Re: [PATCH RFC v5 2/2] clk: Add handling of clk parent and rate assigned from DT

[Tero Kristo]

On 05/23/2014 04:34 AM, Mike Turquette wrote:
> Quoting Sylwester Nawrocki (2014-04-11 05:25:49)
> > > > +==Assigned clock parents and rates==
> > > > +
> > > > +Some platforms require static initial configuration of parts of the clocks
> > > > +controller. Such a configuration can be specified in a clock consumer node
> > > > +through clock-parents and clock-rates DT properties. The former should
> > > > +contain a list of parent clocks in form of phandle and clock specifier pairs,
> > > > +the latter the list of assigned clock frequency values (one cell each).
> > > > +To skip setting parent or rate of a clock its corresponding entry should be
> > > > +set to 0, or can be omitted if it is not followed by any non-zero entry.
> > > > +
> > > > +    uart@a000 {
> > > > +        compatible = "fsl,imx-uart";
> > > > +        reg = <0xa000 0x1000>;
> > > > +        ...
> > > > +        clocks = <&clkcon 0>, <&clkcon 3>;
> > > > +        clock-names = "baud", "mux";
> > > > +
> > > > +        clock-parents = <0>, <&pll 1>;
> > > > +        clock-rates = <460800>;
> > >
> > > Is this the input frequency or serial baud rate? Looks like a baud
> > > rate, but the clock framework needs input (to the uart) frequency. I
> > > would say this should be clock-frequency and specify the max baud rate
> > > as is being done with i2c bindings. The uart driver should know how to
> > > convert between input clock freq and baud rate.
> >
> > This UART example is not quite representative for the issues I have been
> > trying to address with this patch set. There is a need to set (an initial)
> > input clock frequency. E.g. in case of multimedia devices there may be
> > a need to set clock parent and frequency of an input clock to multiple IP
> > blocks, so they are clocked synchronously and data is carried properly
> > across a whole processing chain. Thus there may not be even clock output
> > in an IP block, but still input clock needs to be set. IIUC there is
> > similar issue with audio, where it is difficult to calculate the clock
> > frequencies/determine parent clocks in individual drivers algorithmically.
> >
> > > > +    };
> > > > +
> > > > +In this example the pll is set as parent of "mux" clock and frequency
> > > > of "baud"
> > > > +clock is specified as 460800 Hz.
> > >
> > > I don't really like clock-parents. The parent information is part of
> > > the clock source, not the consumer.
> >
> > I'm not sure we must always consider the parent information as property
> > of a clock source. If for example we expose a structure like below as
> > single clock object, supporting clock gating, parent and frequency
> > setting the parent setting is still accessible from within a device
> > driver.
>
> The design of the ccf implementation certainly allows one to hide
> individually addressable/configurable clock nodes within a single struct
> clk. But should we? I have always maintained that a clock driver should
> enumerate clocks in the same way that the data sheet or technical
> reference manual states. I did make a recent exception[1], but that is
> going to be rolled back after the coordinated clock rate changes land in
> mainline.
>
> > And clock parent selection may depend on a system configuration
> > not immediately obvious from within a single device driver perspective.
> >
> >                           MUX
> >                         ,-------.     DIVIDER      GATE
> > common clk source 1 -->|--.    |   ,--------.   ,--------.
> >                         |   \   |   |        |   |        |
> > common clk source 2 -->|-   '--|-->|        |-->|        |--> consumer
> >         ...             |       |   |        |   |        |
> > common clk source N -->|-      |   '--------'   '--------'
> >                         '-------'
> >
> > > We've somewhat decided against having every single clock defined in DT
> > > and rather only describe a clock controller with leaf clocks to
> > > devices. That is not a hard rule, but for complex clock trees that is
> > > the norm. Doing something like this will require all levels of the
> > > clock tree to be described. You may have multiple layers of parents
> > > that have to be configured correctly. How are you configuring the rest
> > > of the tree?
> >
> > I believe even clock controllers where clocks are represented as flat
> > array often describe the clock tree entirely by parenthood, the tree
> > structure is just not obvious from the DT binding.
> > In addition, there seems to be appearing more and more clock controller
> > DT bindings describing their clocks individually.
>
> I've been discouraging these per-clock node bindings in favor of the
> per-controller node style.
>
> > > > +Configuring a clock's parent and rate through the device node that uses
> > > > +the clock can be done only for clocks that have a single user. Specifying
> > > > +conflicting parent or rate configuration in multiple consumer nodes for
> > > > +a shared clock is forbidden.
> > > > +
> > > > +Configuration of common clocks, which affect multiple consumer devices
> > > > +can be specified in a dedicated 'assigned-clocks' subnode of a clock
> > > > +provider node, e.g.:
> > >
> > > This seems like a work-around due to having clock-parents in the
> > > consumer node. If (I'm not convinced we should) we have a binding for
> > > parent config, it needs to be a single binding that works for both
> > > cases.
> >
> > When this issue was first raised during an ARM kernel summit it was
> > proposed to add 'assigned' prefix to DT properties for such bindings.
>
> Yes, I like the "assigned-" prefix.
>
> > How about separate properties for the default clock configuration,
> > e.g. assigned-clocks/assigned-clock-parents/assigned-clock-rates ?
> > So a clock provider would look like:
> >
> >      clkcon {
> >          ...
> >          #clock-cells = <1>;
> >
> >          assigned-clocks = <&clkcon 16>, <&clkcon 17>;
> >          assigned-clock-parents = <0>, <&clkcon 1>;
> >          assigned-clock-rates = <200000>;
> >      };
> >
> > And a consumer device node:
> >
> >      uart@a000 {
> >          compatible = "fsl,imx-uart";
> >          reg = <0xa000 0x1000>;
> >          ...
> >          clocks = <&clkcon 0>;
> >          clock-names = "baud";
> >
> >          assigned-clocks = <&clkcon 3>, <&clkcon 0>;
> >          assigned-clock-parents = <&pll 1>;
> >          assigned-clock-rates = <0>, <460800>;
> > };
>
> It looks like this idea was dropped for v6. Can we revisit it? Take a
> look at Tero's example implementation for OMAP using this binding:
>
> http://www.spinics.net/lists/linux-omap/msg104705.html
>
> There is a bogus "default-clocks" node made solely for storing this info
> within the OMAP PRCM clock provider node. This is basically faking a
> clock consumer. I think with the proposed solution above Tero could have
> avoided that node entirely and done the following:
>
> diff --git a/arch/arm/boot/dts/omap4.dtsi b/arch/arm/boot/dts/omap4.dtsi
> index 649b5cd..e3ff1a7 100644
> --- a/arch/arm/boot/dts/omap4.dtsi
> +++ b/arch/arm/boot/dts/omap4.dtsi
> @@ -145,6 +145,11 @@
>   			cm2_clocks: clocks {
>   				#address-cells = <1>;
>   				#size-cells = <0>;
> +
> +				assigned-clocks = <&abe_dpll_refclk_mux_ck>,
> +					<&dpll_usb_ck>, <&dpll_abe_ck>;
> +				assigned-clock-parents = <&sys_32k_ck>;
> +				assigned-clock-rates = <0>, <960000000>, <98304000>;
>   			};
>
>   			cm2_clockdomains: clockdomains {
>
>
> Tero, what do you think?

Yeah, if we can avoid having a dummy node someplace, it is always 
better. Only issue might be the initialization order, this was the 
reason I created the dummy node if I recall right. But I guess we can 
just scan the clock provider nodes second time at a later phase of boot 
(or just store the default info for later use.)

-Tero

> Regards,
> Mike
>
> [1] http://www.spinics.net/lists/cpufreq/msg10071.html

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