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Button
Overview
A simple button demo showcasing the use of GPIO input with interrupts. The sample prints a message to the console each time a button is pressed.
Requirements
The board hardware must have a push button connected via a GPIO pin. These are called “User buttons” on many of Zephyr’s Supported Boards.
The button must be configured using the sw0
devicetree
alias, usually in the BOARD.dts file. You will
see this error if you try to build this sample for an unsupported board:
Unsupported board: sw0 devicetree alias is not defined
You may see additional build errors if the sw0
alias exists, but is not
properly defined.
The sample additionally supports an optional led0
devicetree alias. This is
the same alias used by the Blinky. If this is provided, the LED
will be turned on when the button is pressed, and turned off off when it is
released.
Devicetree details
This section provides more details on devicetree configuration.
Here is a minimal devicetree fragment which supports this sample. This only
includes a sw0
alias; the optional led0
alias is left out for
simplicity.
/ {
aliases {
sw0 = &button0;
};
soc {
gpio0: gpio@0 {
status = "okay";
gpio-controller;
#gpio-cells = <2>;
/* ... */
};
};
buttons {
compatible = "gpio-keys";
button0: button_0 {
gpios = < &gpio0 PIN FLAGS >;
label = "User button";
};
/* ... other buttons ... */
};
};
As shown, the sw0
devicetree alias must point to a child node of a node
with a “gpio-keys” compatible.
The above situation is for the common case where:
gpio0
is an example node label referring to a GPIO controllerPIN
should be a pin number, like8
or0
FLAGS
should be a logical OR of GPIO configuration flags meant to apply to the button, such as(GPIO_PULL_UP | GPIO_ACTIVE_LOW)
This assumes the common case, where #gpio-cells = <2>
in the gpio0
node, and that the GPIO controller’s devicetree binding names those two cells
“pin” and “flags” like so:
gpio-cells:
- pin
- flags
This sample requires a pin
cell in the gpios
property. The flags
cell is optional, however, and the sample still works if the GPIO cells
do not contain flags
.
Building and Running
This sample can be built for multiple boards, in this example we will build it for the nucleo_f103rb board:
west build -b nucleo_f103rb samples/basic/button
After startup, the program looks up a predefined GPIO device, and configures the pin in input mode, enabling interrupt generation on falling edge. During each iteration of the main loop, the state of GPIO line is monitored and printed to the serial console. When the input button gets pressed, the interrupt handler will print an information about this event along with its timestamp.