eduOS-rs is a Unix-like operating system based on a monolithic architecture for educational purposes. It is developed for the course Operating Systems at RWTH Aachen University and includes a modified hypervisor that simplifies the boot process to increase the intelligibility of the OS. eduOS-rs is derived from following tutorials and software distributions:
eduOS-rs is tested under Linux, macOS, and Windows.
Apple's Command Line Tools must be installed. The Command Line Tool package gives macOS terminal users many commonly used tools and compilers, that are usually found in default Linux installations. Following terminal command installs these tools without Apple's IDE Xcode:
$ xcode-select --install
In addition, Qemu must be installed. Please use Homebrew as package manager to install Qemu.
$ brew install qemu
To build eduOS-rs you have to install Qemu and a git client. Please use Chocolatey as package manager to install Qemu and git.
$ choco install qemu git
Linux users should install common developer tools. For instance, on Ubuntu 22.04 the following command installs the required tools:
$ apt-get install -y git nasm qemu-system-x86 build-essential
This project uses Rustup to set its Rust toolchain. Follow the instructions to install Rust using Rustup.
In addition, the rust-osdev/bootimage tool is required, which creates a bootable diskimage. Please install the tool with following command.
$ cargo install bootimage
eduOS-rs is able to run within Qemu, which is a generic and open source machine emulator and virtualizer.
After cloning the repository, you can run the kernel with following command:
$ cargo run
Step by step (here branch by branch) the operating system design will be introduced. This tutorial shows the steps to develop from a minimal kernel to a Unix-like computer operating system. Currently, following stages of development are available:
stage0 - Smallest HelloWorld of the World
Description of loading a minimal 64bit kernel
stage1 - Cooperative/non-preemptive multitasking
Introduction into a simple form of multitasking, where no interrupts are required.
stage2 - Priority-based cooperative/non-preemptive multitasking
Introduction into a simple form of priority-based multitasking, where no interrupts are required.
stage3 - Synchronization primitives
Introduce basic synchronization primitives
stage 4 - Preemptive multitasking
Introduction into preemptive multitasking and interrupt handling
stage 5 - Support of user-level tasks
Add support of user-level tasks with an small interface for basic system calls
stage 6 - Support of paging
Add support of paging and a simple demo for process creation
stage 7 - Integration of an in-memory file system
Introduce a virtual file system with an in-memory file system as example file system.
stage8 - Run Linux application as common process
Start a simple Linux application (HelloWorld) on top of eduOS-rs. The application is a position-independent executable (PIE) and use musl-libc as standard C library.
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