avr-hal

embedded-hal implementations for AVR microcontrollers. Based on the register definitions from avr-device.

• Quickstart
• Starting your own project
• Repository Structure
  • Supported MCUs
  • Supported Boards

Quickstart

You need nightly rust for compiling rust code for AVR. Go into ./boards/arduino-leonardo (or the directory for whatever board you want), and run the following commands:

# Now you are ready to build your first avr blink example!
cargo +nightly build --example leonardo-blink

# For some boards, you can even run it directly (this will attempt to flash it
# onto a connected board):
cargo +nightly run --example leonardo-blink

# For others, you can find the binary file in
ls ../../target/avr-atmega32u4/debug/examples/leonardo-blink.elf
# and e.g. create an ihex file using
avr-objcopy -S -j .text -j .data -O ihex leonardo-blink.elf leonardo-blink.hex

Starting your own project

This is a step-by-step guide for creating a new project targeting Arduino Leonardo (ATmega32U4). You can of course apply the same steps for any other microcontroller.

1. Start by creating a new project:

   cargo new --bin avr-example
   cd avr-example

2. If you're using rustup, you probably want to set an override for this directory, to use the nightly toolchain:

   rustup override set nightly

3. Copy the target description for your MCU (e.g. avr-atmega32u4.json) into your project.

4. Create a file .cargo/config.toml with the following content:

   [build]
   target = "avr-atmega32u4.json"
   
   [unstable]
   build-std = ["core"]

5. Fill Cargo.toml with these additional directives:

   [dependencies]
   # A panic handler is needed.  This is a crate with the most basic one.
   # The `leonardo-panic` example shows a more elaborate version.
   panic-halt = "0.2.0"
   
   [dependencies.arduino-leonardo]
   git = "https://github.com/Rahix/avr-hal"
   
   # Configure the build for minimal size
   [profile.dev]
   panic = "abort"
   lto = true
   opt-level = "s"
   
   [profile.release]
   panic = "abort"
   codegen-units = 1
   debug = true
   lto = true
   opt-level = "s"

6. Start your project with this basic template:

   #![no_std]
   #![no_main]
   
   // Pull in the panic handler from panic-halt
   extern crate panic_halt;
   
   use arduino_leonardo::prelude::*;
   
   #[arduino_leonardo::entry]
   fn main() -> ! {
       let dp = arduino_leonardo::Peripherals::take().unwrap();
   
       unimplemented!()
   }

7. Build with these commands (make sure you're using nightly rust!):

   cargo build
   # or
   cargo build --release

   and find your binary in target/avr-atmega32u4/debug/ (or target/avr-atmega32u4/release).

8. (Optional): To make development as smooth as possible, you can configure a cargo runner for your board. This repository contains a few example scripts (e.g. leonardo-runner.sh, uno-runner.sh) which you can copy into your project. You'll then need to add the following section to your .cargo/config.toml:

   [target.'cfg(target_arch = "avr")']
   runner = "./leonardo-runner.sh"

   And that's it, now you can build an run your project in a single command!

   cargo run
   # or
   cargo run --release

Repository Structure

This repository contains the following components:

• A generic crate containing implementations that can be used chip-independently and macros to create chip-dependent instances of peripheral abstractions. This crate is named avr-hal-generic.
• HAL crates for each MCU in chips/. These make use of avr-hal-generic to create chip-specific definitions.
• Board Support Crates for popular hardware in boards/. They, for the most part, just re-export functionality from the chip-HAL, with the names that are printed on the PCB.

Supported MCUs

The following HAL crates currently exist. Take a look at the docs for more details on what's supported.

• atmega168-hal - Crate Documentation
  • ADC
  • Digital IO
  • I2C using TWI
  • PWM
  • SPI
  • Spinning Delay
  • USART Serial
• atmega2560-hal - Crate Documentation
  • ADC (no differential channels yet)
  • Digital IO
  • I2C using TWI
  • SPI
  • Spinning Delay
  • USART Serial
• atmega328p-hal - Crate Documentation
  • ADC
  • Digital IO
  • I2C using TWI
  • SPI
  • Spinning Delay
  • USART Serial
• atmega32u4-hal - Crate Documentation
  • ADC (no differential channels yet)
  • Digital IO
  • I2C using TWI
  • SPI
  • Spinning Delay
  • USART Serial
• attiny85-hal - Crate Documentation
  • Digital IO
  • Spinning Delay
• attiny88-hal - Crate Documentation
  • Digital IO
  • I2C using TWI
  • SPI
  • Spinning Delay

Supported Boards

In boards/ there are crates for the following hardware. Please note that this project is in no way affiliated with any of the vendors.

Each board crate comes with a few examples showing how to use them. For more details, follow the links to the documentation.

• Arduino diecimila - Crate Documentation
  • Website
• Arduino Leonardo - Crate Documentation
  • Website
• Arduino Uno - Crate Documentation
  • Website
• Arduino Mega 2560 - Crate Documentation
  • Website
• Adafruit Trinket (3V3 or 5V) (not PRO!) - Crate Documentation
  • Website
• BigAVR 6 - Crate Documentation

Disclaimer

This project is not affiliated with either Microchip (former Atmel) nor any of the Vendors that created the boards supported in this repository.

License

avr-hal is licensed under either of

• Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
• MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)

at your option.