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rigdoctor/docs/ROADMAP.md
T
jessey bf3ac4af1a feat(m9): systemd --user trigger modes + game-launch watcher — 0.23.0
D6 trigger modes, no root:
- core/service.py: write/enable `systemd --user` units; apply_mode(manual/
  always-on/game-launch) reconciles the recorder + watcher services; status().
- core/watcher.py + `rigdoctor watch`: poll Steam RunningAppID, auto-bracket a
  focused capture (D12 zero-config fallback; wrapper stays primary).
- CLI `rigdoctor service status|mode`; config `trigger_mode`.
- GUI Settings: "Recording trigger" dropdown (Apply runs apply_mode off-thread).
- Tests for unit generation, mode reconciliation, watcher transitions/parse.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-22 09:55:36 +02:00

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RigDoctor — Roadmap (DRAFT v0.2)

Phased so the seed use case (capturing the RTX 3070 crash / black-screen events) is solved early, before the broader "tool for all Linux gamers" work. Stack: Python 3 + Qt/PySide6; Ubuntu + NVIDIA first; .deb distribution (see DECISIONS.md).

Phase 0 — Workspace & spec (done)

  • Create repo + docs scaffold
  • Settle the foundational decisions D1D11 (name, language, platform/GPU priority, MVP scope, trigger model, packaging, scope-of-action, GUI/tray)
  • Lock the MVP scope (M1 + M3 + M4, NVIDIA-only)

Phase 1 — MVP: capture this crash (Essential bundle, NVIDIA-only, CLI)

  • M1 sensor core (NVIDIA via nvidia-smi + hwmon for CPU/RAM/NVMe), stdlib-only
  • M3 crash-capture logger (JSONL, fsync per sample, GPU-lost detection, size rotation)
  • Manual trigger mode (rigdoctor record run/start/stop/status); systemd --user service + other trigger modes in Phase 4 (run is already the service entrypoint)
  • M4 health report (Xid/panic/OOM/MCE/AER/thermal scan + SMART + driver-mismatch + journald-persistence + live temps, suggested fixes only — D9; GPU-firmware verify deferred)
  • record report post-crash summary (peak temps/power per subsystem, events, last N samples)
  • Exit criteria: user can run it during gaming and, after a freeze/black-screen, see the last readings + a plausible cause.

Phase 2 — Live monitor (terminal)

  • M2 TUI dashboard (rigdoctor monitor, tui.py): curses, current/min/max grouped by subsystem with temp/usage color bands; q quit / r reset; plain-redraw fallback on non-TTY
  • M8 basic alerting (overheat/throttle/GPU-lost notifications)

Phase 3 — Diagnostics breadth

  • M5 system inventory + exportable report
  • [~] M6 gaming environment checks (suggest-only) — Steam game/library detection done (multi-library libraryfolders.vdf discovery + appmanifest scan, opt-in libraries, launch-time background rescan with new-game badge; CLI rigdoctor games, GUI Games page). This is also the D12 "pick a game" foundation. Env-check engine done (rigdoctor gameenv + GUI Environment page): PCIe ASPM, NVIDIA persistence, CPU governor, GameMode, MangoHud, swappiness, shader cache, THP, mitigations, Proton versions — read-only with fix commands. Also: GPU PowerMizer (X), Wine + Steam-client versions, and non-Steam launchers (Lutris/Heroic, core/launchers.py). Pending: the zero-config watcher (D12 fallback, lands with M9's trigger-mode work).
  • SMART integration (smartmontools if present)

Phase 4 — Desktop UI & installer

  • M10 desktop GUI (PySide6: dashboard w/ history graphs, logs, health, games, environment, inventory, setup, notifications, share)
  • M11 tray / menu-bar applet (gui/tray.py: live CPU/GPU temp + memory readouts, status line, Run Diagnostic submenu per game, Open dashboard / Start-Stop recording / Snapshot / Quit — D13; close-to-tray, --tray autostart). Needs a tray host (AppIndicator on GNOME).
  • [~] Guided diagnostic session (pick game → focused M3 capture → M4 scan → findings), shared by tray/GUI/CLI — core + CLI + GUI done (core/diagnostic.py, rigdoctor diagnose start/status/finish, and a Run Diagnostic button per game on the GUI Games page → recording banner → results dialog with the capture summary + findings). Tags a focused capture with the chosen game (own diagnostic log, window-scoped report) and combines the capture summary with the M4 findings. Auto start/stop via the D12 wrapper is wired in, and a hard-crash is detected (capture left without a clean stop) → flagged on next launch with a deeper crash-boot log analysis. Pending: the tray (M11) entry point and the zero-config watcher.
  • [~] Logger trigger modes: always-on + game-launch (D12) — game-launch wrapper done: rigdoctor wrap %command% (per-game Steam launch option / Lutris/Heroic wrapper field) auto-brackets a focused capture around the game; GUI "Auto-capture…" helper shows the launch-option string. Pending: global Steam compat-tool registration, the zero-config watcher (Steam RunningAppID + /proc), GameMode hook, and the always-on systemd --user service.
  • [~] M9 interactive installer — done: distro/GPU detection + optional-dependency install (rigdoctor install, GUI Settings); user-local install.sh + self-extracting .run (no-root venv install, handles python3-venv prereq, CI-built); systemd --user trigger modes (core/service.py, rigdoctor service mode manual|always-on|game-launch + GUI Settings "Recording trigger") incl. the zero-config game-launch watcher (core/watcher.py, rigdoctor watch). Pending: module-selection config during install.
  • .deb packaging (D8) declaring per-bundle deps incl. python3-pyside6 for Desktop UI

Phase 5 — Breadth (later)

  • AMD GPU support in M1 (Steam Deck / Radeon)
  • Intel GPU best-effort
  • M13 auto-update (D18) — launch-time version check (GUI sidebar) + no-root self-update apply (rigdoctor update / sidebar button → authenticated pip upgrade), token-gated. Restart-after-update is manual for now.
  • [~] Optional auto-apply of suggested fixes behind explicit consent (D9 milestone) — first cut shipped for M6 (D22): one-click apply of runtime-reversible tunables (CPU governor, NVIDIA persistence, PCIe ASPM, swappiness, THP) via a single pkexec prompt, no reboot. GRUB-based fixes + CPU mitigations remain suggestion-only.

Phase 6 — Session sharing / remote assist (M12, D16)

Escalating ladder, built in order:

  • Tier 1: share export — diagnostic bundle (inventory + recent log + report); B opens it in RigDoctor. One-way, safest.
  • Tier 2: live read-only view — rigdoctor share serve (stdlib HTTP, token-gated: sensors + health + inventory). Remote = user-chosen tunnel; GUI controls still to add.
  • Tier 3: host-consented interactive terminal — a real PTY shell shared over the relay (own pty, pyte-rendered guest), off by default; host reads along + can type (sudo).

Out of scope: stress/repro module (D7); multi-distro support and packaging beyond Ubuntu/apt + .deb (D15) — a thin seam is kept but not built out.

Dropped: stress / repro module (D7) — not on the roadmap.