[PATCH net-next 2/6] software node: allow named software node to be created

Russell King (Oracle) linux at armlinux.org.uk
Mon Jul 18 13:38:42 PDT 2022


On Mon, Jul 18, 2022 at 11:07:30PM +0300, Andy Shevchenko wrote:
> On Mon, Jul 18, 2022 at 08:11:40PM +0100, Russell King (Oracle) wrote:
> > Good point - I guess we at least need to attach the swnode parent to the
> > device so its path is unique, because right now that isn't the case. I'm
> > guessing that:
> > 
> >         new_port_fwnode = fwnode_create_software_node(port_props, NULL);
> > 
> > will create something at the root of the swnode tree, and then:
> > 
> >         fixed_link_fwnode = fwnode_create_named_software_node(fixed_link_props,
> >                                                               new_port_fwnode,
> >                                                               "fixed-link");
> > 
> > will create a node with a fixed name. I guess it in part depends what
> > pathname the first node gets (which we don't specify.) I'm not familiar
> > with the swnode code to know what happens with the naming for the first
> > node.
> 
> First node's name will be unique which is guaranteed by IDA framework. If we
> have already 2B nodes, then yes, it would be problematic (but 2^31 ought to be
> enough :-).
> 
> > However, it seems sensible to me to attach the first node to the device
> > node, thus giving it a unique fwnode path. Does that solve the problem
> > in swnode land?
> 
> Yes, but in the driver you will have that as child of the device, analogue in DT
> 
>   my_root_node { // equal the level of device node you attach it to
> 	  fixed-link {
> 	  }
>   }
> 
> (Sorry, I don't know the DT syntax by heart, but I hope you got the idea.)

Yes, that looks about right.

What we're attempting to do here is create the swnode equivalent of this
DT description:

	some_node {
		phy-mode = "foo";

		fixed-link {
			speed = X;
			full-duplex;
		};
	};

and the some_node fwnode handle gets passed into phylink for it to
parse - we never attach it to the firmware tree itself. Once phylink
has parsed it, we destroy the swnode tree since it's no longer useful.

This would get used in this situation as an example:

	switch at 4 {
		compatible = "marvell,mv88e6085";

		ports {
			port at 0 {
				reg = <0>;
				phy-mode = "internal";
				phy-handle = <&sw_phy_0>;
			};
			...
			port at 5 {
				reg = <5>;
				label = "cpu";
				ethernet = <&eth1>;
			};
		};
	};

The DSA driver knows the capabilities of the chip, so it knows what the
fastest "phy-mode" and speed would be, and whether full or half duplex
are supported.

We need to get this information into phylink some how, and my initial
approach was to add a new function to phylink to achieve that.

We would normally have passed the "port at 5" node to phylink, just as we
pass the "port at 0" node. However, because the "port at 5" operates as a
fixed-link as determined by the hardware/driver, we need some way to
get that into phylink.

So, Vladimir's approach is to create a swnode tree that reflects the
DT layout, and rather than passing the "port at 5" as a fwnode to phylink,
we instead pass that "some_node" swnode instead. Phylink then uses
normal fwnode APIs to parse the swnode tree it's been given, resulting
in it picking up the fixed-link specification as if it had been in the
original DT.

We don't augment the existing firmware tree for "port at 5", we are
effectively creating a small sub-tree and using it as a subsitute
description.

I hope that clarifies what is going on here and why.

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