[PATCH 2/2] cpufreq: cpu0: Extend support beyond CPU0

[Mike Turquette]

Quoting Viresh Kumar (2014-07-01 04:14:04)
> On 1 July 2014 00:03, Rob Herring <rob.herring at linaro.org> wrote:
> >> What about comparing "clocks" property in cpu DT nodes?
> >
> > What if a different clock is selected for some reason.
> 
> I don't know why that will happen for CPUs sharing clock line.
> 
> > I think a clock api function would be better.
> 
> @Mike: What do you think? I think we can get a clock API for
> this.

I can't help but think this is a pretty ugly solution. Why not specify
the nature of the cpu clock(s) in DT directly? There was a thread
already that discussed adding such a property to the CPU DT binding but
it seems to have gone cold[1]. Furthermore my mailer sucks and I see now
that my response to that thread never hit the list due to mangled
headers. Here is a copy/paste of my response to the aforementioned
thread:

"""
I'll join the bikeshedding.

The hardware property that matters for cpufreq-cpu0 users is that a
multi-core CPU uses a single clock input to scale frequency across all
of the cores in that cluster. So an accurate description is:

scaling-method = "clock-ganged"; //hardware-people-speak

Or,

scaling-method = "clock-shared"; //software-people-speak

Versus independently scalable CPUs in an SMP cluster:

scaling-method = "independent"; //x86, Krait, etc.

Or perhaps instead of "independent" at the parent "cpus" node we would
put the following in each cpu at N node:

scaling-method = "clock";

Or "psci" or "acpi" or whatever.

Thought exercise: for Hyperthreaded(tm) CPUs with 2 virtual cores for
every hard CPU (and multiple CPUs in a cluster):

scaling-method = "paired";

Or more simply, "hyperthreaded".
"""

Regards,
Mike

[1] http://www.spinics.net/lists/cpufreq/msg10034.html

> 
> > That being said, I don't really have any issue with such a function.
> > Some comments on the implementation.
> 
> >> +static int of_property_match(const struct device_node *np1,
> >> +                             const struct device_node *np2,
> >> +                             const char *list_name)
> >> +{
> >> +       const __be32 *list1, *list2, *list1_end;
> >
> > s/list/prop/
> >
> > Everywhere.
> 
> Ok.
> 
> >> +       int size1, size2;
> >> +       phandle phandle1, phandle2;
> >> +
> >> +       /* Retrieve the list property */
> >> +       list1 = of_get_property(np1, list_name, &size1);
> >> +       if (!list1)
> >> +               return -ENOENT;
> >> +
> >> +       list2 = of_get_property(np2, list_name, &size2);
> >> +       if (!list2)
> >> +               return -ENOENT;
> >> +
> >> +       if (size1 != size2)
> >> +               return 0;
> >> +
> >> +       list1_end = list1 + size1 / sizeof(*list1);
> >> +
> >> +       /* Loop over the phandles */
> >> +       while (list1 < list1_end) {
> >> +               phandle1 = be32_to_cpup(list1++);
> >> +               phandle2 = be32_to_cpup(list2++);
> >> +
> >> +               if (phandle1 != phandle2)
> >> +                       return 0;
> >> +       }
> >
> > You can just do a memcmp here.
> 
> Yeah, that would be much better.
> 
> > This is wrong anyway because you don't know #clock-cells size.
> 
> I was actually comparing all the clock-cells, whatever there number
> is to make sure "clocks" properties are exactly same. Anyway
> memcmp will still guarantee that.
> 
> Thanks for your review.