43e52437c0f5ccc7aeae44bebbbbf7c9426e6026
120 Commits
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d294b3923c |
test(resize): extract + unit-test the live-reconfigure gate (H1 gamescope / H5 per-client-mode)
The Linux §6 on-glass matrix can validate the gamescope must-REJECT behavior only on native-gamescope hardware (the NVIDIA dev box fails headless GBM allocation — a nested Hyprland/sway/gamescope output comes up 0×0), so pin the gate down deterministically instead: extract the inline `live_reconfig_ok` decision into a pure `reconfig_allowed(compositor, per_client_mode)` and test it — gamescope rejects in every identity mode, a per-client-mode policy rejects on every backend, and all other compositors (plus the synthetic protocol-test source) with the default identity accept. Also fmt-normalizes the re_add block from the prior commit (whitespace only). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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4c18bb80ca |
feat(resize/win): mid-stream resize on-glass fixes — corrective-ack actual res + monitor re-arrival
On-glass validation on the .173 Windows IDD-push host confirmed the Reconfigure
protocol + host rebuild work end-to-end and genuinely change pixels for an
advertised mode (1920x1080 -> 1280x720: two SPS/IDR sets, ffprobe both res). It
also surfaced two gaps for out-of-EDID-list target modes, both fixed here.
Fix 2 (corrective ack carries the ACTUAL resolution): the H2/H3 corrective ack
recovered only the achieved REFRESH (interval_hz), taking width/height straight
from the request — so when a backend delivered a different RESOLUTION (Windows
pf-vdisplay falling back to its advertised mode) the client was told it got a
size it never received, and by the D2 discipline never re-asked. New
`delivered_mode(frame.{w,h}, interval)` derives the ack from the captured frame's
real dims (what the encoder opened at / the client decodes) in both the success
and rollback branches. Unit-tested.
Fix 1 (reach arbitrary mid-stream modes via monitor RE-ARRIVAL): the pf-vdisplay
driver freezes a monitor's advertised mode list at IOCTL_ADD, and IddCx exposes
no live update-modes DDI, so an in-place ChangeDisplaySettingsExW to a mode not
advertised at arrival returns DISP_CHANGE_BADMODE. The manager's mid-stream
reconfigure now REMOVEs + re-ADDs the driver monitor at the exact new mode,
reusing the slot's stable per-client id (EDID serial / ContainerId) so the OS
keeps identity + saved DPI. The rebuilt Monitor PRESERVES gen (lease/refcount
continuity) and the group restore snapshot; reisolate_after_swap re-isolates the
new target without recapturing it. Host-only — no driver change. One monitor
hotplug per switch (the design's accepted "re-arrival for everything").
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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d0d9bd5bfb |
feat(resize): mid-stream resolution resize — host hardening (H1–H5) + session-binary Match window (C1)
design/midstream-resolution-resize.md Phase 0 + Phase 1. Host (Phase 0): - H1/H5: per-backend Reconfigure acceptance gate — reject for gamescope (all sub-modes; a resize must never relaunch the title) and under the per-client-mode identity policy (a resize would resolve a different display slot). Synthetic stays reconfigurable on purpose (the protocol test source; the C-ABI roundtrip test rides it). Plus a 500 ms host-side min-interval backstop against Reconfigure spam. - H2: rollback/corrective ack — the data plane reports the mode actually live after a failed rebuild (or a refresh the backend capped) through a reconfig_result channel; the control task forwards it as a second accepted Reconfigured so the client's mode slot self-corrects. - H3: live stats mode — SendStats reads a packed AtomicU64 (w|h|hz) updated on every switch instead of latching the session-start mode. - H4: registry::retire(gen) — a mode-switch rebuild force-releases the superseded Linux display, so linger/forever keep-alive policies don't accumulate kept monitors at stale modes. VirtualOutput carries pool_gen (fresh AND reused) and the Pipeline tuple threads it to the switch arm. Client (Phase 1, default off): - Settings: match_window policy + persisted last window size; exposed as the Resolution tri-state (Native / Match window / explicit) in the Skia console, GTK and WinUI settings pages. - pf-presenter: window opens at the persisted size; Hello mode follows the window's pixel size; D2 trigger discipline (400 ms debounce to resize-end, ≥1 s spacing, even-floor + ≥320×200 clamp, each distinct size requested at most once — covers rejects and host rollbacks) as a pure, unit-tested decision; HUD line + title refresh on a switch. - Session binary wires both --connect and --browse paths; the WinUI shell is session-always, so this covers Windows too. Verified: workspace tests + clippy green; synthetic --remode end-to-end; live session-binary run (window at persisted 1000×600 → Hello 1000×600@60). On-glass per-backend matrix (Mutter/KWin/gamescope-reject, keep-alive accumulation) still pending before any default flip. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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35d97ae6ac |
feat(windows): parallel virtual displays — proto v3 ring binding, manager slot map, group topology (W0–W3)
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release / apple (push) Successful in 19m30s
rpm / build-publish (44, fedora-44, punktfunk-fedora44-rpm) (push) Successful in 16m49s
flatpak / build-publish (push) Failing after 2m9s
apple / screenshots (push) Successful in 19m3s
design/windows-parallel-virtual-displays.md (display-management Stage 7 / §6.6): N simultaneously-live pf-vdisplay monitors, one sealed ring each, every idd-push-security invariant preserved per-ring. - proto v3: SharedHeader._pad → target_id — the ring NAMES its monitor, host-stamped before the magic; the driver publisher refuses a cross-bound ring via the shared, unit-tested frame::check_attach (new DRV_STATUS_BIND_FAIL — the gamepad pad_index validation applied to frames, invariant #10); the host's wait_for_attach surfaces the refusal loudly and self-checks its own stamp. - manager: the one-monitor MgrState becomes a slot map keyed by the client's identity slot (0 = anonymous/GameStream); per-slot reconnect + dead-WUDFHost preempts, slot-scoped begin_idd_setup (a different identity is an admission question, never a preempt), ONE device-level watchdog pinger, per-slot /display/state + /display/release. - group topology: isolate_displays_ccd takes the managed target SET (a sibling slot is never deactivated); SavedConfig + the DDC/PnP axes move to the group record (first-in captures, last-out restores); desktop layout via CCD source origins from the pure layout::arrange (auto-row default, manual pins win), re-applied on create + reconfigure. - admission: the Windows separate→reject override now sits behind the PUNKTFUNK_WIN_SEPARATE=1 validation hatch (the wedge it guarded is structurally gone — a second identity gets its own monitor + ring; default flips in W5 after soak); max_displays and NVENC session-unit budgets decline an unaffordable display AT admission; kick_dwm_compose is process-globally throttled and per-display — cursor jump + 35 ms dwell (a sub-tick jump composes nothing; DWM reads dirties from current state at the next vsync tick). On-glass on the RTX box: V1/V2/V4/V5/V6/V9 green — two paired clients on two monitors streaming ~60 fps each with zero mismatches and zero bind failures, churn-hammer clean (no 0x80070490), per-ring mode-change recreate leaves the sibling untouched, typed budget rejection, fault-injected cross-bind refused loudly with the sibling undisturbed. V7: WUDFHost-kill shared fate is clean; in-process device recovery is a known follow-up (the retired-never-closed control handles block the adapter cycle — reset-pf-vdisplay.ps1 recovers). DWM composes two IDD monitors concurrently at 60 fps — the plan's load-bearing unknown, answered yes. Also carries the client-HDR EDID forwarding that shared this working tree (Hello::display_hdr → AddRequest luminance tail → the monitor's CTA-861.3 HDR block, PUNKTFUNK_CLIENT_PEAK_NITS hatch) and the Deck client fixes (40 ms rumble keep-alive with 1-LSB jitter, HDR self-diagnosing presenter warn, flatpak HDR env). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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a011aebef5 |
feat(host,web): experimental PnP monitor-devnode disable for Exclusive sessions
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Second experiment against the connected-but-dark-head stutter (field-proven on the reporter's box: unplugging his standby HDMI TV removes a metronomic ~4 s double-jolt; DDC/CI is a dead end for TVs — measured on the lab LG, VCP 0xD6 gets no I2C ACK). An Exclusive isolate only removes physical monitors from the CCD topology; their PnP devnodes stay live, so every standby wake (auto input scan, Instant-On HPD cycling) still triggers the full Windows reaction: PnP arrival/removal, CCD re-evaluation, DWM invalidation — the suspected hiccup mechanism (Apollo #368's Device-Manager-refresh signature). - New `pnp_disable_monitors` display-policy axis (default off): orthogonal to presets like game_session/ddc_power_off, surfaced in GET/PUT /display/settings + the enforced list, carried through the layout transform. - windows/monitor_devnode.rs: after the isolate takes, disable exactly the deactivated monitors' devnodes — CCD target → monitor device path (DISPLAYCONFIG_TARGET_DEVICE_NAME) → PnP instance id → CM_Disable_DevNode with CM_DISABLE_PERSIST, so a hot-plug RE-ARRIVAL stays disabled (that persistence is the whole point). Teardown re-enables BEFORE the CCD restore (+300 ms re-arrival settle) so restored paths have their monitors back. Precise selection — co-installed third-party virtual displays are never touched. - Crash safety: instance ids journal to <config>/pnp-disabled-monitors.json before disabling; serve startup re-enables leftovers from a crashed host. Worst case is documented in the console help (Device Manager re-enable). - Web console: second Experimental-badged toggle (the DDC block refactored into a shared ExperimentalToggle), EN/DE strings, preset-switch carry. Verified: Linux 263 tests + clippy + fmt clean; Windows (RTX box) 220/220 + clippy clean; web tsc + production build clean; openapi.json regenerated. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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cca5008805 |
feat(host,web): experimental DDC/CI monitor power-off for Exclusive sessions
ci / web (push) Successful in 47s
ci / docs-site (push) Successful in 1m7s
decky / build-publish (push) Successful in 19s
apple / swift (push) Successful in 1m10s
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The sole-virtual-display stutter investigation's active experiment: when the Exclusive isolate deactivates a physical monitor, the dark-but-connected head keeps getting serviced (monitor standby auto-input-scan / DP link churn) at a seconds-scale cadence — the leading suspect for the periodic double-jolt. A panel commanded off over DDC/CI (the VESA monitor-control channel in the video cable) believes it has an owner and, on cooperating firmware, stops probing. - New `ddc_power_off` display-policy axis (default off): orthogonal to presets like game_session, stored in display-settings.json, surfaced in GET/PUT /display/settings + the enforced list, carried through the layout transform. - windows/ddc.rs: VCP 0xD6 power-mode control via the dxva2 Physical Monitor API. Deliberately DPMS-off (0x04, DDC stays responsive, signal return wakes) and never power-button-off (0x05, bricks-until-button on many monitors). Probe-before-write; every failure is skip-and-log — monitors without DDC/CI, OSD-disabled, or behind docks/KVMs degrade to a logged no-op. - Manager wiring: panels commanded off immediately BEFORE the Exclusive CCD isolate (an HMONITOR — and with it the DDC channel — only exists while the display is active); teardown wakes them right after the CCD restore, where returning signal alone already wakes most firmware. - Web console: an Experimental-badged on/off control on the display card, applied immediately like the game-session axis and preserved across preset switches; EN/DE strings incl. the wake-failure escape hatch (press the monitor's power button once, turn the option off). Diagnostic value on top of the fix: if this kills a reporter's stutter, the churn is monitor-firmware-initiated; if only topology=primary/extend does, the driver services dark heads regardless — the two remaining root-cause classes. Verified: Linux 258 tests + clippy + fmt clean; Windows (RTX box) 220/220 + clippy clean; web tsc + production build clean; openapi.json regenerated. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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b7cb75a48a |
fix(host): dual identical GPUs stream again — self-heal the IDD-push ring onto the driver's real render adapter
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A box with two identical GPUs (twin RTX 4090s in the field report) died out of pipeline retries with driver_status=2 (DRV_STATUS_TEX_FAIL, detail 0x80070057): SET_RENDER_ADAPTER pinned the driver to one twin at monitor ADD, but the ring open re-ran the GPU picker, whose max-VRAM tie is settled by DXGI enumeration order — which follows the primary display that the vdisplay flow itself moves mid-session. Ring on one twin, swap-chain on the other → the driver can't open the shared textures, and every retry repeats the same wrong pick. - wait_for_attach: TEX_FAIL becomes a typed AttachTexFail carrying the render LUID the driver reports in the shared frame header (written before the texture opens, so valid on failure) — the error now names both adapters instead of guessing "mismatch?". - open_inner: on AttachTexFail with a different, non-zero driver LUID, rebind the ring there and reopen ONCE. Both candidates are real GPU adapters, so NVENC keeps getting a device it accepts. - gpu::enumerate (Windows): sort the inventory by LUID so the max-VRAM tie, the env-substring first match, and twin occurrence numbering are stable for the boot instead of tracking the primary display. - manager: record the ADD-time render pin on Monitor and warn on reuse when the current pick has moved away from it (the pick only takes effect on the next monitor create; /display/release forces one). - pf_vdisplay: drop the "ADD render adapter DIFFERS from pinned" warn — the ADD reply carries IDARG_OUT_MONITORARRIVAL.OsAdapterLuid (the IddCx DISPLAY adapter, verified on-glass), not the render GPU, so the check compared unrelated LUIDs and fired on every ADD. Verified on the RTX 4090 box: single-GPU streaming is unchanged (IddPush + NVENC AV1 session, no new warnings). The rebind path needs a twin-GPU box — until validated there, /display/release remains the manual recovery. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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47d22b6082 |
fix(host): admit exactly ONE parked knock per Approve — stop crashing gnome-shell, and self-heal dead sessions
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A retrying unpaired client parks one QUIC connection per knock, but the delegated-approval waiters were keyed on fingerprint alone — one console Approve resolved ALL of them. Observed live (2026-07-10): an iPad knocked 3x, one Approve admitted three full sessions, three Mutter virtual monitors were created within ~200us plus an ApplyMonitorsConfig, and gnome-shell SIGSEGV'd inside meta_monitor_manager_rebuild — dropping the box to the GDM greeter, unreachable until reboot (GDM auto-login runs once per boot) while the lingering host spammed "RemoteDesktop ... not activatable" libei errors. Four fixes, outermost symptom inward: - Knock generations (native_pairing): note_pending returns a per-knock generation; a re-knock bumps it and wakes the previous waiter, which resolves the new PairingDecision::Superseded (connection closes; the console list is unchanged). An approval records WHICH generation it admitted, so a stale waiter polling only after the pending entry is cleared still loses the tie — exactly one admission, no matter the interleaving. - TOPOLOGY_LOCK (vdisplay/mutter): every Mutter monitor mutation (pre-snapshot -> RecordVirtual -> ApplyMonitorsConfig, and the teardown Stop) is serialized process-wide. Concurrent rebuilds are what segfault the shell (second on-glass crash of this class — the teardown race is already documented in-file), and serialization also keeps wait_virtual_connector's snapshot diff from attributing a sibling's connector. Create timeout 20s -> 45s for lock queueing. - Session-env hygiene (vdisplay): when detection finds NOTHING live, clear the previous connect's XDG_CURRENT_DESKTOP/WAYLAND_DISPLAY retarget. A stale GNOME value kept mutter::is_available() true after the crash, routing explicit-backend connects into the dead session (create timeouts + libei error loops) instead of the crisp "no live graphical session" handshake error. - Opt-in recovery hook (config + punktfunk1): PUNKTFUNK_RECOVER_SESSION_CMD fires (detached via sh -c, debounced to one launch/min) when a client connects while no graphical session is live — e.g. `sudo -n systemctl restart gdm` re-runs auto-login and the client's retry lands in the recovered desktop. The handshake error tells the client to retry. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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c8fdef8bd1 |
fix(host): per-client display scaling on GNOME — host-persisted scale for Mutter virtual monitors
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The identity policy promised per-client scaling, but on GNOME it could never work through the DE: Mutter mints a fresh EDID serial (0x%.6x, a per-shell counter) for every RecordVirtual monitor and offers no way to pass a stable identity, so the monitors.xml entry GNOME writes when the user sets a scale never rematches on reconnect — and our own topology ApplyMonitorsConfig then clobbered whatever was left back to a hardcoded scale 1.0. The host now remembers the scale itself (<config>/display-scale.json, keyed by the identity key — fp / fp@WxH / "shared" per the policy): reapplied at connect via the RecordVirtual mode's preferred-scale (Mutter pre-validates it; older Mutter ignores the key) and preserved — not forced — by the topology apply, with an integral-logical-size snap + retry-at-derived fallback (GetCurrentState reports no supported-scales for virtual monitors to snap to). The user's mid-session changes are polled from DisplayConfig every 5 s and written back, so a host crash loses at most a few seconds; an unconfirmed "Keep Changes" revert is tracked faithfully too. Mutter also now resolves the identity slot (set_client_identity/last_identity_slot) like KWin, keying the registry's group arrangement and /display/state. Verified live on the GNOME 50 box: set 1.5 mid-stream → persisted under the client fp; full teardown (fresh serial 0x000018); reconnect → monitor up at 1.5, "reapplying the client's saved display scale" logged. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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0b7e4a00ee |
fix(host): crash visibility + Windows deliberate-quit teardown; pin outranks quit
Two strands from the "Windows host went Offline after reconnect, zero errors in the logs" investigation. Crash visibility — the field reports kept arriving with nothing in the Logs tab because every way the host can die silently was unlogged: - A panic hook tees each panic (thread, location, backtrace) through `tracing` into the in-memory ring + host.log before the default hook runs — a panicking thread otherwise only hit stderr, absent from the web console and gone when stderr is detached. - A last-resort Windows SEH filter (windows/crash.rs) logs an unhandled native exception with its code, faulting address, and faulting MODULE — the smoking gun that separates our bug from a GPU runtime/driver DLL (amfrt64, the UMD, d3d11) crashing under us. - A 10 s watchdog around the vdisplay monitor teardown logs an ERROR when the driver REMOVE/CCD-restore looks wedged (it runs under the manager state lock, so a hang there silently blocks every future acquire). Deliberate-quit teardown (Windows pf-vdisplay) — the Windows manager never wired the linger skip the Linux registry has: on ⌘D (the QUIT close code) the monitor lingered 10 s, so a quick reconnect hit the Lingering-preempt's back-to-back REMOVE→ADD churn. A per-lease quit flag (VirtualDisplay:: set_quit_flag) now tears the monitor down immediately on a deliberate quit, so the reconnect finds the manager Idle and does a clean fresh ADD. Pin outranks quit (both platforms) — keep_alive=forever (the gaming-rig preset) promises "the screen stays alive", so a deliberate quit must skip only the linger WINDOW, never the pin. Windows release() checks keep_alive_forever() before the quit; the Linux registry had the inverse bug (force_immediate tore down even a pinned display) — fixed via effective_linger() with a unit test. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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062a54e3a5 |
style: cargo fmt --all (rustfmt 1.96.0 drift across the re-arch branch)
`cargo fmt --all --check` (ci.yml) was red on main: the client re-architecture
commits and origin's windows-shortcut commit landed with rustfmt violations
(e.g. a 104-char .with_context line in hyprland.rs, an unsorted mod block in
vdisplay.rs, the input.rs `{`-placement CI flagged). Reformat the tree so the
fmt gate passes; no functional changes.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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4543a3f529 |
feat(video): HDR10/P010 end to end (phase 6)
The client now advertises VIDEO_CAP_10BIT|HDR and carries the result all the way to glass: - csc_rows is bit-depth exact (10-bit limited code points differ from 8-bit by ~half a code) and folds in the P010/X6 MSB-packing factor; new 10-bit white/black tests. - The CSC shader grows a params block: mode 0 passes the transfer through (SDR as-is, or PQ onto an HDR10 swapchain); mode 1 tonemaps PQ→SDR in-shader (ST.2084 EOTF, 203-nit reference white exposure, BT.2020→709, soft maxRGB rolloff, sRGB encode) for desktops without an HDR surface. PUNKTFUNK_TONEMAP_PEAK tunes the rolloff. - The presenter probes VK_EXT_swapchain_colorspace + an HDR10/ST.2084 10-bit surface format and flips modes in-band with the stream's PQ signaling: fence-quiesce, then CSC pass + video image (10-bit A2B10G10R10 intermediate — PQ in 8 bits bands) + overlay pipe + swapchain rebuild through the deferred-destroy rules. - P010 decodes through all three paths: Vulkan Video (X6 multiplanar pool, R10X6 plane views), VAAPI dmabuf (R16/RG1616 plane imports), software (swscale as before). - session pump advertises the caps; the host still gates Main10 behind its PUNKTFUNK_10BIT policy. Probed on glass hardware: the KDE/NVIDIA surface exposes A2B10G10R10+HDR10_ST2084, so true PQ passthrough is available there. Known v1 gaps: software-decode PQ shows untonemapped (8-bit RGBA carries the transfer baked); the SDR overlay composites unscaled onto an HDR10 surface (dim OSD); no vkSetHdrMetadataEXT yet. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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349d16382e |
fix(stats): decode stage measures GPU completion; Alt+Enter fullscreen alias
The Vulkan path's receive_frame returns at SUBMISSION (~0.1 ms) — the hardware decodes asynchronously, so the decode stat was truthful but measured the wrong boundary. The pump now ships the frame to the presenter FIRST, then waits the frame's timeline fence (vkWaitSemaphores resolved through the shared device's proc chain) and stamps received→decode-COMPLETE — true NVDEC time at zero pipeline cost, since the presenter's own GPU wait is what actually gates sampling. Software/ VAAPI keep their synchronous stamps. Also: Alt+Enter joins F11 as the fullscreen toggle (some keyboards' Fn layer sends a media key for plain F11 — observed on glass as 'F11 only works with shift'); the shell's shortcuts panel lists both. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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a5bb5ec4d5 |
fix(input): pointer lock + the missing per-iteration motion flush
Two capture bugs compounding into 'sluggish and not captured': 1. flush_motion was never called from the run loop — the GTK client's frame-clock tick flushed pending motion every frame, and the port lost it. Pure mouse movement only reached the host when a click/key/ scroll happened to flush it; the host cursor simply didn't follow. Now one coalesced MouseMove per loop iteration. 2. Capture forwarded ABSOLUTE letterboxed coordinates with no pointer confinement (GTK parity, the plan's deferred 'stage-2' item): the visible local cursor outran the host cursor by the full e2e and escaped the window. Capture is now real pointer lock — SDL relative mouse mode (hidden, confined, raw deltas) with relative MouseMove on the wire, so the host cursor is the only cursor. Also: focus-gain re-engages after an auto-release (Alt-Tab undoes itself; the startup focus race can no longer strand the session uncaptured) while a chord release stays released until the user opts back in. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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92f078adaf |
fix(host): survive Bazzite's SDDM session supervisor in the gamescope takeover
Diagnosed live on the .181 Bazzite F44 box (couldn't connect at all; field reports of streams dying after 30 s-5 min): Bazzite autologs into game mode via SDDM with Relogin=true, so the moment the managed takeover stops gamescope-session-plus@<client>, SDDM logs back in and restarts it within the same second. The resurrected autologin session then fights our transient session-plus over the Steam single instance and the GPU for the whole stream: its wrapper relaunches gamescope every ~7 s (each one missing the wrapper's hard 5 s readiness window on a slow NVIDIA init), the churn SIGSEGVs gamescopes, and eventually the streaming gamescope dies with it. Meanwhile a client that gave up left the pipeline-rebuild retry loop SIGKILLing and relaunching the box's Steam session for up to ~6 more minutes. - stop_autologin_sessions: runtime-mask each autologin unit before the SIGKILL stop, so no supervisor can restart it underneath the stream; match every loaded instance (the unit flaps through activating/failed mid-churn). Every restore path unmasks unconditionally (including the desktop-active early return), and --runtime keeps the mask in tmpfs so a reboot clears it. - launch_session: supervise the transient unit while polling for the node — the session-plus wrapper kill -9s a gamescope that missed its 5 s readiness handshake and exits 1, so relaunch it (after a short driver-settle cooldown) instead of waiting the rest of the 45 s on a corpse. - build_pipeline_with_retry: abort between attempts once the session's QUIC connection is closed — no more minutes of Steam churn for a departed client. Validated live on .181: cold-boot connect streams 2059 frames/45 s (p50 5.1 ms), zero SDDM resurrections while masked, TV session restored+unmasked on disconnect, warm same-mode reconnect reuses the session (866 frames/15 s). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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7257bcb6a6 |
fix(host): preserve a physical monitor's refresh when adding a virtual display
Connecting reset an existing physical monitor's refresh (e.g. 120->60 Hz) because the topology code read the physical's mode AFTER the virtual output perturbed the compositor layout — by which point it had already been downgraded. Read/preserve each physical's mode from a pre-connect snapshot. - Mutter: build_primary_keeping_physicals takes the pre-virtual snapshot and preserves each physical's real mode (pick_keep_mode, unit-tested) - KWin: capture each output's mode when disabling for exclusive, re-assert it on re-enable (a bare enable defaulted to ~60 Hz) - Windows: skip the refresh-resetting SDC_TOPOLOGY_EXTEND when a physical is already active Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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79c4f4cbc1 |
feat(host): user-defined custom display presets
Save named bundles of the display-management policy (the six behavior axes
plus the game-session axis) as custom presets, alongside the built-ins. A
custom preset is data — stored in <config>/display-presets.json — not a Preset
enum variant, so DisplayPolicy::effective() stays pure and the built-in set is
untouched; applying one writes a Custom policy via the existing PUT
/display/settings.
- policy.rs: CustomPreset/CustomPresetInput + load/add/update/delete store
- mgmt.rs: GET/POST /display/presets + PUT/DELETE /display/presets/{id},
surfaced on GET /display/settings
- web console: custom-preset cards with save-as / edit / delete + i18n
- regenerated api/openapi.json; docs
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
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1992eb1c52 |
feat(host): game-mode integration + dedicated game sessions
Implements design/gamemode-and-dedicated-sessions.md (Parts A1-A5 + B0-B2):
reconciles the merged display-management registry with session-mobile
Bazzite/SteamOS hosts and adds a per-launch dedicated gamescope mode.
- A1 DisplayOwnership {Owned,External,SessionManaged} + poolable_now(): the
registry pools only what it owns, so gamescope managed/attach outputs are no
longer double-owned by the registry AND the gamescope restore worker (fixes
the game-mode-reconnect stale-node wedge).
- A2 validated reuse: (backend,mode,launch,epoch) reuse key + kept_display_alive
liveness probe + reused_gen/mark_failed on a reused-display first-frame failure.
- A3 policy-driven managed restore (keep_alive replaces the hardcoded 5s debounce;
forever = held = gaming-rig truthful) + crash-restore persist + SIGKILL teardown
(kill_unit, applied to our transient unit AND the autologin stop -- validated
live on .181 to avoid the F44 GPU-context leak).
- A4 session epoch: observe_session_instance bumps the epoch + invalidate_backend
on a desktop-compositor instance change; gamescope spawns are exempt.
- A5 per-spawn log + PID-scoped gamescope node discovery.
- B0 game_session {auto,dedicated} policy (top-level, preset-orthogonal) +
pick_gamescope_mode dedicated_launch + steam -silent command shaping.
- B1 free the autologin Steam before a dedicated Steam spawn (single-instance).
- B2 game-exit -> APP_EXITED_CLOSE_CODE (0x52) clean session end.
Adversarially reviewed (11 findings fixed). Validated on glass (.181 Bazzite F44,
RTX 4090): dedicated spawn streams a real game smoothly; keep-alive reuse; the
SIGKILL fix avoids the F44 vkCreateDevice leak. Workspace green
(build / test --workspace / clippy -D warnings / fmt), OpenAPI + C header
regenerated, web console tsc + vite build green. clients/probe: bump the
no-video timeout 8s->45s for gamescope cold starts.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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07c8b868e6 |
style(host): cargo fmt --all (rustfmt 1.9.0 drift)
The CI image's rustfmt reformats these files (multi-line assert!/tracing! macros, match-arm and struct-variant wrapping) — pre-existing drift that the Format job caught. Reformat to match. Pure formatting; no logic change. main.rs also gets a blank line before a standalone comment so rustfmt stops mis-indenting it as a trailing-comment continuation. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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51c8dda585 |
feat(vdisplay/mutter): pin the client's refresh by default; drop PUNKTFUNK_MUTTER_VIRTUAL_REFRESH
The >60 Hz virtual-monitor path (RecordVirtual "modes" with the client's exact WxH@Hz) was gated behind PUNKTFUNK_MUTTER_VIRTUAL_REFRESH, default OFF, after a high-refresh virtual CRTC SIGSEGV'd gnome-shell on session teardown. That crash was since fixed by stopping the screencast before any monitor reconfig, so the gate is dead weight — and a silent footgun: every non-headless GNOME client was capped at Mutter's PipeWire-derived 60 Hz unless they knew the hidden flag. Make it the default: the custom-mode path now runs whenever mode.refresh_hz > 60 (≤60 Hz stays byte-identical to before — Mutter's 60 Hz default is already correct), and the virtual_refresh_enabled() env read is removed. Docs updated (configuration.md env table, vrr-plan.md reference). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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b19382af17 |
fix(vdisplay/windows): Windows clippy — per-block SAFETY comments + then_some
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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ac030bbda0 |
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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e8531a9eac |
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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e77d7a6834 |
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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60b30fbc24 |
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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43e035de41 |
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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a613f16b7d |
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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6ddce1049b |
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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bc7cb04338 |
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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c0f3ae59ab |
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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bfc7f91e19 |
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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85e8400028 |
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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b0bc15af8e |
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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a0281289c0 |
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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9d32cb58ee |
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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ed0881a9b9 |
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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b988053a31 |
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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21f3c1326f |
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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7455404abb |
fix(windows-host): claim the vdisplay single-instance guard eagerly at serve startup
On-glass the lazy (first-session) claim let a second host started while the freshly-restarted service sat idle win the mutex and ADD a monitor on the real driver — priority backwards. The claim is now a process-global, retryable slot (a failed claim is not memoized, so it heals once the other instance exits), and `serve` claims it before any client can connect; ensure_device keeps the lazy claim for standalone punktfunk1-host runs. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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ecbd36af1c |
fix(windows-host): second-host guard — classify ACCESS_DENIED on the instance mutex as in-use
On-glass the SCM service creates Global\punktfunk-vdisplay-manager as SYSTEM, so a second elevated-admin host's CreateMutexW fails ACCESS_DENIED (the implicit open is checked against the SYSTEM DACL) before the ALREADY_EXISTS branch can fire — right refusal, wrong message. Map it to the same loud "another instance is live" error. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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c33bdeab15 |
fix(windows-host): cross-plane IDD serialization, linger-expiry race, second-host guard
Batch C of the audit's medium tier (M7+M8+M9): - M7: GameStream sessions now run the same begin_idd_setup dance as punktfunk/1 before creating the shared monitor. A GS connect could previously ADD/reconfigure the monitor while a native session was mid-build (and vice versa), and its sealed-channel delivery replaced the native ring (newest-wins) — each plane could freeze the other. GS has no cooperative stop plumbing, so it registers a flag nobody reads: a later session signals it, waits the 3 s grace, then force-preempts — the intended handover. - M8: the linger-expiry teardown now runs UNDER the state lock. Running it outside let a concurrent acquire see Idle and ADD+isolate while the old monitor's pinger-join / CCD-restore / REMOVE were still in flight — a failed or de-isolated session exactly at the expiry boundary. A racing acquire now waits the few teardown seconds instead. Lock order stays state → device everywhere; the pinger takes only the device lock. - M9: a named mutex (Global\punktfunk-vdisplay-manager) makes a SECOND host process fail its vdisplay open loudly instead of firing a startup CLEAR_ALL that razes the live host's monitors mid-stream (the admin footgun the shared watchdog then masked). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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4f8b1b1832 |
fix(windows-host): self-heal the hostless-zombie pf-vdisplay device (adapter cycle + re-probe)
Fault-injection on-glass showed a killed/crashed WUDFHost leaves the devnode "started" but HOSTLESS: PnP Status OK, no WUDFHost process, zero device- interface instances — is_available() then fails every future session at the vdisplay::open gate (and a reopen inside VdisplayDriver::open finds nothing), until something cycles the device. Port reset-pf-vdisplay.ps1's adapter disable→enable step in-process (restart_vdisplay_device): the open gate now uses ensure_available() (cycle once + bounded re-probe; a genuinely uninstalled driver — no adapter devnode — still fails fast), and VdisplayDriver::open retries open_device over a short arrival window after a cycle, covering the manager's reopen path too. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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341b31f7c1 |
fix(windows-host): IDD-push resilience — driver-death recovery, reopenable control device, full interface discovery
Batch A of the audit's medium tier (M1+M2+M3): - M1 driver-death detection: a dead WUDFHost stops publishing, which at the ring is indistinguishable from an idle desktop — SDR sessions streamed a frozen frame forever (next_frame's 20 s bail is unreachable once anything presented). The ChannelBroker's process handle now doubles as a liveness probe (SYNCHRONIZE at OpenProcess); while no fresh frame arrives, try_consume polls it (rate-limited) and fails the capturer, landing in the session's bounded in-place rebuild. - M2 reopenable control device: the manager's OnceLock-cached handle is now a retire/reopen DeviceSlot — a gone-classified IOCTL failure (driver upgrade / WUDFHost restart; pinger, create, or REMOVE) retires the handle and the next use reopens + re-handshakes. Retired handles are deliberately kept alive forever: bare-HANDLE holders (pinger, ChannelBroker) rely on never-closed, and a retired handle only fails IOCTLs. CLEAR_ALL runs on the FIRST open only (a reopen races live-ish sessions); acquire retries the monitor create once after a reopen. The JOIN path now probes the active monitor's WUDFHost pid and preempts a DEAD monitor instead of handing the rebuilding session its stale target — without this the whole recovery chain starved to the rebuild budget. - M3 interface discovery: enumerate ALL interface instances with an SPINT_ACTIVE filter (a Code-10 devnode at index 0 no longer shadows the live interface), HDEVINFO behind RAII (error paths leaked one per probe), the raw device handle wrapped before GET_INFO (leaked on handshake failure), and the detail-sizing result guarded before the cbSize write. - pf-driver-proto: SetFrameChannelRequest doc now states the real adopt-on-success contract (the old wording invited a driver-side close-on-error — a cross-process double-close against the host's reap). - install: pf_vdisplay_present() passes /connected so a phantom devnode can't suppress creating a live ROOT node. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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ea8e996989 |
fix(windows): IDD-push audit highs — keyed-mutex timeout, two per-frame leaks, IDD_PUSH knob, pooled-device threading
Five verified findings from the IDD-push/pf-vdisplay deep audit: - Keyed-mutex acquire (BOTH endpoints): AcquireSync returns WAIT_TIMEOUT (0x102) / WAIT_ABANDONED (0x80) as SUCCESS-severity HRESULTs, which the windows-rs Result wrapper erases — a busy slot read as "acquired", so driver and host could race the same ring texture (torn frames) and the designed busy-skip backpressure was dead code. Both sides now classify the raw vtable HRESULT; WAIT_ABANDONED counts as acquired (ownership transfers — refusing it would wedge the slot forever). - Host SDR hot path leaked one ID3D11VideoProcessorInputView per converted frame: the D3D11_VIDEO_PROCESSOR_STREAM ManuallyDrop field suppressed the release after VideoProcessorBlt. Released by hand now, success or not. - Driver leaked IddCx's per-acquire surface reference (from_raw_borrowed on a TRANSFERRED reference — the MS sample Attach/Reset's it): the swap-chain surface set survived swap-chain destruction, the likely true root cause of the ~50 MB-per-reconnect VRAM loss that device pooling only mitigated. Now adopted via from_raw (publisher or not) and dropped pre-Finished. - PUNKTFUNK_IDD_PUSH removed: capture is unconditionally IDD-push, but the vdisplay manager still gated the lingering-monitor preempt (and render pin) on the knob, whose default was OFF — dev/CLI runs reused a lingering monitor whose IddCx swap-chain is dead (black reconnect). The preempt and the render-GPU pin are now unconditional; host.env comments no longer promise the removed DDA/WGC fallback. - Driver D3D device: dropped D3D11_CREATE_DEVICE_SINGLETHREADED (unsound since DEVICE_POOL shares one device across processors) and the pooled immediate context is now SetMultithreadProtected — two concurrent monitors' workers otherwise race an unlocked context (UB in the UMD). No wire-contract change (pf-driver-proto untouched); the driver fixes take effect on the next pf-vdisplay redeploy. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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8b47be668f |
feat(host/windows): seal the host↔driver channels (frame + gamepad, proto v2)
Frame ring (pf-vdisplay) and both gamepad SHM channels move off named Global\ objects (openable by any sibling LocalService) to UNNAMED sections/events whose handles the host DuplicateHandles into the driver's verified WUDFHost with least access — frame delivery over the SYSTEM+admins-only IOCTL_SET_FRAME_CHANNEL, pads over a 32-byte named bootstrap mailbox (pid + handle value only, DoS-bounded; HID minidrivers have no control device). Driver-validated pad_index kills cross-pad redirects; v1↔v2 mixes fail closed with diagnosis logs on both sides. Sibling-LocalService denial proven empirically (design/idd-push-security.md, design/gamepad-channel-sealing.md). Driver-side raw ops now live behind pf-umdf-util (checked shm accessors, the forbid(unsafe_code) ChannelClient state machine, WDF request tokens) — the pad drivers' logic is 100% safe Rust; whole drivers workspace clippy-gated in CI. driver install --gamepad now sweeps SWD\punktfunk phantom devnodes: a re-created SwDevice REVIVES the old devnode with its previously-bound driver (never re-ranks), so an upgrade otherwise leaves the old driver serving — or, across the v1→v2 fence, a dead pad (found live on the RTX box). On-glass validated on the RTX 4090 box: frame path 7007 frames p50 2.06 ms cross-machine; DualSense + XUSB "sealed pad channel mapped"/proto=2 attach via both the test harness and a real streaming session; phantom-sweep repro. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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dacc3b5209 |
feat(host,web): multi-GPU selection — GPU inventory + preference API, web-console GPU card
- new crate::gpu (compiled on all platforms so the OpenAPI doc stays platform-independent): DXGI / sysfs GPU inventory with reboot-stable ids (PCI vendor:device + occurrence — LUIDs are per-boot), persisted auto/manual preference (<config>/gpu-settings.json, atomic temp+rename with in-memory rollback), one selection with precedence console preference > PUNKTFUNK_RENDER_ADAPTER > max VRAM and graceful fallback when the preferred GPU is absent, plus a live "in use" record (RAII session guard wrapped around every encoder open_video returns) - fix: windows_gpu_vendor derived the encoder backend from DXGI adapter 0 instead of the selected render adapter — on a hybrid box (e.g. Intel iGPU at index 0 + NVIDIA dGPU) the backend could disagree with the GPU the capture ring / IddCx render pin sit on. The NVENC 4:4:4 probe now also runs on the selected adapter (was: OS default), the codec/4:4:4 probe caches are keyed per selected GPU (were process-lifetime OnceLocks), and an explicit PUNKTFUNK_ENCODER conflicting with the selected GPU's vendor warns up front - mgmt API: GET /api/v1/gpus (inventory + mode + preferred + next-session selection with reason + in-use GPU/backend/session-count) and PUT /api/v1/gpus/preference (validates mode/gpu_id before writing); openapi.json regenerated; the vdisplay render pin now also engages for a console preference (not just the env pin) - web console: GPU card on the Host page — list with vendor + VRAM, Automatic / Prefer controls, Preferred / Next session / "In use · backend" badges, missing-preferred-GPU warning and env-pin note; en + de messages - Linux: a matched manual preference picks the VAAPI render node and the NVENC-vs-VAAPI auto choice; auto mode is exactly the previous behavior Validated live on the hybrid laptop (RTX 3500 Ada + Intel Arc Pro, which enumerates twice — the occurrence ids disambiguate): enumerate, prefer, bad-id 400, restart persistence, auto-restore keeping the stored pick. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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138a6ed57d |
fix(host): make client game launches work on every Linux compositor
Client-initiated launches (Hello.launch / GameStream applist) were only wired to gamescope's bare-spawn path via the process-global PUNKTFUNK_GAMESCOPE_APP env — which leaked across sessions, was never read by kwin/mutter/wlroots (launch was a silent no-op there), and was unreachable on gamescope anyway because apply_input_env unconditionally defaulted to the managed session (which bails on non-Bazzite/SteamOS boxes and ignores the launch command in all its modes). - Thread the launch per-session: resolve the library id at handshake, carry it on SessionContext (Windows: id; else: resolved command), and hand it to the backend instance via set_launch_command — the global env write is gone (the env stays as an operator fallback in spawn). - Gamescope sub-mode ladder (pick_gamescope_mode, pure + unit-tested): managed only when session-plus/SteamOS infra exists, attach for an explicit request or a foreign (non-host-descendant) gamescope, else bare spawn — which nests the launch and is now reachable on plain distros instead of the guaranteed managed-mode bail. - launch_session_command: one launch entry point for both planes once capture is live — desktop compositors plain-spawn into the retargeted session (the virtual output is primary); managed/attached gamescope spawns with the live session's DISPLAY/GAMESCOPE_WAYLAND_DISPLAY discovered from /proc (steam:// URIs also forward over Steam's own pipe). launch_is_nested gates bare spawn against double-launching. - GameStream unified onto the same dispatch; also nests library-id picks into gamescope (previously only apps.json cmd was nested). Validated live on the dev box up to the missing-GPU wall: handshake resolution, Spawn sub-mode on plain Ubuntu, gamescope spawned with the command nested. On-glass validation (kwin spawn on the streamed output, Bazzite/Deck managed forward) pending GPU reattach. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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bc8bdf7097 |
feat(windows-host): pf-vdisplay — fix the ADD/REMOVE wedge + per-client display-config persistence
Two phases of pf-vdisplay (IddCx virtual display) lifecycle work, both validated on-glass on the RTX box.
Phase 1 — fix the long-standing IOCTL_ADD 0x80070490 (ERROR_NOT_FOUND) wedge that ghost-monitor
slot-budget exhaustion produced under ADD/REMOVE churn (the reset-script/reboot recurring failure).
Validated: 43 reconnect-churn cycles, 0 wedges, monitor-node count flat at 1.
* driver: on IddCxMonitorArrival failure, tear the created-but-not-arrived monitor down with
WdfObjectDelete + reclaim its id — the asymmetric-with-the-create-failure-path leak that exhausted
the 16-monitor MaxMonitorsSupported budget; recover MONITOR_MODES from lock poisoning instead of
failing closed (defensive; the driver builds panic=abort).
* host: collapse the build-retry churn — hold ONE monitor lease across all build attempts and preempt
only on Lingering (not Active), so a cold start does 1 ADD not 8; reap not-present "punktfunk"
monitor PDOs on startup (the reset-script step-2 logic, in-process) and self-heal a detected
0x80070490 by reaping + retrying ADD; force-preempt a stuck-Active prior monitor on the
begin_idd_setup timeout (the safety net the Lingering-only preempt would otherwise drop).
Phase 2 — give each client (keyed by its cert FINGERPRINT) a STABLE virtual-monitor id (1..=15) so
Windows reapplies that client's saved per-monitor config (DPI SCALING) across reconnects, and two
clients never share/bleed config. Validated: distinct clients -> distinct ids (1, 2); the driver
honors the host's id (echoed resolved == preferred).
* proto: rename AddRequest._reserved -> preferred_monitor_id (offset 20) and AddReply._reserved ->
resolved_monitor_id (offset 12) — byte-compatible (offset asserts), NO PROTOCOL_VERSION bump, so a
pre-Phase-2 driver degrades gracefully to auto-id (the host detects it via the resolved echo).
* driver: create_monitor honors a host-supplied preferred id via resolve_id (range 1..=15, never
collides with a live monitor) and seeds the EDID serial + IddCx ConnectorIndex + ContainerId from it.
* host: a persisted LRU fingerprint->id map (%ProgramData%\punktfunk\pf-vdisplay-identity.json),
threaded to add_monitor via a set_client_identity no-op trait method (Linux/GameStream unaffected).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
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a93f84cadf |
fix(windows-host): IDD activation — resolve-first, force-EXTEND only as fallback
force_extend_topology() was added before the resolve loop to de-clone a fresh IDD on integrated-screen boxes (laptops), but its bare SDC_TOPOLOGY_EXTEND preset is ACCESS_DENIED from the Session-0 service context on a HEADLESS box and broke the IDD auto-activation there: resolve_gdi_name stayed None -> "not an active display path" -> black screen. That regressed the headless/primary platform (live RTX box). Revert to the proven |
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d8f13dc15d |
style(host): rustfmt the security-fix wrapping (cargo fmt --all --check)
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |