Integrate micronucleus into the cargo buildsystem, flash an AVR firmware from an elf file.
# ./.cargo/config.toml
[target.'cfg(target_arch = "avr")']
# Choose a default "cargo run" tool
runner = "elf2nucleus"
Adding this to your cargo config should then allow you to use the cargo-native run command for flashing, without further need for a Makefile:
RUSTC_BOOTSTRAP=1 cargo run --release
Please note that elf2nucleus builds on top of micronucleus which needs to be installed too.
This project was inspired by elf2uf2-rs for the rp2040.
Also shoutout to @cyber-murmel who motivated me to develop this and helped me with AVR development.
To build an AVR firmware repository it's often enough to run:
RUSTC_BOOTSTRAP=1 cargo build --release
cargo then compiles the firmware and puts it into an elf container file like this:
target/avr-attiny85/release/attiny85-hello-world.elf
For this .cargo/config.toml
needs to be configured correctly, an example repository can be found at github.com/kpcyrd/attiny85-hello-world.
To invoke elf2nucleus without cargo, you can run it like this:
elf2nucleus ./attiny85-hello-world.elf
If you don't want to flash with elf2nucleus and instead read the firmware from an elf file into a raw binary file you can specify an additional output file name:
elf2nucleus ./attiny85-hello-world.elf ./firmware.bin
micronucleus --type raw --run --no-ansi ./firmware.bin
At the time of writing, it's not possible to configure micronucleus as "cargo run" tool, because micronucleus can't read from elf files.
If you want to avoid using elf2nucleus you can use avr-objcopy
to prepare the firmware file yourself:
avr-objcopy --output-target=ihex target/avr-attiny85/release/attiny85-hello-world.elf target/avr-attiny85/release/attiny85-hello-world.hex
micronucleus --timeout 60 --run --no-ansi target/avr-attiny85/release/attiny85-hello-world.hex
GPL-3.0-or-later