Files
RedBear-OS/README.md
T
vasilito 2b1e1788de libdrm + Rule 2 migration: recipe upgrade, doc updates, manifest entry (v6.0 2026)
This is the final cleanup batch for the Rule 2 big-project migration
work (pipewire, wireplumber, mesa, libdrm all migrated to upstream git
+ external patches in local/patches/<component>/).

Changes:

  * local/recipes/libs/libdrm/recipe.toml: upgrade from
    template = 'meson' + mesonflags to template = 'custom' +
    DYNAMIC_INIT + cookbook_apply_patches + cookbook_meson. This
    matches the structural pattern used by the other 3 Rule 2
    migration recipes (mesa, pipewire, wireplumber) and gives libdrm
    the same flexible shell-script build context for future
    cross-compilation tweaks. Adds build dependencies expat,
    libpciaccess, meson, ninja-build, pkgconf (the meson template
    had these implicit; the custom template requires them explicit).
    Patch application still goes through cookbook_apply_patches
    (4 dots from local/recipes/libs/libdrm/ to project root).

  * local/recipes/AGENTS.md: catalog update reflecting the libdrm
    template change (now 'custom' instead of 'meson') and adding
    catalog entries for 4 recipes that were created during this
    migration round but were missing from the catalog: libxkbcommon,
    pam-redbear, pipewire, wireplumber.

  * sources/redbear-0.1.0/manifest.json: add a new manifest entry
    for 'libs/libdrm' (the historical 0.1.0 archive entry for libdrm,
    which uses the patched tarball). This mirrors the existing
    'lib/libdrm' entry and gives 'repo restore' a consistent way to
    recover the libdrm source from the 0.1.0 release archive.

  * Doc updates: AGENTS.md, README.md, local/AGENTS.md,
    local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.md, local/docs/GPU-MESA-
    KDE-CHAIN-ASSESSMENT.md, local/recipes/AGENTS.md: bring the
    docs in line with the Rule 2 policy and the 4-migration set
    (pipewire, wireplumber, mesa, libdrm). Most are catalog or
    cross-reference updates.

  * local/docs/STUBS-FIX-PROGRESS.md: heavily trimmed (-303 net).
    The old document was tracking 346+ stub fixes from earlier
    sessions; most of those are now closed and the document has
    been condensed to the current state.

  * local/docs/SOURCE-OWNERSHIP-MODEL.md: deleted (-89 lines).
    This old doc described a 'source ownership' concept that has
    been superseded by the amended AGENTS.md Rule 2 (NO OVERLAY-
    STYLE PATCHES — SCOPED POLICY) section, which is the canonical
    source-ownership model going forward.
2026-06-10 08:24:02 +03:00

5.4 KiB
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Red Bear OS

Red Bear OS

A microkernel operating system written in Rust, derived from Redox OS

MIT x86_64 Status


What is Red Bear OS?

Red Bear OS is a general-purpose, Unix-like operating system with a microkernel architecture, written in Rust. It is a full fork of Redox OS, with added hardware support, filesystem drivers, and a KDE Plasma desktop path. The current development branch is 0.2.3 and the current Red Bear OS version is 0.2.3 (same as the branch name).

Goals:

  • AMD & Intel parity — first-class support for both platforms on bare metal
  • KDE Plasma desktop — Wayland-based desktop environment via the KWin compositor
  • Hardware GPU acceleration — AMD GPU (amdgpu) and Intel GPU drivers via redox-drm
  • Modern subsystems — USB, WiFi, Bluetooth, ext4, GRUB, D-Bus
  • Offline-first builds — reproducible from archived, BLAKE3-verified sources

Quick Start

Prerequisites

Linux x86_64 host with Rust nightly, QEMU, nasm, and standard build tools.
See the Redox Build Guide for full setup.

Build & Run

# Clone
git clone https://gitea.redbearos.org/vasilito/RedBear-OS.git
cd RedBear-OS

# Build and run the desktop target in QEMU
./scripts/run.sh --build

# Build a live ISO for bare metal
./scripts/build-iso.sh redbear-full

# Build the text-only recovery target
./scripts/run.sh --build --config redbear-mini

Repository Hosting

The canonical Red Bear OS Git server is Gitea at https://gitea.redbearos.org/vasilito/RedBear-OS.git. GitHub is not a Red Bear OS source of truth and must not be used for pushes, issues, releases, or project coordination.

Public Scripts

Script Purpose
scripts/run.sh Build and run in QEMU (-b to build, -c <config> for target)
scripts/build-iso.sh Build a live ISO for bare-metal boot
scripts/build-all-isos.sh Build all live ISO targets
scripts/network-boot.sh PXE network boot helper
scripts/dual-boot.sh Dual-boot installation helper

Config Targets

Target Type Description
redbear-full Desktop Wayland + KDE + GPU drivers + D-Bus services
redbear-mini Console Text-only recovery / install target
redbear-grub Console Text-only with GRUB boot manager

Current Status

Red Bear OS boots to a login prompt in QEMU with working wired networking, D-Bus system bus, hardware detection daemons, and filesystem support (RedoxFS, ext4, FAT).

Area Status
Boot (ACPI/x2APIC/SMP) Bare-metal proven
Userspace drivers (PCI, storage, net) Working in QEMU
D-Bus system bus + services Working (login1, PolicyKit, UDisks, UPower)
ext4 / FAT filesystems Compiles, installer-wired
POSIX gaps (relibc) 🚧 Bounded Wayland-facing support
DRM/KMS display drivers 🚧 AMD + Intel compile; HW validation pending
Wayland compositor 🚧 Bounded proof; Qt6/KF6 clients crash at init
KDE Plasma desktop 🔄 In progress (Qt6/KF6 compile; KWin/QML blocked)
WiFi / Bluetooth 📋 Planned (architected, implementation pending)

How It Works

Red Bear OS uses a userspace driver model — all drivers run as unprivileged daemons:

Kernel (microkernel)
  └── schemes: memory, irq, event, pipe, debug
        └── Driver daemons (userspace)
              ├── pcid        → PCI enumeration
              ├── e1000d      → Intel ethernet
              ├── xhcid       → USB controller
              └── vesad       → Display framebuffer

The kernel provides minimal services (memory, interrupts, IPC). Everything else — filesystems, networking, graphics, input — runs in userspace.

Documentation

Contributing

Red Bear OS uses a full fork model. Upstream Redox sources are frozen and archived. All custom work lives in local/:

local/
├── sources/     # Red Bear source forks (git repos, directly editable)
├── recipes/     # Custom packages (drivers, GPU, system)
├── docs/        # Integration and planning docs
└── scripts/     # Build, test, and release tooling

We welcome contributions made with or without AI assistance — we care about quality, not how the code was produced.

License

MIT — same as upstream Redox OS.