have working coupled idle without the SGI check then?
>
Because whenever the OMAP4 CPUs enter into any power states apart from
ON, clock-domain force wakeup method us being used to wakeup
secondary CPUs. And secondly CPU RET is not supported on purpose because
of some known IP block issues.

Regards
Santosh




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