12843fe253
Adds a client-selectable **preferred codec** and wires the core + ABI + probe + Linux client to
negotiate and decode it. (Windows/Apple/Android follow in 2b.)
**Core:**
- `Hello.preferred_codec` (a single CODEC_* bit, 0 = auto) — a soft hint appended after
`video_codecs`. `resolve_codec(client, host, preferred)` now honors the preference when the host
can also emit it, else falls back to precedence (HEVC > AV1 > H.264). Roundtrip + preference tests.
- `NativeClient::connect` takes `video_codecs` + `preferred_codec`; `NativeClient.codec` exposes the
resolved `Welcome.codec`.
- ABI: `punktfunk_connect_ex7` (adds the two codec params; `ex6` delegates to it advertising
HEVC-only) + `punktfunk_connection_codec` getter + `PUNKTFUNK_CODEC_{H264,HEVC,AV1}` constants
(drift-guarded against the wire values). Header regenerated.
**Host:** passes `hello.preferred_codec` into `resolve_codec`.
**probe:** `--codec h264|hevc|av1|auto` sets the preference (still advertises it can decode all
three); the dump extension already follows the resolved codec.
**Linux client:** advertises the codecs FFmpeg can actually decode (`decodable_codecs()`), threads
the user's `codec` setting as the preference, and builds the decoder — both the software and VAAPI
paths, plus the mid-session VAAPI→software demotion — from the negotiated `Welcome.codec` instead of
hardcoding HEVC. New "Video codec" dropdown in Preferences (Automatic/HEVC/H.264/AV1).
Live-validated on the dev box: probe `--codec hevc` against a software (H.264-only) host resolves to
H.264 (graceful soft-preference fallback), no failure. clippy + core (57) + host (133) tests green.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
83 lines
5.3 KiB
Markdown
83 lines
5.3 KiB
Markdown
# pf-xusb — virtual Xbox 360 XUSB companion (UMDF2, classic XInput)
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A **pure-user-mode** UMDF2 driver that makes a virtual Xbox 360 controller visible to classic
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**`XInputGetState`** with **no kernel bus driver** (no ViGEmBus) — the HIDMaestro approach. It is the
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Windows counterpart to ViGEm's X360 target, owned in-tree.
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## Why this is not the HID driver
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XInput does **not** use HID. `xinput1_4.dll` enumerates the **XUSB device-interface GUID**
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`{EC87F1E3-C13B-4100-B5F7-8B84D54260CB}` (`SetupDiEnumDeviceInterfaces`), opens the Nth present
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instance (= player slot 0–3) with `CreateFile`, and polls it with buffered IOCTLs. So this driver:
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- is **not** a HID minidriver (no `MsHidUmdf`) — it's a plain UMDF2 function driver under `WUDFRd`,
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**System** setup class;
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- registers the XUSB interface with `WdfDeviceCreateDeviceInterface(device, &XUSB_GUID, NULL)`;
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- answers the XUSB IOCTLs (all `METHOD_BUFFERED`, delivered to user mode by the reflector) from
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controller state the host publishes into a shared section `Global\pfxusb-shm-0`; a game's rumble
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(`SET_STATE`) is published back for the host to forward to the client.
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The WAIT_* IOCTLs return `STATUS_INVALID_DEVICE_REQUEST`, which makes `xinput1_4` fall back to
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synchronous `GET_STATE` polling — so no manual queue / timer is needed for classic XInput. (WGI/
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GameInput admission additionally needs a `xinputhid` `UpperFilters` registry tripwire + the async
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`WAIT_FOR_INPUT` pump — not implemented; classic XInput does not need it.)
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## Verified wire formats (source: HIDMaestro `driver/companion.c`, nefarius/XInputHooker `XUSB.h`, ViGEm)
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| IOCTL | Code | Reply |
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| --- | --- | --- |
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| `GET_INFORMATION` | `0x80006000` | 12 B: `[0]`=ver `0x0103`, `[2]`=count `0x01`, `[8]`=VID `045E`, `[10]`=PID `028E` — marks the slot **connected** |
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| `GET_CAPABILITIES` | `0x8000E004` | 24 B (or 36 B V2 if `outLen>=36`): Type `0x03`/SubType `0x01`, motor max `0xFFFF` (advertise rumble) |
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| `GET_STATE` | `0x8000E00C` | **29 B**: `[0]`ver `[2]`count `[5]`u32 packet# `[0x0B]`u16 wButtons `[0x0D]`LT `[0x0E]`RT `[0x0F..0x16]`4×i16 sticks |
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| `SET_STATE` | `0x8000A010` | input 5 B `{00, led, large, small, subcmd}`: `subcmd 0x02`=rumble (large `[2]`, small `[3]`), `0x01`=player-LED |
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| `GET_LED_STATE` | `0x8000E008` | `{0,0,0x06}` |
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| `GET_BATTERY_INFORMATION` | `0x8000E018` | `{0,0x01,0x03,0}` |
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| `WAIT_GUIDE_BUTTON` / `WAIT_FOR_INPUT` | `0x8000E014` / `0x8000E3AC` | `STATUS_INVALID_DEVICE_REQUEST` → GET_STATE fallback |
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`wButtons` is the `XINPUT_GAMEPAD_*` bitmap (DPAD_UP `0x0001` … A `0x1000` B `0x2000` X `0x4000`
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Y `0x8000`). `dwPacketNumber` (GET_STATE `[5]`) must increment whenever the payload changes.
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## Shared-memory layout `Global\pfxusb-shm-0` (64 B) — host writes state, driver writes rumble
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`magic u32 @0` (`"PFXU"` `0x55584650`) · `packet u32 @4` (host bumps → dwPacketNumber) · `wButtons u16
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@8` · `LT @10` · `RT @11` · `LX/LY/RX/RY i16 @12/@14/@16/@18` · `rumble_seq u32 @24` (driver bumps) ·
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`large @28` · `small @29`.
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## Validated live (2026-06-22, maintainer's RTX test box)
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`XInputGetState(0)` returns **CONNECTED** with the pushed buttons/sticks and an incrementing
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`dwPacketNumber`; `XInputSetState(0xC000, 0x4000)` reaches the driver as `00 00 c0 40 02` → host sees
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`large=192 small=64`. Test tools (on that box): `xusbtest.exe` (creates the `pf_xusb`
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devnode + cycling state via shm) and `xinputtest.exe` (`XInputGetState`/`SetState` harness).
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## Build / sign / install (same recipe as the DualSense driver)
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Built as a member of the in-tree [`packaging/windows/drivers/`](../) workspace — one
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`cargo build --release` builds all three drivers; `build-gamepad-drivers.ps1` (one level up) wraps
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the whole build/sign/stage flow in CI. The manual steps:
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1. `cargo build --release` in the workspace (env `LIBCLANG_PATH`, `Version_Number=10.0.26100.0`) →
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`target\x86_64-pc-windows-msvc\release\pf_xusb.dll`.
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2. Clear the FORCE_INTEGRITY PE bit (bit `0x80` at `e_lfanew+0x5e` of `pf_xusb.dll`).
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3. `signtool sign /fd SHA256 /sha1 6A52984E54376C45A1C236B1A2C8A746C5AB6131 pf_xusb.dll`.
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4. `Inf2Cat /driver:<pkg> /os:10_X64` → re-sign `pf_xusb.cat` with the same thumbprint.
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5. `pnputil /add-driver pf_xusb.inf` (no `/install`; the host SwDeviceCreate's `pf_xusb` per session).
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## Host integration (done)
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`crates/punktfunk-host/src/inject/windows/gamepad_windows.rs` is the Windows `GamepadManager` (used by
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`PadBackend::Xbox360`): it SwDeviceCreate's the `pf_xusb` companion, maps `pfxusb-shm-<index>`, writes
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the XInput state from the client's gamepad frame (already XInput-convention) and forwards rumble. There
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is **no ViGEmBus dependency** anymore. The driver is built + signed from source in CI
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(`build-gamepad-drivers.ps1`) and installed by the Inno Setup installer via
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`punktfunk-host.exe driver install --gamepad`.
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## Multi-pad
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The host stamps each pad's index into the device Location (`pszDeviceLocation`); the driver reads it
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via `WdfDeviceAllocAndQueryProperty(DevicePropertyLocationInformation)` in EvtDeviceAdd and maps its own
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`pfxusb-shm-<index>`. `UmdfHostProcessSharing=ProcessSharingDisabled` (the INF) gives each pad its own
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WUDFHost, so the per-pad `SHM_INDEX` static doesn't collide. Validated live: two pads → two distinct
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XInput slots. (XInput assigns the player slot 0-3 by interface-enumeration order, independent of this
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index — which only routes shared memory.)
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