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# Operating System development tutorials in Rust on the Raspberry Pi
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<br/>
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<img src="doc/header.jpg" height="390"> <img src="doc/minipush_demo_frontpage.gif" height="390">
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## ℹ️ Introduction
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This is a tutorial series for hobby OS developers who are new to ARM's 64 bit
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[ARMv8-A architecture]. The tutorials will give a guided, step-by-step tour of
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how to write a [monolithic] Operating System `kernel` for an `embedded system`
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from scratch. They cover implementation of common Operating Systems tasks, like
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writing to the serial console, setting up virtual memory and handling HW
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exceptions. All while leveraging `Rust`'s unique features to provide for safety
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and speed.
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_Cheers, Andre ([@andre-richter])_
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P.S.: In the future, Chinese :cn: versions of the tutorials will be maintained as [`README.CN.md`](README.CN.md) by [@colachg] and [@readlnh].
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[ARMv8-A architecture]: https://developer.arm.com/products/architecture/cpu-architecture/a-profile/docs
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[monolithic]: https://en.wikipedia.org/wiki/Monolithic_kernel
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[@andre-richter]: https://github.com/andre-richter
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[@colachg]: https://github.com/colachg
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[@readlnh]: https://github.com/readlnh
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## 📑 Organization
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- Each tutorial contains a stand-alone, bootable `kernel` binary.
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- Each new tutorial extends the previous one.
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- Each tutorial `README` will have a short `tl;dr` section giving a brief
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overview of the additions, and show the source code `diff` to the previous
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tutorial, so that you can conveniently inspect the changes/additions.
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- Some tutorials have a full-fledged, detailed text in addition to the `tl;dr`
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section. The long-term plan is that all tutorials get a full text, but for now
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this is exclusive to tutorials where I think that `tl;dr` and `diff` are not
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enough to get the idea.
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- The code written in these tutorials supports and runs on the **Raspberry Pi
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3** and the **Raspberry Pi 4**.
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- Tutorials 1 till 5 are groundwork code which only makes sense to run in
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`QEMU`.
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- Starting with [tutorial 6](06_drivers_gpio_uart), you can load and run the
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kernel on Raspberrys and observe output over `UART`.
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- Although the Raspberry Pi 3 and 4 are the main target boards, the code is
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written in a modular fashion which allows for easy porting to other CPU
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architectures and/or boards.
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- I would really love if someone takes a shot at a **RISC-V** implementation!
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- For editing, I recommend [Visual Studio Code] with the [Rust Language Server]
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extension.
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- In addition to the tutorial text, also check out the `make doc` command to
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browse the code with HTML goodness.
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[Visual Studio Code]: https://code.visualstudio.com
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[Rust Language Server]: https://github.com/rust-lang/rls
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## 🚀 Ease of use
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This series tries to put a strong focus on user friendliness. Therefore, I made
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efforts to eliminate the biggest painpoint in embedded development: Toolchain
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hassles.
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Users eager to try the code will not be bothered with complicated toolchain
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installation/compilation steps. This is achieved by using the standard Rust
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toolchain as much as possible, and provide all additional tooling through an
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accompanying Docker container. The container will be pulled in automagically
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once it is needed. The only requirement is that you have [installed Docker for
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your distro](https://docs.docker.com/install/).
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The development setup consists of the following components:
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- Compiler, linker and binutils are used from Rust nightly.
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- Additional OS Dev tools, like `QEMU` or `GDB`, are provided by [this
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container](docker/rustembedded-osdev-utils).
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If you want to know more about docker and peek at the the container used for the
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tutorials, please refer to the repository's [docker](docker) folder.
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## 🛠 Prerequisites
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Before you can start, you must install a suitable Rust toolchain:
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```bash
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curl https://sh.rustup.rs -sSf \
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sh -s -- \
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--default-toolchain nightly-2019-12-20 \
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--component rust-src llvm-tools-preview rustfmt rls rust-analysis
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source $HOME/.cargo/env
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cargo install cargo-xbuild cargo-binutils
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```
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## 📟 USB Serial Output
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Since the kernel developed in the tutorials runs on the real hardware, it is
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highly recommended to get a USB serial debug cable to make the experience.
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The cable also powers the Raspberry once you connect it, so you don't need extra
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power over the dedicated power-USB.
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- I use a bunch of [these serial cables](https://www.amazon.de/dp/B0757FQ5CX/ref=cm_sw_r_tw_dp_U_x_ozGRDbVTJAG4Q).
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- You connect it to the GPIO pins `14/15` as shown below.
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- [Tutorial 6](06_drivers_gpio_uart) is the first where you can use it.
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Check it out for instructions on how to prepare the SD card to boot your
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self-made kernel from it.
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- Starting with [tutorial 7](07_uart_chainloader), booting kernels on your
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Raspberry is getting _really_ comfortable. In this tutorial, a so-called
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`chainloader` is developed, which will be the last file you need to manually
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copy on the SD card for a while. It will enable you to load the tutorial
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kernels during boot on demand over `UART`.
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## 🙌 Acknowledgements
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The original version of the tutorials started out as a fork of [Zoltan
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Baldaszti](https://github.com/bztsrc)'s awesome [tutorials on bare metal
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programming on RPi3](https://github.com/bztsrc/raspi3-tutorial) in `C`. Thanks
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for giving me a head start!
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## License
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Licensed under either of
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* Apache License, Version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
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* MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
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at your option.
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### Contribution
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Unless you explicitly state otherwise, any contribution intentionally submitted
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for inclusion in the work by you, as defined in the Apache-2.0 license, shall be
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dual licensed as above, without any additional terms or conditions.
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