flutter_gpiod 0.1.0+1

Flutter Library for accessing libgpiod on linux.

flutter_gpiod

A library for GPIO access on linux using libgpiod.

Currently, flutter_gpiod is only supports flutter-pi as a platform. It will not work on linux desktop or any other platform.

You need to have libgpiod.so on your system for it to work. You can install it using sudo apt install gpiod.

Getting Started

Then, you can retrieve the list of GPIO chips attached to your system using [FlutterGpiod.chips]. Each chip has a name, label and a number of GPIO lines associated with it.

final gpio = await FlutterGpiod.getInstance();

final chips = gpio.chips;

for (final chip in chips) {
    print("chip name: ${chip.name}, chip label: ${chip.label}");

    for (final line in chip.lines) {
        print("  line: $line");
    }
}

Each line also has some information associated with it that can be retrieved using [GpioLine.info]. The information can change at any time if the line is not owned/requested by you.

// Get the instance of the FlutterGpiod singleton.
final gpio = await FlutterGpiod.getInstance();

// Get the chip with label 'pinctrl-bcm2835'.
// This is the main Raspberry Pi GPIO chip.
final chip = gpio.chips.singleWhere((chip) => chip.label == 'pinctrl-bcm2835');

// Get line 22 of the 'pinctrl-bcm2835' GPIO chip.
// This is the BCM 22 pin of the Raspberry Pi.
final line = chip.lines[22];

print("line info: ${await line.info}")

To control a line (to read or write values or to listen for edges), you need to request it using [GpioLine.requestInput] or [GpioLine.requestOutput].

final gpio = await FlutterGpiod.getInstance();
final chip = gpio.chips.singleWhere((chip) => chip.label == 'pinctrl-bcm2835');
final line = chip.lines[22];

// request it as input.
await line.requestInput();
print("line value: ${await line.getValue()}");
await line.release();

// now we're requesting it as output.
await line.requestOutput(initialValue: true);
line.setValue(false);
await line.release();

// request it as input again, but this time we're also listening
// for edges; both in this case.
await line.requestInput(triggers: {SignalEdge.falling, SignalEdge.rising});

print("line value: ${await line.getValue()}");

// line.onEvent will not emit any events if no triggers
// are requested for the line.
// this will run forever
await for (final event in line.onEvent) {
  print("got GPIO line signal event: $event");
}

await line.release();