[PATCH v8 14/16] ARM: dts: Introduce STM32F429 MCU

Wed May 13 08:20:34 PDT 2015

On 13/05/15 14:27, Arnd Bergmann wrote:
> On Wednesday 13 May 2015 13:58:05 Daniel Thompson wrote:
>> On 13/05/15 12:45, Maxime Coquelin wrote:
>>> 2015-05-12 23:21 GMT+02:00 Arnd Bergmann <arnd at arndb.de>:
>>>> On Saturday 09 May 2015 09:53:56 Maxime Coquelin wrote:
>>>>> +#include  <dt-bindings/mfd/stm32f4-rcc.h>
>>>>> +
>>>>>
>>>>
>>>> Can you find a way to avoid this dependency?
>>>>
>>>> Maybe you can change the bindings so that the numbers you pass as
>>>> arguments to the reset and clock specifiers reflect the numbers that
>>>> the hardware use?
>>>
>>> If I understand correctly, you prefer the way I did in v7 [0]?
>
> Yes, that looks better. I would probably not list all the possible
> values in the binding though, when the intention is to use the
> hardware specific values, and being able to reuse the binding
> and driver for variations of the same chip.

Indeed. It was that long list that originally provoked me to comment in 
the first place.

>>> Note that doing that won't break the DT binary compatibility, as the
>>> raw reset values, or the ones from defines are the same.
>>>
>>> Daniel, could you share an example of the bindings you would use for the clocks?
>>
>> For the most cases, where there is a clock gate just before the
>> peripheral it looks pretty much like the reset driver and I use the bit
>> offset of the clock gating bit as the index.
>
> Is this bit always the same index as the one for the reset driver?

For the all reset bits:

   clock idx = reset idx + 256

The opposite is not true; the clock bits are a superset of the reset 
bits (the reset bits act on cells but some cells have >1 clock).

>> However there are a couple of clocks without gating just before the
>> clock reaches the peripheral:
>>
>> 1. A hard coded /8. I think this will have to be given a synthetic
>>      number.
>
> If this is just a divider, why not use a separate DT node for that,
> like this:
>
>          clock {
>                  compatible = "fixed-factor-clock";
>                  clocks = <&parentclk>;
>                  #clock-cells = <0>;
>                  clock-div = <8>;
>                  clock-mult = <1>;
>          };
>
> No need to assign a number for this.

I'd wondered about doing that.

It will certainly work but it seemed a bit odd to me to have one (really 
tiny) part of the RCC cell included seperately in the platform 
description whilst all the complicated bits end up aggregated into the 
RCC cell.

Is there much prior art that uses this type of trick to avoid having 
magic numbers into the bindings?

>> 2. Ungated dividers. For these I am using the bit offset of the LSB of
>>      the mux field.
>
> Do these ones also come with resets?

No. They mostly run to the core and its intimate peripherals (i.e. only 
reset line comes from WDT).

>> So I think there is only one value that is completely unrelated to the
>> hardware and will use a magic constant instead.
>>
>> I had planned to macros similar to the STM32F4_AxB_RESET() family of
>> macros in both clk driver and DT in order to reuse the bit layouts from
>> dt-bindings/mfd/stm32f4-rcc.h .
>>
>> Normal case would have looked like this:
>>
>>                  timer3: timer at 40000000 {
>>                          compatible = "st,stm32-timer";
>>                          reg = <0x40000000 0x400>;
>>                          interrupts = <28>;
>>                          resets = <&rcc STM32F4_APB1_RESET(TIM3)>;
>>                          clocks = <&rcc STM32F4_APB1_CLK(TIM3)>;
>>                          status = "disabled";
>>                  };
>>
>> Without the macros it looks like this:
>>
>>                  timer3: timer at 40000000 {
>>                          compatible = "st,stm32-timer";
>>                          reg = <0x40000000 0x400>;
>>                          interrupts = <28>;
>>                          resets = <&rcc 257>;
>>                          clocks = <&rcc 513>;
>>                          status = "disabled";
>>                  };
>>
>> However we could perhaps be more literate even if we don't use the macros?
>>
>>                  timer3: timer at 40000000 {
>>                          compatible = "st,stm32-timer";
>>                          reg = <0x40000000 0x400>;
>>                          interrupts = <28>;
>>                          resets = <&rcc ((0x20*8) + 1)>;
>>                          clocks = <&rcc ((0x40*8) + 1)>;
>>                          status = "disabled";
>>                  };
>
> How about #address-cells = <2>, so you can do
>
> 		resets = <&rcc 8 1>;
> 		clocks = <&rcc 8 1>;
>
> with the first cell being an index for the block and the second cell the
> bit number within that block.

That would suit me very well (although is the 0x20/0x40 not the 8 that 
we would need in the middle column).

Maxime: Does that suit reset driver?

Daniel.