Re: [PATCH v6 00/12] ARM/MIPS: DTS: add child nodes describing the PVRSGX GPU present in some OMAP SoC and JZ4780 (and many more)

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Hi,

On 21.04.20 13:21, Maxime Ripard wrote:
Hi,

On Tue, Apr 21, 2020 at 11:57:33AM +0200, Philipp Rossak wrote:
On 20.04.20 09:38, Maxime Ripard wrote:
Hi,

On Fri, Apr 17, 2020 at 02:09:06PM +0200, Philipp Rossak wrote:
I'm a bit skeptical on that one since it doesn't even list the
interrupts connected to the GPU that the binding mandates.

I think he left it out for a future update.
But best he comments himself.

I'm currently working on those bindings. They are now 90% done, but they are
not finished till now. Currently there is some mainline support missing to
add the full binding. The A83T and also the A31/A31s have a GPU Power Off
Gating Register in the R_PRCM module, that is not supported right now in
Mainline. The Register need to be written when the GPU is powered on and
off.

@Maxime: I totally agree on your point that a demo needs to be provided
before the related DTS patches should be provided. That's the reason why I
added the gpu placeholder patches.
Do you have an idea how a driver for the R_PRCM stuff can look like? I'm not
that experienced with the clock driver framework.

It looks like a power-domain to me, so you'd rather plug that into the genpd
framework.

I had a look on genpd and I'm not really sure if that fits.

It is basically some bit that verify that the clocks should be enabled or
disabled.

No, it can do much more than that. It's a framework to control the SoCs power
domains, so clocks might be a part of it, but most of the time it's going to be
about powering up a particular device.

So I think I've found now the right piece of documentation and a driver that implements something similar [1].

So I will write a similar driver like linked above that only sets the right bits for A83T and A31/A31s.
Do you think this is the right approach?

I think this is better placed somewhere in the clocking framework.
I see there more similarities to the gating stuff.
Do you think it is suitable to implement it like the clock gating?

I'm really not sure what makes you think that this should be modelled as a
clock?


Looks like I looked in the wrong place and got some information that are not suitable for this.

The big question is right now how to proceed with the A83T and A31s patches.
I see there three options, which one do you prefer?:

1. Provide now placeholder patches and send new patches, if everything is
clear and other things are mainlined
2. Provide now patches as complete as possible and provide later patches to
complete them when the R_PRCM things are mainlined
3. Leave them out, till the related work is mainlined and the bindings are
final.

Like I said, the DT *has* to be backward-compatible, so for any DT patch that
you are asking to be merged, you should be prepared to support it indefinitely
and be able to run from it, and you won't be able to change the bindings later
on.

I agree on your points. But is this also suitable to drivers that are
currently off tree and might be merged in one or two years?

This is what we done for the Mali. The devicetree binding was first done for the
out-of-tree driver, and then lima/panfrost reused it.

The key thing here is to have enough confidence about how the hardware works so
that you can accurately describe it.

Ok thanks! So I will resend my patches when the work got a more mature state and we know enough about the Hardware.

Cheers,
Philipp


[1]: https://elixir.bootlin.com/linux/latest/source/drivers/soc/amlogic/meson-gx-pwrc-vpu.c



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