vasilito df3021575e redbear-power: v1.28 virtual size sort (activates vsize_kb)
Closes the v1.23-deferred 'vsize_kb' future-use. Adds SortMode::VSize
that sorts by virtual size, and swaps the Process panel's MEM
column to show VSZ (instead of RSS) when that sort is active.

The column-swap pattern (the column being sorted IS the column
being shown) keeps the panel at 10 columns instead of growing
to 11. htop uses the same pattern: when you sort by a field,
that field's column expands to show the data. No new column
means no terminal-width pressure at 1280x720 framebuffer.

The 'ppid' field's #[allow(dead_code)] is also removed (now
actively read by sort_tree + tree_prefix from v1.27). Both
fields now have proper doc comments explaining their use
(vs the v1.23 'reserved for future use' placeholder).

VSZ is a virtual address-space metric (mmap'd libraries, heap,
stack, reserved-but-uncommitted) and is often much larger than
RSS. Useful for 'who is using the most address space' but NOT
for 'who is using the most physical memory' (use RSS for that).
This caveat is now documented in the field's doc comment to
prevent operator confusion.

Test count 105 -> 107 (+2):
- sort_by_vsize_descending (basic)
- sort_by_vsize_uses_vsize_not_rss (contract test: huge VSZ +
  tiny RSS sorts above tiny VSZ + huge RSS; catches any
  'optimization' that uses the larger of the two fields)
- sort_cycle and io_name_is_io updated for VSize

Redox stripped binary: 4,189,032 bytes (+4 KiB from v1.27).
Compile warnings: 55 (no net change; the 2 removed
#[allow(dead_code)] annotations cancel against 2 new
warnings that did not exist before because the fields were
only accessed from the parse path).

Docs: local/docs/redbear-power-improvement-plan.md \xC2\xA752
2026-06-21 01:46:11 +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

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

# 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
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