74c9e46faff47779ce01f911474994e03809fdab
976 Commits
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74c9e46faf |
fix(vdisplay/windows): Windows clippy — per-block SAFETY comments + then_some
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The branch's Windows-host code never ran through the fleet Windows clippy (kept off CI); the merge to main exposed it. Fix the 4 -D warnings failures in cfg(windows) code: - manager.rs: 3 unsafe blocks (isolate_displays_ccd / force_extend_topology / set_virtual_primary_ccd) had one "both arms" SAFETY comment on the `match` line — clippy::undocumented_unsafe_blocks wants it immediately before each block. Split into per-block SAFETY comments. - win_display.rs: `.then(|| …)` on a POD u32 union read → `.then_some(…)` (eager is fine, discarded when false) for clippy::unnecessary_lazy_evaluations. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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95b3496bb5 |
merge: display-management (Stages 0-5 §6A + keep-alive hardening + gaming-rig)
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Merges display-mgmt-stage0 — the user-configurable virtual-display policy layer above the
per-compositor backends. On-glass validated (KWin .116 + Mutter .21; Windows compile-verified .173):
- Policy surface (keep_alive · topology · conflict · identity · layout · max) →
display-settings.json, console-editable via /api/v1/display/{settings,state,release,layout} + a
dedicated "Virtual displays" console section. All five axes enforced, not just stored.
- Lifecycle: pure state machine + Linux keep-alive pool (registry + DisplayLease ownership split),
incl. keep_alive=forever/Pinned (freed via /display/release); topology extend/primary/exclusive
(group-aware); per-client identity (KWin per-slot names → KDE scaling round-trips); mode_conflict
admission (Windows default reject, single-capturer IDD); §6A multi-monitor (display groups +
layout engine + console arrangement table — several clients as monitors of one desktop).
- Keep-alive reconnect hardened: same-client zombie preempt (never a 2nd display), deliberate-quit
skip-linger (QUIT_CLOSE_CODE), tunable idle timeout (PUNKTFUNK_IDLE_TIMEOUT_MS).
Conflicts (packaging/{arch,debian}/README.md firewall docs): kept main's ufw/nft port commands +
the branch's --data-port documentation. build + clippy -D warnings + cargo test --workspace
(18 suites, 0 failed) green on the merged tree.
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334f36ce25 |
test(punktfunk1): serialize in-process-host tests (shared admission table)
The reconnect-preempt ( |
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88348153f3 |
feat(apple): wake-until-up overlay + host edit with MAC prefill
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- HostWaker + WakeOverlay: after sending the Wake-on-LAN packet, wait until the host is really back (resend + mDNS poll, timeout, cancel/retry) before connecting. macOS-only in practice — WoL stays gated off on iOS/tvOS pending the multicast entitlement. - Add/Edit host sheet gains a Wake-on-LAN MAC field, prefilled from the stored MAC or the live mDNS advert; parseMacs validates aa:bb:cc:dd:ee:ff. - Gamepad chrome/home and glass-style polish. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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4a87cef98c |
feat(android): console UI, wake-on-LAN wait-until-up, host edit + TV/tablet polish
Bring the Android client to parity with Apple's gamepad experience and finish Wake-on-LAN. - Console/gamepad home: host carousel, aurora chrome, mTLS game-library coverflow, and an input-aware legend that switches between gamepad face buttons and a TV-remote select-ring + arrows based on the last-used input. - Wake-on-LAN: the fire-and-forget send is upgraded to wait-until-up (WakeController/WakeOverlay: resend + mDNS poll, 90s timeout, cancel/retry, fingerprint-matched so a host that cold-boots onto a new DHCP IP still connects), plus host edit (touch dialog + console form) with an auto-filled MAC. - Android TV: brand banner (android:banner), density-aware console scaling, D-pad/ remote nav (Up = Settings, Down or the pad Select button = host Options), emergency stream-exit chord, and 120Hz console refresh. - Touch UI: settings split into subpages with a tablet NavigationRail, axis-aware tab animation (horizontal on phones, vertical on the tablet rail), animated settings navigation, and a licenses screen with a back button + the real workspace version (read from Cargo.toml). - Vector Lock/controller icons (no emoji); bundled Geist font. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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fc1e8a8a32 |
test(mgmt): display_settings_surface stays read-only (gaming-rig now accepted)
The old `..._and_forever_rejected` asserted a 400 for keep_alive=forever; now that it's accepted, that PUT succeeded and WROTE gaming-rig into the process-global prefs, racing other tests. Rewrite read-only: assert the surface (5 presets, effective, enforced axes) and read gaming-rig=forever off the preset list — no write. Acceptance is covered on-glass (.116) + the pure policy tests. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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69f4c987f6 |
feat(tray): surface kept virtual displays in the tray tooltip
Stage 8 polish. `GET /api/v1/local/summary` (the tray's loopback-only unauthenticated status
source) gains `kept_displays` — the count of lingering/pinned virtual displays (held with no live
session), over the already-validated `registry::snapshot()`. The tray shows it in the idle tooltip
("idle · 1 display kept"), so a user knows a display — and, under exclusive topology, their physical
monitors — is being held (e.g. a gaming-rig `forever` pin). Release stays via the console: a
state-changing release can't be an unauthenticated endpoint, and the non-elevated Windows tray
can't read the SYSTEM-DACL'd mgmt token, so a tray release button isn't cleanly cross-platform.
`#[serde(default)]` on the tray side keeps it compatible with an older host. Tray tests green.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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468a60c88a |
docs(display-management): Stage 8 consolidation — docs page, README, CLAUDE.md, host.env
Bring the user-facing + project docs in line with the shipped, on-glass-validated state (Stages 0-5 §6A + keep-alive hardening + gaming-rig) ahead of a merge decision: - docs-site/virtual-displays.md: drop the now-false "stored but not yet enforced / following release" caveats — conflict handling, per-client identity + KDE scaling round-trip, and §6A multi-monitor layout are all live; gaming-rig/forever ships (freed via Release); document the reconnect-always-resumes + deliberate-quit-skips-linger behavior and the PUNKTFUNK_IDLE_TIMEOUT_MS knob. KDE persistent scaling → ✅ today (validated); Windows primary → shipped; Sway exclusive stays "following release". - README: a "displays you configure, not just create" differentiator bullet. - CLAUDE.md: the display-management invariant now reflects Stages 0-5 shipped (all axes enforced, forever/Pinned, hardened reconnect) instead of "Stage 0 shipped". - host.env.example: document PUNKTFUNK_IDLE_TIMEOUT_MS + that display policy lives in the console. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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fad1e01408 |
docs(display-management): keep_alive=forever (gaming-rig) shipped
§5.1 + §7 matrix: Windows `Pinned` is shipped (
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04a397be84 |
fix(vdisplay/windows): drop an unused mut in isolate-retry (clippy -D warnings)
`let (mut paths, mut modes)` — `modes` is only read (`modes.as_slice()`), never mutated. A
pre-existing unused_mut (from
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ccbd7e8880 |
feat(vdisplay): ship keep_alive=forever (gaming-rig) — Windows MgrState::Pinned
Completes the last §6A-era preset. The Linux registry already resolved forever→Pinned (pure
lifecycle machine); the blockers were the Windows manager, the mgmt reject, and the console tag:
- Windows manager: new `MgrState::Pinned { mon }` — the last-released monitor under keep_alive=forever
is kept indefinitely (like Lingering but the linger timer never fires). A reconnect preempts +
recreates it (same as Lingering — a reused IddCx swap-chain is dead), snapshot reports "pinned",
and `force_release` (POST /display/release, the §8 escape hatch) frees a pinned monitor. release()
branches on the new `keep_alive_forever()`; all MgrState matches made exhaustive over Pinned.
- mgmt PUT /display/settings: stop rejecting keep_alive=forever (now honored on both platforms with a
release path). OpenAPI regenerated.
- web: un-disable the gaming-rig preset (DISABLED_PRESETS now empty) — one-click applies.
Linux paths + web/tsc/openapi green; 47 vdisplay tests pass. The Windows manager.rs is #[cfg(windows)]
(not compilable on the Linux dev box) — build-verified + on-glass validation on .173 to follow.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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a0546b36b6 |
docs(display-management): record Stage 5 §6A on-glass validation + keep-alive hardening
Honesty pass after the 2026-07-05 on-glass session — the plan now reflects what was actually
validated, no more/no less:
- Stage 5 (§6A): HOST-SIDE → DONE + on-glass validated (KWin .116 + Mutter .21): group model,
positions, identity keying, group-aware exclusive/extend coexistence, 2 concurrent Mutter
RecordVirtual monitors. Remaining is hardware-gated residuals ONLY (per-group physical-restore
EFFECT needs a monitor-attached box — headless reports also_disabled=[]; wlroots exclusive;
Mutter APPLY_TEMPORARY revert).
- Stage 3: the KDE set-scaling ROUND-TRIP is now proven live (150%/125% → disconnect → reconnect
→ reapplied, kwinoutputconfig.json) — moved from Deferred to Validated. Closes the Stage-3 gate.
- §5.1: the explicit-quit bypass (
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b71dc94bb2 |
test(probe): --seconds stream cap + flush the QUIC close before exit
Two probe test-infra fixes needed to validate the keep-alive hardening (
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c2bc72a8e9 |
fix(packaging): correct CachyOS firewall to ufw + ship ufw openers + web-console opener
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CachyOS ships ufw enabled by default (firewalld is not installed) — verified live on the .21 box — but the docs and shipped firewall openers claimed "CachyOS enables firewalld by default". Correct that everywhere and ship a ufw application profile (the one-liner analogue of the firewalld service files): - packaging/linux/punktfunk.ufw (new): [punktfunk-native], [punktfunk-gamestream], [punktfunk-web] profiles, installed to /etc/ufw/applications.d/punktfunk by the Arch (CachyOS) and .deb host packages. `sudo ufw allow punktfunk-native`. - packaging/linux/punktfunk-web.xml (new): firewalld service for the optional web console (TCP 47992), installed by the host package on arch/deb/rpm. Neither the native nor gamestream opener covered 47992, so a firewalld/ufw host that enabled punktfunk-web could not reach the console over the LAN. - Fix the "CachyOS enables firewalld" claim in arch.md, arch/README.md, debian/README.md, both firewalld service .xml comments, and the pacman scriptlet; firewalld now attributed to the spins that use it (EndeavourOS, Fedora/RHEL). - Docs present both one-liners (ufw + firewalld) whichever firewall you run, plus a console-opener step; postinst/scriptlet hints detect ufw as well as firewalld. The native data plane stays hole-punched (ephemeral UDP, no fixed port) — its openers correctly open only 9777/udp + mDNS; the stale "open a UDP range" note is replaced with the accurate outbound-UDP explanation. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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b53710da1a |
feat(vdisplay): harden keep-alive reconnect — same-client preempt, quit-skips-linger, configurable idle
On-glass testing (Test 2, KWin .116) surfaced that a reconnect within the QUIC idle-timeout window (~8s) lands on a fresh SECOND display instead of reusing the kept one: the old session was still Active (not yet Lingering), so the registry's keep-alive reuse (which only matches Lingering) skipped it and the old session kept streaming to nobody. Three fixes: #3 Same-client reconnect preempt (the real fix): admission::preempt_same_identity() lists a reconnecting client's OWN still-live session(s) (same cert fingerprint); serve_session signals their stop + waits the release grace BEFORE acquiring, so the zombie tears down → its display lingers → the reconnect REUSES it instead of making a second. Implements the "preempts downstream" the admission docs already promised. Independent of the mode_conflict policy; the pure core (same_identity_stops) is unit-tested. #2 Deliberate quit skips linger: a client that deliberately disconnects closes the QUIC connection with QUIT_CLOSE_CODE (0x51, shared in core::quic); the host reads the ApplicationClosed reason and tears the display down immediately (registry release() gained force_immediate → Linger::Immediate; multi-session-safe via the pure lifecycle machine), while a bare disconnect still lingers for reconnect. Threaded via a session quit flag → the DisplayLease. NativeClient::disconnect_quit() + punktfunk-probe --quit drive it; GameStream (Quit App / h_cancel) is a documented follow-up. #1 Configurable disconnect-detection latency: the QUIC control-connection idle timeout (stream_transport, 8s default) is host-tunable via --idle-timeout-ms / PUNKTFUNK_IDLE_TIMEOUT_MS, clamped >=1s with a keep-alive that scales to it so a live session never false-closes. Default unchanged (8s stays load-bearing for the Windows IDD-push reconnect flow). Workspace check + 63 core / 215 host / 47 vdisplay tests green; clippy clean. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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c1acfe8b85 |
fix(web): preset cards use the design-system animated Card (motion + material)
The preset options were raw <button>s — flat, no motion/material — unlike the rest of the console. They now render as the `interactive` AnimatedCard (motion hover + specular material, consistent with every other card), keyboard-accessible (role=button + Enter/ Space), with a 2px primary ring for the active one and a proper disabled state for gaming-rig. web tsc + vite build + biome-lint green; deployed on .21. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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2e43fcc27c |
fix(web): unify display-field spacing (shared Field) + clearer layout help
- Every option in the custom form now renders through one `Field` wrapper (label → control → help at a consistent `space-y-3`), so the label→input gap is roomier and identical across keep-alive, the button groups, and max-displays — the first field no longer spaces differently from the rest. - Reworded the multi-monitor layout help: it now says Auto is side-by-side and Manual gives a per-display X/Y editor "in the Live displays section below once two or more are streaming" — instead of pointing at an "arrangement table" that isn't visible until clients connect. web tsc + vite build + biome-lint green; deployed on .21. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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2aa7ac8c7e |
fix(web): explicit keep-alive Off/Keep toggle + roomier custom display form
Two UX fixes on the Virtual displays Configuration card: - Keep-alive is no longer implicitly "on" by typing in the seconds field. It's an explicit two-button toggle — **Off** (tear down at disconnect) vs. **Keep for** [N] seconds — and the seconds input only appears when "Keep for" is selected. The duration is remembered across toggles, and the help text explains both modes. - Opened up the cramped custom form: the fields container is `space-y-6` with more padding (`p-5`, rounded-lg), each option group is `space-y-2.5`, and the Save button sits below a divider — so it reads as sections with room instead of a pressed stack. web tsc + vite build + biome-lint green; deployed on .21. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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6b4f9f86ed |
feat(web): move Virtual displays to its own nav section; roomier preset grid
The Host page was crowded (identity, codecs, ports, GPU, displays, compositors) and the virtual-display config surface is large enough to warrant its own home. - New **Virtual displays** nav section: `/displays` route + `sections/Displays` (moved DisplayCard out of `sections/Host`), a `MonitorPlay` sidebar entry after Host, and `nav_displays` i18n. Removed the displays card from the Host page/view. - On its own page the card splits into two: **Configuration** (presets + custom axes) and **Live displays** (the live list + arrangement table) — room to breathe. - Presets now render in a max-2-column grid (`sm:grid-cols-2`) with larger padding, a bigger section heading + preset titles (text-base semibold), roomier spacing, and bottom-aligned "what it sets" badges so the cards line up. web tsc + vite build + biome-lint green; deployed + verified on the Mutter box (.21). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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8986667b78 |
feat(web): full virtual-display config surface — one-click presets + every axis editable
The Virtual displays card previously only exposed keep_alive/topology/max_displays as editable custom fields; conflict/identity/layout (enforced since Stages 3-5) had no controls, and the presets weren't surfaced as one-click options. Rework the card so the whole policy is configurable WITHOUT any client connected: - Presets front-and-center: each of the five (default/shared-desktop/hotdesk/workstation/ gaming-rig) is a one-click row showing its story AND what it sets (keep-alive · topology · conflict · identity badges), highlighting the active one. A click applies it immediately. gaming-rig stays disabled + "coming soon" (keep_alive: forever isn't cross-platform yet). - Custom mode reveals EVERY axis editably — keep-alive, topology, conflict, identity, layout, max-displays — seeded from the current effective behavior, with a Save button. A reusable `Choice` button-group + a tolerant `tr()` label lookup keep it tidy. - The live-display list + multi-monitor arrangement table stay below (they need a live session); the settings above work standalone. - en+de i18n for the new controls; refreshed the effective-preview row to show all axes. web tsc + vite build + biome-lint green. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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62e0367f4b |
feat(punktfunk1): configurable data-plane UDP port (--data-port)
The native data plane used a random ephemeral UDP port (hole-punched), which a strict firewall can't pre-open — so remote clients behind one couldn't connect. Add an optional fixed data port: - `Punktfunk1Options`/`NativeServe` gain `data_port`; `bind_data_socket` binds the fixed port (→ direct, no hole-punch) or falls back to a random port + hole-punch when unset or the fixed port is busy (a concurrent session already holds it). - `UdpTransport::from_socket`/`from_socket_punch` adopt an already-bound socket, so the host keeps the SAME data socket from handshake through streaming — no drop-then-rebind window in which a concurrent session could steal a fixed port. - `main.rs` wires the CLI flag through to `NativeServe`. - Firewall docs updated (troubleshooting.md + apt/pacman/bazzite READMEs): control plane is the fixed UDP 9777; the data plane is a separate random port that usually needs no rule, with the fixed-port option for strict firewalls. Unit-tested: default random+hole-punch, and fixed-port-then-fallback-when-busy. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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677a4f4cf5 |
perf(gamestream): move FEC packetization off the encode loop (3-stage pipeline)
FEC/Reed-Solomon packetization ran inline on the encode loop (~3 ms/frame at 4K), serializing behind encode and capping the GameStream frame rate below what the encoder alone can sustain. Split it into a 3-stage pipeline, each stage on its own thread joined by a depth-2 bounded queue: encode loop → [raw AUs] → packetizer (FEC/RS) → [wire batch] → paced sender - `spawn_packetizer`: turns each `RawFrame`'s access units into wire datagrams via the stateful VideoPacketizer, off the encode loop. Above-normal priority (on the per-frame critical path). Tallies goodput (bytes to the wire) for the stats window. - Backpressure chains up: a slow sender blocks the packetizer, which fills the encode→packetizer queue, which makes the encode loop drop the NEWEST frame — encode itself never waits. - A dropped frame now consumes no client-visible frameIndex (packetization is downstream), so the host re-anchors the reference chain: a drop arms a keyframe on the next iteration (`recover_after_drop`), routed through the same coalesce gate as client IDR requests so a burst of drops (congestion) can't become an IDR storm. - Perf/stats relabeled: `pkt` = AU drain, `send` = enqueue to the pipeline (both should be near-zero now; nonzero = encode being stalled by pipeline backpressure). Goodput read from the packetizer's atomic at the 1 s stats boundary. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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fa45608628 |
docs(display-management): Stage 5 host + web build complete — only on-glass validation + residuals left
Mark the web arrangement table done and narrow "remaining Stage 5" to validation (2 clients on a GPU box, not the dev VM) plus the two documented residuals (wlroots exclusive, Mutter APPLY_TEMPORARY revert). No further host/web build work in Stage 5. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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a7ff1cf312 |
feat(web): display arrangement table — the Stage 5 console x/y editor
Completes Stage 5's web piece (design/display-management.md §6.2): a `DisplayArrangement` editor in the Virtual displays card. For a ≥2-display group, it renders an x/y table over the live displays that carry a stable identity slot (the manual-layout key), seeded from the current computed positions; Save writes `PUT /display/layout` (via the generated `useSetDisplayLayout`), which switches the host to a manual layout applied from the next connect. Shared/anonymous displays (no identity slot) are omitted (they can't be pinned). Also refreshes the now-stale `display_pending_note` copy (conflict/identity/layout ARE enforced as of Stages 3-5) in en + de. web tsc + vite build green. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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87435e6547 |
feat(vdisplay): complete Stage 5 §6A group semantics — per-group restore, Mutter group-aware, gamescope groups
Host-side completion of Stage 5 (§6A many-clients-as-monitors), all unit-tested; two-session on-glass validation still pending (no GPU on the dev VM): - Per-group topology restore (§6.1): the KWin `exclusive` restore no longer rides the per-session StopGuard (which re-enabled the physical the moment the FIRST of several exclusive sessions dropped, under a live sibling). KWin hands its restore to the registry as a closure (new trait `take_topology_restore`); the registry keeps it in the display group (`Entry.topology_restore`) and, on teardown, floats it to a surviving same-group sibling (`hand_off_restore`) or runs it when the group empties — outside the lock, before the last output's keepalive drops, so the compositor never sees zero outputs. All three teardown paths (lease drop / linger expiry / mgmt release) honor it. Single-display path byte-for-byte unchanged. Unit-tested: float / run-on-last / non-carrier-first / never-cross-backend. - Mutter group-aware (new trait `set_first_in_group`): the registry tells each backend whether it's the first display of its group; a non-first Mutter session EXTENDS into the already-exclusive desktop instead of re-applying a sole-monitor ApplyMonitorsConfig that would disable the first session's virtual. (Mutter connectors are un-nameable, so it can't build a keep-all-virtuals config; skipping is the safe equivalent.) Single-session unchanged. Residual APPLY_TEMPORARY revert documented. - gamescope groups (§6.1): `registry::group_key` makes each gamescope spawn its own group (independent nested session, no shared desktop) — never auto-rowed against or restore-/topology-grouped with another gamescope. Applied in both the /display/state assembly and the acquire-time position computation. Unit-tested. Remaining Stage 5: the web console arrangement table, on-glass validation, and the documented residuals (wlroots exclusive, Mutter APPLY_TEMPORARY). design doc updated. cargo build/test (214)/clippy --all-targets/fmt green. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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e0f15822ae |
feat(vdisplay): Stage 5 layout foundation — arrangement engine + /display/layout + group placement
§6A layout, riding the Stages 1-3 registry with no protocol change: - vdisplay/layout.rs: pure arrangement engine — auto-row (left-to-right in acquire order, top-aligned) + manual (per-identity-slot offsets, auto-row fallback for unpinned members). Unit-tested. - Registry group model (Linux): group = backend (one desktop per compositor session). /display/state groups entries, orders by acquire (gen), and computes each member's position via the engine (pure `assemble_displays`, unit-tested). DisplayInfo carries group/display_index/position/identity_slot/topology. The backend reports its resolved slot via the new VirtualDisplay::last_identity_slot (KWin only), so the arrangement + state key on per-client identity. - Registry-driven position apply: new VirtualDisplay::apply_position(x,y) (default no-op; KWin drives kscreen-doctor). Right after create the registry computes the new display's position over its whole group (pure `position_for_new`, unit-tested) and applies it — one seam for BOTH deterministic auto-row AND manual placement. Guarded: the origin (0,0) is skipped, so a single-display / first-of-group session (and every non-KWin backend) issues no positioning — the historical single-display path is unchanged. On-glass-validation-pending. - PUT /api/v1/display/layout: persists the console's manual arrangement via the pure EffectivePolicy::with_manual_layout transform (locks current effective behavior into explicit Custom fields + sets a manual layout, so arranging is orthogonal to the other axes). OpenAPI regenerated. - /display/settings `enforced` now lists all five axes (keep_alive, topology, mode_conflict [Stage 4], identity [Stage 3], layout [Stage 5]) — was stale at keep_alive+topology; the console reads it to know which controls are live. Still Stage-5 TODO (design/display-management.md §11): Mutter/wlroots group-aware analogues, per-group topology restore, the web arrangement table, gamescope decline. cargo build/test/clippy/fmt green; OpenAPI in sync. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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a5dc3134de |
docs(display-management): handoff — mark Stages 0-4 done, Stage 5 started
Update the design doc for handoff: top-of-doc status, a Status/handoff block in §11 (per-stage state, validation boxes, key decisions), and per-stage [DONE]/[STARTED] markers. Records the decisions that diverged from the plan as written — the Windows admission default is reject (single-capturer IDD-push), reject is typed (QUIC 0x42), Stage 5's group-aware exclusive fixes a Stage-3 latent bug — and what's left in Stage 5 (Mutter/wlroots analogues, layout, /display/layout, per-group restore). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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eddcd91f48 |
feat(vdisplay/kwin): group-aware exclusive — never disable a sibling output (Stage 5 §6.1)
The critical latent bug Stage 3 introduced: per-slot output names mean a 2nd exclusive session's other_enabled_outputs() (which disabled 'everything not named Virtual-punktfunk') would black out the 1st session's Virtual-punktfunk-<id> output. Fix: recognise the whole managed group by the shared Virtual-punktfunk prefix — exclusive now disables only NON-managed outputs (bootstrap/physical), never a group sibling. Plus first-slot-wins for the group primary (a_managed_output_is_primary): a later session joins as a secondary monitor of the shared desktop instead of stealing the shell off the first. Unit-tested. Start of Stage 5 (§6A many-clients-one-desktop). Remaining: Mutter/wlroots group-aware analogues, layout (auto-row/manual + /display/layout + console), per-group topology restore, gamescope groups. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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23446fa177 |
fix(vdisplay): Windows admission default is reject, not join (single-capturer limit)
Two concurrent Windows sessions both drive the same pf-vdisplay monitor's single-capturer IDD-push channel (newest-delivery-wins), which freezes the live client and can wedge the driver (observed live: a concurrent-session test wedged .173 → Moonlight 'no video'; needed a reboot). True multi-session capture is §6.6/ Stage 7. So on Windows 'separate' (incl. the unconfigured default) now resolves to REJECT — a 2nd client gets a clean 503 and the live session is protected — instead of join (which would freeze it). join/steal stay explicit opt-ins; Linux keeps separate (real multi-view). Centralized as admission::effective_conflict(), shared by the native handshake + GameStream h_launch. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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980939ed6b |
refactor(gamestream): extract + unit-test gamestream_admission (Stage 4)
Pull the GameStream mode-conflict decision out of h_launch into a pure gamestream_admission(live, req_fp, policy) -> GsDecision so the 503/join/take-over logic is unit-tested (no live session / same-client → Serve; different client → Reject/Join/Serve per policy; anonymous requester treated as different) — the GameStream path can't be driven without a Moonlight client, so this covers the logic. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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cfad0cf7ee |
feat(vdisplay): finish Stage 4 — typed reject, Windows join-default, GameStream 503
Completes the mode-conflict admission surface deferred from the initial Stage 4: - REJECT now delivers the reason to the client: punktfunk/1 closes the QUIC connection with a distinct BUSY code (0x42) + the 'host busy: streaming WxH@Hz to <client>' string, which the client reads from ApplicationClosed (validated on loopback: the probe logs 'closed by peer: host busy … (code 66)'). - Windows default: separate (incl. the unconfigured default) resolves to JOIN — the Windows native host admits a second client at the live mode instead of the old silent last-wins reconfigure of the shared monitor (release-note behavior fix; the reconfigure is now opt-in as steal). separate stays multi-view on Linux. - GameStream 503: h_launch tracks the session owner fp (LaunchSession.owner_fp, kept [u8;32] for Copy) and applies the policy when a DIFFERENT paired client launches — reject → 503 (Moonlight 'host busy'), join → serve the live mode, steal/separate → take over. Same-client re-launch is never a conflict. Native reject-reason loopback-validated; Windows join-default pending .173 rebuild; GameStream 503 pending a Moonlight client (can't drive /launch autonomously). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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42b1158ea7 |
feat(vdisplay): mode-conflict admission — separate/join/steal/reject (Stage 4)
The mode_conflict policy is now enforced at ADMISSION, before the punktfunk/1 Welcome, when a DIFFERENT client connects while another client's session is live: - separate (default, unconfigured → no change): each client its own display. - join: admit at the live display's mode (honest-downgrade — the Welcome carries it). - steal: signal the victim session(s)' stop flags, wait the release grace, serve. - reject: refuse the handshake with a busy reason (live mode + client label). New vdisplay/admission.rs: the pure decide() (unit-tested — same-client never conflicts, anonymous clients each distinct, join targets the oldest session) + a live-session registry (identity + mode + stop flag) sessions register in once up. Wired into punktfunk1 serve_session: admit() before validate_dimensions, register after the data plane binds. A same-client reconnect never conflicts. Validated on loopback (two probes, distinct identities, differing modes) across all four policies: separate→own mode, join→live mode, steal→victim interrupted, reject→handshake refused. Remaining Stage-4 surface (deferred): GameStream 503 path, Windows-specific defaults (separate→join map, silent-reconfigure→steal), reject reason delivered to the client as a typed message (currently host-side log + connection close). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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029d1134a9 |
harden(vdisplay/windows): verify+retry exclusive isolation; pack primary layout
Exclusive (topology=exclusive) was fire-and-forget — a field-reported bug had a physical monitor STAY ACTIVE. isolate_displays_ccd now re-queries after each apply and RETRIES (up to 4x) until count_other_active()==0, never trusting rc alone; logs SOLE-active on success, an error if a display survives all attempts. Secure desktop correctness depends on the lock screen not landing on a stray panel. Primary: drop the temporary per-path diagnostic; pack the kept displays left-to- right from the virtual's right edge instead of blindly shifting each by virt_width (which left a dead gap when extend already placed them right). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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e35b6991e2 |
fix(vdisplay/windows): topology=primary force-extends to reactivate the physical
Root cause: on a headless box the IDD auto-activates as the SOLE display, so QueryDisplayConfig sees only the virtual — the physical is already deactivated before set_virtual_primary_ccd runs (no physical to keep). Force EXTEND first to reactivate every connected display alongside the virtual, then reposition to make the virtual primary, keeping the physical active. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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913f6ce659 |
diag(vdisplay/windows): log active paths in set_virtual_primary_ccd
Temporary diagnostic — the physical monitor goes black in topology=primary despite rc=0; the SSH/session-0 view can't see the real interactive-session topology, so log the active paths the host actually operates on. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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d23bd9b0cf |
fix(vdisplay/windows): DISPLAYCONFIG_PATH_SOURCE_INFO union field access
modeInfoIdx lives in the Anonymous union (windows-rs), not directly on sourceInfo — set_virtual_primary_ccd now reads .Anonymous.modeInfoIdx. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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eda7cac78e |
feat(vdisplay/windows): topology=primary — keep physicals active, virtual primary
Implements the deferred Windows primary-only CCD (Stage 2). set_virtual_primary_ccd repositions the virtual output's source to (0,0) = primary and shifts the physical display(s) to its right, ALL kept active — one atomic CCD SetDisplayConfig (not GDI CDS_SET_PRIMARY, which storms MODE_CHANGE_IN_PROGRESS with another display live). The manager's should_isolate() becomes topology_action() (3-way): extend (skip), primary (set_virtual_primary_ccd), exclusive (isolate_displays_ccd). Restore-on-teardown covers both. Validates the user's two scenarios on a physical-monitor .173. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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d73951414c |
feat(vdisplay): KWin per-slot output naming for persistent scaling (Stage 3)
The KWin backend names its output Virtual-punktfunk-<id> from the client's stable identity slot, so KWin persists per-output config (scale/mode) by name in kwinoutputconfig.json and reapplies that client's scaling on reconnect — the KDE scaling ask. Also fixes the latent clash where two concurrent sessions both used Virtual-punktfunk (topology name-matching now uses the per-slot name). - identity::global() + resolve_slot(fp, mode, default) — the shared persisted map (Windows manager dropped its own field; both use the global — never same-process). Default identity is per-platform: PerClient on Windows, Shared on Linux, so unconfigured hosts keep today's behavior (Linux = single 'punktfunk' name). - KwinDisplay carries the client fp (set_client_identity), computes the per-slot name, threads it through the stream_virtual_output name + the topology helpers (set_custom_refresh / apply_virtual_primary[_only] / other_enabled_outputs). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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b150d79626 |
feat(vdisplay): platform-neutral identity map + per-client-mode (Stage 3)
Generalize the Windows-only per-client stable-id map into vdisplay/identity.rs: - DisplayIdentityMap keyed on a composable string (identity_key: fingerprint, or fingerprint+resolution under per-client-mode); LRU at 15, persisted to display-identity.json (migrated from the legacy pf-vdisplay-identity.json). - Windows manager wired to it, picking the key from the identity policy. - Foundation for KWin per-slot output naming (persistent KDE scaling) — the KWin wiring is the next Stage-3 step (needs a KWin box). - Unit-tested (stable, per-client-mode split, LRU, key composition). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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cb7ddc0411 |
feat(vdisplay): topology decoupling — distinct primary level (Stage 2)
The three topology levels become distinct behaviors (Stage 0 only did extend-vs-exclusive, faking primary): - vdisplay::effective_topology() -> the concrete level (console policy > legacy *_VIRTUAL_PRIMARY env > Auto default). Backends read it directly at create time; apply_session_env no longer writes the boolean env (one fewer connect- path env mutation). - Mutter: extend (no config), primary (virtual primary + physicals kept as secondaries — build_primary_keeping_physicals), exclusive (sole, physicals disabled). KWin: extend (no-op), primary (kscreen primary only), exclusive (primary + disable others). - Windows should_isolate treats primary as isolate (the primary-only CCD variant is a follow-up); wlroots exclusive + the physical-keep effect need a display-attached box (headless lab boxes can't observe primary vs exclusive). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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60816709c4 |
fix(vdisplay): call life.acquire() outside debug_assert (release no-op)
The pooled entry's lifecycle transition was inside debug_assert_eq!, whose arguments don't evaluate in release builds — so acquire() never ran, the entry stayed Idle, and release saw Noop → immediate teardown (no keep-alive). Caught on-glass on the CachyOS box. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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783c52dfad |
feat(vdisplay): Linux keep-alive pool — registry-owned display lifecycle (Stage 1b)
The ownership split (design/display-management.md §3): the registry owns the per-session virtual-display lifecycle on Linux, so a display can outlive its session (keep-alive) and be reused on reconnect. - registry.rs: a Linux pool driven by the pure lifecycle machine. acquire() reuses a kept (lingering/pinned) display of the same backend+mode, else creates one and keeps the backend's keepalive so the compositor output (and its PipeWire node_id) survives the session. The session's capturer holds a gen-stamped DisplayLease instead of the real keepalive; its drop drives linger/teardown. Enabling fact: KWin/Mutter/gamescope put their node on the DEFAULT PipeWire daemon (remote_fd=None) — reconnect re-attaches by node_id, no fd re-open. wlroots (remote_fd=Some, xdpw portal) passes through unchanged (teardown-on-drop) pending the fresh-portal-capture re-attach. - Default (unconfigured) linger = Immediate → today's teardown-on-disconnect, so no behavior change without a keep-alive policy; concurrent sessions still each create their own output (reuse only matches LINGERING entries). - Wired build_pipeline (punktfunk1) + gamestream through registry::acquire; capture_virtual_output signature unchanged. Windows delegates to vd.create (the manager already leases) — unchanged. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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e27718b406 |
packaging: ship firewalld services on rpm + deb too, share from packaging/linux
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Mirror the Arch firewalld service definitions into the RPM spec and the Debian
host package so every Linux packager installs them, and move the two XML files
to the shared packaging/linux/ home (alongside the .desktop files both the
PKGBUILD and deb scripts already source there) so there's one source of truth
instead of three drifting copies.
- rpm: install punktfunk-{gamestream,native}.xml to /usr/lib/firewalld/services/,
list them in %files host, and print the firewalld enable command in %post
(gated on firewall-cmd). Fedora/RHEL run firewalld by default, so this is where
it matters most; Bazzite inherits it via the sysext built from the package /usr.
- deb: install both XMLs in build-deb.sh and add the same firewalld-gated hint to
the postinst. Debian/Ubuntu ship no active firewall, so it's a no-op unless the
admin runs firewalld.
- PKGBUILD + arch README updated to the packaging/linux/ path.
- Firewall docs (bazzite README now leads with --add-service; debian README gains
a firewalld block) point at the shipped services; XML comments made
distro-neutral. Never auto-enabled — packages don't touch the admin's firewall.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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6bc893e394 |
docs(arch): fish-safe repo setup, firewalld services, fix client label
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The pacman-repo setup step used a bash heredoc (`<<'EOF'`), which fish — the
default shell on CachyOS — cannot parse ("expected a string, but found a
redirection"). Replace it with a cross-shell `printf | sudo tee -a` form in both
the Arch guide and packaging/arch/README.md; `$repo`/`$arch` stay literal for
pacman and the output is byte-identical to the old heredoc.
Firewall: stock Arch ships none (ports already open), but CachyOS enables
firewalld by default and an Arch package must never touch the running firewall.
Ship firewalld service definitions the host package installs to
/usr/lib/firewalld/services/ (punktfunk-gamestream, punktfunk-native), not
auto-enabled; the install scriptlet prints the enable command only when
firewall-cmd is present. Document it in the Arch guide (new section) and README.
The mgmt API (loopback) and web console ports are deliberately not opened.
Also fix the "GTK4 couch/Deck client" mislabel — it's the native
GTK4/libadwaita Linux client (desktop/laptop/Deck are targets; the
controller-optimized launcher is one view, not its identity) — across the Arch
PKGBUILD/README, Arch guide, and the Debian README.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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f0d015fc45 |
fix(apple/macos): drop the rejected audioanalyticsd sandbox exception
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App Review declined 0.4.2 (3384) under guideline 2.4.5(i): the temporary com.apple.security.temporary-exception.mach-lookup.global-name = com.apple.audioanalyticsd exception "is not appropriate and will not be granted." It had been added on the theory that CoreHaptics controller rumble (RumbleRenderer / MenuHaptics) hard-crashes under the App Sandbox without it, since the framework reaches the audio-analytics daemon over Mach and the sandbox denies that global-name lookup. Tested the theory directly on macOS with a real Xbox pad: a CHHapticEngine start + full-intensity rumble in a genuinely enforced sandbox (NSHomeDirectory redirected into the app container) with no exception on the codesigned binary runs fine — no crash — even with a live AVAudioEngine stream running concurrently. CoreHaptics tolerates the denied lookup; the exception was never load-bearing. So just remove it: CoreHaptics session rumble and menu haptics keep working on macOS unchanged (no source change needed). DualSense stays on its raw-HID path — a genuine Sony-motor gap — which needs no exception either. Resubmit requires a new build number and clearing the App Store Connect App Sandbox entitlement-usage justification for this exception. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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2dd17dda80 |
test(mgmt): display state/release endpoint smoke test
Covers the idle path (empty /display/state + released:0 /display/release) on a unit-test host, exercising the wiring + auth without touching any global owner. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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87f0ce7997 |
feat(vdisplay): lifecycle state machine + display state/release API (Stage 1)
Stage 1 of design/display-management.md — the lifecycle core + the display
management surface:
- vdisplay/lifecycle.rs: pure per-slot state machine (Idle/Active{refs}/
Lingering{until}/Pinned) with acquire/release/expiry/force-release
transitions. No I/O, no OS types — the platform-neutral distillation of the
Windows manager's model. Unit + a 200k-iteration seeded property walk
(no leaks / double-frees / refcount underflow across arbitrary interleavings).
- vdisplay/registry.rs: neutral snapshot/release facade over the per-OS
lifecycle owners. Windows reads/controls the VirtualDisplayManager; Linux
keep-alive (a per-session pool) lands in a following increment (needs GPU-box
validation).
- windows/manager.rs: additive snapshot() + force_release() (no behavior change
to the on-glass-validated path).
- mgmt: GET /api/v1/display/state (live/kept displays) + POST /api/v1/display/release
(tear down lingering/pinned now; refuses active). OpenAPI regenerated.
- web console: Virtual displays card gains a live-display list (polled) with
per-row + release-all buttons and a linger countdown.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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bbd98241e4 |
feat(vdisplay): display-management policy surface (Stage 0)
A user-configurable policy layer above the per-compositor VirtualDisplay backends: keep-alive, topology, conflict, identity, layout, max-displays — persisted to display-settings.json, editable from the web console, applied per connect. Design: design/display-management.md. Stage 0 stands up the surface and wires the two behaviors the existing code can already express — the Windows monitor linger duration and the "make the streamed output the sole desktop" topology — through it; every other option is stored + echoed but not yet enforced (later stages). An unconfigured host (no display-settings.json) keeps today's exact behavior. - vdisplay/policy.rs: pure DisplayPolicy + 5 presets + JSON store (gpu-settings pattern) + EffectivePolicy; 9 unit tests. - vdisplay.rs: resolve_topology(Auto); apply_session_env drives *_VIRTUAL_PRIMARY from the policy only when a settings file exists. - windows/manager.rs: linger_ms() + should_isolate() read the policy when configured. - mgmt: GET/PUT /api/v1/display/settings (bearer-only); PUT rejects keep_alive forever until the lifecycle stage. OpenAPI regenerated. - web console: Host → Virtual displays card (preset picker + custom fields); en+de. - docs-site: virtual-displays.md + configuration.md cross-links. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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202f40fd4e |
chore(release): bump workspace version to 0.7.4
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Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>v0.7.4 |
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8f90563ffd |
docs: dedicated Arch Linux host+client guide
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Every other distro has a full Host Setup page; Arch only had table rows. Add docs/arch.md (signed pacman binary repo: key import + repo + install, GPU prereqs, service/linger, web console, client, PKGBUILD appendix), slot it into the nav after fedora-kde, and point the install/client tables at it. Update the client-install rows from 'from the PKGBUILD' to the binary repo now that it exists. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |