GPIO
About
One of the most used and versatile peripheral in a microcontroller is the GPIO. The GPIO is commonly used to write and read the pin state.
GPIO stands to General Purpose Input Output, and is responsible to control or read the state of a specific pin in the digital world. For example, this peripheral is widely used to create the LED blinking or to read a simple button.
Note
There are some GPIOs with special restrictions, and not all GPIOs are accessible through the development board. For more information about it, see the corresponding board pin layout information.
GPIOs Modes
There are two different modes in the GPIO configuration:
Input Mode
In this mode, the GPIO will receive the digital state from a specific device. This device could be a button or a switch.
Output Mode
For the output mode, the GPIO will change the GPIO digital state to a specific device. You can drive an LED for example.
GPIO API
Here is the common functions used for the GPIO peripheral.
pinMode
The pinMode
function is used to define the GPIO operation mode for a specific pin.
void pinMode(uint8_t pin, uint8_t mode);
pin
defines the GPIO pin number.mode
sets operation mode.
The following modes are supported for the basic input and output:
INPUT sets the GPIO as input without pullup or pulldown (high impedance).
OUTPUT sets the GPIO as output/read mode.
INPUT_PULLDOWN sets the GPIO as input with the internal pulldown.
INPUT_PULLUP sets the GPIO as input with the internal pullup.
Internal Pullup and Pulldown
The ESP32 SoC families supports the internal pullup and pulldown through a 45kR resistor, that can be enabled when configuring the GPIO mode as INPUT
mode.
If the pullup or pulldown mode is not defined, the pin will stay in the high impedance mode.
digitalWrite
The function digitalWrite
sets the state of the selected GPIO to HIGH
or LOW
. This function is only used if the pinMode
was configured as OUTPUT
.
void digitalWrite(uint8_t pin, uint8_t val);
pin
defines the GPIO pin number.val
set the output digital state toHIGH
orLOW
.
digitalRead
To read the state of a given pin configured as INPUT
, the function digitalRead
is used.
int digitalRead(uint8_t pin);
pin
select GPIO
This function will return the logical state of the selected pin as HIGH
or LOW
.
Interrupts
The GPIO peripheral on the ESP32 supports interruptions.
attachInterrupt
The function attachInterrupt
is used to attach the interrupt to the defined pin.
attachInterrupt(uint8_t pin, voidFuncPtr handler, int mode);
pin
defines the GPIO pin number.handler
set the handler function.mode
set the interrupt mode.
Here are the supported interrupt modes:
DISABLED
RISING
FALLING
CHANGE
ONLOW
ONHIGH
ONLOW_WE
ONHIGH_WE
attachInterruptArg
The function attachInterruptArg
is used to attach the interrupt to the defined pin using arguments.
attachInterruptArg(uint8_t pin, voidFuncPtrArg handler, void * arg, int mode);
pin
defines the GPIO pin number.handler
set the handler function.arg
pointer to the interrupt arguments.mode
set the interrupt mode.
detachInterrupt
To detach the interruption from a specific pin, use the detachInterrupt
function giving the GPIO to be detached.
detachInterrupt(uint8_t pin);
pin
defines the GPIO pin number.
Example Code
GPIO Input and Output Modes
#define LED 12
#define BUTTON 2
uint8_t stateLED = 0;
void setup() {
pinMode(LED, OUTPUT);
pinMode(BUTTON,INPUT_PULLUP);
}
void loop() {
if(!digitalRead(BUTTON)){
stateLED = stateLED^1;
digitalWrite(LED,stateLED);
}
}
GPIO Interrupt
#include <Arduino.h>
struct Button {
const uint8_t PIN;
uint32_t numberKeyPresses;
bool pressed;
};
Button button1 = {23, 0, false};
Button button2 = {18, 0, false};
void ARDUINO_ISR_ATTR isr(void *arg) {
Button *s = static_cast<Button *>(arg);
s->numberKeyPresses += 1;
s->pressed = true;
}
void ARDUINO_ISR_ATTR isr() {
button2.numberKeyPresses += 1;
button2.pressed = true;
}
void setup() {
Serial.begin(115200);
pinMode(button1.PIN, INPUT_PULLUP);
attachInterruptArg(button1.PIN, isr, &button1, FALLING);
pinMode(button2.PIN, INPUT_PULLUP);
attachInterrupt(button2.PIN, isr, FALLING);
}
void loop() {
if (button1.pressed) {
Serial.printf("Button 1 has been pressed %lu times\n", button1.numberKeyPresses);
button1.pressed = false;
}
if (button2.pressed) {
Serial.printf("Button 2 has been pressed %lu times\n", button2.numberKeyPresses);
button2.pressed = false;
}
static uint32_t lastMillis = 0;
if (millis() - lastMillis > 10000) {
lastMillis = millis();
detachInterrupt(button1.PIN);
}
}