Hi Ondrej, I overlooked your reply in my inbox, sorry this took so long.
On Fri, 3 Jul 2020 15:08:09 +0200 Ondřej Jirman <meg...@megous.com> wrote: > Do you have such a switch? Also what's your real usecase? Yes, on Turris MOX three 8-port ethernet switches can be plugged, resulting in 24 ethernet ports, each having 2 LEDs. The current driver does not expose these LEDs via sysfs, but I want to add the support there. Each of these LEDs can be controlled by software, or can be put into one of these HW controlled modes: - Link (with three submodes: 10/100, Gb, 10Gb) - Link activity (again with three submodes as above) - PTP activity - Force blink > My usecase is a PMIC which has either a user-controllable or > self-working mode for a single LED it controls. I want to be able to > switch between those quickly and easily. I understand your usecase completely. This is the same thing I want. I just have reservations about how you want to implement this. Marek > I want the LED to be mostly controlled by PMIC, because that way PMIC > can signal events that are not exposed to OS like overvoltage, > overheating, etc. ... all automagically, but also be able to control > it sometimes via SW (for non PMIC related notifications, eg.). > > So in my mindset LED is either controlled by Linux via various SW > triggers, or it's self-working in some arbitrary device specific > configuration that doesn't need any passing of the data via CPU for > the LED to reflect some HW state. > > So I'd expose a 'hw-trigger' only on the LED device that allows this, > that you can select among all the other regular triggers as you do > now, and then configure its precise mode/options in sysfs (on the > trigger kobj). The driver would come with some sane device specific > defaults for the self-working mode. > > User can then select hw-trigger, in the triggers and would get a nice > PMIC LED behavior controlled by HW, or a common LED behavior of the > ehternet port, or on the wireless card, or whatever. > > From the perspective of this use case the interface is nice and > generic: > > - you set LED to hw-trigger mode on boot > - you set trigger to none and poke the LED with a pattern you want > for the notification and put it back to hw-trigger mode again > afterwards > > We can standardize on hw-trigger, or self-controlled, or some other > name for this kind of private LED trigger, and then the userspace > would not need to even care about the specific LED device type, when > sitching between SW controlled and self-working modes. > > You'd be able to take SW control of the ethernet PHY controlled LEDs > this way just the same as the PMIC LED with the same interface, > described above. And if you don't like the default self-controled > mode, you can change it via sysfs attributes on the trigger. > > It would also allow the user to switch between SW and HW control, > without having to remember the previous HW triggering mode, because > that could be persisted by the LED HW trigger device. So you can go > back to previous HW triggering mode just by 'echo hw-trigger > > your-led/trigger'. > > I've read through the discussions, and this seems like a workable > interface. > > Most of the LED devices would just add one extra private trigger to > the triggers_list, so it would not explode in the way you describe > above. > > Also benefit of this approach is that it fits quite nicely with the > existing code, and requires minimal changes. The trigger already > allows for specifying sysfs attributes, too. > > regards, > o.
