Documentation: leds: leds-class: Document new Hardware driven LEDs APIs

Document new Hardware driven LEDs APIs.

Some LEDs can be programmed to be driven by hardware. This is not
limited to blink but also to turn off or on autonomously.
To support this feature, a LED needs to implement various additional
ops and needs to declare specific support for the supported triggers.

Add documentation for each required value and API to make hw control
possible and implementable by both LEDs and triggers.

Signed-off-by: Christian Marangi <ansuelsmth@gmail.com>
Reviewed-by: Andrew Lunn <andrew@lunn.ch>
Signed-off-by: David S. Miller <davem@davemloft.net>
This commit is contained in:
Christian Marangi 2023-05-29 18:32:33 +02:00 committed by David S. Miller
parent 052c38eb17
commit 8aa2fd7b66

View File

@ -169,6 +169,87 @@ Setting the brightness to zero with brightness_set() callback function
should completely turn off the LED and cancel the previously programmed
hardware blinking function, if any.
Hardware driven LEDs
====================
Some LEDs can be programmed to be driven by hardware. This is not
limited to blink but also to turn off or on autonomously.
To support this feature, a LED needs to implement various additional
ops and needs to declare specific support for the supported triggers.
With hw control we refer to the LED driven by hardware.
LED driver must define the following value to support hw control:
- hw_control_trigger:
unique trigger name supported by the LED in hw control
mode.
LED driver must implement the following API to support hw control:
- hw_control_is_supported:
check if the flags passed by the supported trigger can
be parsed and activate hw control on the LED.
Return 0 if the passed flags mask is supported and
can be set with hw_control_set().
If the passed flags mask is not supported -EOPNOTSUPP
must be returned, the LED trigger will use software
fallback in this case.
Return a negative error in case of any other error like
device not ready or timeouts.
- hw_control_set:
activate hw control. LED driver will use the provided
flags passed from the supported trigger, parse them to
a set of mode and setup the LED to be driven by hardware
following the requested modes.
Set LED_OFF via the brightness_set to deactivate hw control.
Return 0 on success, a negative error number on failing to
apply flags.
- hw_control_get:
get active modes from a LED already in hw control, parse
them and set in flags the current active flags for the
supported trigger.
Return 0 on success, a negative error number on failing
parsing the initial mode.
Error from this function is NOT FATAL as the device may
be in a not supported initial state by the attached LED
trigger.
- hw_control_get_device:
return the device associated with the LED driver in
hw control. A trigger might use this to match the
returned device from this function with a configured
device for the trigger as the source for blinking
events and correctly enable hw control.
(example a netdev trigger configured to blink for a
particular dev match the returned dev from get_device
to set hw control)
Returns a pointer to a struct device or NULL if nothing
is currently attached.
LED driver can activate additional modes by default to workaround the
impossibility of supporting each different mode on the supported trigger.
Examples are hardcoding the blink speed to a set interval, enable special
feature like bypassing blink if some requirements are not met.
A trigger should first check if the hw control API are supported by the LED
driver and check if the trigger is supported to verify if hw control is possible,
use hw_control_is_supported to check if the flags are supported and only at
the end use hw_control_set to activate hw control.
A trigger can use hw_control_get to check if a LED is already in hw control
and init their flags.
When the LED is in hw control, no software blink is possible and doing so
will effectively disable hw control.
Known Issues
============