Lib.rs

Hardware support
#raspberry-pi-pico #graphical-user-interface #gpio-pin #devices #input-level #remote-control #mdns #waveform #gui #usb

app piggui

A Graphical User Interface for interacting with local and remote Raspberry Pi and Pi Pico Hardware

by Andrew Mackenzie, Sundaram krishnan and 2 contributors

2 releases

0.7.3 Nov 25, 2025
0.7.2 Jun 17, 2025

#367 in Hardware support

Apache-2.0

410KB
8K SLoC

layout: page title: Piggui

GH Action codecov

Packaging status Support pigg on drips.network

piggui - Raspberry Pi GPIO GUI

piggui is a GUI for configuring pins, observing input levels and controlling output levels. On Raspberry Pi it has a real GPIO hardware backend (via rppal). On macOS, Linux and Windows it can connect to a remote hardware backend that is running pigglet.

BCM Pin Layout Screenshot Board Pin Layout Screenshot

Board Pin Layout Screenshot
Input Output
(some images/gifs/videos maybe slightly out of date as the GUI evolves...)

See what's new in latest release

Website

Details

  • Can run directly on a Pi or remotely from other platforms to allow you to configure the GPIO hardware Inputs and Outputs, controlling the level of the Outputs and view the level of the Inputs in the GUI.
  • Pre-built images for different OS and CPU architecture, along with installers. See INSTALLING.md for details.
  • Visual representation of the GPIO pins in two layouts, a "Board Pin Layout" that mimics the physical layout of the Pi's GPIO connector/header, or a "BCM Pin Layout" with only the programmable GPIO pins, ordered by BCM pin number. Physical pin layout adapts to reflect the device that piggui is connected to as Pi and Pi Pico pin outs are different.
  • Each pin has its board pin number, name and function.
  • Drop down selector to config each pin (Currently as an Input with or without pull-up/pull-down, or as an Output)
  • Inputs have a visualization like an LED to show its current level (Black is unknown, Red is off, Green is on), plus a waveform view that shows you the recent history of the level detected on the input.
  • Outputs have a toggle switch that can be used to change the stable value of the output, plus a "clicker" for quick inversions of the stable level, plus a waveform view showing the recent history of the level set on the Output.
  • GPIO configurations can be loaded at startup with a command line filename option, or loaded via file-picker from the UI or saved to file via file picker, or the device will communicate it's current configuration to the GUI, allowing you to continue with the configuration currently being used by the GPIO hardware.
  • GUI discovery of devices using mDNS for networked pigglets and porkys, or USB for direct connected porkys.
  • The GUI (piggui) can connect to a Pi (running pigglet) over the network, or to a Pi Pico/Pi Pico W (over the network or USB direct connect) to control and view the GPIO hardware from a distance.
  • The GUI can run on Mac, Linux, Windows or Raspberry Pis. Events are timestamped at source (as close to the hardware as possible) so network delays should not affect the waveforms displayed. Please provide us feedback and ideas related to networking in Discussions or GH issues.
  • The data required to connect to a remote node via iroh-net is called the endpoint_id. pigglet prints this out for you if it is started in the foreground. When pigglet has been started as a system service, start another instance in the foreground and this will detect the background instance and display its endpoint_id for you then exit.
  • Take the endpoint_id and either supply it as a command line option to piggui (--endpoint_id $endpoint_id, prefixed with -- if using cargo run) or enter it into the GUI. To connect to a remote instance from the GUI, click on the "hardware menu" in the left of the info bar at the bottom of the screen and select the "Connect to remote Pi..." menu item. Then enter the endpoint_id into the field provided and hit "Connect"
  • Here are two videos showing the two ways to use it, with pigglet running on a RPi shown via VNC.

You can see more gifs and videos of features here

Pigglet

pigglet is a "headless" command line utility that interacts with the GPIO hardware, and can either apply a config supplied from file and stop, or can listen for config changes from a remote piggui and report input level changes to the GUI.

For more details see pigglet's README.md

Porky

porky is an embedded application developer for the Raspberry Pi Pico and Pi Pico W for remote interaction with the Pico's GPIO hardware. It can be connected to over TCP or USB.

For more details see porky's README.md

Supported Hardware and Operating Systems

pigg has a number of binaries as part of the project (see descriptions above) and they are tested in CI, or manually or are known to work as follows:

Application Arch Supported Device OS Supported Asset
piggui Apple Silicon macOS 15 piggui-aarch64-apple-darwin.tar.xz
x86_64 macOS 15 piggui-x86_64-apple-darwin.tar.xz
x86_64 Ubuntu 24.04 piggui-x86_64-unknown-linux-gnu.tar.xz
x86_64 Windows 10 piggui-x86_64-pc-windows-msvc.msi
aarch64 Pi400 Pi OS piggui-aarch64-unknown-linux-gnu.tar.xz
aarch64 Pi4 Pi OS piggui-aarch64-unknown-linux-gnu.tar.xz
aarch64 Pi5 Pi OS piggui-aarch64-unknown-linux-gnu.tar.xz
arm Pi Zero Pi OS (32bit) piggui-arm-unknown-linux-gnu.tar.xz
aarch64 Pi Zero 2 Pi OS (64bit) piggui-aarch64-unknown-linux-gnu.tar.xz
armv7 musl Pi3B Ubuntu 18.04.6 LTS piggui-armv7-unknown-linux-musleabihf.tar.xz
armv7 gnu Pi3B Ubuntu 18.04.6 LTS piggui-armv7-unknown-linux-gnueabihf.tar.xz

Installing

See INSTALLING.md

Help

See HELP.md for help with known issues. We hope to grow this and maybe link with the GUI and reported errors.

Building from Source

See BUILDING.md

Running Piggui and Pigglet

For details on running piggui see RUNNING.md

Contributing

See CONTRIBUTING.md

License

See LICENSE

Code of Conduct

See CODE_OF_CONDUCT.md

Security

See SECURITY.md

Dependencies

~97–145MB
~2.5M SLoC