11 Commits

Author	SHA1	Message	Date
enricobuehler	59edeedf07	feat(dualsense): Phase C/D/E — virtual DualSense routing + 0xCC/0xCD planes + C ABI ... PUNKTFUNK_GAMEPAD=dualsense now routes a session's gamepad through a real virtual DualSense (UHID + hid-playstation) end to end: - host: a `PadBackend` enum (m3.rs) selects `GamepadManager` (uinput xpad, default) or the new `DualSenseManager` (dualsense.rs) per session. The manager keeps each pad's full DsState so touchpad + motion (rich-input plane) persist across button/stick frames, and services the !Send /dev/uhid fd only on the input thread (which cycles <=4ms, so the GET_REPORT init handshake completes). - feedback: `service()` now returns `DsFeedback { hidout, rumble }`. Motor rumble stays on the universal 0xCA plane (so non-DualSense clients still feel it; manager dedups change); lightbar / player LEDs / adaptive-trigger effects ride the new 0xCD HID-output plane (host->client) as `HidOutput`. - rich input: touchpad contacts + motion ride the 0xCC plane (client->host) as `RichInput`, applied via `DualSenseManager::apply_rich` (merged with button state; touch normalized 0..65535 -> the touchpad resolution). - connector + C ABI: `NativeClient::next_hidout` / `send_rich_input`, exported as `punktfunk_connection_next_hidout` (-> PunktfunkHidOutput) and `punktfunk_connection_send_rich_input` (<- PunktfunkRichInput); header regenerated. - reference client: `--rich-input-test` drives the DualSense touchpad + motion and logs the 0xCD feedback that comes back. Validated live on-box: a synthetic-source m3-host + client-rs created the real kernel DualSense, drove 0xCC, and decoded 12 live 0xCD events (the kernel's actual lightbar/trigger init reports) with the data plane unaffected (600/600 frames). Adversarial review fixes folded in: the input loop no longer skips the rich drain + feedback pump on a dropped gamepad event, and the touch contact id is clamped to its slot. Remaining: the Apple client renders triggers/rumble on a real DualSense. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-11 08:36:12 +00:00
enricobuehler	6575dddac7	fix: keep the workspace green on macOS after the mic/touch/rich-input batch ... The new features were Linux-built only and broke the documented macOS gate (cargo build/test/clippy --workspace) four ways, all fixed following the existing platform-gating conventions: - m3.rs: mic_service_thread split into the Linux worker and a non-Linux stub that drains and drops (sessions still count the datagrams) — opus/PipeWire are Linux-gated deps, same pattern as audio_thread. - punktfunk-client-rs: the new `opus` dependency moved into the Linux target table and --mic-test gated with a warn-and-skip stub (only the synthetic-tone test rig needs the encoder; the mic uplink itself is portable). - gamestream/audio.rs: SAMPLE_RATE import gated to any(linux, test) (the frame_sizing test uses it everywhere, the data plane only on Linux). - tests/c_abi.rs: the harness's macOS link flags gained Security + CoreFoundation — the quic feature now pulls rustls's platform verifier into the staticlib. Also: two clippy match-ref-pats lints in the new rich-input/HID-output decoders (clippy -D warnings is the repo gate), the regenerated punktfunk_core.h committed (the checked-in copy predated the rich-input/HID-output constants — CI fails on drift), and web's inlang cache dir gitignored. cargo build/test/clippy/fmt --workspace: green on macOS, 122 tests passing. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>	2026-06-11 09:07:48 +02:00
enricobuehler	dc375668ee	feat: touch input — TouchDown/Move/Up + host libei ei_touchscreen injection ... Roadmap #5 (touch, ahead of the XL UHID DualSense work). Touch fits the existing 18-byte InputEvent: code = touch id, x/y = client pixels, flags = (w<<16)|h — the same absolute mapping as MouseMoveAbs. - core: InputKind::{TouchDown=9, TouchMove=10, TouchUp=11} + from_u8 + roundtrip test. - host inject/libei.rs: request the RemoteDesktop Touchscreen device type, bind the Touch capability, and inject ei_touchscreen down/motion/up (one event = one frame, per the protocol rule), mapping coordinates into the device region like the abs pointer. wlroots has no virtual-touch protocol wired — no-ops there. - client-rs --touch-test: drags a synthetic finger (touch id 0) in a circle. Validated live on headless KWin: the portal GRANTS the Touchscreen device type (Keyboard|Pointer|Touchscreen), proving the request path — but KWin's EIS server creates no touchscreen *device*, so touch currently no-ops on this KWin (now logged once, not silent). The injection code is correct and will land on a backend that exposes ei_touchscreen (gamescope / a newer compositor / the real touch-client path). Workspace green, clippy/fmt clean, +1 unit test. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 22:38:44 +00:00
enricobuehler	0755c823a5	feat: mic passthrough — client microphone → host virtual PipeWire source ... The inverse of the host→client audio path: the client's mic, Opus-encoded, rides a new 0xCB QUIC datagram to the host, which decodes it into a virtual PipeWire Audio/Source its apps can record from (voice chat, etc.). Protocol (punktfunk-core): - MIC_MAGIC 0xCB + encode/decode_mic_datagram (mirror of the 0xC9 audio datagram). - NativeClient::send_mic(seq, pts_ns, opus) over a new outbound channel + worker task (mirror of send_input); C ABI punktfunk_connection_send_mic for native clients. Host: - audio::VirtualMic + PwMicSource: a PipeWire output stream tagged media.class= Audio/Source (Direction::Output) — a recordable microphone node, fed decoded PCM. - MicService: host-lifetime owner of the source + Opus decoder (mirror of InjectorService / the audio capturer slot); lazily opened, persists across sessions, self-heals. The per-session datagram reader now demuxes 0xCB→mic / 0xC8→input over a single read_datagram loop (two loops would race). - Adaptive jitter buffer in the producer: primes to ~3 consumer quanta before emitting, so the 5 ms push / N ms pull clock skew never underruns — without it ~58% of output was silence; with it, glitch-free across consumer quanta. Client: punktfunk-client-rs --mic-test streams a synthetic 440 Hz Opus tone as the mic uplink (opus dep added) for end-to-end validation without a real microphone. Validated live on headless KWin: client tone → host source → pw-record shows the punktfunk-mic Audio/Source node, 440 Hz dominant (Goertzel power 20.7 vs <0.001 elsewhere), RMS 0.179 ≈ the ideal 0.177, 0.3–0.4% silence at both 256 ms and 10 ms consumer quanta. Tests +1 (mic datagram roundtrip); workspace green, clippy/fmt clean. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 22:15:07 +00:00
enricobuehler	6fdf7d1511	feat: client-selectable compositor (protocol → host → client → C ABI → mgmt → web) ... A client can now request which compositor backend the host drives its virtual output on (gamescope/KWin/Mutter/wlroots). The host honors the request if that backend is available, else falls back to auto-detect and reports the resolved choice back — wire-compatible both directions (no ABI bump). Protocol (punktfunk-core): - New CompositorPref (config.rs): Auto|Kwin|Wlroots|Mutter|Gamescope with u8/name mappings. Appended as one optional byte to Hello (client preference) and Welcome (host's resolved choice). Both decoders already tolerate trailing bytes, so old↔new interop is preserved — ABI_VERSION stays 2. Round-trip + back-compat (truncated-message) tests. - C ABI: punktfunk_connect_ex(compositor) + PUNKTFUNK_COMPOSITOR_* constants; punktfunk_connect delegates with AUTO, so the existing symbol is unchanged. NativeClient::connect / worker_main thread the preference through. Host: - vdisplay::available() enumerates usable backends via cheap, side-effect-free probes (KWin zkde global, gamescope binary+version, GNOME/Sway env), plus Compositor id/label/as_pref/from_pref/all helpers. - m3 handshake resolves the preference to a concrete backend during the handshake (pick_compositor pure + resolved logging), reports it in Welcome, and threads it into virtual_stream (replacing the unconditional detect()). - mgmt GET /v1/compositors lists every backend with availability + the auto-detected default (OpenAPI regenerated). Client: - punktfunk-client-rs --compositor NAME; logs the host's resolved choice from the Welcome ("session offer … compositor=…"). Web console: - Host page gains a Compositors card (availability + default badges) via the codegen'd useListCompositors hook; en/de strings added. Also fixes a pre-existing, env-dependent test-isolation bug: mgmt::tests::paired_clients_list_and_unpair seeded the real ~/.config/punktfunk/paired.json (AppState::new loads it), so a real GameStream-paired client leaked into body[0] on a dev box — now cleared first. Live-validated against headless KWin: --compositor kwin honored, --compositor mutter falls back to kwin (available=[kwin, gamescope]), resolved choice round-trips to the client. Tests: +6 (wire/back-compat, resolution precedence, endpoint); workspace green, clippy/fmt clean, C ABI harness PASS at abi_version=2, web typecheck + build clean. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 22:45:41 +02:00
enricobuehler	ff4fe197be	fix(punktfunk/1): adversarial-review fixes — SPAKE2 pairing, renegotiation hardening, +more ... Triaged the multi-agent review of the renegotiation + pairing + Sway + AV1/surround batch (1 critical, 11 major/minor confirmed). Fixes: CRITICAL — PIN pairing was offline-brute-forceable. The HMAC-of-PIN proof let an active MITM who terminates the TOFU ceremony recover the 4-digit PIN by offline dictionary search (all other inputs observable) and forge a correctly-bound proof. Replaced with **SPAKE2** (balanced PAKE, `spake2` crate) + key-confirmation MACs, binding both cert fingerprints as the SPAKE2 identities: an attacker gets exactly ONE online guess, no offline search, and mismatched cert views (a real MITM) never reach a shared key. Also reworked the UX to an "arming PIN" — one PIN per arming window shown at host startup (the SPAKE2 client needs the PIN to build its first message, so it can't be minted per-connection). Validated live: wrong PIN rejected in 0.1s, right PIN pairs + persists + the paired identity streams. Pairing hardening: `--allow-pairing`/`--require-pairing` must arm pairing (default rejects unsolicited ceremonies); per-host cooldown bounds online guessing; the client flushes its CONNECTION_CLOSE so a refused ceremony can't wedge the sequential host for the full timeout; atomic (temp+rename) paired-store writes. Protocol: control/pairing messages use a distinct CTL_MAGIC (PKFc) — fully disjoint from the positional Hello namespace (a future abi_version can't be misparsed as a control message); all typed decodes are length-exact. ABI_VERSION → 2 (punktfunk_connect signature gained the identity params; header regenerated). Renegotiation: drain the reconfig channel to the NEWEST mode (one rebuild, not one per stale step); validate refresh_hz; build the new pipeline BEFORE dropping the old so a rebuild failure keeps the session on its current mode instead of killing it. GameStream: packetDuration snaps to {5,10} (an in-between value isn't a legal Opus frame size and would kill audio). Sway: chooser file moved to $XDG_RUNTIME_DIR (was a fixed world-writable /tmp path — DoS / capture-misdirection by another local user). Swift: fixed two compile breakers in the new pairing/identity APIs (Int32 status .rawValue, UInt cap cast). New SPAKE2 + namespace-disjointness + pairing-roundtrip unit tests; the in-process pairing test now also exercises the arming PIN + cooldown. 114 tests green, clippy -D warnings clean (both feature sets), fmt, C-ABI harness. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 16:26:48 +00:00
enricobuehler	4d26ac5c85	feat: punktfunk/1 — mid-stream mode renegotiation + PIN pairing ceremony ... Renegotiation (no reconnect on resize): the handshake bi-stream stays open; the client sends Reconfigure{mode} (typed post-handshake message), the host validates + acks Reconfigured and rebuilds capture/encoder/virtual output at the new mode while the data plane (keys, ports, FEC) runs untouched — the first new-mode AU is an IDR with in-band parameter sets. NativeClient::request_mode / punktfunk_connection_request_mode; mode() reflects the active mode. Validated live on KWin: one continuous stream, 225 frames @1280x720 then 395 @1920x1080, ~90 ms pipeline rebuild (ffprobe shows both resolutions). PIN pairing (mutual trust, kills TOFU MITM): clients get persistent self-signed identities presented via QUIC client auth (generate_identity / client auth offered but optional server-side — legacy clients still connect). Ceremony on the control stream: PairRequest{name} → host shows a 4-digit PIN (log) + PairChallenge{salt} → client proves with HMAC-SHA256(PIN‖salt, client_fp‖host_fp) — binding both certs means a MITM can't forward a proof, single attempt per PIN, constant-time compare → PairResult; host persists the fingerprint (~/.config/punktfunk/punktfunk1-paired.json), client pins the host's. m3-host --require-pairing gates sessions on the paired set. NativeClient::pair + punktfunk_pair/punktfunk_generate_identity in the ABI; reference client: --pair PIN --name LABEL + auto-generated persistent identity, --remode for live renegotiation testing. Swift wrapper: ClientIdentity/generateIdentity()/pair(), requestMode()/currentMode(); README handoff updated. Tested: reconfigure/pairing wire roundtrips, C-ABI mode switch ack, full in-process ceremony (wrong PIN → Crypto, anonymous-vs-gate rejection, success → pinned session); live wrong-PIN ceremony against the serving host (PIN logged, proof rejected). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 15:42:29 +00:00
enricobuehler	bfd64ce871	rename: lumen → punktfunk, everywhere ... Full project rename, decided 2026-06-10: - Crates/binaries: punktfunk-core / punktfunk-host / punktfunk-client-rs. - C ABI: punktfunk_* symbols, Punktfunk* types, include/punktfunk_core.h, PUNKTFUNK_FEATURE_QUIC guard (header regenerated; cbindgen renames updated, incl. PUNKTFUNK_BTN_*/PUNKTFUNK_AXIS_* wire constants). - Protocol: punktfunk/1 — control-plane magic LMN1 → PKF1, nonce salt lmn1 → pkf1. WIRE BREAK: clients must be rebuilt from this revision. - Env knobs: PUNKTFUNK_VIDEO_SOURCE / PUNKTFUNK_COMPOSITOR / PUNKTFUNK_ZEROCOPY / …. - Host config dir: ~/.config/punktfunk (the box's dir was migrated in place — the persistent identity is unchanged, pinned fingerprints stay valid). - Swift package: PunktfunkKit + PunktfunkCore.xcframework + PunktfunkConnection (Sources/PunktfunkClient app + tests renamed with it); build-xcframework.sh updated. - scripts/: 60-punktfunk.rules, punktfunk-host.service; OpenAPI doc regenerated. Also: scripts/headless/run-headless-kde.sh — full headless Plasma bringup. Root cause of "desktop but no apps/settings" over the stream: plasmashell launched without XDG_MENU_PREFIX=plasma-, so the launcher resolved a nonexistent applications.menu and rendered an empty menu. The script sets the complete KDE session env (menu prefix, KDE_FULL_SESSION, session version) and rebuilds ksycoca before starting plasmashell. Gate: 97/97 tests, clippy -D warnings (both feature sets), fmt, C-ABI harness PASS, zero lumen references left outside .git. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 13:11:59 +00:00
enricobuehler	520d7342dd	feat: M3 — full lumen/1 session planes: audio, gamepads+rumble, pinned trust, persistent listener ... m3-host is now a real host, not a one-shot demo. Everything validated live on this box (two back-to-back sessions, pinned + TOFU, ~200 audio pkts/s, p50 0.84 ms at 720p60). lumen-core: - quic.rs: QUIC-datagram side planes demuxed by first byte — Opus audio 0xC9 ([magic][u32 seq][u64 pts_ns][opus], host→client) and rumble 0xCA ([magic][pad][low][high]). - Trust: endpoint::server_with_identity (persistent PEM identity) and endpoint::client_pinned — SHA-256 cert-fingerprint pinning with TOFU (observed fingerprint reported back for persisting). The verifier checks the TLS 1.3 CertificateVerify signature for real (an MITM replaying the host's public cert without its key is rejected; cert pinning alone would not prove key possession). - client.rs: NativeClient gains pin + host_fingerprint, audio/rumble receivers (next_audio / next_rumble); pull methods take &self so the C ABI's per-plane threads never alias a &mut (per-plane mutexed borrow slots in abi.rs). - abi.rs: lumen_connect(pin_sha256, observed_sha256_out) + lumen_connection_next_audio / next_rumble. input.rs: documented gamepad wire contract (GameStream buttonFlags bits, XInput axis conventions, +y = up) — exported as LUMEN_BTN_*/LUMEN_AXIS_* (bare BTN_* collides with <linux/input-event-codes.h> at different values). lumen-host (m3): - Persistent accept loop: sessions back to back on one endpoint (--max-sessions, 0 = forever); per-session failures log and the loop keeps serving; 10 s handshake deadline so a silent client can't wedge the sequential accept queue; teardown on every exit path (stop flag → conn.close → join audio+input threads). - Audio plane: desktop PipeWire capture → Opus 48 kHz stereo 5 ms CBR → datagrams; ONE capturer reused across sessions via an AudioCapSlot (PipeWire streams have no cheap teardown — per-session opens would leak a thread + core connection + live node each). - Gamepad routing: incremental GamepadButton/GamepadAxis datagrams accumulate into per-pad state feeding the uinput xpad manager; force feedback returns as rumble datagrams, with current state re-sent every 500 ms (idempotent-state healing for the lossy channel). QUIC endpoint serves the persistent ~/.config/lumen identity and logs the pinnable fingerprint. lumen-client-rs: --pin (malformed values abort — never silently downgrade to TOFU), TOFU fingerprint logging, audio/rumble datagram counters, gamepad events in --input-test. clients/apple: scaffold synced — pinSHA256/hostFingerprint (wrong-size pin throws, fail-closed), nextAudio/nextRumble, gamepad event constructors; README handoff updated (persistent listener, audio decode notes, trust UX). Adversarially reviewed (5-dimension multi-agent pass over the diff, 2-skeptic verification): fixed the MITM signature-check gap, a Y-axis contract inversion, header macro collisions, ABI aliasing UB, the PipeWire per-session leak, the missing handshake deadline, fail-open pin parsing, and teardown-on-error paths. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 12:26:18 +00:00
enricobuehler	3ea096ace9	feat: M4 groundwork — lumen/1 client connector in the C ABI + SwiftUI client scaffold ... The shared-core architecture pays off: platform clients now link ONE Rust library that does the entire lumen/1 protocol, and only add decode/present/input on top. lumen-core: - client.rs (quic feature): NativeClient — QUIC handshake + UDP data plane + input datagrams on internal threads; embedder surface = connect / next_frame / send_input. - abi.rs: lumen_connect / lumen_connection_next_au (borrow-until-next-call, matching lumen_client_poll_frame semantics) / lumen_connection_send_input / lumen_connection_mode / lumen_connection_close. Guarded in the generated header by LUMEN_FEATURE_QUIC (cbindgen [defines] mapping), so the checked-in header is stable across feature sets. - error.rs: append-only LumenStatus additions Timeout (-9) and Closed (-10). - TESTED end-to-end through the C ABI: in-process lumen/1 host, lumen_connect pulls 25 byte-verified frames, sends input, closes (m3.rs::c_abi_connection_roundtrip). Apple client (clients/apple — SCAFFOLD, written on Linux, first Xcode build pending): - scripts/build-xcframework.sh: cargo per Apple target → universal staticlib + header (LUMEN_FEATURE_QUIC pre-defined) + modulemap → LumenCore.xcframework. - Package.swift (LumenKit) + Swift sources: LumenConnection (ABI wrapper), AnnexB (in-band VPS/SPS/PPS → CMVideoFormatDescription, Annex-B → AVCC CMSampleBuffers with DisplayImmediately), StreamView (SwiftUI over AVSampleBufferDisplayLayer — stage-1 presenter that hardware-decodes compressed HEVC itself), InputCapture (GCMouse raw deltas + GCKeyboard HID→VK). - README.md is the full handoff for the next (Mac-side) agent: build steps, ABI contract, first-light test recipe against the Linux host, stage-2 (VT+Metal pacing) plan, and the known host-side gaps (single-session m3-host, no lumen/1 audio yet, gamepad kinds not yet routed in m3's injector, seed-stage trust). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-10 07:28:41 +00:00
enricobuehler	a913042367	feat: M1 lumen-core (FEC/crypto/packet/session + C ABI) and workspace scaffold ... Ground-up low-latency streaming stack per docs/implementation-plan.md. M1 is complete and tested; Linux host backends are cfg-gated stubs to be filled in on real hardware (M0/M2). lumen-core (built + tested on macOS/aarch64 — 21 tests): - fec: ErasureCoder over GF(2^8) (reed-solomon-erasure, Moonlight-compatible) and GF(2^16) Leopard-RS (reed-solomon-simd, the >1 Gbps wall-breaker); proptested - packet: zero-copy #[repr(C)] framing, multi-block, FEC-aware reassembly - crypto: AES-128-GCM with per-direction nonce salts + sequence-as-AAD - session: host submit / client poll hot paths + input; loopback & UDP transports - abi: opaque handles, versioned LumenConfig, panic guards; cbindgen-generated header - acceptance: Rust loopback+proptest and a C harness that links the staticlib Scaffold (compiles green on all platforms): lumen-host (vdisplay/capture/encode/ inject/web/pipeline seams under cfg(linux)), lumen-client-rs, tools/{loss-harness, latency-probe}, Apple/Android client stubs, Gitea CI, docs. Hardened against a multi-agent adversarial review (13 verified findings fixed, regression-tested): reassembler memory-DoS bounds + block-consistency validation, GCM nonce-reuse direction separation, ABI struct_size guard + range checks, FEC shard-length guards, shard_payload datagram bound, key zeroization + Debug redaction. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>	2026-06-09 00:02:52 +02:00