aa2041c910306e10454750317f0d9b13a1fffc5e
20 Commits
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03ad2406b6 |
fix(host/windows): layout-correct keyboard injection - semantic vs positional VKs
First-party punktfunk clients send US-positional VKs (the physical key's US-layout VK), GameStream/Moonlight clients send layout-semantic VKs (Sunshine's model). The SendInput injector previously resolved everything through the SYSTEM service's layout - on a German host that is the y/z swap and u-umlaut-on-o-umlaut scramble. GameStream ingest now tags its key events KEY_FLAG_SEMANTIC_VK (stripped from punktfunk/1 wire events so a network client can't flip the convention); the injector maps semantic VKs under the foreground app's layout and positional VKs through a fixed scancode table. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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f3986b8f82 |
feat(host/steam): shippable usbip/vhci_hcd virtual Deck + client leave-shortcuts
Steam Deck pass-through (design/steam-deck-passthrough-plan.md), code-complete + all CI checks green on Linux + adversarially reviewed; on-glass validation pending: - usbip/`vhci_hcd` virtual Deck transport (inject/linux/steam_usbip.rs) for non-SteamOS hosts (Bazzite/generic) — presents a real interface-2 USB Deck so Steam Input promotes it. In-process vhci attach (loopback OP_REQ_IMPORT handshake → sysfs attach) with a bounded `usbip`-CLI fallback; detach on drop. - Backed by a vendored, libusb-free trim of the `usbip` crate (crates/punktfunk-host/vendor/usbip-sim, MIT + NOTICE; host/cdc/hid + rusb/nusb removed; interrupt-IN paced by bInterval). - Selection ladder raw_gadget (SteamOS fast-path) → usbip (universal) → UHID, with PUNKTFUNK_STEAM_USBIP / PUNKTFUNK_USBIP_ATTACH knobs. - Shared Deck descriptors + the 0x83/0xAE feature contract + a Steam-accepted serial consolidated into steam_proto.rs; the raw_gadget backend reuses them. - Linux client leave-shortcuts: Ctrl+Alt+Shift+D + holding the escape chord (L1+R1+Start+Select) >=1.5s end the session (short press still exits fullscreen); the chord state resets across sessions. Also bundles in-progress work already staged in the tree: - host(kwin): xdg-output logical-geometry mapping so the KWin fake_input backend places absolute coordinates correctly under display scaling. - docs: design/README index entries + design/controller-only-mode.md. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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3cc8f7dc65 |
feat(host/steam): raw_gadget Deck host backend (Steam-Input path, opt-in)
Port the proven raw_gadget virtual Deck to a Rust host gamepad backend, the SteamOS-only transport that gets Steam Input to actually promote the Deck. - inject/linux/steam_gadget.rs (new): SteamDeckGadget — a userspace raw_gadget emulator of the real 3-interface USB Deck (mouse=0/keyboard=1/controller=2, 28DE:1205) on a dummy_hcd loopback UDC, descriptors captured from a physical Deck, answering every control transfer incl. the HID feature reports. Driven by the same steam_proto::serialize_deck_state as the UHID pad; rumble feedback via parse_steam_output. The raw_gadget UAPI is funneled through 4 documented ioctl wrappers (the crate denies undocumented unsafe). - inject/linux/steam_controller.rs: the manager pad is now a DeckTransport enum (Uhid | Gadget); ensure() prefers the gadget when PUNKTFUNK_STEAM_GADGET=1 (best-effort modprobe dummy_hcd+raw_gadget), gracefully falling back to the universal UHID SteamDeckPad. write/pump/heartbeat dispatch through the enum. Validated on a real Deck via a static musl harness that #[path]-includes the module: enumerates, hid-steam binds + reads our serial + creates the Steam Deck + Motion Sensors evdevs — identical to the C PoC. Caught a real portability bug: raw_gadget's no-arg ioctls (RUN/CONFIGURE/EP0_STALL) reject a non-zero `value` with EINVAL, and on musl an omitted ioctl vararg is a garbage register — so they must pass an explicit 0. Opt-in (default off) while the Steam GetControllerInfo feature contract is hardened (to stop the gamepad-evdev churn). Workspace clippy/fmt/test green. Not pushed. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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71e0cace77 |
feat(host/steam): M5 — fallback remap, motion rescale, degrade ladder
Keep the rich Steam inputs from silently dropping when the resolved backend
isn't the virtual hid-steam device, and fix a cross-device motion-scale bug.
- inject/proto/steam_remap.rs (new, pure + unit-tested):
* motion_wire_to_deck — the wire carries DualSense-convention units (20 LSB/
deg.s gyro, 10000 LSB/g accel — what every client capture emits), but the
Deck's hid-steam report wants 16 LSB/deg.s + 16384 LSB/g. The Deck backend
now rescales (gyro x16/20, accel x16384/10000): a real Deck<->Deck gyro/
accel correctness fix (the DualSense/DS4 backends consume the wire 1:1).
* fold_paddles + RemapConfig (PUNKTFUNK_STEAM_REMAP=paddles=drop|stickclicks|
shoulders, default drop) — the DualSense + DS4 managers fold a client's back
grips onto standard buttons rather than dropping them (those pads have no
back-button HID slot; the uinput Xbox pad already exposes them as Elite
paddles BTN_TRIGGER_HAPPY5-8).
- resolve_gamepad: a runtime degrade ladder — a UHID backend (DualSense / DS4 /
Steam Deck) on a host where /dev/uhid isn't writable now falls back to the
uinput Xbox 360 pad instead of a dead controller (the device-create would
just fail). Separate from pick_gamepad's compile-time platform check, so the
existing pick_gamepad tests are untouched.
- Delete the throwaway M0/M1 spike (src/bin/steam_uhid_spike.rs) — M2's
#[ignore]d backend test subsumes its validation, and removing it frees
steam_proto to reference steam_remap cleanly.
On-box backend test still green; workspace clippy/fmt/test green (incl. the new
steam_remap tests). Deferred as optional RemapConfig growth: gyro->mouse /
trackpad->stick synthesis on an Xbox target (no slot — documented drop today).
Not pushed.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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baa20ef377 |
feat(host/steam): M2 — virtual Steam Deck as a wired PadBackend (Linux)
Make the virtual hid-steam device a selectable per-session host gamepad,
end-to-end on Linux: PUNKTFUNK_GAMEPAD=steamdeck now builds a
SteamControllerManager that creates a /dev/uhid 28DE:1205 Deck, enters
gamepad_mode, and feeds the byte-exact Deck report (M1).
- inject/linux/steam_controller.rs: SteamControllerManager / SteamDeckPad,
mirroring dualsense.rs (open/create2, GET/SET_REPORT pump, heartbeat, RAII
destroy). Two Steam-specific quirks beyond the DualSense path:
* gamepad_mode entry — best-effort `lizard_mode=0` via sysfs, plus a b9.6
creation pulse (MODE_ENTER) so steam_do_deck_input_event stops
early-returning, plus an anti-toggle guard (MENU_HOLD_CAP) so a long
in-game Start-hold can't flip gamepad_mode back off.
* UHID_SET_REPORT answered err=0 (DualSense omits it; the kernel stalls
~5s/cmd otherwise); the 0xEB rumble report parsed onto the 0xCA plane.
- core config.rs: GamepadPref::SteamDeck (wire byte 6) + SteamController
(byte 5, reserved — folds to Xbox360 until its backend lands); from_u8 /
from_name / as_str. Forward-compatible (unknown byte -> Auto); the C-ABI
PUNKTFUNK_GAMEPAD_* constants stay M3, so no generated-header drift.
- punktfunk1.rs: PadBackend::SteamDeck variant + select / handle / apply_rich
/ pump / heartbeat arms; pick_gamepad Linux arm.
On-box: an #[ignore]d backend test (backend_binds_and_input_flows) drives the
real SteamDeckPad — it binds hid-steam (gamepad + IMU evdevs), enters gamepad
mode, BTN_A reaches the evdev, and the device tears down on drop. Workspace
clippy/fmt/test green. Not pushed. Next: M3 (protocol/ABI wire) + M4 (client
capture).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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46b82d4eee |
fix(host/security): close audit findings S1,#1,#4,#10,#12,#7,#6,S2-S6 (Linux/cross-platform)
Remediations from design/security-review-2026-06-28.md verified on Linux (cargo check/clippy/test green; Windows-gated paths verify in CI): - S1 [HIGH]: bump quinn-proto 0.11.14 -> 0.11.15 (RUSTSEC-2026-0185, pre-auth out-of-order STREAM reassembly memory exhaustion on the always-on default QUIC listener). - #1 [HIGH]: remove the unauthenticated nvhttp `GET /pin` endpoint; the GameStream PIN is delivered ONLY via the bearer-gated mgmt API, so a network client can no longer submit its own displayed PIN and self-pair. - #4 [HIGH->MED]: gate the unauthenticated RTSP/UDP media plane on a paired `/launch` and bind it to the launching client's source IP (threaded through the HTTPS handler), so an unpaired peer can neither start capture on an idle host nor ride a paired client's active launch. - #12: bound concurrent parked pairing waiters (MAX_PARKED_WAITERS) so a pre-auth peer can't pin unbounded 300s handshakes. +regression test. - #10: throttle the per-packet ENet control GCM-decrypt-failed warn (exponential backoff) so a junk flood can't spam the log. - #7 [MED->LOW]: serialize all process-global env mutation on the session-setup path under a new vdisplay::ENV_LOCK (apply_session_env / apply_input_env / the launch-cmd set_var / the gamescope env read), so concurrent native sessions can't race set_var/getenv (data-race UB -> host-wide DoS). Full per-session SessionContext threading remains a follow-up for cross-session value confusion. - #6 [MED]: move the gamescope EIS socket relay from world-writable /tmp to $XDG_RUNTIME_DIR (per-user 0700) and reject a symlinked relay file, so a local user can't intercept (keylog) or deny the remote session's input. - S2: a malformed client Opus mic frame now drops that frame instead of tearing down the shared host-lifetime virtual mic (cross-session DoS). - S3: track held buttons/keys in capped HashSets (was unbounded Vec with O(n) scans) so a paired client can't grow per-session input state. - S5: reject fps==0/absurd at the open_video chokepoint (covers Hello, ANNOUNCE, Reconfigure) so the encoder time_base/pts math can't div-by-0. - S6: bound the shared mic mpsc (drop-newest when full). - S4: cap Epic launcher-cache reads (catcache.bin/.item) so a planted giant can't OOM the host during library enumeration. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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d0e071034a |
feat(host/input): headless KDE input via org_kde_kwin_fake_input
Desktop-mode (KWin) streaming had no input: the path was libei via the RemoteDesktop portal, which (a) isn't reachable from the host service env and (b) requires a human to approve "Allow remote control?" — a non-starter on a headless box. KWin's own headless RDP server (krdpserver) solves this with org_kde_kwin_fake_input, authorized by the exact same .desktop X-KDE-Wayland-Interfaces grant we already ship (org_kde_kwin_fake_input is listed alongside zkde_screencast_unstable_v1). Add a fake_input injector: vendor the protocol XML, bind the global as an ordinary Wayland client, authenticate (auto-accepted for an interface-authorized client — no dialog), and translate pointer (rel/abs), button, scroll, keyboard (raw evdev keycodes resolved by KWin's own keymap) and touch. Select it for KWin (compositor=="kwin" or XDG_CURRENT_DESKTOP KDE); GNOME stays on libei (it has neither fake_input nor the wlr protocols). PUNKTFUNK_INPUT_BACKEND=kwin forces it. cargo check + clippy + fmt green. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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759f871ff8 |
refactor(windows-host): shared Shm/SwDevice RAII for the 3 gamepad backends (Goal-3 unsafe reduction)
The DualSense, DualShock 4, and XUSB Windows pad backends each hand-rolled the SAME per-pad resource handling: a `CreateFileMappingW` + `MapViewOfFile` shared section (with the permissive D:(A;;GA;;;WD) SDDL the restricted-token driver needs) and an identical `Drop` doing `SwDeviceClose` + `UnmapViewOfFile` + `CloseHandle` — three copies, each a chance to drift or leak on an error path. New `inject/windows/gamepad_raii.rs` owns both resources with RAII: - `Shm` — the section handle (`OwnedHandle`) + its view; `Shm::create(name, size)` does the SDDL + map + zero-fill leak-safely, `base()` gives the mapped pointer, `Drop` unmaps then closes (in that order). - `SwDevice` — the `SwDeviceCreate`'d devnode; `Drop` calls `SwDeviceClose`. All three backends now hold `_sw: Option<SwDevice>` + `shm: Shm` instead of raw `hsw`/`map`/`view`, access the section via `self.shm.base()`, and have NO manual `Drop`. Deletes the duplicated `create_shm_section` (DualSense/DS4 now use `Shm::create`) and the three hand-written Drops; the DS4 device-type byte is still written before the magic, the SwDeviceCreate `None` fallback still works, and the field drop order (devnode removed, then section unmapped+closed) matches the old manual order. Net: 3 manual `Drop`s + a duplicated section-creation path → one shared RAII module; fewer unsafe ops, leak-on-error fixed by construction. Linux `cargo check` clean (the inject mod wiring); the backends are #[cfg(windows)] → CI-gated. Drafted + adversarially verified (no double-free, imports correct under -D warnings, behavior preserved); my own spot-checks confirm. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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fced221684 |
refactor(windows-host): confine platform code under windows/ + linux/ folders (Goal-1 stage 6)
Move 36 platform-specific files into per-module `windows/` and `linux/` subfolders (and the
shared HID codecs into `inject/proto/`):
capture/{windows,linux}/ encode/{windows,linux}/ inject/{windows,linux,proto}/
audio/{windows,linux}/ vdisplay/{windows,linux}/
src/windows/ (service, wgc_helper, win_adapter, win_display)
src/linux/ (dmabuf_fence, drm_sync, zerocopy/)
Done with `#[path]`, NOT a module rename: every file moves into its folder while the
`crate::*::*` module names stay FLAT, so all caller paths and every internal `super::`/`crate::`
reference are unchanged — only the parent `mod` decls gained `#[path = "..."]`. This is the
codebase's existing pattern (inject's gamepad_windows) and makes the move byte-identical in
behaviour with ZERO reference churn, far lower risk than collapsing to a single
`crate::capture::windows::` namespace (that deeper rename is an optional follow-on; this delivers
the cfg-sprawl folder confinement the stage is about). Done LAST, after the semantic stages, so
the path churn didn't fight them.
Verified: Linux cargo check + clippy (-D warnings) clean; my mod-decl changes fmt-clean (the 3
remaining fmt diffs are pre-existing local-rustfmt-version skew that moved with their files); all
36 `#[path]` targets exist; no internal `#[path]`/`include!`/file-child-mod in any moved file
(the inline `mod X {` blocks are self-contained). Box build to follow.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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f58c1438d7 |
feat(windows-host): finish HostConfig migration — resolve operator/dispatch knobs once (Goal-1 stage 2)
Migrate 31 genuinely-constant operator/dispatch env::var sites onto HostConfig, so the
capture/topology/encoder decision reads ONE owner instead of being recomputed at each call
site (the latent bug where capture and encode could disagree on the resolved backend, plan §2.4):
idd_push x7, no_wgc, capture_backend, render_adapter, encoder_pref (Linux open_video +
linux_zero_copy_is_vaapi), the Windows vdisplay-backend select, plus the plan-named
secure_dda/idd_depth/zerocopy/ten_bit and the multi-site perf x4 / compositor x5 /
video_source x3 / gamepad. Each HostConfig field's parser is byte-identical to the read it
replaced, so old==new by construction (the plan's "a flipped bool is a silent regression" guard).
Scope correction — the plan's "~64 sites / Linux XDG+compositor included / grep env::var -> 0"
was unsafe as written. Two classes are deliberately KEPT as live reads and documented in config.rs:
* Runtime-mutated session vars. vdisplay::apply_session_env REWRITES the process env on every
connect (the Bazzite Gaming<->Desktop follow): WAYLAND_DISPLAY, XDG_CURRENT_DESKTOP,
XDG_RUNTIME_DIR, DBUS_SESSION_BUS_ADDRESS, and the derived PUNKTFUNK_INPUT_BACKEND,
GAMESCOPE_SESSION/NODE, KWIN/MUTTER_VIRTUAL_PRIMARY, FORCE_SHM. Parsing these once would
freeze them at startup and silently break session-following — they are NOT constant.
* Single-use local tuning with no resolve-once benefit (and FEC_PCT even has two different
semantics): FEC_PCT, VIDEO_DROP, VBV_FRAMES, SPLIT_ENCODE, PACE_BURST_KB, the dxgi timing
knobs, the *_LIVE/test gates, plus path/dynamic reads (config-dir, PATH search,
env-forward-to-child). PUNKTFUNK_ZEROCOPY is split on purpose: Windows presence-semantics
moved to the field; Linux keeps its own truthy (1|true|yes|on) parser.
Verified: Linux cargo check + clippy (-D warnings) + fmt clean on the touched files. The
Windows-only edits are 1:1 substitutions; they get a real Windows compile on the box with Stage 3.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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8b6b4a32fa |
feat(gamepad): pure-user-mode Windows DualShock 4 + Xbox 360 (drop ViGEm) + installer + multi-pad
Windows virtual gamepads now have zero external dependencies - ViGEmBus is removed. - DualShock 4: Windows UMDF backend (inject/dualshock4_windows.rs + dualshock4_proto.rs), reusing the DualSense SwDeviceCreate game-detection identity fix. The one UMDF driver serves the DS5 or DS4 identity/descriptor/features/strings per a device_type byte the host stamps into shared memory. Driver also gains IOCTL_HID_GET_STRING and a 41-byte calibration feature. - Xbox 360: a new UMDF2 XUSB companion driver (packaging/windows/xusb-driver/) that registers GUID_DEVINTERFACE_XUSB and answers the buffered XInput IOCTLs from a shared section, so classic XInputGetState/SetState work with no kernel bus driver. inject/gamepad_windows.rs is rewritten to drive it and the vigem-client dependency is removed. Xbox One folds to the 360 XInput path. - Installer: vendor + pnputil-install the three UMDF drivers (packaging/windows/gamepad-drivers/ + install-gamepad-drivers.ps1, wired into pack-host-installer.ps1 + punktfunk-host.iss). - Multi-pad: the host stamps each pad index into the device Location (pszDeviceLocation); the driver reads it via WdfDeviceAllocAndQueryProperty to map its own *-shm-<index>, with UmdfHostProcessSharing=ProcessSharingDisabled giving each pad its own host (per-pad statics). Validated live on the Windows host: Cyberpunk native DualSense detection, DS4 identity + descriptor, XInputGetState + rumble round-trip, two pads -> two distinct XInput slots, and a full installer build. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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3548c70152 |
feat(gamepad): virtual DualSense on the Windows host (UMDF shm channel)
Wire the Windows UMDF DualSense driver into the host as a real pad backend, so a client that requests a DualSense gets a genuine one on a Windows host (instead of folding to Xbox 360). - Extract the transport-independent DualSense contract (DsState + from_gamepad, serialize_state, parse_ds_output, DUALSENSE_RDESC, feature blobs, DS_* consts) out of the Linux-only UHID backend into inject/dualsense_proto.rs, shared by both platforms; dualsense.rs is now just the /dev/uhid plumbing. - Add inject/dualsense_windows.rs: DualSenseWindowsManager mirroring the Linux DualSenseManager (same new/handle/apply_rich/pump/heartbeat surface) over a DsWinPad that creates the Global\pfds-shm-<idx> section (CreateFileMappingW + SDDL D:(A;;GA;;;WD) so WUDFHost can open it), writes serialize_state -> input slot, polls output_seq -> parse_ds_output -> rumble/hidout callbacks. - Un-gate the seam: PadBackend::DualSenseWindows arm; pick_gamepad gains a windows flag (DualSense honored on linux||windows; DS4/Xbox One stay Linux-only). Verified: Linux cargo test gamepad_resolution_precedence + clippy clean; Windows cargo check + clippy -D warnings clean (on the RTX box). Device lifecycle still uses an out-of-band devnode (devgen/installer); SwDeviceCreate per session is next. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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99ae1b9a17 |
feat(gamepad): add virtual Xbox One/Series + DualShock 4 pad types
Extends virtual-controller support beyond Xbox 360 + DualSense. Goal: a physical Xbox One or PS4 pad on the client gets a near-native matching virtual pad on the host, auto-resolved from the controller type. Protocol/core: - GamepadPref gains XboxOne (wire 3) + DualShock4 (wire 4); to_u8/from_u8/ from_name/as_str + C ABI PUNKTFUNK_GAMEPAD_XBOXONE/_DUALSHOCK4 constants (compile-time guard ties them to the enum). Single-byte wire form is unchanged, so it's forward-compatible (older peers degrade to Auto). Host (Linux): - New UHID DualShock 4 backend (inject/dualshock4.rs) bound by hid-playstation: lightbar, touchpad, motion, rumble — DualSense minus adaptive triggers / player LEDs / mute. Reuses the DualSense pure state + button mapping; only the report byte layout, the real-DS4 HID descriptor, the GET_REPORT handshake (0x12 MAC mandatory; 0x02 calibration; 0xa3 firmware) and the touchpad resolution (1920x942) differ. Touchpad/motion ride the existing 0xCC plane, lightbar the 0xCD Led plane (deduped); rumble the universal 0xCA plane. - Xbox One/Series is the uinput Xbox-360 backend parameterized with the One S USB identity (045e:02ea) for matching glyphs — XInput-identical otherwise. - PadBackend dispatch + resolver handle both; off Linux the UHID pads and One/Series fold into Xbox 360. Windows-host DS4 (ViGEm) deferred. Clients (auto-resolve physical pad -> virtual type, plus manual settings): - Linux/Windows (SDL3): SDL_GAMEPAD_TYPE_PS4 -> DualShock 4, _XBOXONE -> Xbox One; PadInfo carries the resolved pref; DS4 touchpad/motion capture + lightbar already type-agnostic. Linux settings combo + label updated. - Apple (GameController): GCDualShockGamepad/GCXboxGamepad detection, DS4 touchpad capture, settings picker entries. - Android (Kotlin): InputDevice VID/PID auto-detect (matching the other clients) + settings entries. - probe: --gamepad help/aliases. Also hardens the Android JNI boundary: wrap the teardown + poll-thread shims in catch_unwind so a panic degrades to a logged no-op instead of aborting the app. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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1e0d2e661f |
feat(host): Apollo-backlog hardening — cert gate, NVENC RFI, media QoS, async injector
A pass over the apollo-comparison backlog (re-verified against current code). Lands four items end-to-end plus a Windows-DualSense scoping doc. - #5/#92/#26 — GameStream paired-cert allow-list. tls.rs surfaces the verified peer cert to handlers (serve_https + PeerCertFingerprint, now shared with the mgmt API instead of duplicated); nvhttp gates /launch /resume /applist /cancel on AppState.paired and reports a real PairStatus; save_paired writes atomically (temp+rename). Closes the "mTLS accepts any client cert" hole. + regression test. - #6/#51/#19/#22 — NVENC caps query -> reference-frame invalidation. nvenc.rs query_caps probes nvEncGetEncodeCaps (max dims / 10-bit / custom-VBV / RFI), rejecting over-range modes and degrading 10-bit->8-bit instead of an opaque InvalidParam. New Encoder::invalidate_ref_frames (default false -> caller keyframes); the Windows NVENC path implements real RFI (multi-ref DPB + nvEncInvalidateRefFrames, dedup + IDR-on-overflow). control.rs decodes the 0x0301 lost-frame range (Apollo's IDX_INVALIDATE_REF_FRAMES) -> AppState.rfi_range -> encode loop, falling back to a keyframe. NOTE: the Windows NVENC impl is RTX-box/CI-pending (can't compile on Linux); adversarially reviewed vs the SDK. - #43/#72 — media socket QoS + buffer growth. New punktfunk_core::transport::qos: grow_socket_buffers (factored out the native plane's 32MB SO_SNDBUF growth so the GameStream sockets reuse it) + set_media_qos (opt-in PUNKTFUNK_DSCP=1: DSCP CS5 video / CS6 audio + Linux SO_PRIORITY, Apollo's scheme). Wired into UdpTransport and the GameStream video/audio sockets. Windows IP_TOS needs qWAVE (follow-up). - #8/#45 — GameStream input injection off the ENet service thread. on_receive no longer injects inline (a slow inject head-blocked ENet keepalive/retransmit); it forwards to a dedicated injector thread. The hardened InjectorService moved from punktfunk1 into crate::inject (shared by both planes) + a coalesce step that sums adjacent relative-mouse/scroll deltas while preserving button/key/abs ordering. Docs: re-verified apollo-comparison.md status (22 items already done/obsolete since the snapshot) + windows-dualsense-scoping.md (ViGEm can't emulate a DualSense; real DS5 on Windows needs a VHF virtual-HID driver — web-research pass pending). fmt + clippy -D warnings clean; full workspace test suite green; no C-ABI/OpenAPI drift. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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50dec9e7cb |
style(host/windows): rustfmt the Windows backends
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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46faa0dfc9 |
feat(host/windows): ViGEm virtual gamepad backend
Windows GamepadManager via vigem-client (ViGEmBus) — the uinput-xpad analogue: one virtual Xbox 360 controller per client pad index, created lazily on first State. GameStream/Moonlight already uses the XInput conventions (low-16 button bits, sticks -32768..32767 +Y up, triggers 0..255), so the GamepadFrame->XGamepad mapping is 1:1. Replaces the non-Linux GamepadManager stub (same new/handle/pump_rumble API the m3 PadBackend drives, so no m3 change). Graceful when ViGEmBus is absent (gamepad disabled, session continues). Compiles clean on Windows + Linux; live-test needs the ViGEmBus driver + a physical pad. Rumble back-channel is a TODO (ViGEm notification API). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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87ecd7e7ac |
feat(host/windows): SendInput input-injection backend
Windows InputInjector via SendInput (Win32 KeyboardAndMouse), mirroring the wlroots backend: absolute mouse (MOUSEEVENTF_VIRTUALDESK normalized to the virtual desktop), relative mouse, scancode keyboard (MapVirtualKeyExW + extended-key flagging), scroll (no sign flip — Windows wheel matches GameStream), buttons. Client already sends Windows VK codes (no keycode table). Reattaches the thread to the input desktop (OpenInputDesktop/SetThreadDesktop) to survive UAC/lock switches. New Backend::SendInput, the Windows auto-default in default_backend(), open() arm, windows-crate features. Compiles clean on Windows + Linux. Live injection validates with the in-session host run (SendInput is desktop-isolated from an SSH network logon). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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fcd36f34d1 |
fix(inject/mutter): GNOME input via Mutter's direct EIS, not the xdg portal
On a headless GNOME host the xdg-desktop-portal RemoteDesktop Start() blocks on an
interactive "Allow remote control?" approval nobody can click, so libei input timed out
("EIS setup timed out") and neither mouse nor keyboard worked — even though video worked
(it uses Mutter's direct RemoteDesktop API).
Add EiSource::MutterEis: obtain the EIS fd from
org.gnome.Mutter.RemoteDesktop.Session.ConnectToEIS (CreateSession → Start → ConnectToEIS),
no portal and no approval. Selected for GNOME/Mutter; KWin keeps the RemoteDesktop portal,
gamescope keeps its own EIS socket.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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64f664476b |
feat(host): virtual DualSense via UHID (hid-playstation) — device + report mapping
Roadmap #5 (rich DualSense). A UHID device presents a real Sony DualSense to the kernel's hid-playstation driver (matched by VID 054C/PID 0CE6), which exposes the full controller — gamepad, motion sensors, touchpad, lightbar/player LEDs, adaptive triggers — unlike the uinput X-Box-360 pad. - inject/dualsense.rs: hand-rolled /dev/uhid codec (no bindgen) mirroring the uinput style; the canonical inputtino 232-byte USB HID report descriptor + the feature-report replies (calibration 0x05 / pairing 0x09 / firmware 0x20) — answering hid-playstation's GET_REPORTs during init is REQUIRED or it creates no input devices. DsState::from_gamepad maps a GameStream/XInput frame → the DualSense input report (buttons/sticks/triggers/dpad, + touchpad/motion fields); service() answers GET_REPORTs and parses HID OUTPUT (rumble / lightbar RGB / player LEDs / adaptive triggers) into quic::HidOutput. - scripts/60-punktfunk.rules: grant /dev/uhid to the 'input' group (like /dev/uinput). - `punktfunk-host dualsense-test`: standalone validation (no streaming session). Validated live: `dualsense-test` → hid-playstation binds + loads ff_memless + led_class_ multicolor; the kernel creates "Punktfunk DualSense 0" (event/js gamepad + Motion Sensors + Touchpad + Headset Jack) at VID 054c/PID 0ce6, plus the lightbar at /sys/class/leds/ input*:rgb:indicator; js shows the Cross button firing + the left-stick sweep. Clippy/fmt clean, workspace tests green. Wiring into the session (pad-type select, touchpad/motion routing, HID-output back-channel) is the next commit. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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8cceb93541 |
rename: lumen → punktfunk, everywhere
Full project rename, decided 2026-06-10: - Crates/binaries: punktfunk-core / punktfunk-host / punktfunk-client-rs. - C ABI: punktfunk_* symbols, Punktfunk* types, include/punktfunk_core.h, PUNKTFUNK_FEATURE_QUIC guard (header regenerated; cbindgen renames updated, incl. PUNKTFUNK_BTN_*/PUNKTFUNK_AXIS_* wire constants). - Protocol: punktfunk/1 — control-plane magic LMN1 → PKF1, nonce salt lmn1 → pkf1. WIRE BREAK: clients must be rebuilt from this revision. - Env knobs: PUNKTFUNK_VIDEO_SOURCE / PUNKTFUNK_COMPOSITOR / PUNKTFUNK_ZEROCOPY / …. - Host config dir: ~/.config/punktfunk (the box's dir was migrated in place — the persistent identity is unchanged, pinned fingerprints stay valid). - Swift package: PunktfunkKit + PunktfunkCore.xcframework + PunktfunkConnection (Sources/PunktfunkClient app + tests renamed with it); build-xcframework.sh updated. - scripts/: 60-punktfunk.rules, punktfunk-host.service; OpenAPI doc regenerated. Also: scripts/headless/run-headless-kde.sh — full headless Plasma bringup. Root cause of "desktop but no apps/settings" over the stream: plasmashell launched without XDG_MENU_PREFIX=plasma-, so the launcher resolved a nonexistent applications.menu and rendered an empty menu. The script sets the complete KDE session env (menu prefix, KDE_FULL_SESSION, session version) and rebuilds ksycoca before starting plasmashell. Gate: 97/97 tests, clippy -D warnings (both feature sets), fmt, C-ABI harness PASS, zero lumen references left outside .git. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |