Two disk-write fixes:
- pf-xusb/pf-dualsense no longer write C:\Users\Public\pf*-driver.log
unconditionally — the file log is now opt-in (debug builds, or the
PFXUSB_DEBUG_LOG / PFDS_DEBUG_LOG system env var), mirroring the audit-§4.4
fix pf-vdisplay already got: a release driver never writes the world-writable
Public file (info-leak/DoS surface), and the per-report OUTPUT/SET_STATE hex
dumps stop being a sustained per-rumble disk-write path during gameplay.
OutputDebugStringA stays unconditional; the host's driver-silence WARN and
the gamepad-driver-health failure-mode table now say the log is opt-in.
- service.log/host.log get one-generation rotation: at each (re)open a file
over 10 MB is renamed to .old, so a crash-restart loop or a RUST_LOG=debug
left in host.env can't grow the append-forever logs without bound. Rotation
runs only before an open (never under a live appender — host.log's handle
lacks FILE_SHARE_DELETE, so a racing rename harmlessly fails).
Windows CI compile/clippy pending (drivers workspace + host are not
Linux-cross-checkable); rides along with the next pad-driver redeploy.
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>
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>
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 gamepad host<->UMDF-driver shared sections (Global\pfds-shm-*, pfxusb-shm-*)
and the IDD-push frame ring/event (Global\pfvd-*) were created with
`D:(A;;GA;;;WD)` — GENERIC_ALL to **Everyone** — on the assumption the driver's
WUDFHost ran under a restricted token needing broad access. So any local
unprivileged user could OpenFileMapping the section to inject controller input,
tamper the trusted HID channel, or read captured screen frames
(security-review 2026-06-28 #5).
On-box validation (RTX box, 2026-06-29) disproved the restricted-token premise:
the WUDFHost token is NT AUTHORITY\LocalService (S-1-5-19), SYSTEM integrity,
with ZERO restricted SIDs. So the section only needs SYSTEM (the host creates +
writes it) and LocalService (the driver opens it). Scope both SDDL sites to
`D:(A;;GA;;;SY)(A;;GA;;;LS)`; rename the now-misnamed `permissive_sa` ->
`shared_object_sa`; correct the stale "restricted-token / Everyone" docs.
Validated live: a full DualSense + 1280x720x60 session — 6943 frames received,
HID output round-tripped, device status OK (pf_dualsense + pf_vdisplay WUDFHosts
both LocalService open the scoped sections fine), while OpenFileMapping from a
non-SYSTEM admin session now returns ACCESS_DENIED (was a granted handle under
WD). Host-only change (the SDDL is set when the host CREATES the section);
drivers unchanged.
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>
Continues the unsafe-proof program across the Windows/cross-platform host files
(~75 blocks, 21 files), each with a SAFETY proof of the real invariant and a
per-file #![deny(clippy::undocumented_unsafe_blocks)] gate:
capture/windows: dxgi.rs, wgc_relay.rs, wgc.rs, desktop_watch.rs, composed_flip.rs
(windows-rs COM: interface validity, same-D3D11-device textures,
immediate-context single-thread, borrowed args outlive the call)
windows: service.rs (SCM/token/CreateProcessAsUserW/event handles — OwnedHandle
liveness, no double-close/signal race), win_display, wgc_helper, interactive
vdisplay/windows: manager.rs, pf_vdisplay.rs (SwDeviceCreate/IddCx/ioctl handle
liveness via the OnceLock VDM singleton + OwnedHandle)
encode/windows: ffmpeg_win.rs (full AVBufferRef refcount audit — balanced, NO leaks,
unlike the vaapi sibling), sw.rs
cross-platform: gamestream/audio.rs (libopus), gamestream/stream.rs (sendmmsg),
inject/windows/sendinput.rs, audio/windows/wasapi_mic.rs,
session_tuning.rs, vdisplay.rs
Two findings (handled separately):
- wgc_relay.rs `unsafe impl Sync for HelperRelay` is UNSOUND (its mpsc Receiver is
!Sync) though not live-exploited — marked SUSPECT inline; fix pending box check
(it touches the in-flight punktfunk1.rs).
- capture.rs / encode.rs (PARENT modules of the WIP idd_push.rs / nvenc.rs) do NOT
get the file deny yet — it would propagate the lint into the undocumented WIP
children. The deny lands there once those are documented (after the WIP commits).
Linux-visible parts verified green (cargo clippy -p punktfunk-host --all-targets
-- -D warnings). The cfg(windows) deny gates are box-verified 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>
Goal 2 ("drop every trace of SudoVDA") is done. The SudoVDA driver is no longer
shipped (only pf-vdisplay; the old vdisplay-driver tree was deleted in 416862a),
and F1 (d5c6b7e/03da47b) already moved the display-utility helpers out of the
backend into neutral modules (win_adapter/win_display), breaking the reach-in.
So the backend is now cleanly removable:
- Deleted crates/punktfunk-host/src/vdisplay/windows/sudovda.rs (350 lines: the
SudoVdaDisplay VirtualDisplay impl + its VdisplayDriver/probe).
- vdisplay::open()/probe() are now unconditional pf-vdisplay; deleted the
windows_use_pf_vdisplay() backend selector. open() now ensure!s
pf_vdisplay::is_available() with a clear "driver not installed" error instead
of the old silent SudoVDA fallback (no fallback driver exists anymore).
- Scrubbed the dangling references to the deleted symbols (manager/sendinput/dxgi
comments, the config + host.env PUNKTFUNK_VDISPLAY docs); the var stays as an
informational forward-seam. Updated the F1 module docs (Goal 2 now done).
All changes are #[cfg(windows)] except the config doc; Linux clippy
-p punktfunk-host -D warnings clean; zero `sudovda::`/`SudoVdaDisplay` code refs
remain (comments only). Windows build is CI-gated.
Scorecard Goal 2 -> DONE; recorded the E1 "do NOT do it" stability decision in
windows-host-rewrite.md §4 (the process-global driver design is sound given
ProcessSharingDisabled; a device-owned variant adds a use-after-free window for
no gain).
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>