General Purpose Input/Output (GPIO)

The NXP i.MX8QXP CPU has eight GPIO ports. Each port can generate and control 32 signals.

The MCA also features a number of GPIO pins (multiplexed with Analog-to-Digital Converter (ADC) functionality). See MCA I/O pads for a list of all available MCA IOs and their capabilities.

GPIOs on the ConnectCore 8X platforms

On the ConnectCore 8X system-on-module:
- Many of the i.MX8QXP GPIOs are available at the system-on-module, multiplexed with other functions (labeled GPIOx_IOy where x is the port and y is the GPIO pin). See Hardware reference manuals for information about GPIO pins and their multiplexed functionality.
- 19 MCA GPIO pins are available (labeled MCA_IOx where x is the GPIO pin).
On the ConnectCore 8X SBC Pro, the expansion connector allows direct access to several i.MX8QXP GPIOs and MCA GPIOs.

GPIOs on the SOM and carrier board are used for many purposes, such as:

Power enable line for transceivers
Reset line for controllers
LCD backlight control
Interrupt line
User LED
User button

Kernel configuration

You can manage the user space interface with GPIOs through the kernel configuration options:

/sys/class/gpio/… (sysfs interface) (CONFIG_GPIO_SYSFS)

This option is enabled as built-in on the default ConnectCore 8X kernel configuration file.

Support for i.MX8QXP GPIOs is automatically provided through the non-visible option CONFIG_GPIO_MXC.

Kernel driver

The driver for the i.MX8QXP GPIO is located at:

File	Description
drivers/gpio/gpio-mxc.c	i.MX8QXP GPIO driver

File

Description

drivers/gpio/gpio-mxc.c

i.MX8QXP GPIO driver

Device tree bindings and customization

The i.MX8QXP GPIO device tree binding is documented at Documentation/devicetree/bindings/gpio/fsl-imx-gpio.txt.

One GPIO controller is defined for each i.MX8QXP GPIO port in the common i.MX8QXP device tree file:

i.MX8QXP device tree

	gpio0: gpio@5d080000 {
		compatible = "fsl,imx8qm-gpio", "fsl,imx35-gpio";
		reg = <0x0 0x5d080000 0x0 0x10000>;
		interrupts = <GIC_SPI 136 IRQ_TYPE_LEVEL_HIGH>;
		gpio-controller;
		#gpio-cells = <2>;
		power-domains = <&pd_lsio_gpio0>;
		interrupt-controller;
		#interrupt-cells = <2>;
	};
 
[...]
 
	gpio7: gpio@5d0f0000 {
		compatible = "fsl,imx8qm-gpio", "fsl,imx35-gpio";
		reg = <0x0 0x5d0f0000 0x0 0x10000>;
		interrupts = <GIC_SPI 143 IRQ_TYPE_LEVEL_HIGH>;
		gpio-controller;
		#gpio-cells = <2>;
		power-domains = <&pd_lsio_gpio7>;
		interrupt-controller;
		#interrupt-cells = <2>;
	};

The ConnectCore 8X device tree include file and the carrier board device tree files use the i.MX8QXP GPIOs.

For example, on the ConnectCore 8X, GPIO3_IO09 is used to activate internal circuitry during the MCA firmware update:

ConnectCore 8X device tree

	mca_cc8x: mca@63 {
		compatible = "digi,mca-cc8x";
		reg = <0x63>;
		interrupt-parent = <&wu>;
		interrupts = <GIC_SPI 177 IRQ_TYPE_LEVEL_HIGH>;
		interrupt-controller;
		#interrupt-cells = <2>;
		fw-update-gpio = <&gpio3 9 GPIO_ACTIVE_LOW>;
		pinctrl-names = "default";
		pinctrl-0 = <&pinctrl_mca_cc8x>;
 
		[...]
};

For example, on the ConnectCore 8X SBC Pro, GPIO3_IO18 is used to reset the PHY of ENET1 Ethernet interface:

ConnectCore 8X SBC Pro device tree

&fec1 {
	pinctrl-names = "default";
	pinctrl-0 = <&pinctrl_fec_mdio>,
		    <&pinctrl_fec_gpio>,
		    <&pinctrl_fec1_gpio>,
		    <&pinctrl_fec1>;
	clocks = <&clk IMX8QXP_ENET0_IPG_CLK>,
		 <&clk IMX8QXP_ENET0_AHB_CLK>,
		 <&clk IMX8QXP_ENET0_REF_50MHZ_CLK>,
		 <&clk IMX8QXP_ENET0_PTP_CLK>,
		 <&clk IMX8QXP_ENET0_TX_CLK>;
	phy-mode = "rgmii-id";
	phy-handle = <&ethphy1>;
	phy-supply = <&reg_3v3_eth0>;
	phy-reset-gpios = <&gpio3 18 GPIO_ACTIVE_LOW>;
	phy-reset-duration = <1>;
	fsl,magic-packet;
 
	[...]
};

IOMUX configuration

You must configure the pads that are to be used as i.MX8QXP GPIOs. See Pin multiplexing (IOMUX).

For GPIOs that are managed by other drivers, you must configure their pad IOMUX inside the driver node specific pinctrl-0 to work according to the specified interface functionalities.

On the ConnectCore 8X example from above, mca_cc8x node configures pinctrl_mca_cc8x:

ConnectCore 8X device tree

pinctrl_mca_cc8x: mcagrp {
	fsl,pins = <
		[...]

		/* MCA_FW_UPDATE */
		SC_P_QSPI0A_DATA0_LSIO_GPIO3_IO09	0x06000021
	>;
};

For GPIOs that are not associated with any interface or that can’t be handled by a driver, see Configure independent pin IOMUX and pad control. The following external pads are configured as GPIOs on the default device tree:

On the ConnectCore 8X SBC Pro expansion connector:

Pad	Signal	GPIO
A7	GPIO4_21	GPIO4_IO21
B7	GPIO4_20	GPIO4_IO20
C4	SPI0_IRQ_N	GPIO1_IO01
C7	EXP_I2C_IRQ_N	GPIO3_IO15
C8	EXP_I2C_GPIO	GPIO3_IO14
C13	ADC_IN4	GPIO1_IO14
C14	ADC_IN5	GPIO1_IO13
C15	GPIO4_19	GPIO4_IO19
C18	GPIO0_12	GPIO0_IO12
D11	M40_UART_TX	GPIO1_IO11
D12	M40_UART_RX	GPIO1_IO12
D14	ADC_IN1	GPIO1_IO09
D19	GPIO5_09	GPIO5_IO09

Pad

Signal

GPIO

GPIO4_21

GPIO4_IO21

GPIO4_20

GPIO4_IO20

SPI0_IRQ_N

GPIO1_IO01

EXP_I2C_IRQ_N

GPIO3_IO15

EXP_I2C_GPIO

GPIO3_IO14

C13

ADC_IN4

GPIO1_IO14

C14

ADC_IN5

GPIO1_IO13

C15

GPIO4_19

GPIO4_IO19

C18

GPIO0_12

GPIO0_IO12

D11

M40_UART_TX

GPIO1_IO11

D12

M40_UART_RX

GPIO1_IO12

D14

ADC_IN1

GPIO1_IO09

D19

GPIO5_09

GPIO5_IO09

Using the GPIOs

You can access the GPIOs from the sysfs. See the Linux kernel documentation at Documentation/gpio/sysfs.txt.

Calculate the Linux GPIO number of a GPIO pin

For each GPIO controller entry on the device tree, Linux creates an entry /sys/class/gpio/gpiochipN, where N is calculated as per the formula:

N = (512 - <n_gpios>) - (<n_gpios> * <port_index>)

Each entry has the following read-only attributes:

base: same as N, the first GPIO managed by this chip
label: provided for diagnostics (not always unique)
ngpio: the number of GPIOs this controller manages (from N to N + ngpio - 1)

GPIOs on the ConnectCore 8X system-on-module

Every GPIO port of the i.MX8QXP CPU is a different GPIO controller and thus has its own /sys/class/gpio/gpiochipN entry on the sysfs.

On the default ConnectCore 8X system-on-module device tree, the i.MX8QXP CPU’s GPIO ports are probed first. Considering each one has 32 GPIOs, the formula results:

N = 480 - (32 * <port_index>)

GPIO0: /sys/class/gpio/gpiochip480
GPIO1: /sys/class/gpio/gpiochip448
GPIO2: /sys/class/gpio/gpiochip416
GPIO3: /sys/class/gpio/gpiochip384
GPIO4: /sys/class/gpio/gpiochip352
GPIO5: /sys/class/gpio/gpiochip320
GPIO6: /sys/class/gpio/gpiochip288
GPIO7: /sys/class/gpio/gpiochip256

Calculate the Linux GPIO number for a certain GPIO pin by adding the GPIO pin index to the port base index. For instance:

i.MX8QXP GPIO2_IO4 (port 2, pin 4) is: 416 + 4 = 420.

The following formula applies to i.MX8QXP CPU GPIOs (without requiring the user to know the GPIO base of each port):

\$"LinuxGPIO_num" = 480 - (32 * "<port_index>") + "<gpio_pin>"\$

For instance, i.MX8QXP GPIO2_IO4 (port 2, pin 4) is:

\$480 - (32 * color(red)(2)) + color(red)(4) = 420\$

Example: write from sysfs

The ConnectCore 8X SBC Pro has GPIO4_IO20 on the expansion connector. To drive this GPIO as an ouput:

Calculate the Linux GPIO number:

\$"GPIO4_IO20" -> 480 - (32 * color(red)(4)) + color(red)(20) = 372\$
Request the GPIO:
```
~# echo 372 > /sys/class/gpio/export
```

Configure the GPIO as output:

~# echo out > /sys/class/gpio/gpio372/direction

Drive the GPIO high:

~# echo 1 > /sys/class/gpio/gpio372/value

Drive the GPIO low:

~# echo 0 > /sys/class/gpio/gpio372/value

When you are done using the GPIO, free it with:
```
~# echo 372 > /sys/class/gpio/unexport
```

Sample application

An example application called apix-gpio-example is included in the dey-examples-digiapix recipe (part of dey-examples package) of meta-digi layer. This application shows how to manage GPIO lines using the Digi APIx library on the ConnectCore 8X platform.

Go to GitHub to see the application instructions and source code.

See GPIO API for more information about the GPIO APIx.

See MCA General Purpose Input/Output (GPIO) for additional information on MCA GPIOs.