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punktfunk/crates/punktfunk-host/src/inject/linux/switch_pro.rs
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enricobuehler 4201851c7f
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fix(fmt) + feat(gamepad): CI-matching rustfmt everywhere, enforced by repo git hooks; N4 spike flips to GO via MI_02
Three things that belong together:

1. rustfmt the gamepad-new-types host files ci.yml's `cargo fmt --all
   --check` gate flags (the .21/.133 verify recipes ran clippy+tests
   but never fmt — the same class of miss as 69f30f30).

2. Enforce it at the source: scripts/git-hooks/{pre-commit,pre-push}
   run the exact CI fmt gates (main workspace + the shipped-driver
   crates of the UMDF workspace); CONTRIBUTING documents the one-time
   `git config core.hooksPath scripts/git-hooks`. pre-push is the
   enforcement point (plumbing commits bypass pre-commit).

3. N4 follow-up — the spike verdict FLIPS TO GO: SwDeviceProfile grows
   `usb_mi`, synthesizing `&MI_02` into the Deck spike's USB hardware
   ids. hidclass mirrors the parent's USB tokens into the HID child's
   hardware ids, and hidapi/SDL/Steam parse `MI_` as bInterfaceNumber
   (defaulting to 0 when absent — the exact gate the first run hit:
   Steam wants the Deck controller on interface 2). Re-run live on
   .173: Steam logs `Interface: 2`, then `!! Steam controller device
   opened`, `Steam Controller reserving XInput slot 0`, and activates
   a mapping — full Steam Input promotion of the software-devnode
   Deck, no driver change needed. The PS identities pass
   `usb_mi: None` (real single-interface devices carry no MI_ token).
   A proper Windows-Deck backend phase is now justified; planned
   separately.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-14 12:20:33 +02:00

320 lines
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//! Virtual Nintendo Switch Pro Controller via UHID — bound by the kernel's `hid-nintendo`
//! (≥ 5.16), so a Nintendo-family client pad gets correct glyphs + positional layout, live
//! gyro/accel, and HD-rumble feedback, instead of folding to the Xbox 360 pad (mirrored A/B
//! + X/Y, no motion).
//!
//! Unlike `hid-playstation` (whose init is three GET_REPORTs), `hid-nintendo` runs a real
//! PROBE CONVERSATION against the device: the `0x80`-family USB commands, then ~a dozen
//! subcommands (device info, SPI-flash calibration reads, IMU/vibration enable, input mode,
//! player lights) — each a blocking send that must see its reply (input report `0x81`/`0x21`)
//! within 12 s or probe aborts and NO input devices appear. The whole codec + the canned
//! replies live in [`super::switch_proto`]; this module is the `/dev/uhid` plumbing that
//! answers them from the [`UhidManager`]'s frequent `service` pass (the same cadence that
//! already completes the DualSense handshake).
//!
//! Post-probe, the driver stalls every LED/rumble write for up to 250 ms unless input reports
//! are flowing — the shared manager's 8 ms silence heartbeat provides exactly that steady
//! `0x30` stream. On host suspend/resume the driver re-runs the whole init; the service pass
//! answers it identically (nothing probe-specific is latched).
use super::switch_proto::{
build_subcmd_reply, build_usb_ack, device_info_payload, parse_output, player_leds_bits,
serialize_report_0x30, spi_flash_read, switch_mac, SwitchOutput, SwitchState, PROCON_RDESC,
SWITCH_PRODUCT, SWITCH_REPORT_LEN, SWITCH_VENDOR,
};
use crate::inject::uhid_manager::{PadFeedback, PadProto, UhidManager};
use anyhow::{Context, Result};
use punktfunk_core::quic::{HidOutput, RichInput};
use std::fs::{File, OpenOptions};
use std::io::{Read, Write};
use std::os::unix::fs::OpenOptionsExt;
// /dev/uhid event ABI (linux/uhid.h) — identical to the DualSense backend's; see `super::dualsense`.
const UHID_PATH: &str = "/dev/uhid";
const UHID_DESTROY: u32 = 1;
const UHID_OUTPUT: u32 = 6;
const UHID_GET_REPORT: u32 = 9;
const UHID_GET_REPORT_REPLY: u32 = 10;
const UHID_CREATE2: u32 = 11;
const UHID_INPUT2: u32 = 12;
const HID_MAX_DESCRIPTOR_SIZE: usize = 4096;
const UHID_EVENT_SIZE: usize = 4 + 4372; // type + union (create2)
const BUS_USB: u16 = 0x03;
/// Copy a NUL-padded C string field into the event buffer.
fn put_cstr(ev: &mut [u8], off: usize, cap: usize, s: &str) {
let n = s.len().min(cap - 1);
ev[off..off + n].copy_from_slice(&s.as_bytes()[..n]); // rest already zero (NUL-terminated)
}
/// A virtual Pro Controller backed by `/dev/uhid`. Dropping it destroys the device (the kernel
/// tears down the bound `hid-nintendo` interface).
pub struct SwitchProPad {
fd: File,
index: u8,
/// Rolling report timer (byte 1 of every input report).
timer: u8,
/// The last written state — subcommand replies embed the current input-state header, so the
/// probe conversation always reports coherent (neutral, at first) controller state.
state: SwitchState,
}
impl SwitchProPad {
/// Create the UHID Pro Controller for pad `index` (used for the name/uniq + the virtual MAC).
pub fn open(index: u8) -> Result<SwitchProPad> {
let fd = OpenOptions::new()
.read(true)
.write(true)
.custom_flags(libc::O_NONBLOCK)
.open(UHID_PATH)
.with_context(|| {
format!("open {UHID_PATH} (is the 60-punktfunk.rules uhid rule installed + are you in 'input'?)")
})?;
let mut pad = SwitchProPad {
fd,
index,
timer: 0,
state: SwitchState::neutral(),
};
pad.send_create2(index).context("UHID_CREATE2 Switch Pro")?;
Ok(pad)
}
fn send_create2(&mut self, index: u8) -> Result<()> {
let mut ev = [0u8; UHID_EVENT_SIZE];
ev[0..4].copy_from_slice(&UHID_CREATE2.to_ne_bytes());
// union (uhid_create2_req) starts at byte 4.
put_cstr(
&mut ev,
4,
128,
&format!("Punktfunk Switch Pro Controller {index}"),
); // name[128]
put_cstr(&mut ev, 132, 64, &format!("punktfunk/switchpro/{index}")); // phys[64]
put_cstr(&mut ev, 196, 64, &format!("punktfunk-swpro-{index}")); // uniq[64]
ev[260..262].copy_from_slice(&(PROCON_RDESC.len() as u16).to_ne_bytes()); // rd_size
ev[262..264].copy_from_slice(&BUS_USB.to_ne_bytes()); // bus (selects the driver's USB init path)
ev[264..268].copy_from_slice(&SWITCH_VENDOR.to_ne_bytes());
ev[268..272].copy_from_slice(&SWITCH_PRODUCT.to_ne_bytes());
ev[272..276].copy_from_slice(&0x0200u32.to_ne_bytes()); // version (bcdDevice 2.00)
ev[276..280].copy_from_slice(&0u32.to_ne_bytes()); // country
ev[280..280 + PROCON_RDESC.len()].copy_from_slice(PROCON_RDESC); // rd_data
self.fd.write_all(&ev).context("write UHID_CREATE2")?;
Ok(())
}
/// Write one full input report to the kernel (UHID_INPUT2).
fn write_report(&mut self, r: &[u8; SWITCH_REPORT_LEN]) -> Result<()> {
let mut ev = [0u8; UHID_EVENT_SIZE];
ev[0..4].copy_from_slice(&UHID_INPUT2.to_ne_bytes());
ev[4..6].copy_from_slice(&(r.len() as u16).to_ne_bytes()); // input2.size
ev[6..6 + r.len()].copy_from_slice(r); // input2.data
self.fd.write_all(&ev).context("write UHID_INPUT2")?;
Ok(())
}
/// Serialize the state into the standard `0x30` report and stream it.
pub fn write_state(&mut self, st: &SwitchState) -> Result<()> {
self.state = *st;
self.timer = self.timer.wrapping_add(1);
let r = serialize_report_0x30(st, self.timer);
self.write_report(&r)
}
/// Answer one subcommand from the driver with its canned `0x21` reply.
fn answer_subcmd(&mut self, id: u8, args: &[u8]) {
self.timer = self.timer.wrapping_add(1);
let st = self.state;
let reply = match id {
// Device info — the fatal one (probe aborts without it): type = Pro Controller +
// this pad's virtual MAC. Real hardware acks it with 0x82.
0x02 => build_subcmd_reply(
&st,
self.timer,
0x82,
id,
&device_info_payload(&switch_mac(self.index)),
),
// SPI flash read: echoed addr + len + the canned calibration bytes. An unmapped
// range answers zeroes (echoed header, zero data) — the driver then warns and uses
// its defaults instead of stalling through 2 × 1 s timeouts.
0x10 => {
let addr = args
.get(..4)
.map(|a| u32::from_le_bytes([a[0], a[1], a[2], a[3]]))
.unwrap_or(0);
let len = args.get(4).copied().unwrap_or(0);
let payload = spi_flash_read(addr, len).unwrap_or_else(|| {
tracing::debug!(
addr = format!("{addr:#x}"),
len,
"unmapped SPI read — zero fill"
);
let mut p = Vec::with_capacity(5 + len as usize);
p.extend_from_slice(&addr.to_le_bytes());
p.push(len);
p.extend(std::iter::repeat_n(0u8, len as usize));
p
});
build_subcmd_reply(&st, self.timer, 0x90, id, &payload)
}
// Everything else the driver sends (input mode 0x03, IMU 0x40, vibration 0x48,
// player lights 0x30, home light 0x38, …) just needs the ack + echoed id.
_ => build_subcmd_reply(&st, self.timer, 0x80, id, &[]),
};
let _ = self.write_report(&reply);
}
/// Service the device, non-blocking: answer the driver's probe conversation (USB commands +
/// subcommands) and surface a game's rumble / player-lights feedback for pad `pad`. Call
/// frequently — each probe step blocks the driver until answered.
pub fn service(&mut self, pad: u8) -> PadFeedback {
let mut fb = PadFeedback::default();
let mut ev = [0u8; UHID_EVENT_SIZE];
while let Ok(n) = self.fd.read(&mut ev) {
if n < UHID_EVENT_SIZE {
break;
}
match u32::from_ne_bytes([ev[0], ev[1], ev[2], ev[3]]) {
UHID_OUTPUT => {
// uhid_output_req: data[4096] at [4..4100], size u16 at [4100..4102].
let size = u16::from_ne_bytes([ev[4100], ev[4101]]) as usize;
let end = 4 + size.min(HID_MAX_DESCRIPTOR_SIZE);
match parse_output(&ev[4..end]) {
Some(SwitchOutput::UsbCmd(cmd)) => {
// Ack every 0x80 command, incl. no-timeout (0x04) — the driver
// ignores that ack but replying skips its 2 × 100 ms wait.
let _ = self.write_report(&build_usb_ack(cmd));
}
Some(SwitchOutput::Subcmd { id, args, rumble }) => {
fb.rumble = Some(rumble);
if id == 0x30 {
// Player lights ride the subcommand itself; still ack it.
if let Some(&arg) = args.first() {
fb.hidout.push(HidOutput::PlayerLeds {
pad,
bits: player_leds_bits(arg),
});
}
}
self.answer_subcmd(id, &args);
}
Some(SwitchOutput::Rumble(r)) => fb.rumble = Some(r),
None => {}
}
}
UHID_GET_REPORT => {
// hid-nintendo never GET_REPORTs; answer EIO so nothing ever blocks on us.
let req_id = u32::from_ne_bytes([ev[4], ev[5], ev[6], ev[7]]);
let _ = self.reply_get_report_err(req_id);
}
_ => {} // Start/Stop/Open/Close/SetReport — ignore
}
}
fb
}
fn reply_get_report_err(&mut self, id: u32) -> Result<()> {
let mut ev = [0u8; UHID_EVENT_SIZE];
ev[0..4].copy_from_slice(&UHID_GET_REPORT_REPLY.to_ne_bytes());
// uhid_get_report_reply_req: id u32 [4..8], err u16 [8..10], size u16 [10..12].
ev[4..8].copy_from_slice(&id.to_ne_bytes());
ev[8..10].copy_from_slice(&5u16.to_ne_bytes()); // EIO
self.fd
.write_all(&ev)
.context("write UHID_GET_REPORT_REPLY")?;
Ok(())
}
}
impl Drop for SwitchProPad {
fn drop(&mut self) {
let mut ev = [0u8; UHID_EVENT_SIZE];
ev[0..4].copy_from_slice(&UHID_DESTROY.to_ne_bytes());
let _ = self.fd.write_all(&ev);
}
}
/// The Switch-Pro-specific half of the shared stateful manager (see [`PadProto`]): UHID
/// transport open, the [`SwitchState`] mappers, and the probe-conversation service pass.
/// Lifecycle (slot table, unplug sweep, heartbeat, dedup) lives in [`UhidManager`].
pub struct SwitchProProto {
/// Fallback policy for the Steam back grips a client may send (a Pro Controller has no
/// back-button slot). `PUNKTFUNK_STEAM_REMAP=paddles=…`; default drop.
remap: crate::inject::steam_remap::RemapConfig,
}
impl Default for SwitchProProto {
fn default() -> SwitchProProto {
SwitchProProto {
remap: crate::inject::steam_remap::RemapConfig::from_env(),
}
}
}
impl PadProto for SwitchProProto {
type Pad = SwitchProPad;
type State = SwitchState;
const LABEL: &'static str = "Switch Pro";
const DEVICE: &'static str = "Switch Pro Controller";
const CREATE_HINT: &'static str = "";
fn open(&mut self, idx: u8) -> Result<SwitchProPad> {
let p = SwitchProPad::open(idx)?;
tracing::info!(
index = idx,
"virtual Switch Pro Controller created (UHID hid-nintendo)"
);
Ok(p)
}
fn neutral(&self) -> SwitchState {
SwitchState::neutral()
}
/// Merge buttons/sticks/triggers from the frame, preserving motion (it arrives on the rich
/// plane and must survive a button-only frame). Paddles fold via the configured policy.
fn merge_frame(
&self,
prev: &SwitchState,
f: &crate::gamestream::gamepad::GamepadFrame,
) -> SwitchState {
let buttons = crate::inject::steam_remap::fold_paddles(f.buttons, self.remap.paddles);
let mut s = SwitchState::from_gamepad(
buttons,
f.ls_x,
f.ls_y,
f.rs_x,
f.rs_y,
f.left_trigger,
f.right_trigger,
);
s.gyro = prev.gyro;
s.accel = prev.accel;
s
}
/// Motion lands on the IMU sample frames; a Pro Controller has no touchpad, so touch events
/// are dropped (the client folds trackpads into stick/mouse modes itself).
fn apply_rich(&self, st: &mut SwitchState, rich: RichInput) {
if let RichInput::Motion { gyro, accel, .. } = rich {
st.apply_motion(gyro, accel);
}
}
fn write_state(&self, pad: &mut SwitchProPad, st: &SwitchState) {
let _ = pad.write_state(st);
}
/// Answer the driver's probe conversation (it blocks `hid-nintendo` init until every step is
/// answered — call frequently) and surface a game's feedback: HD-rumble amplitude on the
/// universal 0xCA plane, player lights on the 0xCD plane.
fn service(&self, pad: &mut SwitchProPad, idx: u8) -> PadFeedback {
pad.service(idx)
}
}
/// All virtual Switch Pro Controllers of a session — `PUNKTFUNK_GAMEPAD=switchpro`, or the
/// per-pad kind a client declares for a Nintendo-family physical pad.
pub type SwitchProManager = UhidManager<SwitchProProto>;