vasilito cdb5544fd1 quirks: add ACPI IRQ1, kbd_deactivate, no_legacy_pm1b flags for LG Gram 16 (2025)
Phase I (a): redbear-quirks enrichment. Each flag is ported
from the Linux 7.1 reference tree and applied to LG Gram 16
(2025) 16Z90TR and 16T90SP (2026 Panther Lake). The flags are
generic and applicable to other OEMs too:

* acpi_irq1_skip_override — Linux drivers/acpi/resource.c
  irq1_level_low_skip_override[] (lines 522-534). Without this
  the ACPI core rewrites the DSDT's ActiveLow to ActiveHigh
  and the i8042 keyboard IRQ stops firing on LG Gram.

* kbd_deactivate_fixup — Linux drivers/input/keyboard/atkbd.c
  line 1913-1917. Prevents spurious keyboard ACK / dropped
  keys on LG hardware.

* no_legacy_pm1b — Red Bear OS specific. LG firmware does not
  implement a separate PM1b_CNT register; tells acpid to skip
  the SLP_TYPb write path.

Also adds a 17U70P entry (Linux matches this on board_name)
and a catch-all LG Electronics entry (Linux atkbd.c matches on
sys_vendor only, not product_name).

Hardware-agnostic: the same flags apply to Dell, HP, Lenovo
laptops with similar firmware quirks. Future Phase I work
will add DMI matches for those vendors based on the Linux
quirk tables.

Also updates local/sources/kernel submodule pointer to
7a38664 (Phase I [patch.crates-io] for redox_syscall).
2026-07-01 04:55:22 +03:00
2026-06-18 20:45:28 +03:00

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, frozen at release 0.1.0, with added hardware support, filesystem drivers, and a KDE Plasma desktop path.

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

Our Git Server

Red Bear OS lives on a self-hosted Gitea instance at https://gitea.redbearos.org. This is the canonical home for the fork — there is no GitHub / GitLab / Codeberg mirror that is authoritative.

Field Value
Host https://gitea.redbearos.org
User vasilito
Token (session-only — never stored in repo)
Web UI https://gitea.redbearos.org/vasilito
Main repo https://gitea.redbearos.org/vasilito/RedBear-OS

Token policy. The vasilito token is a per-session credential and must never be committed to any tracked file. Use git credential.helper (store / cache / libsecret), ~/.netrc, or $REDBEAR_GITEA_TOKEN env var. See local/AGENTS.md § Our Git Server for the full operator runbook, mirror list, API reference, and recovery procedure.

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 (read-only)
git clone https://gitea.redbearos.org/vasilito/RedBear-OS.git
cd RedBear-OS

# Authenticated clone (one-off) — supply token via env var, not literal here
git clone https://vasilito:${REDBEAR_GITEA_TOKEN}@gitea.redbearos.org/vasilito/RedBear-OS.git

# Recommended: use the Red Bear wrapper
./local/scripts/build-redbear.sh redbear-mini     # Text-only target
./local/scripts/build-redbear.sh redbear-full     # Desktop-capable target

# Boot in QEMU with the resulting image
make qemu

Build script: local/scripts/build-redbear.sh is the canonical entry point. Bare make all works but bypasses the .config checking and REDBEAR_ALLOW_PROTECTED_FETCH=1 gates that build-redbear.sh enforces. See AGENTS.md § Build Commands for full details.

Public Scripts

Script Purpose
local/scripts/build-redbear.sh Canonical build wrapper for redbear-mini/full/grub
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/
├── patches/    # Durable changes to upstream source trees
├── 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.

S
Description
RedBear Operating System, based on RedoxOS. Licenced under MIT license.
https://redbearos.org
Readme MIT 20 GiB
Languages
C 43.9%
C++ 23.5%
Makefile 7.3%
Python 3.7%
JavaScript 3.4%
Other 17.1%