4839c0e6f609310ae24f5ee5bb9df38c070e8f74
82 Commits
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13d1aa5738 |
feat(clients/android): OnFrameRendered display stage — HUD headline becomes capture→displayed
The long-deferred Android display stage (design/stats-unification.md; plan 4.1 of design/client-parity-and-network-resilience.md): AMediaCodec_setOnFrameRenderedCallback (API 26, under the minSdk-28 floor ⇒ hard-linked via ndk-sys) reports SurfaceFlinger's per-frame render timestamp, giving the HUD the spec's `display` = decoded→displayed term and the directly-measured capture→displayed end-to-end headline on both decode loops. Falls back per spec to the v1 capture→decoded endpoint on any window without render callbacks (the platform may drop them under load), and to it permanently if registration is refused. - The render timestamp arrives on CLOCK_MONOTONIC; it's re-based onto CLOCK_REALTIME against monotonic-now at callback time, which also cancels the (batchable) callback delivery lag. - The `ndk` crate exposes neither the callback nor the codec pointer needed to bind it raw, so the workspace pins `ndk` 0.9.0 to a vendored copy (clients/android/native/ vendor/ndk) whose ONLY change makes MediaCodec::as_ptr public — the "as_ptr patch". Workspace-excluded so host builds never compile it; drop when upstream exposes either. - nativeVideoStats grows to 26 doubles (22–25: dispValid, displayP50, e2eDispP50/P95; 0–21 unchanged for older readers); StatsOverlay moves headline endpoint + equation together so the equation always tiles the headline interval. Verified: host cargo check/test/clippy, aarch64-linux-android check/clippy, Kotlin app+kit+tests compile, roborazzi HUD render shows the full 4-term equation. Device verification rides plan 4.2's phone A/B. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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01428ced58 |
feat(clients): reachability-probed presence + shareable Decky host management
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Add a bounded, trust-agnostic, mDNS-INDEPENDENT QUIC reachability probe and surface it everywhere saved-host presence is shown, so a host reached over a routed network (Tailscale/VPN/multicast-filtering LAN) no longer reads Offline just because it isn't advertising — the display-side companion to the 0.8.4 dial-first connect fix. Core: - punktfunk-core: NativeClient::probe (bounded handshake; a real host answers even on trust mismatch, a wrong/closed/TCP-only port fails) + punktfunk_probe C ABI (ABI_VERSION 3->4, header regenerated). - pf-client-core: trust::probe_reachable_many (parallel per-host sweep). Presence pips now read `advertising OR probed-reachable`, refreshed by a ~10-12s background sweep off the UI thread: - Linux (relm4): ui_hosts probed map + HostsMsg::Probed sweep. - Windows (windows-reactor): pf-probe worker -> HostsProps.probed. - Apple (SwiftUI): HostStore.refreshReachability, driven by HomeView + GamepadHomeView .task. - Android (Compose): nativeProbe JNI seam + periodic LaunchedEffect (LNP-gated), online dot added to the touch HostCard. - Decky already probes via --list-hosts --probe. Decky client: make the flatpak client's known-hosts store the single source of truth via new headless CLI modes (--list-hosts / --add-host / --set-host / --forget-host / --reset / --reachable). The plugin can now add a host by address, edit/forget hosts, reset all state (keeping the client identity), and shows probe-backed online pips — state is shared with the desktop client, not duplicated. Also lands in-progress Android 17 LNP groundwork (targetSdk 37 + ACCESS_LOCAL_NETWORK runtime flow, permission dialogs) that was already present in the working tree. Verified: cargo check + clippy clean (punktfunk-core, pf-client-core, linux, android native); android assembleDebug BUILD SUCCESSFUL; decky typecheck + rollup build clean; probe true/false-positive behaviour exercised against a live host. Windows and Apple were not compiled locally (no MSVC/Xcode on this Linux box). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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838a1239cf |
feat(codec): make client codec selection real — GPU-aware native advertisement
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The clients' codec pickers sent a preference the host threw away: host_wire_caps() hardcoded HEVC for every GPU backend, so the native path never emitted H.264/AV1 regardless of what the user chose. Host: advertise what the backend actually encodes, mirroring the GameStream serverinfo logic — software openh264 emits H.264; probed backends (Linux VAAPI, Windows AMF/QSV) advertise their per-GPU CodecSupport via the new wire_mask(); NVENC keeps the Moonlight-validated H.264|HEVC|AV1 static superset; an empty probe falls back to the superset so auto clients still resolve HEVC. Gate 10-bit to HEVC (like the 4:4:4 gate) now that a client can steer the codec — Main10 is the only 10-bit encode path. Fix the web-console stats label hardcoded to "hevc" (new Codec::label(), shared with the GameStream register_session mapping). Android: replace the hardcoded H264|HEVC Hello advertisement with a videoCodecs param fed by VideoDecoders.decodableCodecBits() (AV1 bit only when a real hardware video/av01 decoder exists — the decode loop was already mime-driven); offer AV1 in the codec picker on capable devices. Decky: add the missing "Video codec" dropdown (auto/hevc/h264/av1) to the plugin settings, round-tripping the same codec key the flatpak client reads. Apple: unchanged by design (AnnexB.swift is NAL-only, AV1 is never advertised); refresh the stale "hosts don't emit AV1 on the native path yet" comments here and host-side. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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ab6790ef6c |
fix(clients): dial-first reconnect — don't gate the connect on mDNS presence
A saved host that stopped advertising on mDNS but has a learned Wake-on-LAN MAC was routed into a wake-and-WAIT-for-mDNS flow instead of being dialed. For a host reached over a routed network (Tailscale/VPN/another subnet) mDNS never sees it, so the wait could never succeed and reconnects were impossible — the host log showed no connection attempt at all. The tile's Offline pip and this connect gate shared the same LAN-only `advertises`/`liveAdvert` predicate, so a perfectly reachable host read as unreachable. The first connect worked only because the MAC hadn't been learned yet (a direct dial); once learned, every reconnect wedged in the waker. All four full clients carried this pattern (deliberate mirrors of the Apple `HostWaker`). Each now DIALS FIRST: fire the magic packet up front (fire-and-forget — harmless if the host is awake, and a genuinely-asleep box is booting while the dial times out) and attempt the connection unconditionally. Only a FAILED dial falls into the visible "Waking…" wait, whose redial carries no fallback so it can't loop. A fingerprint-mismatch/trust-rejection failure means the host ANSWERED, so it never takes the wake path. - apple: SessionModel.connect gains `onUnreachable`; startSession dials first. - linux (relm4): AppMsg::WakeConnect wakes+dials; a per-request wake_fallback is armed and consumed in SessionExited, matched by fingerprint/address. - windows: initiate_waking + ConnectOpts.wake_on_fail; the worker's Failed arm escalates to wake_and_connect only on a non-trust failure. - android: doConnectDirect gains onFailure; doConnect wakes+dials first. Decky was already correct (always launches `--connect`; WoL fire-and-forget). Explicit "Wake host" menu actions are unchanged — waiting on mDNS is right when the user explicitly asked to wake a box. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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4c9c7e606e |
feat(android): tiered stats HUD + windowed lost/skipped/FEC counters
Stats overlay verbosity tiers (Off/Compact/Normal/Detailed, 3-finger tap cycles live, old Boolean pref migrated) and the unified-spec line-4 reliability counters: lost/FEC windowed from the connector's cumulative totals, skipped from the client's own newest-wins drops. Adds the fec_recovered_shards accessor to NativeClient, mirrored from the data-plane pump like frames_dropped. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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0ab97b597c |
refactor(client): extract UI-agnostic plumbing into pf-client-core (phase 0)
Session pump, FFmpeg decode, PipeWire audio, SDL3 gamepads, keymap, trust store, mDNS discovery, library client and Wake-on-LAN move verbatim from clients/linux into crates/pf-client-core, shared with the upcoming Vulkan session binary (punktfunk-planning: linux-client-rearchitecture.md). The GTK client re-exports them at the crate root so every existing crate::-path keeps resolving; its manifest drops the moved-only deps. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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04302075b5 |
feat(android): promote the low-latency pipeline to default
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The async decode loop (burst-feed + present-newest-per-vsync, the Apple client's discipline) plus the per-SoC tuning was gated behind an experimental, default-off toggle after the |
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17685ff73b |
build(android): debug APKs ship release-profile rust
Cargo's debug profile is not "slower" for this library — it is unusable, and it invalidated every on-device performance test to date: RustCrypto's AES-GCM compiles to generic-array iterator closures with per-byte precondition checks instead of ARMv8 hardware AES. Profiled live on a phone (simpleperf, 62k samples): ~800 µs of user CPU per 1.4 KB packet — the receive pump pinned above a full core yet only draining ~1,400 pkt/s of a 1,775 pkt/s (20 Mbps) stream, 2.3 MB standing in the kernel socket buffer, the latency-bound flush firing every 2 s forever. With release rust in the same debug APK: pump at ~12 % of a core, socket queue zero, no flushes, 2800x1260@120 streaming clean. preDebugBuild now depends on cargoNdkRelease; `-PrustDebug` opts back into a debug-profile native build for sessions that actually step through Rust. Kotlin debuggability is unchanged. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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08ab2b6bee |
fix(android): declare WAKE_LOCK — the stream's Wi-Fi locks never actually engaged
WifiLock.acquire() enforces the WAKE_LOCK permission, which the manifest never declared — every acquisition since the first Wi-Fi lock shipped threw SecurityException, silently swallowed by a bare runCatching. The phone's own accounting proved it (dumpsys wifi: high_perf/low_latency active_time_ms = 0 across weeks of streams): every on-device session ran with Wi-Fi power save fully active, whatever the code intended. Verified live after the fix: both locks registered in WifiLockManager, mPowerSaveDisableRequests=2, ping RTT to the streaming phone 3.8 ms avg. A failed acquire now logs loudly — this class of failure must never be invisible again. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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b271d0c816 |
fix(android): hold BOTH Wi-Fi locks while streaming — HIGH_PERF alone is a no-op
The baseline stream held only WIFI_MODE_FULL_HIGH_PERF, which is deprecated AND non-functional on recent Android — so with the low-latency toggle off (the default) Wi-Fi power save stayed fully active: downlink delivery clumped at beacon intervals (a few hundred ms of latency mush, sawtoothing bitrate) and the AP's power-save buffer periodically overflowed, killing whole frames every few seconds (the host log's alternating loss_ppm=0/50000). Now every stream holds FULL_LOW_LATENCY (API 29+, the only effective power-save disable; foreground + screen-on, which a stream always is) AND FULL_HIGH_PERF (covers older releases) — the same pair Moonlight holds. The experimental toggle no longer selects the lock mode. Also: declare tracing's "log" feature explicitly in the native crate (core transport warnings → logcat must not hinge on quinn's default features), and align the low-latency toggle's copy with its actual scope. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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83b7c7adf5 |
feat(android): console UI — per-controller glyphs, dialog scrolling, animated forms
- Hint-bar glyphs now wear the driving controller's family (kit Gamepad.styleFor by USB vendor id → MainActivity.lastPadStyle, kept live by real input like lastPadIsGamepad): PlayStation pads get Canvas-drawn cross/circle/square/triangle shapes in the classic colours, Nintendo pads monochrome lettering, Xbox/Valve/unknown the coloured letter discs. Hint chars stay semantic (KEYCODE_BUTTON names); only the rendering changes. - The Options legend renders the pad's real Select-family button (SelectButtonGlyph): Xbox View windows, PlayStation Create capsule, Nintendo minus — instead of a bare capsule outline. - GamepadDialog: body + action stack scroll together (title pinned) with BringIntoViewRequester keeping the focused button visible — a 5-action host options dialog compressed/clipped its last button in short landscape windows because the pinned stack could not scroll. - Console form polish: shared animateConsoleFocus (bg/border cross-fade + spring scale) across settings rows / add-host fields / action rows; ConsoleSwitch (spring knob, tinting track) replaces On/Off text on toggle rows; choice values slide in the direction they were stepped (AnimatedContent + SizeTransform) with chevrons that fade in place; the focused row's detail unfolds via AnimatedVisibility; dialog buttons and keyboard keycaps cross-fade (keycaps at 90 ms for hold-to-repeat). - Console settings gain the "Low-latency mode" (Video) and "Auto-wake on connect" (Interface) rows, round-tripping with the touch settings. - Screenshot scene: StatsOverlay call updated to the 18-double layout + the new decoderLabel parameter (fixes the android-screenshots CI compile). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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da376b3122 |
fix(android): gate the latency overhaul behind an experimental toggle, default off
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The
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b3c7ba5082 |
fix(android): auto-wake opt-out + console glyphs default by form factor
An mDNS discovery miss was forcing connects through the Wake-on-LAN wait
even for a host that's already up; add a Settings toggle ("Auto-wake on
connect") that skips the mDNS-liveness gate and dials straight through
when off.
Also default the console UI's button glyphs by form factor instead of
always starting in TV-remote style: a phone/tablet only ever enters the
console UI via a real controller, so it should show gamepad glyphs from
the first frame, not a remote's select/back glyphs. TV keeps the remote
default.
Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
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959dd74dc8 |
feat(android): add higher bitrate options up to 500 Mbps
Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com> |
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91fadce900 |
feat(clients): signal explicit exit (QUIT_CLOSE_CODE) on deliberate disconnect
The core's deliberate-quit close (NativeClient::disconnect_quit → QUIT_CLOSE_CODE,
host skips the keep-alive linger) was implemented but never called by any client.
Wire it to each client's explicit user-disconnect action — NOT to a network drop /
host-ended / app-background (those keep the linger for a reconnect):
- core: new C-ABI punktfunk_connection_disconnect_quit(c) for the ABI clients
- Linux (direct-core): Ctrl+Alt+Shift+D + the controller escape chord
- Windows (direct-core): Ctrl+Alt+Shift+D
- Apple (C-ABI): PunktfunkConnection.disconnectQuit() + a `deliberate` flag on
SessionModel.disconnect() (sessionEnded passes false → keeps the linger)
- Android (JNI): new nativeDisconnectQuit export, called from the back gesture +
the Select+Start+L1+R1 chord (not the host-gone watchdog)
- probe already did this via --quit (
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f47d417f37 |
fix(android): launch games from the library
The library browser was browse-only — the A button (and a tap) did nothing. Wire it to connect + boot straight into the selected title: thread a `launch` id (the store-qualified library id `steam:<appid>` / `custom:<id>`) through nativeConnect → NativeClient's Hello.launch (was hardcoded None), add a shared connectToHost() the ConnectScreen and the library launcher both use, and have LibraryScreen dial the host with launch=game.id on A / tap — with a launching overlay + an "A Launch" hint. Verified: native compiles (cargo-ndk arm64), app+kit Kotlin compiles (gradle, 3 ABIs). Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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70e9570040 | fix(android): pass dropped streams through to the ui | ||
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5dc24a069f |
perf(android): low-latency decode overhaul — vendor keys, async loop, system tuning
Close the latency gap on the Android client with per-SoC decoder tuning, an event-driven decode loop, and full system integration. - Decoder selection: rank MediaCodecList decoders in Kotlin (hardware/vendor preferred, software avoided, FEATURE_LowLatency probed) and create the chosen one by name. Per-SoC low-latency keys gated on the codec-name prefix: Qualcomm picture-order + low-latency, Exynos (also Google Tensor), Amlogic, HiSilicon; MediaTek vdec-lowlatency set unconditionally. operating-rate = MAX (Qualcomm) vs priority = 0 (else) are mutually exclusive. NVIDIA/Rockchip/Realtek have no vendor key — covered by ranking + the standard low-latency key. - Async decode loop: AMediaCodec async-notify replaces the poll loop, presenting a decoded frame the instant it is ready instead of waiting out a poll interval. Behind USE_ASYNC_DECODE with the synchronous loop kept for A/B during bring-up. - System integration: Wi-Fi FULL_LOW_LATENCY lock and HDMI ALLM (setPreferMinimalPostProcessing) for the stream's lifetime; game_mode_config.xml opting out of OEM downscaling / FPS overrides. - Pipeline: boost the data-plane pump + audio thread priorities, AAudio usage=Game, DSCP marking on by default on Android, ADPF setPreferPowerEfficiency(false), and setFrameRateWithChangeStrategy(ALWAYS) to force the HDMI mode switch on TV. - lowLatencyMode master toggle (default on) as the escape hatch; the stats HUD now shows the resolved decoder name. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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3775a39e70 |
feat(android): console UI, wake-on-LAN wait-until-up, host edit + TV/tablet polish
Bring the Android client to parity with Apple's gamepad experience and finish Wake-on-LAN. - Console/gamepad home: host carousel, aurora chrome, mTLS game-library coverflow, and an input-aware legend that switches between gamepad face buttons and a TV-remote select-ring + arrows based on the last-used input. - Wake-on-LAN: the fire-and-forget send is upgraded to wait-until-up (WakeController/WakeOverlay: resend + mDNS poll, 90s timeout, cancel/retry, fingerprint-matched so a host that cold-boots onto a new DHCP IP still connects), plus host edit (touch dialog + console form) with an auto-filled MAC. - Android TV: brand banner (android:banner), density-aware console scaling, D-pad/ remote nav (Up = Settings, Down or the pad Select button = host Options), emergency stream-exit chord, and 120Hz console refresh. - Touch UI: settings split into subpages with a tablet NavigationRail, axis-aware tab animation (horizontal on phones, vertical on the tablet rail), animated settings navigation, and a licenses screen with a back button + the real workspace version (read from Cargo.toml). - Vector Lock/controller icons (no emoji); bundled Geist font. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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7c230b97f8 |
fix(wol): clippy + cfg-gate the Windows client module — main compiles again
The Wake-on-LAN batch landed with lints that fail `clippy -D warnings` (doc continuation, char-array split, io::Error::other, redundant closure) and an ungated `mod wol;` in the Windows client, which pulls windows-only crates into the non-Windows stub build. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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3545febbeb |
style: rustfmt the Wake-on-LAN modules
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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fb709d68ce |
feat(clients): Wake-on-LAN in apple/linux/windows/android/decky
Each client learns a host's MAC from the mDNS `mac` TXT while it's awake, persists it on the saved-host record, and — when reconnecting to an offline host — sends a magic packet before connecting, plus an explicit "Wake host" action. Apple wraps the C-ABI; linux/windows call the core fn directly (linux also gains a --wake CLI mode); android via a new nativeWakeOnLan JNI export (the mDNS browse record gains a 7th mac field); decky shells out to the linux client's --wake before launching the stream. iOS/tvOS need the managed com.apple.developer.networking.multicast entitlement (pending Apple approval), so the wake path + UI are gated off via PunktfunkConnection.wakeOnLANAvailable and the entitlement is commented out — keeping iOS/tvOS releasable. MAC-learning stays active on every platform so it lights up the moment it's ungated. macOS works today. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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d6dbce1dcc |
feat(clients): host/network split in every stats HUD (stats phase 2, client side)
Consumes the 0xCF host-timing plane (
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83460cd2c0 |
feat(clients): unified stats vocabulary across every client + Moonlight comparison docs
One stat model everywhere (design/stats-unification.md): four measurement points (capture/received/decoded/displayed), three stages that tile the interval exactly, and a HUD that shows the addition explicitly — end-to-end 14.2 ms p50 · 19.8 p95 · capture→on-glass = host+network 9.8 + decode 2.1 + display 2.3 replacing each client's ad-hoc mix of overlapping absolutes (the Apple HUD's three arrow lines that looked sequential but weren't), mean-vs-median decode times (Windows/Linux), missing same-host-clock flags (Windows/Linux), and three different names for the same capture→received measurement (probe's "reassembled", Apple/Android's "client", Windows/Linux's post-decode "lat"). Per client: Apple threads receivedNs through the VT decode via the frame refcon bit pattern so the decode stage exists at all (stage-1 fallback honestly degrades to a capture→received headline); Windows carries FrameTimes through the existing frame channel to the render thread and adds e2e p50/p95 post-Present; Linux stamps received at AU pop and rides decoded_ns on DecodedFrame to the paintable-set site; Android pairs receipt stamps with MediaCodec output buffers via the codec's pts round-trip (JNI stats array 14→16 doubles, indexes 0-13 unchanged). fps now uniformly counts received AUs; lost/(received+lost) per window, hidden at zero. docs-site gains "Understanding the Stats Overlay": what each line means, why the equation only approximately sums (percentiles), and a line-by-line Moonlight/Sunshine matrix — including that Moonlight has no end-to-end number and its "network latency" is an ENet control RTT, so punktfunk's headline must not be compared against any single Moonlight line. Verified here: linux client + probe + core check/clippy/fmt green, android native cargo-ndk arm64 check green. Pending: Windows CI + on-glass, swift test on the mac, on-device Android. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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495646b676 |
feat(client/android): Snapdragon latency tuning — ADPF pipeline hints, game mode, max-clock decode
Three levers to lower and steady decode latency on Snapdragon (Adreno) devices:
- ADPF (Adaptive Performance Framework): a new dlsym-resolved hint session
(native/src/adpf.rs; API-33+, resolved at runtime so there's no build-time
link dependency and libpunktfunk_android.so still loads on API 31/32) tells
the CPU governor the video pipeline runs a per-frame real-time workload, so it
keeps those threads on fast cores at high clocks. It now covers all three
latency-critical threads — the pf-decode feed/drain/present loop, the core
data-plane pump (UDP receive + FEC reassembly), and the audio thread — via a
new generic hot-thread registry on NativeClient (register_hot_thread /
hot_thread_ids; the pump self-registers). The session is built lazily on the
first presented frame, since ADPF createSession rejects a set containing any
not-yet-live tid.
- operating-rate -> Short.MAX ("as fast as possible"): pushes the Qualcomm
decoder to run each frame at max clocks instead of merely sustaining the
display rate at a power-saving clock that adds per-frame decode latency.
- appCategory="game": makes the app eligible for OEM Game Mode / Game Dashboard
performance profiles.
The core registry is cross-platform (gettid on Linux/Android, a no-op
elsewhere) — no Android-specific pollution of the shared core. Host workspace +
64 core tests green; Android arm64-v8a + x86_64 (platform 31) build + clippy
clean. On-device Snapdragon validation pending.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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16a7991cea |
fix(android/ci): retry transient Play API failures in play-upload.py
The uploader only caught HTTPError — a URLError (TLS "EOF occurred in violation of protocol", the failure that dropped two release uploads on 2026-07-02) or a Google 5xx killed the job outright. Retry those with 3/9/27 s backoff; 4xx still fails fast. The edits API is transactional until commit, so re-sending is safe. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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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> |
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ed6108215d |
feat(android): connected-controllers debug view (Settings → Host)
The client end of the "host doesn't see my gamepad" triage chain: a new ControllersScreen lists every InputDevice Android classifies as a gamepad/joystick (name, VID:PID, source classes, the punktfunk pad type it resolves to, rumble test) plus an "Other input devices" section — a pad behind a BT→USB adapter (the Pico 2W tester case) often enumerates with the adapter's identity or not as a gamepad at all, and this makes that visible on the device instead of over a bug report. A live input test (button chips + axis bars + raw last-keycode line) consumes pad events via new MainActivity probe hooks ahead of the focus-nav remap; hold B 1.2s to exit since the pad can't reach the toggle while captured. Gamepad grows pads()/isPad() (firstPad generalized). Kotlin compiles green (kit + app); on-device validation pending. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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76e2a1f5a7 |
fix(host/linux,clients/android): honor the host/device keyboard layout in keymaps
wlroots injector: the virtual keyboard keymap now defers to the standard XKB_DEFAULT_RULES/MODEL/LAYOUT/VARIANT/OPTIONS env vars (libxkbcommon built-ins as fallback) instead of hardcoding evdev/pc105/us, matching the libei path where the session compositor's own keymap applies. Android: Keymap gains the same positional-key coverage for non-US layouts (+ tests). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com> |
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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>
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b357934cb1 |
feat(clients): codec preference on Windows/Apple/Android clients (Phase 2b)
Rounds out codec negotiation across the last three clients — each advertises what it can decode, builds its decoder from the resolved Welcome.codec, and exposes a "Video codec" preference picker. **Windows** (Rust, mirrors Linux): `decodable_codecs()` + `ffmpeg_codec_id()`; the D3D11VA and software FFmpeg decoders (and the mid-session D3D11VA→software demotion) open the negotiated codec instead of hardcoding HEVC; settings gain a `codec` field + reactor ComboBox; `--codec` CLI flag. **Apple** (Swift/C-ABI): AnnexB is now codec-aware — a `VideoCodec` enum drives H.264 vs HEVC NAL parsing / parameter-set extraction (`CMVideoFormatDescriptionCreateFromH264ParameterSets` for H.264, no VPS) and AVCC repacking; `PunktfunkConnection` advertises H264|HEVC via `punktfunk_connect_ex7`, reads `resolvedCodec` (`punktfunk_connection_codec`), and threads `videoCodec` into the stage-1/2 pipelines + `VideoDecoder`; SettingsView "Video codec" Picker (auto/HEVC/H.264). AV1 is left out (hosts don't emit it on the native path, and it's not an AnnexB codec). Test call sites updated. **Android** (Kotlin + Rust JNI): the JNI `nativeConnect` gains `preferredCodec`; the native decode loop picks the AMediaCodec MIME (`video/hevc`|`video/avc`) from `connector.codec` and advertises H264|HEVC; Settings `codec` field + Compose dropdown. Core/host/probe/Linux clippy + tests green (unchanged from 2a). Windows/Apple/Android compile on their platform CI (this Linux box can't build them — Windows toolchain / Xcode / the Android NDK's opus-cmake toolchain). All follow the Linux client's validated pattern. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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78e74f6ceb |
docs: rework client/crate READMEs, add missing ones
Rework the client READMEs to be accurate and inviting to first-time
visitors, and fill in the gaps where crates and tools had none.
- Rewrite clients/{apple,android,decky} READMEs (features-first, trim
dense internal narrative; drop the stale "one session at a time" /
"renegotiation not implemented" section from the Apple README).
- Add READMEs for clients/{linux,windows,probe}, which had none.
- Add crate READMEs for punktfunk-host, punktfunk-core, pf-driver-proto.
- Add brief READMEs for tools/{loss-harness,latency-probe}.
- Fix packaging/README duplicate "Option B" heading (bootc -> Option C).
- Fix docs-site/README stale docs/ -> design/ reference.
- De-stale packaging/windows/drivers/pf-dualsense README (drop "M0 spike"
/ external-checkout framing; reflect in-tree workspace + shipped +
installer-bundled + multi-pad), keeping the driver-authoring lore.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
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cca18c0be4 |
feat(android): HDR toggle, video-feed stats, landscape lock
- HDR toggle in Settings → Display. Persisted (hdr_enabled, default on); the host is advertised HDR only when the toggle is on AND the panel can present HDR10 (displaySupportsHdr), so SDR panels never get PQ they'd mis-tone-map. The toggle is disabled/greyed on non-HDR displays (ToggleRow gained `enabled`). - Extend the stats HUD with a video-feed line, e.g. "HEVC · 10-bit · HDR (BT.2020 PQ) · 4:2:0". nativeVideoStats now returns 14 doubles (appends bitDepth, CICP primaries/transfer, chroma_format_idc from the negotiated Welcome); older/shorter layouts just omit the line. - Lock the stream to landscape while streaming (SENSOR_LANDSCAPE), restoring the prior orientation on exit. The activity declares configChanges=orientation, so it re-lays-out in place with no stream restart; harmless no-op on TV. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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df9470a0f2 |
feat(steam): M4 complete — C-ABI send path, Decky UX, Apple/Android parity
Finish the client side of the Steam Controller / Steam Deck pipeline. - C-ABI (core abi.rs): PunktfunkRichInputEx — a size-prefixed superset of PunktfunkRichInput that can express the second trackpad (surface), a distinct click vs touch, signed coords + pressure — plus punktfunk_connection_send_rich_input2 (the struct_size ABI-skew-guard precedent). The only way a C client (Apple/embedders) can emit a TouchpadEx; the legacy struct + send_rich_input stay byte-for-byte. punktfunk_core.h regenerated. - Decky (clients/decky): a "Steam Deck" gamepad type in Settings + an unmissable Disable-Steam-Input instruction shown when it's selected (in Game Mode Steam Input holds 0x1205, so the SDL HIDAPI Steam driver can't open the Deck's controls until the user disables Steam Input for the shortcut). Plus a best-effort, feature-detected disableSteamInputForShortcut() in launchStream — never blocks/throws; the manual toggle is the documented source of truth. - Apple parity (PunktfunkConnection.swift): GamepadType.steamController/steamDeck (wire 5/6) + name parsing, so the resolved type round-trips. Capture is blocked (GameController never surfaces a 0x28DE HID device). - Android parity (Gamepad.kt): PREF_STEAMCONTROLLER/STEAMDECK + the Valve 0x28DE PIDs in prefFor(). Rich-input capture stays out of scope (no rich-input plane yet) — standard buttons/sticks resolve to the host's Steam Deck pad. Rust workspace clippy/fmt/test green; Decky src/ typechecks clean (only a pre-existing @decky/api dep resolution error remains); Swift/Kotlin compile on their CI. The full pipeline is now BUILT; what remains is validation that needs hardware we don't have (a running Steam on the host, a live Deck client, the Moonlight paddle regression). Not pushed. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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7cc2ed85cb |
feat(proto/steam): M3 — rich Steam wire (back buttons + 2nd trackpad)
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> |
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a05c08b1b0 |
feat(clients): in-app OSS / third-party-license screens
Surface THIRD-PARTY-NOTICES.txt in every GUI client (the desktop packages already
ship it as a file; this adds the on-glass screen):
- Linux: Preferences -> About -> Third-party licenses (adw::AboutDialog with the app
license + Legal sections; include_str! the root notices).
- Apple: macOS About tab / iOS+tvOS Acknowledgements link; notices bundled as
PunktfunkKit SPM resources, read via Bundle.module (the Xcode app links the SPM
product, so they ride along - no .pbxproj edit).
- Android: Settings -> About -> Open-source licenses (reads the bundled asset).
- (Windows landed earlier in
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624387ea82 |
feat(pairing): seamless no-PIN delegated approval (host parks the knock, clients add "Request access")
Web-console "Approve" (delegated pairing, roadmap §8b-1) was unreachable: every client routed a fresh pair=required host straight to the SPAKE2 PIN ceremony, so no "knock" was ever recorded; and an unpaired connect was rejected+closed with no way to resume after approval. The backend + console were complete but had no client-side trigger and no post-approval admit path. Host (native_pairing.rs, punktfunk1.rs): an unpaired identified knock is now PARKED instead of rejected — it releases its NVENC session permit, awaits an operator decision (NativePairing::wait_for_decision, woken by a Notify on approve/deny), and on approval re-acquires a slot and admits the SAME connection with no reconnect. QUIC keep-alive (4s/8s) holds the parked connection warm. The pairing gate moves out of the HANDSHAKE_TIMEOUT-bounded handshake future; approve_pending is reordered read-then-add and wait_for_decision double-checks is_paired to close a "neither pending nor paired" race. New PENDING_APPROVAL_WAIT (180s). Tests: delegated_approval_admits_after_knock now approves mid-park (no reconnect) + new wait_for_decision_approve_deny_timeout unit test (108 host tests green). Clients (Linux/Apple/Windows/Android): a fresh pair=required host now offers "Request access" alongside the PIN ceremony — a plain identified connect with a ~185s handshake budget and a cancelable "waiting for approval" UI; on success the host is saved as paired, and cancel returns the UI immediately while a late- resolving connect is torn down silently via a per-attempt flag. Apple reuses the existing C-ABI timeout_ms (no ABI change); Windows adds SessionParams.connect_timeout + a RequestAccess screen; Android adds a timeoutMs arg to the nativeConnect JNI seam (both sides + both callers). Linux built + clippy + fmt clean; Apple/Windows/ Android pending their CI/on-device compiles. SPAKE2 ceremony reviewed end-to-end against the spake2 0.4 contract — correct, no changes needed. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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7612238a59 |
feat(audio): end-to-end 5.1/7.1 surround across the native path + all clients
Adds negotiated 5.1/7.1 surround to the punktfunk/1 protocol and every client (previously stereo-only): - core: new shared `audio` layout table (LAYOUT_51/71 + identity multistream mapping, canonical wire order FL FR FC LFE RL RR SL SR); Hello/Welcome `audio_channels` negotiation via the trailing-byte back-compat pattern (old peers fall back to stereo); C-ABI `punktfunk_connect_ex6`, `punktfunk_connection_audio_channels`, and in-core multistream decode `punktfunk_connection_next_audio_pcm` for embedders without a multistream Opus decoder. Real-libopus channel-identity round-trip test. - host: native audio thread captures + Opus-(multi)stream-encodes at the negotiated count (with a cross-session cached-capturer channel-mismatch fix); GameStream surround unified onto the safe `opus::MSEncoder`, dropping `audiopus_sys` (~4 unsafe blocks) and un-gating Windows GameStream surround; WASAPI loopback capture relaxed to 2/6/8 with the correct dwChannelMask. - clients: Linux (PipeWire), Windows (WASAPI), Android (AAudio) decode via `opus::MSDecoder` + render multichannel; Apple decodes in-core to PCM → AVAudioEngine with an explicit wire-order channel layout; each gains a Stereo/5.1/7.1 setting. `punktfunk-probe --audio-channels N` is the headless validator. Verified on Linux: core/host/linux/probe test suites + the Android Rust (cargo-ndk) build, clippy -D warnings, and rustfmt all green. Windows/Apple builds, all on-glass checks, and the live native loopback are pending (CI / a free box). Also lands the concurrent in-tree HEVC 4:4:4 host work (PUNKTFUNK_444): it shares the same touched files (quic.rs, punktfunk1.rs, encode/*, ...) and so cannot be committed separately from the surround changes. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> |
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30b9bf3a6f |
feat(client/android): CI screenshot capture via Roborazzi
Play-listing/marketing screenshots of the Compose client rendered on the host JVM by Roborazzi (Robolectric Native Graphics) — no emulator, GPU, KVM, host, or JNI core. Five scenes render the REAL composables with embedded mock state under a forced brand palette (Material You has no wallpaper to seed from on the JVM): hosts grid, settings, TOFU + PIN dialogs, and the live stats HUD. Validated 5/5 locally. - New JVM unit-test source set (app/src/test) + Roborazzi/Robolectric test deps; @Config(sdk=36) is mandatory (no android-all jar for compileSdk 37) and the animation clock is paused so a text-bearing scene reaches idle. - kit: `-PskipRustBuild` skips the cargo-ndk native build so the JVM-only test job needs no Rust/NDK; normal APK/AAR builds are unchanged. - Widen BrandDark / StatsOverlay to internal so the tests can use them. - Standalone best-effort tag-gated workflow; PNGs upload as a 30-day artifact. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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428b2901f6 |
feat(android/touch): trackpad-relative cursor (default), with a direct-touch toggle
One-finger touch was absolute "direct pointing" — the host cursor jumped to the finger and was recomputed from each touch-start, so you couldn't precisely reach a target. Now a relative trackpad: the cursor stays put on touch-down and moves by the finger delta (host MouseMove via nativeSendPointerMove, already supported — no protocol change), with mild pointer acceleration and sub-pixel remainder accumulation so slow precise moves aren't lost to Int truncation. Swipe, lift, and re-swipe to walk it across; tap = left-click at the cursor's current position. Two-finger scroll / right-click, three-finger HUD toggle, and tap-then-hold-drag are preserved unchanged; finger-id re-anchoring keeps multi-touch transitions jump-free. Added Settings → Pointer → "Trackpad mode" (default on); turning it off restores the old direct-pointing path verbatim. :app:compileDebugKotlin green. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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24e566b201 |
fix(android/audio): kill the AAudio crackle (RT-safe ring + deeper buffer + XRun sizing)
The jitter ring was a port of the Linux client's, but Linux runs on PipeWire (adaptive resampling masks host↔DAC drift + a shallow buffer); AAudio hands us a raw realtime callback and we own the buffer, so the same code crackled only on Android. Three converging causes, all fixed: - Heap free on the realtime audio thread every quantum (Android's Scudo free() has unbounded tail latency → XRun → click). Decoded buffers are now recycled back to the producer via a free-list instead of freed on the audio thread; the ring is pre-reserved so extend() never reallocates there. - The ring collapsed to ~15 ms on the tiny LowLatency burst and re-primed (a fresh silence) on every single empty callback. Now ~40 ms prime / ~150 ms hard cap, decoupled from the burst size, with de-prime hysteresis (re-prime only after a sustained drain). - AAudio's anti-glitch knobs were unused: prime the HW buffer above its 2-burst default and grow it on getXRunCount(). The post-open log now reports perf/sharing/buffer so a fall to a resampled legacy path is visible. Steady-state audio latency ~15 → ~40 ms (within lip-sync tolerance; matches the Moonlight/Sunshine operating point). cargo-ndk build both ABIs + fmt + clippy green. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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e9a0026a4c |
feat(android): native mDNS discovery, host naming, touch mouse, stock selects
Discovery: replace the flaky per-OEM NsdManager with the same mdns-sd browse
the Linux/Windows clients use, in the Rust core over JNI and polled by Kotlin
(discovery.rs + nativeDiscovery{Start,Poll,Stop}); Kotlin keeps only the Wi-Fi
MulticastLock + permission UX. IPv4-only (the core can't dial a bare/scoped v6
literal); daemon + fold-thread cleanup on every failure path; field
sanitization so a rogue advert can't corrupt the picker snapshot. Discovery
now starts regardless of NEARBY_WIFI_DEVICES (raw multicast only needs the
MulticastLock) — a denial no longer kills it forever. ParseTxtTest replaced by
ParseRecordTest.
Hosts: hide already-saved hosts from the "Discovered" section (match by
fingerprint, else address:port — mirrors the Apple client); add an optional
Name field to the Add-host sheet and a Rename action on saved cards.
Input: touch -> absolute mouse "direct pointing" like the Apple client — the
host cursor follows the finger (new nativeSendPointerAbs -> MouseMoveAbs). Tap
= left click, two-finger tap = right click, two-finger drag = scroll,
tap-then-drag = left-drag, three-finger tap = HUD toggle.
Settings: revert the dropdowns to the stock ExposedDropdownMenuBox look (a
controller-focus UI will come separately); even out the Add-host field gaps.
Docs updated (CLAUDE.md, client READMEs, docs-site status).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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6d370f7ed9 |
ci(release): split canary/stable tracks + unified Gitea Releases
A push to main publishes canary builds to canary channels (fast iteration,
unchanged); a single vX.Y.Z tag releases every platform at one version to the
stable channels and attaches all artifacts (.deb/.rpm/.msix/.apk/.aab/.dmg +
flatpak/decky/host-installer) to one Gitea Release. Collapses the
host-v*/win-v*/host-win-v* tag namespaces into v* — the channel split makes the
version-shadow bug structurally impossible (canary and stable are separate repos,
never a shared version line).
- scripts/ci/gitea-release.{sh,ps1}: one idempotent release helper
(create-or-fetch + delete-before-upload), replacing 3 copy-pasted inline blocks
and fixing their latent 409-on-reupload bug; prerelease flag auto-derived from
the tag (an -rc tag won't shadow "Latest")
- channels: apt canary/stable distributions; rpm *-canary/base groups; flatpak
canary/stable OSTree branches + a 2nd .Canary.flatpakref; generic-registry
canary/ vs latest/ aliases; Play internal/alpha; Apple TestFlight vs notarized DMG
- android versionName threaded through gradle (versionCode stays run_number);
Apple canary = TestFlight-only (no DMG/tvOS); canary base bumped to 0.3.0
- docs: new docs-site channels.md (subscribe table + cut-a-release runbook +
box migration), refreshed ci.md workflow table + packaging READMEs
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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99ae1b9a17 |
feat(gamepad): add virtual Xbox One/Series + DualShock 4 pad types
Extends virtual-controller support beyond Xbox 360 + DualSense. Goal: a physical Xbox One or PS4 pad on the client gets a near-native matching virtual pad on the host, auto-resolved from the controller type. Protocol/core: - GamepadPref gains XboxOne (wire 3) + DualShock4 (wire 4); to_u8/from_u8/ from_name/as_str + C ABI PUNKTFUNK_GAMEPAD_XBOXONE/_DUALSHOCK4 constants (compile-time guard ties them to the enum). Single-byte wire form is unchanged, so it's forward-compatible (older peers degrade to Auto). Host (Linux): - New UHID DualShock 4 backend (inject/dualshock4.rs) bound by hid-playstation: lightbar, touchpad, motion, rumble — DualSense minus adaptive triggers / player LEDs / mute. Reuses the DualSense pure state + button mapping; only the report byte layout, the real-DS4 HID descriptor, the GET_REPORT handshake (0x12 MAC mandatory; 0x02 calibration; 0xa3 firmware) and the touchpad resolution (1920x942) differ. Touchpad/motion ride the existing 0xCC plane, lightbar the 0xCD Led plane (deduped); rumble the universal 0xCA plane. - Xbox One/Series is the uinput Xbox-360 backend parameterized with the One S USB identity (045e:02ea) for matching glyphs — XInput-identical otherwise. - PadBackend dispatch + resolver handle both; off Linux the UHID pads and One/Series fold into Xbox 360. Windows-host DS4 (ViGEm) deferred. Clients (auto-resolve physical pad -> virtual type, plus manual settings): - Linux/Windows (SDL3): SDL_GAMEPAD_TYPE_PS4 -> DualShock 4, _XBOXONE -> Xbox One; PadInfo carries the resolved pref; DS4 touchpad/motion capture + lightbar already type-agnostic. Linux settings combo + label updated. - Apple (GameController): GCDualShockGamepad/GCXboxGamepad detection, DS4 touchpad capture, settings picker entries. - Android (Kotlin): InputDevice VID/PID auto-detect (matching the other clients) + settings entries. - probe: --gamepad help/aliases. Also hardens the Android JNI boundary: wrap the teardown + poll-thread shims in catch_unwind so a panic degrades to a logged no-op instead of aborting the app. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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4ddd65d732 |
feat(clients): HDR Steps 2-3 — apply mastering metadata + display capability-gate
Continues docs/hdr-pipeline-plan.md. Steps 0/1 + Step 2 (Windows/Android) already landed in ffae2a3; this is Step 2 (Apple) + Step 3 (all clients). Client-only — no core/host/ABI change (the 0xCE/next_hdr_meta/color_info surfaces shipped in Step 0). Step 2 — clients APPLY the host's HDR metadata (each remaps from the wire form: ST.2086 G,B,R order, mastering luminance in 0.0001 cd/m2): - Apple: connect via punktfunk_connect_ex5 (resurrects the previously-dead HDR pipeline); nextHdrMeta/colorInfo wrappers + HdrMeta SEI-blob builders; the pump drains nextHdrMeta -> VideoDecoder.setHdrMeta -> CVBufferSetAttachment of MasteringDisplayColorVolume (24B BE) + ContentLightLevelInfo (4B BE) on each HDR pixel buffer (correct for the itur_2100_PQ layer; CAEDRMetadata avoided as ambiguous there). Step 3 — capability-gate: advertise HDR caps ONLY when the display can present it, so an SDR display gets a proper BT.709 stream instead of PQ it would mis-tone-map; an HDR display self-tone-maps from the Step-1/2 mastering metadata. - Windows: present::display_supports_hdr() (DXGI any IDXGIOutput6 colour space == G2084), ANDed with the user HDR setting in session.rs; logs the SDR drop. - Apple: NSScreen.maximumExtendedDynamicRangeColorComponentValue>1 (macOS) / UIScreen.main.potentialEDRHeadroom>1 (iOS) in SessionModel. - Android: Settings.displaySupportsHdr (Display.getHdrCapabilities HDR10/HDR10+) passed through a new hdr_enabled jboolean on nativeConnect; session.rs gates the caps. Validation: Android native (incl. the jboolean gate) builds + clippy clean via cargo-ndk; fmt clean. Windows (MSVC), Apple (Swift) and the Kotlin side are CI/on-glass validated — not compilable on the Linux dev box. Deferred to the RTX box: mid-session Reconfigure SDR-downgrade on monitor move, and confirming the host emits SDR for an SDR client off an HDR desktop. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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ffae2a31e4 |
feat: HDR Step-0 colour-metadata transport + security-audit hardening
Two strands, entangled in punktfunk1.rs, committed together (one builds-green tree). HDR pipeline Step 0 — glass-to-glass colour-metadata transport (docs/hdr-pipeline-plan.md): - Protocol/ABI: ColorInfo on the Welcome + a 0xCE HdrMeta datagram carry the source colour space + HDR10 static mastering metadata (quic.rs, abi.rs connect_ex5 fixing caps=0). - New platform-independent, unit-tested HDR static-metadata helpers (hdr.rs): chromaticities (1/50000), mastering luminance (0.0001 cd/m2), MaxCLL/MaxFALL in HDR10/ST.2086 units. - Capture/encode hooks (capture.rs, encode.rs set_hdr_meta) + Linux client / probe plumbing. Security-audit hardening — top 3 from docs/security-review.md, each adversarially verified: - #1 [HIGH] Secret file permissions. The host key.pem/cert.pem and both trust stores are now written owner-only: 0600 + dir 0700 on Unix (mirrors mgmt_token), best-effort SYSTEM/Administrators/OWNER-only icacls DACL on Windows (%ProgramData% is Users-readable). Closes a local key-disclosure -> host-impersonation gap. New gamestream::{create_private_dir, write_secret_file} + a 0600 regression test. - #2 [HIGH] Native SPAKE2 PIN is single-use. The PIN is consumed the moment the host sends its key-confirmation (which lets the client test its one guess), before reading the proof, so any completed attempt -- right OR wrong -- disarms the window. A wrong PIN isn't observable host-side (the client aborts before sending its proof), so consuming on first attempt is what delivers the documented "one online guess" instead of an unbounded brute-force of the static 4-digit PIN. Test verifies single-use. - #3 [MEDIUM] RTSP packetSize is bounded ([64,2048] in stream_config) and VideoPacketizer::new uses saturating .max(1), killing a PRE-AUTH div-by-zero/underflow panic of the video thread. Tests for {0,15,16,17} + out-of-range rejection. fmt + clippy -D warnings clean; full workspace test suite green (93 host tests). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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0be3183cf2 |
docs: update README + docs site for public readiness
Refresh the README and documentation for public visitors: - README: public-facing rewrite with accurate status for all four native clients (macOS, Linux, Windows, Android) and the Windows host. - docs site: fix stale client status (Android is a full client, not a scaffold; Windows client is stage-1 complete + signed MSIX), add the missing Android client section, correct "which client" guidance. - Windows host: corrected from "deferred/scoped" to implemented & shipping (NVIDIA-only, x64-only) across windows-host, roadmap, status, requirements, running-as-a-service, and the README. - Remove internal infrastructure from public docs (box names, private IPs, SSH/token commands, deploy topology); rewrite status.md as a public project-status page; sanitize ci.md and implementation-plan.md. - Update clients/android and clients/apple READMEs to current state. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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088c60cae1 |
fix(android): invoke cargo by absolute path in cargoNdk task
Gradle's Exec resolves command[0] via the JVM/daemon's inherited PATH, not
the environment("PATH", …) set on the task (that only reaches the spawned
child). A GUI Android Studio launch — and any daemon it starts — has no
~/.cargo/bin on its PATH, so a bare "cargo" fails with "A problem occurred
starting process 'command 'cargo''". Use the already-computed cargoBin
absolute path; the env PATH still lets cargo/cargo-ndk find their subtools.
Also refresh the README prereqs: add the missing cmake;3.22.1 SDK package
(the cmake crate builds libopus with it) and drop the broken
`brew --prefix openjdk@21` JAVA_HOME hint in favour of `java_home -v 21`.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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778a11a76a |
fix(android): settings dropdowns trapped D-pad/controller focus
ExposedDropdownMenuBox anchors on a read-only OutlinedTextField, and a text field captures D-pad focus -- directional keys never escape it, so on a TV/controller you got stuck on the first select. Replace SettingDropdown with a clickable Surface + DropdownMenu (no text field): D-pad moves between settings, A opens the menu, A selects an item. Adds a primary-colour focus border so the focused setting reads across a room. Verified locally: ./gradlew :app:assembleDebug BUILD SUCCESSFUL. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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dc1e1bbc72 |
feat(android): D-pad / game-controller focus navigation (TV + phone)
Make a controller drive the Compose UI when not streaming, so the menus work on a TV remote AND on a controller paired to a phone: - MainActivity maps gamepad face buttons to the keys Compose's focus system understands (A -> DPAD_CENTER to activate, B -> BACK); D-pad *keys* already move focus and pass through untouched. - For controllers whose D-pad reports as HAT axes (or to navigate with the left stick), dispatchGenericMotionEvent converts AXIS_HAT_X/Y / AXIS_X/Y into discrete D-pad key events, edge-detected so a held direction moves focus exactly once. - HostCard draws a clear primary-colour focus border (the default state layer is too subtle across a room on TV). All gated on "not streaming" -- during a stream the controller still forwards to the host unchanged. Compile-verified (./gradlew :app:assembleDebug); the focus behaviour itself needs on-device validation (no KVM here for a TV emulator). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |