vasilito
5851974b20
Release fork infrastructure: - REDBEAR_RELEASE=0.1.1 with offline enforcement (fetch/distclean/unfetch blocked) - 195 BLAKE3-verified source archives in standard format - Atomic provisioning via provision-release.sh (staging + .complete sentry) - 5-phase improvement plan: restore format auto-detection, source tree validation (validate-source-trees.py), archive-map.json, REPO_BINARY fallback Archive normalization: - Removed 87 duplicate/unversioned archives from shared pool - Regenerated all archives in consistent format with source/ + recipe.toml - BLAKE3SUMS and manifest.json generated from stable tarball set Patch management: - verify-patches.sh: pre-sync dry-run report (OK/REVERSED/CONFLICT) - 121 upstream-absorbed patches moved to absorbed/ directories - 43 active patches verified clean against rebased sources - Stress test: base updated to upstream HEAD, relibc reset and patched Compilation fixes: - relibc: Vec imports in redox-rt (proc.rs, lib.rs, sys.rs) - relibc: unsafe from_raw_parts in mod.rs (2024 edition) - fetch.rs: rev comparison handles short/full hash prefixes - kibi recipe: corrected rev mismatch New scripts: restore-sources.sh, provision-release.sh, verify-sources-archived.sh, check-upstream-releases.sh, validate-source-trees.py, verify-patches.sh, repair-archive-format.sh, generate-manifest.py Documentation: AGENTS.md, README.md, local/AGENTS.md updated for release fork model
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Red Bear OS Documentation Index
Technical documentation for Red Bear OS as an full fork on top of Redox OS.
This index is the entry point for the documentation set. Its main job is to make the current/canonical versus historical/reference split obvious.
Status note (2026-05-01): The canonical desktop path document is
local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.md(v4.0, single comprehensive plan). It supersedes all earlier individual assessments and is the single authority for current state. The historical docs below (01–05) remain useful for architecture reference and implementation rationale, but they should be read together with the new plan and the current local subsystem docs.
local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.md(v4.0) for current state.
Red Bear note: newer subsystem plans can also live under
local/docs/when they are Red Bear- specific rather than general Redox architecture material. In particular, seelocal/docs/WIFI-IMPLEMENTATION-PLAN.mdfor the current Wi-Fi direction,local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.mdfor the canonical desktop path, andlocal/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.mdfor the canonical desktop path.
Repository model: RedBearOS relates to Redox in the same way Ubuntu relates to Debian. Upstream Redox remains the base platform; Red Bear carries packaging, patch, validation, and subsystem release fork on top. For long-term stability, upstream-owned source trees should be treated as immutable archived release snapshot, while durable Red Bear state belongs in
local/patches/,local/recipes/,local/docs/, and tracked Red Bear configs.WIP policy: if an upstream recipe or subsystem is still marked WIP, Red Bear treats it as a local project until upstream promotes it to first-class status. We may immutable archived from upstream WIP, but we should fix and ship from the Red Bear release fork until upstream support is real enough to replace the local copy.
Document Status Matrix
| Document set | Role |
|---|---|
README.md, AGENTS.md, docs/README.md, docs/07-RED-BEAR-OS-IMPLEMENTATION-PLAN.md |
canonical repository-level policy and current execution model |
local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.md |
canonical comprehensive implementation plan — supersedes all individual subsystem docs |
local/docs/*IMPLEMENTATION-PLAN*.md, local/docs/DRM-MODERNIZATION-EXECUTION-PLAN.md |
subsystem plans for deep-dive detail only; authority chain → console-to-KDE plan |
docs/01-REDOX-ARCHITECTURE.md |
architecture reference |
docs/04-LINUX-DRIVER-COMPAT.md, docs/05-KDE-PLASMA-ON-REDOX.md |
valuable but partly historical roadmap/design material |
When a current-state local document conflicts with an older historical public roadmap, prefer the console-to-KDE plan.
Documents
| # | Document | Description |
|---|---|---|
| 01 | Architecture Overview | Architecture reference for Redox internals: microkernel, scheme system, driver model, display stack |
| 04 | Linux Driver Compatibility Layer | Historical/current hybrid design reference for the LinuxKPI-style driver compatibility model |
| 05 | KDE Plasma on Redox | Historical KDE implementation path plus deeper KDE-specific rationale |
| 06 | Build System Setup | How to build Redox from this repository |
| 07 | Red Bear OS Implementation Plan | Canonical public implementation plan focused on profiles, packaging, validation, and staged hardware enablement |
Related Red Bear-local current-state plans
Consolidation (2026-04-30): 13 standalone assessment docs deleted. All current state is now in
local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.md (v4.0). Individual subsystem plans remain for detail:
../local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.md— CANONICAL comprehensive plan: kernel→DRM→Mesa→Wayland→KDE path../local/docs/KERNEL-IPC-CREDENTIAL-PLAN.md— kernel credential syscalls + IPC (implemented)../local/docs/USB-IMPLEMENTATION-PLAN.md— USB completeness and rollout../local/docs/WIFI-IMPLEMENTATION-PLAN.md— Wi-Fi architecture and rollout../local/docs/BLUETOOTH-IMPLEMENTATION-PLAN.md— Bluetooth architecture and rollout../local/docs/ACPI-IMPROVEMENT-PLAN.md— ACPI ownership, robustness, validation../local/docs/IRQ-AND-LOWLEVEL-CONTROLLERS-ENHANCEMENT-PLAN.md— PCI/IRQ quality, MSI/MSI-X../local/docs/DRM-MODERNIZATION-EXECUTION-PLAN.md— DRM-focused execution (subsystem detail)../local/docs/WAYLAND-IMPLEMENTATION-PLAN.md— Wayland compositor (subsystem detail)../local/docs/RELIBC-IPC-ASSESSMENT-AND-IMPROVEMENT-PLAN.md— relibc IPC surface../local/docs/GREETER-LOGIN-IMPLEMENTATION-PLAN.md— greeter/login design../local/docs/DBUS-INTEGRATION-PLAN.md— D-Bus architecture../local/docs/SCRIPT-BEHAVIOR-MATRIX.md— script guarantees and non-guarantees../local/docs/QUIRKS-SYSTEM.md— hardware quirks infrastructure
These local Red Bear plans should be treated as first-class subsystem references for desktop/session, USB, Wi-Fi, Bluetooth, and low-level controller work. They carry blocker detail that the public docs summarize at a higher level.
For PCI/IRQ language specifically, prefer the local IRQ plan’s distinction between:
- compile-visible infrastructure,
- bounded QEMU/runtime proof,
- and broader hardware validation.
Do not flatten those into one “supported” claim in public summaries.
Related Red Bear-local governance docs
../local/docs/SCRIPT-BEHAVIOR-MATRIX.md— what the main sync/fetch/apply/build scripts do and do not guarantee
Current State Summary (as of 2026-05-01)
This summary is only a quick orientation layer. For canonical current-state detail, see local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.md (v4.0).
-
docs/07-RED-BEAR-OS-IMPLEMENTATION-PLAN.mdfor repository-wide execution order, -
local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.mdfor the canonical comprehensive plan, -
local/docs/PROFILE-MATRIX.mdfor support-language by tracked profile, -
local/docs/PROFILE-MATRIX.mdfor support-language by tracked profile, -
and the active subsystem plans under
local/docs/for detailed current workstreams. -
Compile targets: the supported compile targets are
redbear-mini,redbear-full, andredbear-grub -
Live ISO policy: live
.isooutputs (make live) are for real bare-metal boot/install/recovery workflows, not the VM/QEMU execution surface. -
Wayland: libwayland + wayland-protocols built. A bounded greeter/compositor-backed login proof now passes, but broader compositor/runtime stability remains incomplete.
-
Qt6: qtbase 6.11.0 (Core+Gui+Widgets+DBus+Wayland), qtdeclarative, qtsvg, qtwayland ALL BUILT
-
D-Bus: 1.16.2 built for Redox. Qt6DBus enabled.
-
KF6 Frameworks: 36/48 built, 12 blocked by QML gate. See
local/docs/CONSOLE-TO-KDE-DESKTOP-PLAN.mdfor full breakdown. -
Mesa: software-rendered path is present; full GBM / hardware-validated Wayland path is still incomplete.
-
GPU drivers: redox-drm scheme daemon exists; Intel build-oriented path exists; AMD currently has a bounded retained compile path (
redox-drm+ Red Bear glue) while the imported Linux AMD DC/TTM/core trees remain builds and included in redbear-full (2026-04-29). Hardware validation is still pending. -
Input: evdevd compiled, libevdev built, libinput 1.30.2 built
-
Networking: native wired stack present (
pcid-spawner→ NIC daemon →smolnetd/dhcpd/netcfg), Red Bear ships a nativenetctlcommand, RTL8125 is wired into the existing Realtek autoload path, and the bounded Intel Wi‑Fi path now has host-tested profile start/stop plus interface-specific DHCP handoff without claiming real wireless connectivity. -
PCI / IRQ quality: architecturally strong substrate exists, with bounded MSI-X, IOMMU, xHCI IRQ, and low-level-controller proof surfaces; broader hardware robustness is still intentionally tracked as open work in
../local/docs/IRQ-AND-LOWLEVEL-CONTROLLERS-ENHANCEMENT-PLAN.md -
Wi-Fi profile target:
config/redbear-wifi-experimental.tomlis the first explicit tracked image slice for bounded Intel Wi‑Fi validation, instead of spreading that claim across the generic desktop profiles. -
Bluetooth: one bounded in-tree BLE-first experimental slice exists, and the Battery Level read-only workload now has a packaged in-guest checker plus a host QEMU harness; QEMU validation is still in progress, so broad desktop Bluetooth parity is still incomplete
-
Desktop direction:
redbear-fullcarries the desktop-capable target surface; the bounded greeter/login slice now passes, while the wider desktop runtime stack is still incomplete. -
ACPI: materially complete for the historical boot baseline, not release-grade complete; implemented: AML mutex real state, EC widened accesses via byte transactions, kstop-based shutdown eventing, explicit
RSDP_ADDRforwarding intoacpid, x86 BIOS-search AML fallback, and real-but-provisional AML-backed power enumeration. Known gaps: the explicit boot-path producer contract for AML bootstrap is still underdocumented,acpidstartup hardening remains open, shutdown/power reporting are still provisional, sleep state transitions and sleep eventing remain incomplete, DMAR ownership is still transitional, and bare-metal validation is still bounded. Seelocal/docs/ACPI-IMPROVEMENT-PLAN.md. -
Linux driver compat: linux-kpi now includes early wireless-subsystem compatibility scaffolding in addition to the earlier helper layer, redox-driver-sys and firmware-loader compile, and the bounded Intel Wi-Fi path now has host-tested scan/connect/disconnect/profile/reporting flows without claiming real hardware Wi-Fi connectivity.
-
Wi-Fi validation tooling:
redbear-phase5-wifi-checkandredbear-phase5-wifi-captureare now packaged in-guest helpers for bounded Intel Wi-Fi runtime validation and evidence capture on bare metal or VFIO-backed guests. -
Phase 5 naming note: the bounded
redbear-phase5-network-check/test-phase5-network-qemu.shpath proves desktop/network plumbing onredbear-fullin QEMU; it does not mean the Wi-Fi implementation plan's later Phase W5 real-hardware reporting/recovery milestone is complete.
Quick Start
# 1. Install dependencies (Arch/Manjaro)
sudo pacman -S --needed --noconfirm gdb meson nasm patchelf python-mako \
doxygen expat file fuse3 gmp libjpeg-turbo libpng po4a scons \
sdl12-compat syslinux texinfo xdg-utils zstd
# 2. Install Rust + tools
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- -y
source "$HOME/.cargo/env"
cargo install just cbindgen
# 3. Configure for native build (no Podman)
echo 'PODMAN_BUILD?=0' > .config
# 4. Build (downloads cross-toolchain, then compiles)
make all
# 5. Run in QEMU
make qemu
Key Repositories
| Repo | Purpose | URL |
|---|---|---|
| Kernel | Microkernel | https://gitlab.redox-os.org/redox-os/kernel |
| Base | Drivers + system components | https://gitlab.redox-os.org/redox-os/base |
| relibc | C library (Rust) | https://gitlab.redox-os.org/redox-os/relibc |
| RedoxFS | Default filesystem | https://gitlab.redox-os.org/redox-os/redoxfs |
| libredox | System library | https://gitlab.redox-os.org/redox-os/libredox |
| This repo | Build system | https://gitlab.redox-os.org/redox-os/redox |