All seven virtual-pad managers (Linux uinput/uhid: gamepad, dualsense,
dualshock4, steam_controller; Windows XUSB/UMDF: gamepad, dualsense,
dualshock4) carried an identical copy-pasted `broken: bool` latch that
was set on the FIRST pad-creation error and never cleared — so a single
transient failure (a startup race on /dev/uinput, a momentary EBUSY, the
Windows companion driver not yet ready) permanently disabled EVERY
controller for the rest of the session, even after the cause cleared.
Extract that latch into one shared, unit-tested `PadGate`
(inject/pad_gate.rs) with the fix baked in: capped exponential backoff
(1s doubling to 30s) instead of a permanent kill. After a failure,
creation is blocked only until the backoff elapses — so the manager no
longer re-attempts (and re-logs) on every one of the 60–240 input
frames/sec — then a single retry is allowed; a success resets the
backoff. A genuinely broken setup therefore self-heals within one
backoff window of the fix (udev reload / driver install / next client
connect) with no host restart. The gate is manager-wide, matching the
old flag's semantics (these failures are systemic, not per-slot).
This folds G3 (broken latch) into G12 (dedup the manager skeleton): the
latch now lives in one place across all seven backends.
Verified on the Linux host build (.21): cargo clippy -D warnings clean,
full punktfunk-host suite 277 passed / 0 failed, 4 new PadGate tests
green. Windows managers verified separately on the x64 box.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
A Deck client asking for 'steamdeck' on a Windows host resolved to Xbox360,
whose apply_rich is a no-op — gyro and both trackpads silently discarded.
Windows already ships a full DualSense backend (UMDF driver, touchpad +
motion, wire units 1:1), so pick_gamepad now folds SteamDeck -> DualSense
there.
The three near-identical DualSense-family appliers (Linux UHID, Windows
DualSense, Windows DS4) are hoisted into one shared
dualsense_proto::DsState::apply_rich, with two mapping upgrades for Steam
dual-pad clients everywhere:
* the Deck's two pads SPLIT the single DualSense touchpad — left pad ->
contact 0 on the left half, right pad -> contact 1 on the right half —
mirroring the physical thumb layout and the split-pad zones games and
Steam Input already use (the left pad was previously dropped outright)
* TouchpadEx pad clicks now press the touchpad-click button (persisted
in DsState::touch_click, OR-ed in by both serializers; previously
dropped by every DualSense-family backend, Linux included)
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
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>
The gamepad drivers have no IOCTL plane (hidclass gates the stack), so
until now the host had ZERO visibility into whether a driver ever
bound: a pad could be "created" with no driver installed and nothing
was logged. Two health fields are carved from reserved shm space
(layout-compatible; pf-driver-proto pins the offsets): driver_proto —
stamped by pf-xusb at device add + per serviced XInput IOCTL (movement
= the game-visible path) and by pf-dualsense/DS4 from its ~125Hz timer
— and driver_heartbeat. Host-side, every pad owns a DriverAttach
watcher fed from the existing service() poll: INFO on attach (WARN on
proto mismatch), and after 3s of silence ONE diagnosis WARN combining
a cached pnputil /enum-drivers store check, the devnode's CM problem
code (CM_Locate_DevNodeW/CM_Get_DevNode_Status on the instance id now
captured from the create callback, with plain-language hints: 28 = not
installed, 52 = signature/Memory Integrity, …) and the driver's debug
log path. Also fixes a real bug both SwDeviceCreate wrappers shared:
the 10s WaitForSingleObject result was ignored and the callback
HRESULT zero-initialised, so a PnP timeout read as SUCCESS (now E_FAIL
init + explicit timeout error). Failure-mode table:
design/gamepad-driver-health.md.
Linux workspace green; Windows host + drivers CI-compile only, on-box
recipe at the bottom of the design doc.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Carry the rich Steam Controller / Steam Deck inputs end-to-end on the wire —
strictly additive + forward-compatible (unknown kinds/bits drop on old peers).
Core (punktfunk-core):
- input.rs: BTN_PADDLE1..4 + BTN_MISC1 in Moonlight's buttonFlags2<<16 namespace
(so the GameStream paddle path and native grips share one host injector map;
Steam L4/L5/R4/R5 reuse the four Xbox-Elite paddle slots).
- quic.rs: RichInput::TouchpadEx (kind 0x03 — surface 0/1/2, touch+click, signed
coords, pressure; the second trackpad the single Touchpad can't express) and
HidOutput::TrackpadHaptic (kind 0x04 — the SC voice-coil pulse). Round-tripped.
- abi.rs: PUNKTFUNK_GAMEPAD_STEAMDECK=6 / _STEAMCONTROLLER=5, the paddle bits,
RICH_TOUCHPAD_EX / HIDOUT_TRACKPAD_HAPTIC constants. from_hid packs
TrackpadHaptic into the existing which + effect[0..6] — the legacy structs do
NOT grow (guarded by new size_of==20/19 asserts); GamepadPref lockstep +
paddle-bit lockstep asserts extended. include/punktfunk_core.h regenerated.
Host (punktfunk-host):
- steam_proto::from_gamepad maps the wire paddles -> the four Deck grips + QAM;
apply_rich routes TouchpadEx left/right -> the matching pad.
- every DualSense/DS4 manager (Linux + Windows) gained a TouchpadEx arm
(surface 0/2 -> its one touchpad; surface 1 ignored) so the variant compiles
everywhere and a Steam client streaming to a DS host keeps its right pad.
- the xpad BUTTON_MAP finally consumes the GameStream paddle bits
(BTN_TRIGGER_HAPPY5-8) — Sunshine/Moonlight paddle clients were silently
no-op'd before (design §5.6).
- Android feedback: drop TrackpadHaptic (no coils; rumble rides 0xCA).
Validated on-box: the ignored backend test now drives the full wire path —
from_gamepad (BTN_A + the L4 grip) + apply_rich (a left-pad TouchpadEx) reach the
evdev as BTN_A + ABS_HAT0X=-8000. Wire round-trips + paddle/TouchpadEx mapping
unit-tested. Workspace clippy/fmt/test green. Not pushed.
Deferred to M4: the C-ABI PunktfunkRichInputEx + send_rich_input2 (only the
Apple/embedder *send* path needs it; the host decodes TouchpadEx today).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The file moves (docs/ → design/, docs/api/openapi.json → api/openapi.json) landed
in 8897286, but the matching reference updates did not — so mgmt.rs's drift-test
`include_str!("../../../docs/api/openapi.json")` pointed at a path that no longer
exists and the host failed to build. This restores it and updates every reference:
- mgmt.rs include_str! → ../../../api/openapi.json (fixes the build)
- web/orval.config.ts codegen target, web/Dockerfile, .dockerignore
- deb/rpm/Arch packaging install paths
- CLAUDE.md, the .gitea CI workflows, code doc-comments, design-doc cross-links
docs-site route URLs (/docs/...) untouched.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Completes the unsafe-proof program now that the parallel WIP has landed:
- idd_push.rs (25 sites), nvenc.rs (7), punktfunk1.rs (21): a SAFETY proof on
every unsafe block — D3D11/DXGI COM (same-device textures, immediate-context
single-thread, keyed-mutex-held convert), the NVENC SDK table (versioned POD,
register/map/lock-bitstream pairing), cross-process shm reads (atomic
magic/generation handshake), and the C-ABI harness (each call cross-checked
against its abi.rs `# Safety` doc). No SUSPECT (UB) blocks.
- capture.rs / encode.rs: the parent-module deny is restored (their WIP children
are now proven), and main.rs gains a crate-root
#![deny(clippy::undocumented_unsafe_blocks)] — the permanent catch-all gate so
no future unsafe block anywhere in the crate can land without a proof.
- Fixed 4 blocks the agents missed: unsafe blocks nested inside `assert_eq!(...)`
macro args (the comment-above-statement didn't associate) — hoisted to a `let`.
- rustfmt-canonicalized the Windows files (the agents' SAFETY comments + some
pre-existing 1.9.0 drift) so `cargo fmt --all --check` is clean.
Verified: cargo clippy -p punktfunk-host --all-targets -- -D warnings AND
cargo fmt -p punktfunk-host --check both green with the crate-root deny active.
Windows cfg(windows) re-verified on the box next.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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>
The shared host<->driver ABI crate already contains more than the virtual
display: the IDD-push frame ring + control plane AND the gamepad shared-memory
layouts (XusbShm / PadShm). "pf-vdisplay-proto" was a misnomer — the name now
represents all the drivers it serves.
Mechanical rename, no behavior change:
- git mv crates/pf-vdisplay-proto -> crates/pf-driver-proto (package name +
path-deps in the host crate and the driver workspace).
- pf_vdisplay_proto -> pf_driver_proto across host + driver Rust, both Cargo.lock
files, the workspace members, the CI path triggers (windows-drivers.yml), and
the docs/INF comments. The runtime Global\pfvd-* shared-object names are a
SEPARATE contract and are deliberately untouched (host<->driver name matching).
- The pf-vdisplay DRIVER crate + its INF service name (Root\pf_vdisplay,
UmdfService=pf_vdisplay, pf_vdisplay.dll) are unchanged — only the full
`pf_vdisplay_proto` token was replaced, never the `pf_vdisplay` driver name.
Linux-verified: cargo test -p pf-driver-proto (const size-asserts compile) +
cargo clippy -p punktfunk-host -D warnings clean; Cargo.lock regenerated. The
driver-workspace side (path-dep + imports + its Cargo.lock) is Windows-CI-gated.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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>