Move MT7530 phy muxing from DSA to PHY driver

Arınç ÜNAL arinc.unal at arinc9.com
Sun Sep 18 04:28:50 PDT 2022


On 17.09.2022 18:07, Andrew Lunn wrote:
>>> Where in the address range is the mux register? Officially, PHY
>>> drivers only have access to PHY registers, via MDIO. If the mux
>>> register is in the switch address space, it would be better if the
>>> switch did the mux configuration. An alternative might be to represent
>>> the mux in DT somewhere, and have a mux driver.
>>
>> I don't know this part very well but it's in the register for hw trap
>> modification which, I think, is in the switch address space.
>>
>> https://git.kernel.org/pub/scm/linux/kernel/git/netdev/net-next.git/tree/drivers/net/dsa/mt7530.c?id=1f9a6abecf538cc73635f6082677a2f4dc9c89a4#n941
>>
>> https://git.kernel.org/pub/scm/linux/kernel/git/netdev/net-next.git/tree/drivers/net/dsa/mt7530.h?id=1f9a6abecf538cc73635f6082677a2f4dc9c89a4#n500
>>
>> Like you said, I don't think we can move away from the DSA driver, and would
>> rather keep the driver do the mux configuration.
>>
>> We could change the check for phy muxing to define the phy muxing bindings
>> in the DSA node instead. If I understand correctly, the mdio address for
>> PHYs is fake, it's for the sole purpose of making the driver check if
>> there's request for phy muxing and which phy to mux. I'm saying this because
>> the MT7530 switch works fine at address 0 while also using phy0 as a slave
>> interface.
>>
>> A property could be introduced on the DSA node for the MT7530 DSA driver:
>>
>>      mdio {
>>          #address-cells = <1>;
>>          #size-cells = <0>;
>>
>>          switch at 0 {
>>              compatible = "mediatek,mt7530";
>>              reg = <0>;
>>
>>              reset-gpios = <&pio 33 0>;
>>
>>              core-supply = <&mt6323_vpa_reg>;
>>              io-supply = <&mt6323_vemc3v3_reg>;
>>
>>              mt7530,mux-phy = <&sw0_p0>;
>>
>>              ethernet-ports {
>>                  #address-cells = <1>;
>>                  #size-cells = <0>;
>>
>>                  sw0_p0: port at 0 {
>>                      reg = <0>;
>>                  };
>>              };
>>          };
>>      };
>>
>> This would also allow using the phy muxing feature with any ethernet mac.
>> Currently, phy muxing check wants the ethernet mac to be gmac1 of a MediaTek
>> SoC. However, on a standalone MT7530, the switch can be wired to any SoC's
>> ethernet mac.
>>
>> For the port which is set for PHY muxing, do not bring it as a slave
>> interface, just do the phy muxing operation.
>>
>> Do not fail because there's no CPU port (ethernet property) defined when
>> there's only one port defined and it's set for PHY muxing.
>>
>> I don't know if the ethernet mac needs phy-handle defined in this case.
> 
>  From mediatek,mt7530.yaml:
> 
>    Port 5 modes/configurations:
>    1. Port 5 is disabled and isolated: An external phy can interface to the 2nd
>       GMAC of the SOC.
>       In the case of a build-in MT7530 switch, port 5 shares the RGMII bus with 2nd
>       GMAC and an optional external phy. Mind the GPIO/pinctl settings of the SOC!
>    2. Port 5 is muxed to PHY of port 0/4: Port 0/4 interfaces with 2nd GMAC.
>       It is a simple MAC to PHY interface, port 5 needs to be setup for xMII mode
>       and RGMII delay.
>    3. Port 5 is muxed to GMAC5 and can interface to an external phy.
>       Port 5 becomes an extra switch port.
>       Only works on platform where external phy TX<->RX lines are swapped.
>       Like in the Ubiquiti ER-X-SFP.
>    4. Port 5 is muxed to GMAC5 and interfaces with the 2nd GAMC as 2nd CPU port.
>       Currently a 2nd CPU port is not supported by DSA code.
> 
> So this mux has a scope bigger than the switch, it also affects one of
> the SoCs MACs.
> 
> The phy-handle should have all the information you need, but it is
> scattered over multiple locations. It could be in switch port 5, or it
> could be in the SoC GMAC node.
> 
> Although the mux is in the switches address range, could you have a
> tiny driver using that address range. Have this tiny driver export a
> function to set the mux. Both the GMAC and the DSA driver make use of
> the function, which should be enough to force the tiny driver to load
> first. The GMAC and the DSA driver can then look at there phy-handle,
> and determine how the mux should be set. The GMAC should probably do
> that before register_netdev. The DSA driver before it registers the
> switch with the DSA core.
> 
> Does that solve all your ordering issues?

I believe it does.

> 
> By using the phy-handle, you don't need any additional properties, so
> backwards compatibility should not be a problem. You can change driver
> code as much as you want, but ABI like DT is fixed.

Understood, thanks Andrew!

Arınç



More information about the linux-arm-kernel mailing list