> > This is an example of the dt implemented on a real device. > > > > mdio { > > #address-cells = <1>; > > #size-cells = <0>; > > > > phy_port1: phy@0 { > > reg = <0>; > > > > leds { > > #address-cells = <1>; > > #size-cells = <0>; > [...] > > }; > > }; > [...] > > }; > > > > In the following implementation. Each port have 2 leds attached (out of > > 3) one white and one amber. The driver parse the reg and calculate the > > offset to set the correct option with the regs by also checking the phy > > number. > > With switch silicon allowing user control of the LEDs, vendors can (and will) > use the switch's LED peripheral to drive other LEDs (or worse). E.g. on a Cisco > SG220-26 switch, using a Realtek RTL8382 SoC, the LEDs associated with some > unused switch ports are used to display a global device status. My concern here > is that one would have to specify switch ports, that aren't connected to > anything, just to describe those non-ethernet LEDs. Note that the binding is adding properties to the PHY nodes, not the switch port nodes. Is this how the RTL8382 works? Marvell Switches have LED registers which are not in the PHY register space. But the point is, the PHYs will probe if listed. They don't have to have a MAC pointing to them with a phandle. So the phydev will exist, and that should be enough to get the LED class device registered. If there is basic on/off support, that should be enough for you to attach the Morse code panic trigger, the heartbeat handler, or any other LED trigger. Andrew