On Wed, Jun 18, 2014 at 04:09:06PM -0600, Stephen Warren wrote: > On 06/18/2014 04:03 PM, Thierry Reding wrote: > > On Wed, Jun 18, 2014 at 11:46:49AM -0600, Stephen Warren wrote: > >> On 06/18/2014 11:23 AM, Tomeu Vizoso wrote: > >>> On 06/17/2014 06:15 PM, Stephen Warren wrote: > >>>> On 06/17/2014 06:16 AM, Tomeu Vizoso wrote: > >>>>> On 06/16/2014 10:02 PM, Stephen Warren wrote: > >>>>>> On 06/16/2014 07:35 AM, Tomeu Vizoso wrote: > >>>>>>> +#ifdef CONFIG_TEGRA124_EMC > >>>>>>> +int tegra124_emc_reserve_bandwidth(unsigned int consumer, unsigned > >>>>>>> long rate); > >>>>>>> +void tegra124_emc_set_floor(unsigned long freq); > >>>>>>> +void tegra124_emc_set_ceiling(unsigned long freq); > >>>>>>> +#else > >>>>>>> +int tegra124_emc_reserve_bandwidth(unsigned int consumer, unsigned > >>>>>>> long rate) > >>>>>>> +{ return -ENODEV; } > >>>>>>> +void tegra124_emc_set_floor(unsigned long freq) > >>>>>>> +{ return; } > >>>>>>> +void tegra124_emc_set_ceiling(unsigned long freq) > >>>>>>> +{ return; } > >>>>>>> +#endif > >>>>>> > >>>>>> I'll repeat what I said off-list so that we can have the whole > >>>>>> conversation on the list: > >>>>>> > >>>>>> That looks like a custom Tegra-specific API. I think it'd be much > >>>>>> better > >>>>>> to integrate this into the common clock framework as a standard clock > >>>>>> constraints API. There are other use-cases for clock constraints > >>>>>> besides > >>>>>> EMC scaling (e.g. some in audio on Tegra, and I'm sure many on other > >>>>>> SoCs too). > >>>>> > >>>>> Yes, I wrote a bit in the cover letter about our requirements and how > >>>>> they map to the CCF. Could you please comment on that? > >>>> > >>>> My comments remain the same. I believe this is something that belongs in > >>>> the clock driver, or at the least, some API that takes a struct clock as > >>>> its parameter, so that drivers can use the existing DT clock lookup > >>>> mechanism. > >>> > >>> Ok, let me put this strawman here to see if I have gotten close to what > >>> you have in mind: > >>> > >>> * add per-client accounting (Rabin's patches referenced before) > >>> > >>> * add clk_set_floor, to be used by cpufreq, load stats, etc. > >>> > >>> * add clk_set_ceiling, to be used by battery drivers, thermal, etc. > >> > >> Yes. I'd expect those to be maintained per-client, and so the clock core > >> (or whatever higher level code implements clk_set_floor/ceiling) > >> performs the logic that "blends" together all the different requests > >> from different clients. > >> > >> As an aside, for audio usage, I would expect clk_set_rate to be a > >> per-client (rather than per HW clock) operation too, and to error out if > >> one client says it wants to set pll_a to the rate needed for > >> 44.1KHz-based audio and a different client wants the rate for > >> 48KHz-based audio. > > > > From what I remember, Mike was fairly strongly opposing the idea of > > virtual clocks, but what you're proposing here sounds like it would > > assume the existence of virtual clocks. clk_set_rate() per client > > doesn't work with the current API as I understand it. > > > > Or perhaps what you're proposing isn't about the individual clocks at > > all but rather about a mechanism to express constraints for a set of > > clocks? > > This doesn't have anything to do with virtual clocks. As you mention, > it's just about constraints. > > One user of clock "cpu" wants min rate 216MHz. Another wants max rate > 1GHz. cpufreq will request some rate between the 2, or be capped to > those limits. These set of imposed constraints would need to be stored > per client of the clock, not per HW clock, since many clients could set > different max rates (e.g. thermal throttle 1.5GHz due to temperature, > CPU policy 1GHz due to the user selecting low CPU power, etc.) > > Similarly for audio, of there are N clients of 1 clock/PLL, and they > each want the PLL to run at a different rate, something needs to detect > that and deny it. I'm wondering how this should work with the current API. Could the clock core be modified to return a per-client struct clk * that references the hardware clock internally? Or do we need to add a new API? Thierry
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