Re: [PATCH 2/7] dt-bindings: power: Add apple,pmgr-pwrstate binding
From: Hector Martin
Date: Wed Oct 06 2021 - 11:52:18 EST
On 06/10/2021 09.58, Rob Herring wrote:
On Tue, Oct 5, 2021 at 10:59 AM Hector Martin <marcan@xxxxxxxxx> wrote:
Future SoCs are expected to use backwards compatible registers, and the
"apple,pmgr-pwrstate" represents any such interfaces (possibly with
additional features gated by the more specific compatible), allowing
them to be bound without driver updates. If a backwards incompatible
change is introduced in future SoCs, it will require a new compatible,
such as "apple,pmgr-pwrstate-v2".
Is that because past SoCs used the same registers? I don't see how
else you have any insight to what future SoCs will do.
Normally we don't do 1 node per register type bindings, so I'm a bit
leery about doing 1 node per domain.
Yes, we can trace a pretty clear lineage from past SoCs. Plus Apple
folks themselves have confirmed that this is an explicit policy:
https://twitter.com/stuntpants/status/1442276493669724160
Already within this SoC we have two PMGR instances with different
register sets (one covers all devices that stay on during system sleep),
although I am only instantiating one in our devicetree at the moment.
And of course there is the A14, which is the same generation as the M1
and has exactly the same register format, but a different set of domains.
Having sub-nodes describing individual power domains has some prior art
(e.g. power/rockchip,power-controller.yaml). In that case the nodes are
all managed by the parent node, and use the hierarchical format, but the
hierarchical format cannot handle multi-parent nodes (which we do have,
or at least Apple describes them that way). Since we really have no
"top-level" implementation specifics to worry about, I think it makes
sense to just bind to single nodes at this point, which makes the driver
very simple since it doesn't have to perform any bookkeeping for
multiple domains.
I realize this is all kind of "not the way things are usually done", but
I don't want to pass up on the opportunity to have one driver last us
multiple SoCs if we have the chance, and it's looking like it should :-)
Note that as new features are implemented (e.g. auto-PM, which I will
add to this driver later), that also naturally lends itself to
forwards-compat, as SoCs without those features at all simply wouldn't
request them in the DT. In this case an "apple,auto-pm" flag would
enable that for domains where we want it, and those that don't support
it (or a hypothetical past SoC without the feature at all) would simply
not use it.
+properties:
+ $nodename:
+ pattern: "^power-controller@[0-9a-f]+$"
Drop this and define this node in the syscon schema with a $ref to this schema.
Ack, makes sense.
+ apple,domain-name:
+ description: |
+ Specifies the name of the SoC device being controlled. This is used to
+ name the power/reset domains.
+ $ref: /schemas/types.yaml#/definitions/string
No other power domain binding needs this, why do you?
Because they all hardcode the domain names in the drivers for every SoC :-)
Without a name of some sort in the devicetree, all our genpds would have
to use numeric register offsets or the like, which seems quite ugly.
I prefer 1 complete example in the MFD schema rather than piecemeal examples.
Sure. Would we leave this schema without examples then?
As the child nodes are memory mapped devices, size should be 1. Then
address translation works (though Linux doesn't care (currently)).
This requires all the reg properties to also declare the reg size, right?
One thing I wonder is whether it would make sense to allow
#power-domain-cells = <1> and then be able to declare consecutive ranges
of related power registers in one node. This would be useful for e.g.
the 9 UARTs, the 4 SPI controllers, the 6 MCAs, the 5 I2C controllers,
the 5 PWM controllers, etc (which all have uniform parents and features
and are consecutive, so could be described together). I'm not sure if
it's worth it, thoughts?
--
Hector Martin (marcan@xxxxxxxxx)
Public Key: https://mrcn.st/pub