[PATCH v2 6/6] arm64: dts: berlin4ct: add pll and clock nodes

Jisheng Zhang jszhang at marvell.com
Fri Nov 27 00:39:37 PST 2015


On Fri, 27 Nov 2015 08:51:27 +0100
Sebastian Hesselbarth wrote:

> On 24.11.2015 03:35, Jisheng Zhang wrote:
> > On Mon, 23 Nov 2015 16:54:44 +0800
> > Jisheng Zhang wrote:  
> >> On Mon, 23 Nov 2015 09:30:42 +0100
> >> Sebastian Hesselbarth wrote:  
> >>> On 23.11.2015 08:21, Jisheng Zhang wrote:  
> >>>> On Fri, 20 Nov 2015 22:06:59 +0100
> >>>> Sebastian Hesselbarth wrote:  
> >>>>> On 20.11.2015 09:42, Jisheng Zhang wrote:  
> >>>>>> Add syspll, mempll, cpupll, gateclk and berlin-clk nodes.
> >>>>>>
> >>>>>> Signed-off-by: Jisheng Zhang <jszhang at marvell.com>
> >>>>>> ---  
> >>> [...]  
> >>>>>> +		syspll: syspll {
> >>>>>> +			compatible = "marvell,berlin-pll";
> >>>>>> +			reg = <0xea0200 0x14>, <0xea0710 4>;
> >>>>>> +			#clock-cells = <0>;
> >>>>>> +			clocks = <&osc>;
> >>>>>> +			bypass-shift = /bits/ 8 <0>;
> >>>>>> +		};
> >>>>>> +
> >>>>>> +		gateclk: gateclk {
> >>>>>> +			compatible = "marvell,berlin4ct-gateclk";
> >>>>>> +			reg = <0xea0700 4>;
> >>>>>> +			#clock-cells = <1>;
> >>>>>> +		};
> >>>>>> +
> >>>>>> +		clk: clk {
> >>>>>> +			compatible = "marvell,berlin4ct-clk";
> >>>>>> +			reg = <0xea0720 0x144>;  
> >>>>>
> >>>>> Looking at the reg ranges, I'd say that they are all clock related
> >>>>> and pretty close to each other:
> >>>>>
> >>>>> gateclk: reg = <0xea0700 4>;
> >>>>> bypass:  reg = <0xea0710 4>;
> >>>>> clk:     reg = <0xea0720 0x144>;  
> >>>>
> >>>> Although these ranges sit close, but we should represent HW structure as you
> >>>> said.  
> >>>
> >>> Then how do you argue that you have to share the gate clock register
> >>> with every PLL? The answer is quite simple: You are not separating by
> >>> HW either but existing SW API.  
> >>
> >> No, PLLs don't share register any more. You can find what all clock nodes will
> >> look like in:  
> 
> Jisheng,
> 
> referring to the sunxi clock related thread, I am glad you finally
> picked up the idea of merging clock nodes. Before you start reworking
> bg4 clocks, I think I should be a little bit more clear about what I
> expect to be the outcome.
> 
> When I said "one single clock complex node", I was referring to the
> clocks located within the system-controller reg region, i.e. those at
> 0xea0000. With bg2x we came to the conclusion that those registers
> cannot be not cleanly separated by functions, so we decided to have
> a single system-controller simple-mfd node with sub-nodes for
> pinctrl, clock, reset, and whatever we will find there in the future.
> 
> Please also follow this scheme for bg4 because when you start looking
> at reset, you'll likely see the same issues we were facing: Either you
> have a reset controller node with a plethora of reg property entries
> or you constantly undermine the concept of requested resources by using
> of_iomap().
> 
> Using simple-mfd is a compromise between detailed HW description and
> usability. It will also automatically deal with concurrent accesses to
> the same register for e.g. clock and reset because simple-mfd and syscon
> install an access lock for the reg region. Even though there may be no
> real concurrent accesses to the same register, it does no real harm
> because we are locking resisters that aren't supposed to be used in
> high-speed applications. Some of them are touched once at boot, most
> of them are never touched by Linux at all.

Thank you so much for the detailed information. It do help me to have
a better understanding why.

> 
> For the other PLLs at <0x922000 0x14> and <0x940034 0x14>, I do accept
> that they are not part of the system-controller sub-node. For the short
> run, I would accept separate nodes for the PLLs alone, but on the long
> run they should be hidden within the functional node they belong to,
> i.e. mempll should be a clock provided by some memory-controller node.
> As soon as you look at power saving modes for the memory-controller,
> you would need access to memory-controller register _and_ mempll anyway.
> 
> We do have our DT tagged unstable, so we still can easily revert our
> limited view of some nodes later.
> 
> BTW, if the clock provided by mempll is used to generate peripheral
> clocks that are dealt with in the sysctrl clock complex, you should,

mempll is only for ddrphy clk. So we are lucky ;)

Thanks,
Jisheng

> of course, expose that relation in DT, e.g.:
> 
> sysctrl: system-controller {
> 	reg = <0xea0700 0xfoo>;
> 
> 	sysclk: clock {
> 		#clock-cells = <1>;
> 		clocks = <&osc>, <&memctrl 0>;
> 		clock-names = "osc", "mempll";
> 	};
> };
> 
> memctrl: memory-controller {
> 	reg = <0x920000 0xbar>;
> 	/*
> 	 * clock-cells can also be 0
> 	 * if there is no other clock provided
> 	 */
> 	#clock-cells = <1>;
> 
> 	clocks = <&osc>;
> 	clock-names = "osc";
> };
> 
> some-peripheral: bla {
> 	clocks = <&sysclk SOME_PERIPHERAL_CLOCK_ID>;
> };
> 
> Sebastian
> 



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