Go to file
Jakub Ostrzołek 921dd0ace5
Update to Zig 0.13.0 (#3)
* Update to zig 0.13.0

* Update readme to zig 0.13.0
2024-08-18 10:49:09 -07:00
.github Add FUNDING.yml 2023-12-18 01:34:30 +00:00
examples Remove underscores from examples 2023-12-13 17:28:19 -08:00
src Update to zig 0.12.0 (#2) 2024-04-26 14:17:36 -07:00
.gitignore Update to Zig 0.13.0 (#3) 2024-08-18 10:49:09 -07:00
build.zig Update to Zig 0.13.0 (#3) 2024-08-18 10:49:09 -07:00
build.zig.zon Initial Commit 2023-12-11 19:20:44 -08:00
LICENSE Switch license to MIT 2023-12-12 12:10:20 -08:00
README.md Update to Zig 0.13.0 (#3) 2024-08-18 10:49:09 -07:00

zig-gpio

zig-gpio is a Zig library for controlling GPIO lines on Linux systems

This library can be used to access GPIO on devices such as Raspberry Pis or the Milk-V Duo (which is the board I created it for and tested it with).

This is my first Zig project, so I'm open to any suggestions!

There's a companion article available on my website: https://www.elara.ws/articles/milkv-duo.

Compatibility

zig-gpio uses the v2 character device API, which means it will work on any Linux system running kernel 5.10 or above. All you need to do is find out which gpiochip device controls which pin and what the offsets are, which you can do by either finding documentation online, or using the gpiodetect and gpioinfo tools from this repo or from libgpiod.

Commands

zig-gpio provides replacements for some of the libgpiod tools, such as gpiodetect and gpioinfo. You can build all of them using zig build commands or specific ones using zig build <command> (for example: zig build gpiodetect).

Try it yourself!

Here's an example of a really simple program that requests pin 22 from gpiochip2 and makes it blink at a 1 second interval. That pin offset is the LED of a Milk-V Duo board, so if you're using a different board, make sure to change it.

const std = @import("std");
const gpio = @import("gpio");

pub fn main() !void {
    var chip = try gpio.getChip("/dev/gpiochip2");
    defer chip.close();
    std.debug.print("Chip Name: {s}\n", .{chip.name});

    var line = try chip.requestLine(22, .{ .output = true });
    defer line.close();
    while (true) {
        try line.setHigh();
        std.time.sleep(std.time.ns_per_s);
        try line.setLow();
        std.time.sleep(std.time.ns_per_s);
    }
}

For more examples, see the _examples directory. You can build all the examples using the zig build examples command.

Using zig-gpio in your project

If you don't have a zig project already, you can create one by running zig init-exe in a new folder.

To add zig-gpio as a dependency, there are two steps:

  1. Add zig-gpio to your build.zig.zon file
  2. Add zig-gpio to your build.zig file

If you don't have a build.zig.zon file, create one. If you do, just add zig-gpio as a dependency. Here's what it should look like:

.{
    .name = "my_project",
    .version = "0.0.1",

    .dependencies = .{
        .gpio = .{
            .url = "https://gitea.elara.ws/Elara6331/zig-gpio/archive/v0.0.2.tar.gz",
            .hash = "1220e3af3194d1154217423d60124ae3a46537c2253dbfb8057e9b550526d2885df1",
        }
    }
}

Then, in your build.zig file, add the following before b.installArtifact(exe):

const gpio = b.dependency("gpio", .{
    .target = target,
    .optimize = optimize,
});
exe.root_module.addImport("gpio", gpio.module("gpio"));

And that's it! You should now be able to use zig-gpio via @import("gpio");