On 20 November 2014 13:03, Grygorii Strashko <grygorii.strashko@xxxxxx> wrote:
> On 11/20/2014 01:34 PM, Ulf Hansson wrote:
>> On 19 November 2014 14:47, Arnd Bergmann <arnd@xxxxxxxx> wrote:
>>> On Wednesday 19 November 2014 13:32:45 Grygorii Strashko wrote:
>>>> On 11/18/2014 09:32 PM, Arnd Bergmann wrote:
>>>>> On Tuesday 18 November 2014 20:54:36 Grygorii Strashko wrote:
>>>>>
>>>>> Have one pmdomain driver in the generic code that knows about clocks,
>>>>> possibly also regulators and pins and just turns them on when needed.
>>>>> You can have a "simple-pmdomain" or "generic-pmdomain" compatible
>>>>> string.
>>>>>
>>>>> I'm a bit surprised that your pmdomain code looks up the clocks from the
>>>>> respective device, rather than know about the clocks itself. There is
>>>>> probably a good reason for this, but I don't see it yet.
>>>>
>>>> The keystone 2 uses simple PM schema based on clocks only:
>>>> - clocks enabled -> dev is active
>>>> - clocks disabled -> dev is suspended
>>>>
>>>> To achieve explained above the Generic clock manipulation PM callbacks framework (pm_clk) is used.
>>>> - list of managed clocks is filled for each device (for non-DT case the con_id list
>>>> is specified by platform code like:
>>>> .con_ids = { "fck", "master", "slave", NULL },
>>>> - or -
>>>> .con_ids = { }, <-- in this case only first clock will be added to pm_clk
>>>> )
>>
>> According to earlier comments in this thread, device's clocks are
>> split into "functional" and "PM" clocks.
>>
>> If I understand correctly, a typical platform driver will enable it's
>> "functional" clocks during ->probe() and you want the PM domain to
>> take care of the "PM" clocks, when the device changes runtime PM
>> status.
>>
>> How will you describe these different set of device clocks in DT?
>
> True :( You can dig deeper in the history of this series if you wish.
> - first Geert Uytterhoeven proposed to use CLK_RUNTIME_PM there
> https://lkml.org/lkml/2014/11/6/319
> - second I proposed to introduce smth. like "clkops-clocks", "pm-clocks" there
> https://lkml.org/lkml/2014/6/12/436
> or "fck-clocks"/"opt-clocks" later.
>
> ^failed.
>
> So, this implementation picks up all clocks for each device, which is ok for
> Keystone 2 and, because it's platform specific.
>
>>>
>>> Yes, it would definitely solve the problem that I see with the infrastructure
>>> code that the current version adds into the platform directory.
>>>
>>> The exact binding of course should be reviewed by the pmdomain and
>>> DT maintainers, to ensure that it is done the best possible way, because
>>> I assume we will end up using it a lot, and it would be a shame to get
>>> it slightly wrong.
>>>
>>> One possible variation I can think of would be to just use "simple-pmdomain"
>>> as the compatible string, and use properties in the node itself to decide
>>> what the domain should control, e.g.
>>>
>>> clk_pmdomain: pmdomain {
>>> compatible = "simple-pmdomain";
>>> pmdomain-enable-clocks;
>>> #power-domain-cells = <0>;
>>> };
>>> clk_regulator_pmdomain: pmdomain {
>>> compatible = "simple-pmdomain";
>>> pmdomain-enable-clocks;
>>> pmdomain-enable-regulators;
>>> #power-domain-cells = <0>;
>>> };
>>>
>>> and then have each device link to one of the nodes as the pmdomain.
>>>
>>
>> That's seems like a good approach to me.
>
> Yes, but your previous comment is still actual :(
Agree!
So I really think we need to decide on how to address the split of the
device clocks. Before that's done, I don't think it make sense to add
a "simple-pmdomain" compatible, since it will likely not be that many
SoC that can use it.
So, does anyone have a suggestion on how to deal with the split of the
device clocks into "functional" clocks and into "PM" clocks?
Kind regards
Uffe
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