# RustOS [![Build Status](https://travis-ci.org/wangrunji0408/RustOS.svg?branch=master)](https://travis-ci.org/wangrunji0408/RustOS) Rust port for uCore OS, supporting x86_64 and riscv32i. [Dev docs](https://rucore.gitbook.io/rust-os-docs/) (in Chinese) ## Summary This is a project of THU Operating System (2018 Spring) && Comprehensive Experiment of Computer System (2018 Summer). Project wiki (internal access only): [OS](http://os.cs.tsinghua.edu.cn/oscourse/OS2018spring/projects/g11), [CECS](http://os.cs.tsinghua.edu.cn/oscourse/csproject2018/group05) Reports (in Chinese): [MidReport](./docs/MidReport.md), [FinalReport](./docs/FinalReport.md), [RISCV port note](./docs/RISCV.md) The initial goal is to write a mini OS in Rust with multi-core support. More specifically, it would start from the post of the [Writing an OS in Rust](http://os.phil-opp.com) series, then reimplement [xv6-x86_64](https://github.com/jserv/xv6-x86_64) in Rust style. In fact, it's more complicated than we expected to write an OS starting from scratch. So by the end of OS course, we only finished rewriting [ucore_os_lab](https://github.com/chyyuu/ucore_os_lab), without multi-core support. Then as a part of [CECS project](https://github.com/riscv-and-rust-and-decaf), we ported it from x86_64 to RISCV32I, and made it work on our FPGA CPU. ## Building ### Environment * [Rust](https://www.rust-lang.org) toolchain at nightly-2018-09-18 * Cargo tools: [cargo-xbuild](https://github.com/rust-osdev/cargo-xbuild), [bootimage](https://github.com/rust-osdev/bootimage) * QEMU >= 2.12.0 * [RISCV64 GNU toolchain](https://www.sifive.com/products/tools/) (for riscv32) ### How to run ```bash rustup component add rust-src cargo install cargo-xbuild bootimage ``` ```bash git clone https://github.com/wangrunji0408/RustOS.git cd RustOS/kernel rustup override set nightly-2018-09-18 make run arch=riscv32|x86_64 # For FPGA: # make run arch=riscv32 board=1 ``` ## License The source code is dual-licensed under MIT or the Apache License (Version 2.0).