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4 Commits

Author SHA1 Message Date
enricobuehler 2621b6e6b1 feat(core,host,android): Steam Controller 2 as-is passthrough to Linux hosts
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The 2026 Steam Controller (Valve "Ibex" / SDL "Triton") captured on an
Android client is passed through AS-IS: the host presents a virtual pad
with the real wired identity (28DE:1302) and mirrors the physical pad's
raw HID reports, so Steam on the host drives it over hidraw exactly like
the real thing — trackpads, gyro, paddles, and its rumble/settings writes
flow back onto the physical controller. Protocol ground truth: SDL's
Valve-maintained SDL_hidapi_steam_triton.c + steam/controller_structs.h.

Core:
- GamepadPref::SteamController2 (wire byte 9; names steamcontroller2/
  sc2/ibex) + PUNKTFUNK_GAMEPAD_STEAMCONTROLLER2 in the C ABI.
- Raw HID planes: RichInput::HidReport (0xCC/0x04, client→host input
  reports verbatim, Copy fixed-64 body) and HidOutput::HidRaw (0xCD/0x05,
  host→client feature/output writes for replay). Best-effort is sound by
  the device protocol's own design (rumble re-sent every ~40 ms, settings
  every ~3 s — losses self-heal); HidRaw bypasses hidout dedup for
  exactly that reason.

Host (Linux):
- triton_proto.rs + steam_controller2.rs: Triton2Manager UHID backend —
  no kernel driver binds the PID (hidraw only; Steam Input is the
  consumer), raw mirroring with a typed-fallback 0x42 synthesizer until
  the first raw report, SET_REPORT ack + raw forward, canned GET_REPORT
  serial reply, rumble also parsed onto the universal 0xCA plane (phone
  mirror). Rides the uhid + 28DE-conflict degrades; UHID promotion by
  Steam is flagged in the creation log (usbip transport is the known
  follow-up if Steam ignores Interface:-1 devices for Triton too).

Android:
- Sc2UsbLink (wired/Puck: vendor-interface claim detaches the OS driver,
  interrupt read loop, lizard-off on the watchdog cadence, raw replay via
  interrupt-OUT / SET_REPORT with hidapi report-id framing) and Sc2BleLink
  (Valve vendor GATT service, notify subscribe machine, 0x45 re-framing,
  HIGH connection priority).
- Sc2Capture orchestrator: raw plane + typed mirror (exit chord + host
  degrade paths keep working) on a GamepadRouter external slot; raw
  return path via GamepadFeedback.onHidRaw.
- nativeSendPadHidReport JNI (direct ByteBuffer, no per-report copy),
  hidout raw decode, usb-host/BLUETOOTH_CONNECT manifest bits, opt-out
  settings toggle, StreamScreen engagement incl. the USB permission flow.

Verified: core 149 + host 312 tests green on Linux (.21), on-box uhid
smoke creates/mirrors/tears down the virtual 28DE:1302, C ABI harness
round-trips, Android compileDebugKotlin green. On-glass with the real
controller owed.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-15 11:22:16 +02:00
enricobuehler 0ad4e6eff7 feat(android): multi-controller support
Roll the pf-client-core slot pattern to the Android client (Kotlin + JNI):

- New kit/GamepadRouter.kt: the Android analogue of the client-core Slot
  model — a deviceId→Slot map assigning each InputDevice a stable lowest-free
  wire pad index held for its lifetime, GamepadArrival(pref) before a pad's
  first input, GamepadRemove on onInputDeviceRemoved, per-slot AxisMapper +
  held-bitmask so two pads never clobber each other. The isForwardable gate
  (excludes DualSense/DS4 all-zero sensor sibling nodes) is centralized in
  slotFor so no entry point can open a phantom slot.
- native/src/session/input.rs: JNI shims take a pad arg -> flags=pad
  (nativeSendGamepadButton/Axis, plus nativeSendGamepadArrival/Remove).
- native/src/feedback.rs: pad carried in rumble bits 49..52 + a leading
  hidout pad byte; GamepadFeedback.kt routes rumble/lightbar/LED back to the
  originating device by pad via deviceForPad.
- MainActivity.kt routes key/motion events by device; ControllersScreen.kt
  badges every forwarded pad (was hardcoded i==0), reading getControllerNumber.

A lone controller lands on wire index 0, so its per-transition datagrams stay
byte-identical to the old single-pad path. gradle :app:assembleDebug green
(Rust cross-compiled via cargo-ndk); JNI signatures hand-verified 1:1.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-12 21:53:07 +02:00
enricobuehler 7e2d7c893c feat(apple,android): three-way touch input — trackpad cursor (default), direct pointer, real multi-touch passthrough
The two touch clients had exactly complementary gaps: iOS forwarded fingers
ONLY as raw wire touches (no way to drive the host cursor from the touch
screen), Android had the two mouse modes but no passthrough. Both now share
one three-way "Touch input" setting: Trackpad (default) / Direct pointer /
Touch passthrough.

iOS/iPadOS: Input/TouchMouse.swift ports the Android gesture engine 1:1
(same px-based acceleration curve; tap=click, two-finger tap=right-click,
two-finger drag=scroll, tap-then-drag=held drag, three-finger tap=stats
HUD via the shared hudEnabled default); direct-pointer mode maps through
the aspect-fit letterbox; the previous always-on behavior lives on as the
passthrough option. The mode latches per gesture (a Settings change never
splits one gesture across models), touchesCancelled releases held state
without synthesizing a click, and session stop flushes a mid-drag button.
Settings picker on iPhone + iPad next to the iPad-only pointer-capture
toggle. Deliberate default change: trackpad, not passthrough.

Android: new nativeSendTouch JNI shim → wire TouchDown/Move/Up (the host
already injects real touch on every backend — libei touchscreen, wlroots,
KWin fake-input, SendInput); streamTouchPassthrough forwards every finger
with stable ids and lifts still-held contacts on teardown; the trackpadMode
Boolean becomes the TouchMode enum (old pref migrated on load, never
rewritten) with a Settings dropdown.

Verified: macOS swift build + full suite (incl. new TouchMouseTests), iOS
Simulator Swift compile, cargo check/fmt/clippy on the native crate, Kotlin
app+kit compile + unit tests. On-glass feel of the iOS ballistics and
Android passthrough against a touch-aware app still pending.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-03 00:02:12 +02:00
enricobuehler c890de49c9 refactor(android): split session JNI into modules, HUD-gated stats, AAudio open retry
- native: the 756-line session.rs becomes session/{mod,connect,input,planes}.rs
  around a SessionHandle (connect lifecycle + trust, input plane shims, plane
  start/stop + stats drain).
- Decode-stats sampling is HUD-gated (nativeSetVideoStatsEnabled): with the
  overlay hidden the decode thread skips the per-AU clock read + lock; enabling
  resets the measurement window.
- audio: the AAudio open path is a per-sharing-mode try_open closure — the
  realtime callback state (ring, prime, free-list) is rebuilt per attempt, so a
  failed exclusive-mode try can't leak state into the shared-mode retry.
- Kotlin: ConnectScreen/StreamScreen slimmed by extracting ConnectDialogs,
  StatsOverlay and TouchInput.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-02 11:08:56 +02:00