Hi Maxime,
Le lundi 27 mars 2023 à 21:24 +0200, Maxime Ripard a écrit :
On Fri, Mar 24, 2023 at 08:58:48PM +0000, Aidan MacDonald wrote:
My suggestion: add a per-clock bitmap to keep track of which parents are allowed. Any operation that would select a parent clock not on the whitelist should fail. Automatic reparenting should only select from clocks on the whitelist. And we need new DT bindings for controlling the whitelist, for example:
clock-parents-0 = <&clk1>, <&pll_c>; clock-parents-1 = <&clk2>, <&pll_a>, <&pll_b>;
This means that clk1 can only have pll_c as a parent, while clk2 can have pll_a or pll_b as parents. By default every clock will be able to use any parent, so a list is only needed if the machine needs a more restrictive policy.
assigned-clock-parents should disable automatic reparenting, but allow explicit clk_set_parent(). This will allow clock drivers to start doing reparenting without breaking old DTs.
I'm generally not a fan of putting all these policies in the device tree. Do you have an example where it wouldn't be possible to do exactly this from the driver itself?
I'm confused. What's implicit in the example is clk1 and clk2 might have *other* possible choices of parent clock and the device tree is limiting what the OS is allowed to choose.
Why would you put such arbitrary limitations into the driver?
Why would we put such arbitrary limitations in the firmware? As this entire thread can attest, people are already using the device tree to work around the limitations of the Linux driver, or reduce the features of Linux because they can rely on the device tree. Either way, it's linked to the state of the Linux driver, and any other OS or Linux version could very well implement something more dynamic.
Probably because if we have to choose between setting policy in the kernel or in the firmware, it is arguably better to set it in the firmware.
Especially when talking about clocks, as the firmware is already the one programming the boot clocks.
Cheers, -Paul
They would be different from machine to machine, unless the clock tree is so simple there is only *one* meaningful way to configure it.
If we look at the device trees we have in-tree, most of the users of assigned-clocks are the same from one board to another.
Most SoCs are complicated enough that there will be tradeoffs depending on what peripherals you are using (typically a single machine will not use *every* peripheral device provided by the SoC).
We already have APIs to lock parents or rates on a given clock from the consumer. It's far superior (feature-wise) than what the device tree will ever offer because it's code, and it depends on the usage already since an unused driver won't probe.
Maxime