On Thu, Jun 07, 2018 at 09:22:56AM +0200, Hans de Goede wrote: > Hi, > > On 06-06-18 23:36, Mats Karrman wrote: > > Hello Gentlemen, > > > > I'm trying to get my head around USB role switches in connection with Type-C ports > > and device-trees. So far I have not found much documentation, e.g. there are no > > device-tree bindings documented and really no good examples in existing device > > trees, although there has been some attempts, e.g. [1] and [2]. Anyway, so I send > > you a couple of questions instead: > > > > 1) tcpm uses the port device struct to find a single usb_role_switch but there is > > room for three USB busses in the Type-C connector; one high speed and two (?) super- > > speed. These would not all come from the same controller (there might even be > > separate controllers for host and device mode for each bus). I believe USB 3.2 spec in practice says that the two superspeed "lanes" must to go to the same controller. Only one will be used for link training etc. The second one is pulled in after certain state of enumeration has been passed. So we may theoretically have two controllers to deal with, one for USB2 and another for USB3, but not three. But in any case, let's not try to fix theoretical problems that may never exist. > AFAIK the 2nd superspeed USB bus is never used as such. There really is only 1 > USB bus on the Type-C connector, the combined USB-2 + the 1st superspeed bus, > physically these are 2 separate busses but that is purely for compatibility > reasons, logically there really only is 1 bus, just like a superspeed Type-A > connector has both busses physically but logically represents a single bus/port. > > > The case I am working on now only have a single USB2 otg controller so it should > > be possible to make that driver register a role switch but for other cases? > > I guess theoretically a device could use separate role switches / muxes for > the USB-2 and USB-3 busses, but that would be weird. So lets cross that bridge > when we reach it. > > > I imagine it would be possible to create a composite driver as a proxy for all role > > switches but that would probably be different for every platform/product - not > > very elegant. Could the role switch infrastructure be extended to handle arbitrary > > sets of coordinated switches? > > As said lets cross that bridge when we reach it. Agreed. > > 2) How should the connection between the Type-C port and the switches best be > > expressed in a device tree? Using graph I presume, but should it be mixed into the > > existing "usb-connector" or should this be a separate block? I don't know? I'm not super comfortable proposing things for these bindings because my knowledge of DT is a bit limited. I mostly work with ACPI based platforms. I'm not even completely sure device graph is usable in our case, though I pretty sure it is. > > I think it is unfortunate that the graph use numeric addresses that need to be > > fixed by documentation and already I see problems with the current assignment > > (0=HS, 1=SS, 2=SBU), e.g. if the host and device mode are handled by different > > controllers. Graph do support multiple endpoints for one port but then we have > > another level of magic numbers which does not exactly make things easier > > (e.g. 0=dual or host controller, 1=device controller, 2=mode switch). > > The graph stuff is more Heikki's specialty so I will let Heikki answer this. I'm not really a graph expert. It is just the only tool in kernel I can see that allows us to link together all these different components in HW description, and which has support for both DT and ACPI in Linux kernel. That is the only reason I've talked about it. One of the motivations for the device connection API was that it hides the actual method these components are linked together in HW description. What ever the method is, device graph or something else (we can support different ways), the drivers don't need to know about it. But in any case, I don't understand why should we depend on the addresses (index in practice) in this case? We can define an extra identifier property. Then in code we can walk through the whole graph, ignoring the address, and checking every remote endpoint in it and use that property to find what we are looking for, no? I'm pretty sure somebody already proposed "type" property for that "usb-connector" and I understood it was meant for identifying the endpoint (maybe I'm wrong), but I guess it newer went in? Thanks, -- heikki -- To unsubscribe from this list: send the line "unsubscribe devicetree" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html