# The Ardix Kernel This is the source tree of Ardix, a microkernel for various Arduino boards that implements some core concepts of the Unix philosophy. Please note that this project is not affiliated with or endorsed by Arduino s.r.l. in any way. Only ARM-based boards are supported at the moment. ## License Copyright (c) 2020, 2021 Felix Kopp . Ardix is non-violent software: you may only use, redistribute, and/or modify it under the terms of the CNPLv6+ as found in the LICENSE file in the source code root directory or at . Ardix comes with ABSOLUTELY NO WARRANTY, to the extent permitted by applicable law. See the CNPLv6+ for details. ## Compiling ### Prerequisites - The GNU toolchain, including * `arm-gcc` * `arm-ld` * `arm-objcopy` - CMake >= 3.14 - A programmer (`bossac` recommended) - A Unix-like shell (sorry Microsoft lackeys, you can use the Windows Subsystem for Linux for compiling but probably not for flashing) ### Configuration Configuration is done with the standard CMake config system. The following options are available: - `TOOLCHAIN_PATH`: Path where the compiler toolchain is located. Defaults to `/usr/bin`. - `ARCH`: Codename for the target architecture. The following architectures are currently supported: * `at91sam3x8e` (Arduino Due) ### Build To build the EEPROM image, execute the following command: ```shell # Replace with one of the target architectures from the list above cmake -DARCH= -B build -S . cmake --build build ``` This will create `ardix.bin` in the `build` directory, which can be passed to `bossac` for flashing. If you are using an Arduino DUE (at91sam3x8e), make sure to connect the USB cable to the programmer port (the one closer to the power jack). ```shell # Replace with the name of the tty device in /dev # that is connected to your Arduino bossac -e -w -v -b -a --port= build/ardix.bin ``` Please refer to `bossac --help` for more information on how to use it.