6. LED

6.1. Introduction

There are 2 LEDs on the AIO-3588SJD4 development board, as the following table shows:

LED Pin name Pin number
Blue GPIO1_D2 58
Red GPIO1_D5 61

LEDs can be controlled by using the LED device subsystem or by directly operating GPIO.

6.2. Controlling LEDs by device

Linux has its own LED subsystem for LED devices. In Core-3588SJD4, LEDs are configured as LED class devices.You can control them via /sys/class/leds/.

The default status of the two on-board leds are:

  • Blue: Turn on after the system powers on.

  • Red: defined by user.

You can change the behavior of each LED by using the echo command to write command to its brightness property:

# echo 0 >/sys/class/leds/firefly:blue:power/brightness  //Blue led off
# echo 1 >/sys/class/leds/firefly:blue:power/brightness  //Blue led on

6.3. Using trigger control LED

Trigger contains a variety of ways to control the LED, here with two examples to illustrate.

  • Simple trigger LED

  • Complex trigger LED

For more information, please read the document leds-class.txt.

First of all, we need to know how many LED definition, while the corresponding property of the LED is.

Define LED node in file kernel/arch/arm64/boot/dts/rockchip/aio-3588sjd4.dtsi

firefly_leds: leds {
    compatible = "gpio-leds";
    power_led: power {
        label = ":power"; //blue led
        linux,default-trigger = "ir-power-click";
        default-state = "on";
        gpios = <&gpio1 RK_PD2 GPIO_ACTIVE_HIGH>;
        pinctrl-names = "default";
        pinctrl-0 = <&led_power>;

    user_led: user {
        label = ":user"; //red led
        linux,default-trigger = "ir-user-click";
        default-state = "off";
        gpios = <&gpio1 RK_PD5 GPIO_ACTIVE_HIGH>;
        pinctrl-names = "default";
        pinctrl-0 = <&led_user>;

Note: The value of compatible must match the one in drivers/leds/leds-gpio.c.

6.3.1. Simple trigger LED

It is a simple trigger mode to control LEDs, as follows on the default open yellow LED. And Core-3588SJD4’s yellow LED will be turned on after boot.

(1) Defined LED trigger In the kernel/drivers/leds/trigger/led-firefly-demo.c add the following:


(2) Register the trigger.

led_trigger_register_simple("ir-user-click", &ledtrig_default_control);

(3) Control the LED.

led_trigger_event(ledtrig_default_control, LED_FULL);     #yellow led on

(4)Enable LED demo.

led-firefly-demo is disabled in default,if you need to open the demo drive can use the following patch:

--- a/kernel/arch/arm64/boot/dts/rockchip/rk3588-firefly-demo.dtsi
+++ b/kernel/arch/arm64/boot/dts/rockchip/rk3588-firefly-demo.dtsi
@@ -52,7 +52,7 @@
            led_demo: led_demo {
-                status = "disabled";
+                status = "okay";
                 compatible = "firefly,rk3588-led";

6.4. Complex trigger LED

The following is the trigger mode control LED complex example, timer trigger is to let the LED to achieve constant light off effect.

We need to configure the timer trigger on the kernel.

In the kernel-5.10 path using make menuconfig, in accordance with the following method to chose timer trigger driver.

Device Drivers
--->LED Support
   --->LED Trigger support
      --->LED Timer Trigger

Save the configuration and compile the kernel, the kernel.img burn Core-3588SJD4 board. We can use the serial input command, you can see the yellow light non-stop interval flashing.

echo "timer" > /sys/class/leds/:user/trigger

The user can also use the cat command to get the available values for the trigger:

# cat /sys/class/leds/:user/trigger
none ir-power-click rfkill-any rfkill-none test_ac-online test_battery-charging-or-full 
test_battery-charging test_battery-full test_battery-charging-blink-full-solid 
test_usb-online mmc0 [timer] heartbeat backlight default-on ir-user-click mmc1 
rfkill0 tcpm-source-psy-6-0022-online rfkill1 rfkill2