On 21 January 2018 at 16:13, Andrew Lunn <andrew@xxxxxxx> wrote: >> Right. So if you need to have some additional "parameters" with the >> connection, then I suppose you may want to go with the GenericSerialBus >> route. However, looking at the sample device tree description: >> >> davinci_mdio: ethernet@5c030000 { >> compatible = "ti,davinci_mdio"; >> reg = <0x5c030000 0x1000>; >> #address-cells = <1>; >> #size-cells = <0>; >> >> reset-gpios = <&gpio2 5 GPIO_ACTIVE_LOW>; >> reset-delay-us = <2>; >> >> ethphy0: ethernet-phy@1 { >> reg = <1>; >> }; >> >> ethphy1: ethernet-phy@3 { >> reg = <3>; >> }; >> }; >> >> would pretty much translate directly to this in ACPI if you don't need >> any additional attributes: >> >> Device (ETH0) { >> Name (_ADR, /* PCI address of the NIC */) >> >> Device (PHY0) { >> Name (_ADR, 1) >> ... >> } >> >> Device (PHY1) { >> Name (_ADR, 3) >> ... >> } >> } >> >> which looks pretty simple to me. You can also use _DSM and _DSD here to >> pass information (like the protocol number) for the PHY devices to Linux. > > I'm not particularly worried about that simple case. Other than, i > don't want people to think that is all that is required. > > For a more full example, take a look at vf610-zii-dev-rev-b.dts. The > Freescale FEC Ethernet controller provides the base MDIO device, > mdio1. On top of this is an MDIO mux, using a few GPIO lines to > enable/disable 3 child MDIO busses. Each of these busses has an > Ethernet Switch. The Ethernet switch exports up to two MDIO busses, > and on these busses are Ethernet PHYs which are embedded inside the > switch. The Ethernet switches are also interrupt controllers, with the > PHYs having interrupt properties which point back to the interrupt > controller in the switch. > > So i'm interested in an ACPI proposal which supports this board. > However interesting as an example, I'm not convinced this is what we should aim for. ACPI is not a replacement for DT, and it is unlikely that people would be interested in running ACPI-only distros such as RHEL on their Ethernet switch. DT is excellent at describing this, and there is no need to replace it. ACPI is about firmware abstractions: you don't need to describe every stacked interrupt controller in minute detail to the OS if the firmware configures it sufficiently. That way, the OS does not need to know all these details, and vendors can update their hardware without having to update the software as well. (Or that is the idea at least, how that works out in practice on arm64 systems remains to be seen) Taking the Marvell 8040 as an example: the ACPI description does not expose the ICU interrupt controllers to the OS, but the firmware configures them and describes their configured state as ordinary GIC interrupts. Also, please bear in mind that the ACPI spec is owned by the UEFI/ACPI forum, and only members (who are all under a contract regarding reasonable and non-discriminatory (RAND) licensing terms to IP they own that is covered by the spec) can contribute. Individuals can become members for free AFAIR, but that doesn't mean individuals are typically interested in getting involved in a process that is rather tedious and bureaucratic. So my suggestion would be to find out to what extent the latest version of the spec can describe non-trivial MDIO topologies, and hopefully that includes the mvpp2 on the Marvell 8040. -- To unsubscribe from this list: send the line "unsubscribe linux-acpi" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html