How to use GPIO RK3588
From ESS-WIKI
Configuration
The RK3588 bank/bit notation for GPIOs must be formed as "GPIO<GPIO_bank>_<gpio_bit>"
The numeric value of GPIO is calculated as follows:
32 x (gpio_bank) + gpio_bit
gpio_bit : A0~A7 0-7 B0~B7 8-15 C0~C7 16-23 D0~D7 24-31
E.g. GPIO3_A0 becomes 96
ROM-6881
GPIO Number | GPIO formed | Numeric Representation |
GPIO0 | Ext-GPIO0 P00 | 485 |
GPIO1 | Ext-GPIO0 P01 | 486 |
GPIO2 | Ext-GPIO0 P02 | 487 |
GPIO3 | Ext-GPIO0 P03 | 488 |
GPIO4 | Ext-GPIO0 P04 | 489 |
GPIO5 | GPIO4_B5 | 141 |
GPIO6 | Ext-GPIO0 P05 | 490 |
GPIO7 | Ext-GPIO0 P06 | 491 |
GPIO8 | Ext-GPIO0 P07 | 492 |
GPIO9 | GPIO4_A0 | 128 |
GPIO10 | GPIO3_C0 | 112 |
GPIO11 | GPIO3_C1 | 113 |
Test
Here we take GPIO0 of ROM-6881 as an example.
Export GPIO then you can use control GPIO from userr space through sysfs
Export GPIO0
# echo 493 > /sys/class/gpio/export
Set GPIO direction to in/out
# echo "out" > /sys/class/gpio/gpio493/direction
Set GPIO value 0/1 if GPIO pin define is output
# echo 1 > /sys/class/gpio/gpio493/value
Used as IRQ signal
Note:You have to configure GPIO to input
# echo "rising" > /sys/class/gpio/gpio493/edge
- rising: Trigger on rising edge
- falling: Trigger on falling edge
- both: Trigger on both edges
- none: Disable interrupt on both edges
Unexport GPIO0
# echo 493 > /sys/class/gpio/unexport
Test
GPIO0 and GPIO1 are taken as an example:
- Connect GPIO0 and GPIO1
- Export GPIO0 and GPIO1
# echo 493 > /sys/class/gpio/export # echo 494 > /sys/class/gpio/export
- Set GPIO0 to output
# echo "out" > /sys/class/gpio/gpio493/direction
- Set GPIO2 to input
# echo "in" > /sys/class/gpio/gpio494/direction
- Change GPIO0 to 1 and read GPIO1 value
# echo 1 > /sys/class/gpio/gpio493/value # cat /sys/class/gpio/gpio494/value 1
- Change GPIO0 to 0 and read GPIO1 value
# echo 0 > /sys/class/gpio/gpio493/value # cat /sys/class/gpio/gpio494/value 0