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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>
261 lines
11 KiB
ReStructuredText
261 lines
11 KiB
ReStructuredText
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LED handling under Linux
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========================
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In its simplest form, the LED class just allows control of LEDs from
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userspace. LEDs appear in /sys/class/leds/. The maximum brightness of the
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LED is defined in max_brightness file. The brightness file will set the brightness
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of the LED (taking a value 0-max_brightness). Most LEDs don't have hardware
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brightness support so will just be turned on for non-zero brightness settings.
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The class also introduces the optional concept of an LED trigger. A trigger
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is a kernel based source of led events. Triggers can either be simple or
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complex. A simple trigger isn't configurable and is designed to slot into
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existing subsystems with minimal additional code. Examples are the disk-activity,
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nand-disk and sharpsl-charge triggers. With led triggers disabled, the code
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optimises away.
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Complex triggers while available to all LEDs have LED specific
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parameters and work on a per LED basis. The timer trigger is an example.
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The timer trigger will periodically change the LED brightness between
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LED_OFF and the current brightness setting. The "on" and "off" time can
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be specified via /sys/class/leds/<device>/delay_{on,off} in milliseconds.
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You can change the brightness value of a LED independently of the timer
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trigger. However, if you set the brightness value to LED_OFF it will
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also disable the timer trigger.
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You can change triggers in a similar manner to the way an IO scheduler
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is chosen (via /sys/class/leds/<device>/trigger). Trigger specific
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parameters can appear in /sys/class/leds/<device> once a given trigger is
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selected.
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Design Philosophy
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=================
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The underlying design philosophy is simplicity. LEDs are simple devices
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and the aim is to keep a small amount of code giving as much functionality
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as possible. Please keep this in mind when suggesting enhancements.
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LED Device Naming
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=================
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Is currently of the form:
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"devicename:color:function"
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- devicename:
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it should refer to a unique identifier created by the kernel,
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like e.g. phyN for network devices or inputN for input devices, rather
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than to the hardware; the information related to the product and the bus
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to which given device is hooked is available in sysfs and can be
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retrieved using get_led_device_info.sh script from tools/leds; generally
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this section is expected mostly for LEDs that are somehow associated with
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other devices.
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- color:
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one of LED_COLOR_ID_* definitions from the header
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include/dt-bindings/leds/common.h.
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- function:
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one of LED_FUNCTION_* definitions from the header
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include/dt-bindings/leds/common.h.
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If required color or function is missing, please submit a patch
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to linux-leds@vger.kernel.org.
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It is possible that more than one LED with the same color and function will
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be required for given platform, differing only with an ordinal number.
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In this case it is preferable to just concatenate the predefined LED_FUNCTION_*
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name with required "-N" suffix in the driver. fwnode based drivers can use
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function-enumerator property for that and then the concatenation will be handled
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automatically by the LED core upon LED class device registration.
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LED subsystem has also a protection against name clash, that may occur
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when LED class device is created by a driver of hot-pluggable device and
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it doesn't provide unique devicename section. In this case numerical
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suffix (e.g. "_1", "_2", "_3" etc.) is added to the requested LED class
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device name.
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There might be still LED class drivers around using vendor or product name
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for devicename, but this approach is now deprecated as it doesn't convey
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any added value. Product information can be found in other places in sysfs
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(see tools/leds/get_led_device_info.sh).
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Examples of proper LED names:
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- "red:disk"
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- "white:flash"
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- "red:indicator"
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- "phy1:green:wlan"
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- "phy3::wlan"
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- ":kbd_backlight"
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- "input5::kbd_backlight"
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- "input3::numlock"
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- "input3::scrolllock"
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- "input3::capslock"
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- "mmc1::status"
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- "white:status"
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get_led_device_info.sh script can be used for verifying if the LED name
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meets the requirements pointed out here. It performs validation of the LED class
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devicename sections and gives hints on expected value for a section in case
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the validation fails for it. So far the script supports validation
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of associations between LEDs and following types of devices:
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- input devices
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- ieee80211 compliant USB devices
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The script is open to extensions.
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There have been calls for LED properties such as color to be exported as
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individual led class attributes. As a solution which doesn't incur as much
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overhead, I suggest these become part of the device name. The naming scheme
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above leaves scope for further attributes should they be needed. If sections
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of the name don't apply, just leave that section blank.
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Brightness setting API
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======================
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LED subsystem core exposes following API for setting brightness:
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- led_set_brightness:
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it is guaranteed not to sleep, passing LED_OFF stops
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blinking,
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- led_set_brightness_sync:
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for use cases when immediate effect is desired -
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it can block the caller for the time required for accessing
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device registers and can sleep, passing LED_OFF stops hardware
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blinking, returns -EBUSY if software blink fallback is enabled.
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LED registration API
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====================
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A driver wanting to register a LED classdev for use by other drivers /
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userspace needs to allocate and fill a led_classdev struct and then call
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`[devm_]led_classdev_register`. If the non devm version is used the driver
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must call led_classdev_unregister from its remove function before
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free-ing the led_classdev struct.
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If the driver can detect hardware initiated brightness changes and thus
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wants to have a brightness_hw_changed attribute then the LED_BRIGHT_HW_CHANGED
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flag must be set in flags before registering. Calling
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led_classdev_notify_brightness_hw_changed on a classdev not registered with
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the LED_BRIGHT_HW_CHANGED flag is a bug and will trigger a WARN_ON.
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Hardware accelerated blink of LEDs
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==================================
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Some LEDs can be programmed to blink without any CPU interaction. To
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support this feature, a LED driver can optionally implement the
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blink_set() function (see <linux/leds.h>). To set an LED to blinking,
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however, it is better to use the API function led_blink_set(), as it
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will check and implement software fallback if necessary.
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To turn off blinking, use the API function led_brightness_set()
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with brightness value LED_OFF, which should stop any software
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timers that may have been required for blinking.
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The blink_set() function should choose a user friendly blinking value
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if it is called with `*delay_on==0` && `*delay_off==0` parameters. In this
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case the driver should give back the chosen value through delay_on and
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delay_off parameters to the leds subsystem.
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Setting the brightness to zero with brightness_set() callback function
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should completely turn off the LED and cancel the previously programmed
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hardware blinking function, if any.
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Hardware driven LEDs
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====================
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Some LEDs can be programmed to be driven by hardware. This is not
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limited to blink but also to turn off or on autonomously.
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To support this feature, a LED needs to implement various additional
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ops and needs to declare specific support for the supported triggers.
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With hw control we refer to the LED driven by hardware.
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LED driver must define the following value to support hw control:
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- hw_control_trigger:
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unique trigger name supported by the LED in hw control
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mode.
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LED driver must implement the following API to support hw control:
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- hw_control_is_supported:
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check if the flags passed by the supported trigger can
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be parsed and activate hw control on the LED.
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Return 0 if the passed flags mask is supported and
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can be set with hw_control_set().
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If the passed flags mask is not supported -EOPNOTSUPP
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must be returned, the LED trigger will use software
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fallback in this case.
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Return a negative error in case of any other error like
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device not ready or timeouts.
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- hw_control_set:
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activate hw control. LED driver will use the provided
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flags passed from the supported trigger, parse them to
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a set of mode and setup the LED to be driven by hardware
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following the requested modes.
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Set LED_OFF via the brightness_set to deactivate hw control.
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Return 0 on success, a negative error number on failing to
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apply flags.
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- hw_control_get:
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get active modes from a LED already in hw control, parse
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them and set in flags the current active flags for the
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supported trigger.
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Return 0 on success, a negative error number on failing
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parsing the initial mode.
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Error from this function is NOT FATAL as the device may
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be in a not supported initial state by the attached LED
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trigger.
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- hw_control_get_device:
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return the device associated with the LED driver in
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hw control. A trigger might use this to match the
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returned device from this function with a configured
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device for the trigger as the source for blinking
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events and correctly enable hw control.
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(example a netdev trigger configured to blink for a
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particular dev match the returned dev from get_device
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to set hw control)
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Returns a pointer to a struct device or NULL if nothing
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is currently attached.
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LED driver can activate additional modes by default to workaround the
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impossibility of supporting each different mode on the supported trigger.
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Examples are hardcoding the blink speed to a set interval, enable special
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feature like bypassing blink if some requirements are not met.
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A trigger should first check if the hw control API are supported by the LED
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driver and check if the trigger is supported to verify if hw control is possible,
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use hw_control_is_supported to check if the flags are supported and only at
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the end use hw_control_set to activate hw control.
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A trigger can use hw_control_get to check if a LED is already in hw control
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and init their flags.
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When the LED is in hw control, no software blink is possible and doing so
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will effectively disable hw control.
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Known Issues
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============
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The LED Trigger core cannot be a module as the simple trigger functions
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would cause nightmare dependency issues. I see this as a minor issue
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compared to the benefits the simple trigger functionality brings. The
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rest of the LED subsystem can be modular.
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