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Ultraworked with [Sisyphus](https://github.com/code-yeongyu/oh-my-openagent) Co-authored-by: Sisyphus <clio-agent@sisyphuslabs.ai>
Red Bear OS
Microkernel operating system in Rust — based on Redox OS
Red Bear OS is a derivative of Redox OS — a general-purpose, Unix-like, microkernel-based operating system written in Rust. It tracks upstream Redox, incorporating its improvements while adding custom drivers, filesystems, and hardware support.
What's New
- KDE bring-up moved forward:
config/redbear-kde.tomlexists, the Qt6 stack builds in-tree, and the KDE recipe tree is now populated. - Native Red Bear runtime tooling expanded with
redbear-info,redbear-hwutils(lspci,lsusb), and a Redox-nativenetctlflow. - Build and status docs were refreshed to distinguish current in-tree progress from older historical roadmap text.
See CHANGELOG.md for the running user-visible change log.
Current Phase Snapshot
| Phase | Status | Notes |
|---|---|---|
| P0 ACPI boot | ✅ Complete | In-tree and documented in local/docs/ACPI-FIXES.md |
| P1 driver infra | ✅ Complete | Compile-oriented infrastructure present |
| P2 DRM / display | ✅ Code complete | Hardware validation still pending |
| P3 POSIX + input | 🚧 In progress | relibc exports now cover the rebuilt signalfd/timerfd/eventfd/open_memstream consumer path; runtime validation remains |
| P4 Wayland runtime | 🚧 Partial | libwayland and seatd now build, and KDE config starts seatd, but compositor/DRM/input runtime validation is still incomplete |
| P5 AMD accel / IOMMU | 🚧 Partial | iommu daemon now builds, but hardware validation and full acceleration are still open |
| P6 KDE Plasma | 🚧 In progress | Mix of real builds, shims, and stubs |
There is no distinct first-class P7 phase artifact in this repository today; later work appears as milestone-style follow-on work beyond the tracked P6 boundary.
What's Different from Upstream Redox
| Component | Status | Detail |
|---|---|---|
| AMD GPU driver (amdgpu) | ✅ Compiles | LinuxKPI compat + AMD DC modesetting + MSI-X (no HW validation) |
| Intel GPU driver | ✅ Compiles | Display pipe modesetting + MSI-X (no HW validation) |
| ext4 filesystem | ✅ Compiles | Read/write ext4 alongside RedoxFS |
| ACPI for AMD bare metal | ✅ Complete | x2APIC, MADT, FADT shutdown/reboot, power methods |
| Wired networking | 🚧 Improved | native net stack present, Redox-native netctl shipped, RTL8125 autoload wired through the existing Realtek path |
| Custom branding | ✅ | Boot identity, hostname, os-release |
| POSIX gaps (relibc) | 🚧 In progress | implementations exist in-tree; runtime validation against Wayland stack is still ongoing |
Project Structure
├── config/ # Build configs (TOML) — desktop, minimal, redbear-*
├── recipes/ # Package recipes (~100+ packages, 26 categories)
├── mk/ # Makefile build orchestration
├── src/ # Cookbook Rust tool (repo binary, cook logic)
├── local/ # ← Red Bear OS custom work (survives upstream updates)
│ ├── patches/ # Kernel, base, relibc patches
│ ├── recipes/ # Custom packages (drivers, GPU, system, branding)
│ ├── scripts/ # sync-upstream.sh, apply-patches.sh
│ ├── Assets/ # Branding (icon, boot background)
│ └── docs/ # Integration documentation
├── docs/ # Architecture guides
├── scripts/ # Helper scripts
└── Makefile # Root build orchestrator
Build
Requires a Linux x86_64 host with Rust nightly, QEMU, and standard build tools. See the Redox Build Instructions for full prerequisites.
make all CONFIG_NAME=redbear-full # Full desktop + custom drivers
make all CONFIG_NAME=redbear-minimal # Minimal server
make live CONFIG_NAME=redbear-full # Live ISO (redbear-live.iso)
make qemu # Boot in QEMU
Native hardware listing tools
Red Bear configs now include a small native redbear-hwutils package that ships lspci and
lsusb. lspci reads the existing /scheme/pci/.../config surface, while lsusb walks the
native usb.* schemes exposed by xhcid, so there is no dependency on the unfinished WIP
pciutils or usbutils ports.
Networking
Red Bear ships the existing native Redox wired networking path (pcid-spawner → NIC daemon →
smolnetd/dhcpd/netcfg) together with a small Redox-native netctl compatibility command.
Profiles live under /etc/netctl, the shipped examples live under /etc/netctl/examples, and the
boot service applies the enabled profile with netctl --boot.
RTL8125 is wired into the existing native Realtek autoload path by matching 10ec:8125 in the
rtl8168d driver config. This keeps the implementation in the Redox userspace driver model rather
than introducing a separate Linux netdevice compatibility layer.
Runtime diagnostics
Red Bear ships redbear-info as the canonical runtime integration/debugging command. It is a
passive report over live system surfaces and is intended to help answer questions like:
- which Red Bear integrations are merely installed versus actually active,
- whether the networking stack is up, with current IP, DNS, and default route,
- whether hardware discovery surfaces such as PCI, USB, DRM, and RTL8125 are visible.
Use redbear-info --verbose for evidence-backed human output, redbear-info --json for machine-
readable diagnostics, and redbear-info --test for suggested follow-up commands.
Sync with Upstream Redox
./local/scripts/sync-upstream.sh # Rebase onto latest Redox
./local/scripts/sync-upstream.sh --dry-run # Preview conflicts first
The local/ directory is never touched by upstream updates. Recipe patches for kernel and base are symlinked from local/patches/ — protected from make clean and make distclean.
Resources
AI Policy
We welcome contributions made with the assistance of LLMs and AI tools. If you use AI to help write code, documentation, or patches, that's great — we care about the quality of the result, not how it was produced.
License
MIT — same as upstream Redox OS.