</p>
<p align="center">
- <span>简体中文</span> | <a href="docs/README_en.md">English</a>
+ <a href="docs/README.cn.md">简体中文</a> | <a href="#the-lunaixos-project">English</a>
</p>
-# LunaixOS Project
-LunaixOS - 一个简单的,详细的,POSIX兼容的(但愿!),带有浓重个人风格的操作系统。开发过程以视频教程形式在Bilibili呈现:[《从零开始自制操作系统系列》](https://space.bilibili.com/12995787/channel/collectiondetail?sid=196337)。
+# The Lunaix Project
-## 当前进度以及支持的功能
+The Lunaix kernel (or soon-to-be LunaixOS) is a hobby kernel, written entirely from scratch. Designed to be POSIX-compliance, performance critical and modern, with some independent thoughts being applied in architectural design.
-该操作系统支持x86架构,运行在保护模式中,采用宏内核架构,目前仅支持单核心。内存结构采用经典的3:1划分,即低3GiB为用户地址空间(0x400000 ~ 0xBFFFFFFF),内核地址空间重映射至高1GiB(0xC0000000 ~ 0xFFFFFFFF)。内存的详细布局可参考[LunaixOS内存地图](docs/img/lunaix-os-mem.png)
-在下述列表中,则列出目前所支持的所用功能和特性。列表项按照项目时间戳进行升序排列。
+This project is built entirely from first principles - meaning no code was copy-pasted or recycled from other OS projects or tutorials. Lunaix didn't begin as an attempt to outperform anything; it started as a personal challenge to learn OS theory and explore advanced kernel features through original design and implementation. Everything you see here was developed solo, part-time, with only hardware specs and my beloved **Modern Operating Systems** as guidance.
-+ 使用Multiboot进行引导启动
-+ APIC/IOAPIC作为中断管理器和计时器
-+ ACPI
-+ 虚拟内存
-+ 内存管理与按需分页(Demand Paging)
-+ 键盘输入
-+ 多进程
-+ 17个常见的Linux/POSIX系统调用([附录1](#appendix1))
-+ 用户模式
-+ 信号机制
-+ PCI 3.0
-+ PCIe 1.1 (WIP)
-+ Serial ATA AHCI (WIP)
+If you're a kernel hobbyist looking for a fresh take or tired of mass-produced projects, then welcome, you're in the right place!
-## 目录结构
-| | |
+|  |
+|:--:|
+| *Lunaix over serial* (`console=/dev/ttyS0`) |
+
+|  |
+|:--:|
+| *Lunaix over VGA text mode* (`console=/dev/ttyVCON0`) |
+
+> By the way, do you know there is an online video course by the author on the design of lunaix? [Check it out](https://space.bilibili.com/12995787/channel/collectiondetail?sid=196337) (although it is in Chinese!)
+
+## Features
+
+Lunaix is a multi-architecture, general-purpose kernel built with performance, modularity, and robustness in mind. Its design emphasizes advanced abstractions, proactive error detection, and subsystem isolation. Lunaix is
+
++ **Fully-preemptive** for responsive multi-tasking
++ **Modular** with compile-time configurable components and extensible subsystems
++ **High-performance**, leveraging modern caching strategies and efficient infrastructures.
++ **Fault-tolerant**, with built-in error handling and stack backtracing
++ **Robust by design**, using mechanisms like proactive deadlock detection and driver isolation
+
+A significant amount of effort has gone into crafting clean abstractions, implementing advanced kernel features, and applying performance optimizations throughout the system.
+
+To better illustrate the scope of work already done, the following non-exhaustive list outlines currently supported features in Lunaix:
+
+<details>
+
+<summary>List of all features implemented</summary>
+
++ Multi-ISA
+ + x86_32
+ + x86_64
+ + Aarch64 (WIP)
++ Boot protocol
+ + abstraction for different protocol
+ + configurable kernel boot-time parameters
++ Platform resource management and definition
+ + read-only ACPI table interpretation
+ + full devicetree implementation
++ Memory management
+ + architecture-neutral abstraction
+ + highmem
+ + copy-on-write
+ + page sharing
+ + explicit huge page
+ + on-demand paging
+ + compound page
+ + reverse mapping (rmap)
+ + memory compaction (WIP)
+ + slab-style object allocator
+ + inter-process address space access
++ Multi-tasking
+ + fully preemptive
+ + protection levels
+ + process isolation
+ + native threading
+ + signal mechanism
+ + round-robin scheduler (for now)
+ + kernel level multi-tasking (i.e. kernel threads)
+ + taskfs: file system interface to process and threads
++ File system
+ + POSIX-compliant interface
+ + virtual file system framework
+ + file system mounting mechanism
+ + page cache for file IO
+ + inode/dnode caching
+ + ext2 (rev.0, rev.1)
+ + iso9660 (rock-ridge)
+ + twifs: kernel state fs interface.
++ Device management and interrupt handling
+ + unified IRQ framework
+ + unified driver framework for heterogenous devices
+ + modular driver model allow compiled-time toggling
+ + asynchronous operation model supported
+ + devfs: device fs interface.
++ Block I/O (blkio)
+ + unified block IO interface
+ + IO request packets caching
+ + asynchronous IO operation
++ Serial I/O
+ + POSIX-compliant serial IO model
++ Caching Infrastructure
+ + LRU replacement policy and pooling
+ + kernel daemon for dynamic and transparent cache managements
++ Error handling and detection
+ + stack backtracing with symbol resolution
+ + stack unwinding for nested exception
+ + CPU state dumping
+ + deadlock/hung-up detection
+
+</details>
+
+<details>
+
+<summary>List of currently supported device</summary>
+
++ Architecture Neutral
+ + UART 16650-compatible driver
+ + Serial ATA AHCI
+ + PCI 3.0
+ + PCIe 1.1
+ + Standard VGA
++ Intel x86
+ + RTC (Intel PCH)
+ + IOAPIC IRQ controller
+ + APIC Timer
+ + Legacy i8042 keyboard controller
++ ARM
+ + GICv3
+ + PL011 (WIP)
+</details>
+
+## Project Structure
+
+| Path | Description |
|-----|------|
-| [lunaix-os](lunaix-os/) | LunaixOS源代码 |
-| [slides](slides/) | 视频中所用的幻灯片和补充材料 |
-| [reference-material](reference-material/)| 标准,技术文档和参考文献 |
+| [lunaix-os](../lunaix-os/) | LunaixOS source code |
+| [slides](../slides/) | Slides used in my videos |
+| [reference-material](../reference-material/)| References |
+
+## Compile and Build
+
+Building lunaix is simple, no more bloated dependencies to install, basic `build-essentials` installation plus a python are sufficient.
+
++ gcc (recommend v12+)
++ binutils
++ make
++ python (recommend v3.11+)
+
+And also one should have environment variable `ARCH=<arch>` exported, where `<arch>` is one of the supported arhcitecture (`x86_32`, `x86_64`, `aarch64`).
+
+For cross compilation, also export `CX_PREFIX` to the gcc prefix for the corresponding `<arch>`.
+
+The following `make` actions are then available to use.
+
+| Make command | Usage |
+| ---- | ---- |
+| `make all` | Build the kernel bin |
+| `make rootfs` | Build the stock rootfs |
+| `make clean` | clean |
+| `make config` | menuconfig |
+
+A successful build will give `build/bin/kernel.bin`.
+
+**Please note: this is the kernel, not a bootable image, it require a bootloader to boot and specify the rootfs.**
+
+## Get Started
+
+If you are impatient, or just want something to run and don't want to went through tedious process of configuring rootfs and tweak kernel parameters. You can use the `live_debug.sh` provided in the lunaix root directory to quickly bring up the system with default parameters (also used by the author for debugging).
+
+### Quick Start
+
+This will get you up and running real quick. We will use `x86_64` as example.
+
+Assuming a Linux or other Unix-like shell environment.
+
+#### Select your target
+```sh
+$ export ARCH=x86_64
+```
+
+#### Check Python
+```sh
+$ python --version
+```
+
+Ensure at least `3.11`
+
+#### Check compiler
+```sh
+$ gcc -dumpmachine
+```
+
+Ensure `x86_64-linux-gnu` or anything resemble `x86_64`
+
+#### Check QEMU
+```sh
+$ which qemu-system-x86_64
+```
+
+Should display a valid installation path
+
+#### Optional: Setting up Cross-Compiler
+```sh
+$ export CX_PREFIX=x86_64-linux-gnu-
+```
+
+#### Run Configuration
+```sh
+make config
+```
+
+Then hitting `q` in the interactive shell to save and quit
+
+#### Build stock rootfs
+
+```sh
+make rootfs
+```
+
+#### Build & Run
+```sh
+./live_debug.sh
+```
+
+you should see gdb now take control of your shell
+
+#### Connect to serial via telnet
-## 参考教程
+Open up another window or session
+```sh
+telnet localhost 12345
+```
-**没有!!** 本教程以及该操作系统均为原创,没有基于任何市面上现行的操作系统开发教程,且并非是基于任何的开源内核的二次开发。
+#### Commence simulation
-为了制作LunaixOS,作者耗费大量时间和精力钻研技术文档,手册,理论书籍以及现行工业标准,从而尽量保证了知识的一手性。(这样一来,读者和听众们也算是拿到了二手的知识,而不是三手,四手,甚至n手的知识)。
+Back to the gdb session and type `c` to countine
-大部分的文档和标准可以在上述的[reference-material](reference-material/)中找到。
-当然,您也可以参考以下列表来了解现阶段的LunaixOS都使用了哪些资料(本列表会随着开发进度更新):
+#### Watch Lunaix booting!
-#### 手册,标准,技术文档
-+ [Intel 64 and IA-32 Architecture Software Developer's Manual (Full Volume Bundle)](https://www.intel.com/content/www/us/en/developer/articles/technical/intel-sdm.html)
-+ [ACPI Specification (version 6.4)](https://uefi.org/sites/default/files/resources/ACPI_Spec_6_4_Jan22.pdf)
+Congrats, enjoy your lunaix! (or submit an issue)
+
+
+### Not so Quick Start
+
+Here is a slower and yet more verbose steps:
+
+1. Select an architecture `<arch>`
+2. Check the compilation prerequisites and presence of `qemu-system-<arch>`
+3. Optionally export `CX_PREFIX` if you are building for another architecture.
+4. Run `make ARCH=<arch> rootfs` to build stock rootfs image, require support of `dd`,`mkfs.ext2`, `mount -o loop`, `mktemp`.
+5. Run `ARCH=<arch> live_debug.sh` to boot in QEMU with gdb hooked (one should see a gdb session)
+6. telnet to `localhost:12345`, this is QEMU emulated serial port
+7. type `c` in the active gdb session and commence emulation.
+8. Congrats, enjoy your lunaix!
+(or submit an issue)
+
+
+## Booting the kernel
+
+Since lunaix is a kernel, much like linux. It requires additional setup to do the magic. And, as in "much like linux", methods to make linux kernel boot can also apply to lunaix without or with little translation, as we will discuss below.
+
+The bootloader part is generic, any bootloader, for example GRUB will work (not tested for UEFI, but I expect this would be an exception), or booting up in QEMU using `-kernel` option
+
+The kernel command line, is however, a bit differentiated.
+The syntax is similar, both takes form of space-separated array of `<key>=<val>` pairs or boolean `<flag>`.
+
+Currently, lunaix support the following options
+
+| Option | Default Value | Optional | Usage |
+| ------ | ---- | ----- | ---- |
+| console | `/dev/ttyS0` | No | Specify the system console device, path within lunaix's devfs |
+| rootfs | `/dev/block/sda` | No | Specify the device contain rootfs image, path within lunaix's devfs |
+| init | `/init` | Yes | Path within rootfs of the `init` |
+
+
+## Submit an Issue
+
+If one ran into bug, one can submit an issue by filling up the following template
+
+```
+1. Describe the problem
+ "How does it look like, anything descriptive: visual, sonic, emotional experience"
+
+2. Steps to reproduce
+ "How you ran into this mess?"
+
+3. Expected behaviour
+ "What do you intended/expected to achieve/to be"
+
+4. Lunaix's panic trace (if applicable)
+
+5. Other clues that you think might be helpful
+```
+
+
+## Limitations
+
+The development process is still in motion, any limitation can be categorised as a feature yet to be. However, some features that the author considered to be the most urgent and wish the matters to be discussed.
+
+Lunaix is under impression of uniprocessor and not capable of running in SMP environment. This is major held back of being a modern operating system. It has the highest priority among all other tasks
+
+Lunaix do not have a mature (or even, an infant) user space ecosystem, mainly because the lack of a proper and sophisticated libc. Efforts need to be done for porting one to the target. However, given the author's tight schedule, this task is unfortunately still beyond the horizon.
+
+## Acknowledgement
+
+Albeit one must realise that the author has mentioned it in the very beginning, the author would like to emphaise **again** on the nature of this project.
+
+As a personal challenge, this project is independently developed by the author single-handly, which means:
+
++ No reference to existing tutorials, books, online courses or any open source project that might provide any example, hint or working prototype on the design and implementation of kernel, subsystems or anythings that can be contributed towards a working prototype.
++ The author has no prior knowledge on Linux kernel through out 90% of the project time.
++ All knowledge on the kernel design is coming from the basic textbook on operating system theory, that is, *Modern Operating System* by Tanenbaum.
++ All knowledge on the system programming is coming from the basic textbook, that is, *Computer System - A Programmer's Perspective Third Edition*
++ All knowledge on the generic framework design and driver development are ingested from various technical specifications gathered across the Internet.
+
+## References
+
++ Intel 64 and IA-32 Architecture Software Developer's Manual (Full Volume Bundle)
++ ACPI Specification (version 6.4)
++ Devicetree Specification
++ ARM® Generic Interrupt Controller (v3)
++ Arm® Architecture Reference Manual (Profile-A)
++ Procedure Call Standard for the Arm® 64-bit Architecture (AArch64)
+ IBM PC/AT Technical Reference
+ IBM VGA/XGA Technical Reference
+ 82093AA I/O Advanced Programmable Controller (IOAPIC) (Datasheet)
+ PCI Express Base Specification, Revision 1.1
+ PCI Firmware Specification, Revision 3.0
+ Serial ATA - Advanced Host Controller Interface (AHCI), Revision 1.3.1
-+ Serial ATA: HIgh Speed Serialized AT Attachment, Revision 1.0a
-
-**免责声明:PCI相关的标准最终解释权归PCI-SIG所有。此处提供的副本仅供个人学习使用。任何商用目的须向PCI-SIG购买。**
-
-#### 理论书籍
-+ *Computer System - A Programmer's Perspective Third Edition (CS:APP)* (Bryant, R & O'Hallaron, D)
++ Serial ATA: High Speed Serialized AT Attachment, Revision 3.2
++ SCSI Command Reference Manual
++ ATA/ATAPI Command Set - 3 (ACS-3)
++ ECMA-119 (ISO9660)
++ Rock Ridge Interchange Protocol (RRIP: IEEE P1282)
++ System Use Sharing Protocol (SUSP: IEEE P1281)
++ Tool Interface Standard (TIS) Portable Formats Specification (Version 1.1)
++ *Computer System - A Programmer's Perspective Third Edition* (Bryant, R & O'Hallaron, D), a.k.a. CS:APP
+ *Modern Operating System* (Tanenbaum, A)
-+ 《汇编语言》(王爽) - 用于入门Intel语法的x86汇编(对于AT&T语法,推荐阅读CS:APP)
-+ ~~《微机原理与接口技术》 - 用于大致了解x86架构的微机体系(更加细致的了解可以阅读Intel Manual)~~ (已过时,推荐阅读CS:APP)
-
-#### 网站
-+ [OSDev](https://wiki.osdev.org/Main_Page) - 杂七杂八的参考,很多过来人的经验。作者主要用于上古资料查询以及收集;技术文献,手册,标准的粗略总结;以及开发环境/工具链的搭建。
-+ [FreeVGA](http://www.osdever.net/FreeVGA/home.htm) - 98年的资源!关于VGA编程技术的宝藏网站。
-+ GNU CC 和 GNU LD 的官方文档。
-+ [PCI Lookup](https://www.pcilookup.com/) - PCI设备编号查询
++ Free VGA, http://www.osdever.net/FreeVGA/home.htm
++ GNU CC & LD online documentation.
++ PCI Lookup, https://www.pcilookup.com/
++ Linux man pages
-#### 其他
-+ Linux Manual - 用于查询*nix API的一些具体行为。
+## Appendix 1: Supported System Call<a id="appendix1"></a>
+**Unix/Linux/POSIX**
-## 附录1:支持的系统调用<a id="appendix1"></a>
-
-### Unix/Linux/POSIX
1. `sleep(3)`
1. `wait(2)`
1. `waitpid(2)`
1. `kill(2)`
1. `sigpending(2)`
1. `sigsuspend(2)`
+2. `read(2)`
+2. `write(2)`
+2. `open(2)`
+2. `close(2)`
+2. `mkdir(2)`
+2. `lseek(2)`
+2. `readdir(2)`
+2. `readlink(2)`
+2. `readlinkat(2)`
+2. `rmdir(2)`
+2. `unlink(2)`
+2. `unlinkat(2)`
+2. `link(2)`
+2. `fsync(2)`
+2. `dup(2)`
+2. `dup2(2)`
+2. `symlink(2)`
+2. `chdir(2)`
+2. `fchdir(2)`
+2. `getcwd(2)`
+2. `rename(2)`※
+2. `mount(2)`
+2. `unmount` (a.k.a `umount(2)`)
+2. `getxattr(2)`※
+2. `setxattr(2)`※
+2. `fgetxattr(2)`※
+2. `fsetxattr(2)`※
+2. `ioctl(2)`
+2. `getpgid(2)`
+2. `setpgid(2)`
+2. `mmap(2)`
+2. `munmap(2)`
+2. `execve(2)`
+3. `poll(2)` (via `pollctl`)
+3. `epoll_create(2)` (via `pollctl`)
+3. `epoll_ctl(2)` (via `pollctl`)
+3. `epoll_wait(2)` (via `pollctl`)
+4. `pthread_create`
+4. `pthread_self`
+4. `pthread_exit`
+4. `pthread_join`
+4. `pthread_kill`
+4. `pthread_detach`
+4. `pthread_sigmask`
+4. `getuid`
+4. `getgid`
+4. `geteuid`
+4. `getegid`
+4. `getgroups`
+4. `setuid`
+4. `setgid`
+4. `seteuid`
+4. `setegid`
+4. `setgroups`
+4. `chroot`
+4. `fchmodat`
+4. `fchownat`
+4. `faccessat`
-### LunaixOS自有
+**LunaixOS**
1. `yield`
+2. `geterrno`
+3. `realpathat`
+
+( **※**:Indicate syscall is not tested )
+
+## Appendix 2: Debugging with GDB remotely via UART
+
+**(((( Broken after a refactoring years ago, need rework ))))**
+
+The LunaixOS kernel comes with a built-in GDB debugging server, which runs on COM1@9600Bd. However, LunaixOS must be in debug mode before involving GDB.
+
+One could trigger the debug mode by writing a byte sequence `0x40` `0x63` `0x6D` `0x63`, to the same serial port. A text "DEBUG MODE" with magenta-coloured background shall be present at the bottom of the screen.
+
+Note that, whenever the text appears, the LunaixOS always halt all activities other than the debugging server, which means no scheduling and no external interrupt servicing. Users are now recommended to attach their GDB and drive the kernel with the debugging workflow.
+
+Currently, LunaixOS implements the required minimal server-side command subset required by GDB Remote Protocol, namely, `g`, `G`, `p`, `P`, `Q`, `S`, `k`, `?`, `m`, `M`, `X`. Which should be enough to cover most debugging activities.
+
+When debugging is finished, one shall disconnect with `kill` command. This command will not force LunaixOS to power down the computer, instead it just resume the execution (identical behavior as `c` command). However, disconnecting does not means exiting of debug mode. The debug mode is still actived and any subsequent GDB attaching request shall remain the highest priority amongst all other activity. One shall deactivate the debug mode by writing byte sequence `0x40` `0x79` `0x61` `0x79` to the port, after GDB detached.
+
+### Limitations
+
+Currently, one should avoid the use of `info stack`, `bt` or any other command that involves stack unwinding or stack backtracing. As it will somehow corrupt the stack layout and result in undefined behaviour. This issue should be addressed in future releases.
git://scm.lunaixsky.com / lunaix-os.git / blobdiff