The in-app OSS license screens (a05c08b) added a `resources:` array to the
PunktfunkKit SwiftPM target, which makes SwiftPM emit a resource-bundle target
(PunktfunkKit_PunktfunkKit). A resource bundle is a product type that cannot
carry a provisioning profile, so the explicit PROVISIONING_PROFILE_SPECIFIER
each release.yml archive step set — global on macOS, sdk-scoped on iOS/tvOS —
now lands on it and fails the archive ("does not support provisioning profiles")
on all three platforms. (Before that commit there was no resource bundle, so the
profile was harmless.)
Switch all three archive steps to CODE_SIGN_STYLE=Automatic (development):
Automatic signing assigns a profile only to the app target and leaves the
resource bundle (and the macOS-host SwiftPM macro plugins) alone, and bakes the
sandbox entitlements in. No -allowProvisioningUpdates, so it stays offline and
never cloud-signs (the App-Manager ASC key can't). DISTRIBUTION signing is
unchanged — still manual, in the -exportArchive step (which maps the profile to
io.unom.punktfunk only). Drops the now-unneeded manual signing xcconfigs.
Requires the runner to have a development provisioning profile for
io.unom.punktfunk on each platform (now installed for macOS/iOS/tvOS).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The OpenAPI 'info.version' tracks CARGO_PKG_VERSION; the 0.3.0 bump made the
checked-in spec stale (the openapi_document_is_complete_and_checked_in test).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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 624387e: Settings -> About -> Third-party licenses.)
gen-third-party-notices.sh now copies the generated file into the Apple Resources/
and Android assets/ trees so the in-tree copies never drift.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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>
axum-server was used only for the plain-HTTP nvhttp listener, but we enabled
its tls-rustls feature (HTTPS is hand-rolled over tokio-rustls) — and that
feature was what pulled the unmaintained rustls-pemfile (RUSTSEC-2025-0134).
Drop the feature, bump axum-server to 0.8 (0.8 also no longer pulls it), and
move our own PEM parsing in gamestream/tls.rs to rustls-pki-types' PemObject
(the same path punktfunk-core/quic.rs already uses), removing our direct
rustls-pemfile dep too.
Net: rustls-pemfile fully gone; dependency graph trimmed 547 -> 529 crates
(the tls-rustls feature also dragged in prettyplease + a wasm-tooling chain).
cargo audit now reports only audiopus_sys + paste (transitive, latest, no
successor). 108 host tests + clippy + fmt green.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
memmap2 0.9.10 has an unchecked-pointer-offset unsoundness; 0.9.11 is the
patched release (pulled transitively via xkbcommon in the host). cargo audit
now reports only the 3 deliberately-visible `unmaintained` warnings
(audiopus_sys / paste / rustls-pemfile — all latest, transitive, warn-only,
do not fail CI per .cargo/audit.toml).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The MIT OR Apache-2.0 SOURCE license is clean (audit found no copied copyleft); the
gaps were all binary-distribution (Layer-2). This makes the shipped artifacts honest:
- Windows host + client: bundled FFmpeg BtbN gpl-shared -> lgpl-shared (AMF/QSV/decode
unaffected; the GPL-only x264/x265 were never used), and ship the FFmpeg LGPL notice
+ license text in the installer + MSIX (licenses/).
- THIRD-PARTY-NOTICES.txt generated + bundled into installer/MSIX/deb/rpm. Offline
generator (scripts/gen-third-party-notices.{py,sh}) + cargo-about config (about.toml/
.hbs) with a permissive-only accepted-license allow-list as a copyleft regression gate.
- Reword the win32u GPU-preference hook comments to reflect independent reimplementation
(no Apollo/Sunshine GPL-3.0 source copied).
- README dual-license + inbound=outbound contributor clause + non-affiliation trademark
disclaimer; new CONTRIBUTING.md.
- LICENSE files into the standalone driver + vk-layer workspaces; deb copyright holder
aligned to "unom and the punktfunk contributors".
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The 0.11.15 bump for S1 (pre-auth out-of-order STREAM reassembly memory
exhaustion on the default QUIC listener) was reverted before the original
fix commit, so Cargo.lock on main still pinned the vulnerable 0.11.14 and
the new cargo-audit CI gate failed. Re-apply and lock it in.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Windows local-privilege findings from design/security-review-2026-06-28.md.
These are #[cfg(windows)] paths (verify in CI / on the box; this Linux dev
VM can't compile MSVC). They follow the existing write_secret_file/icacls
patterns; the cross-platform parts are cargo check/clippy/test green.
- #2 [HIGH]: route the mgmt bearer token write through the shared
write_secret_file so it gets the SAME Windows DACL (SYSTEM/Administrators)
as the host key — it was cfg(unix)-only and left Users-readable, leaking
full mgmt admin authority to any local user.
- #3 [HIGH]: create_private_dir now applies a restrictive DACL to the
%ProgramData%\punktfunk config directory (re-owns to Administrators to
defeat a pre-creation, strips inheritance, SYSTEM/Admins/OWNER full +
Users read-only) so a local user can't plant host.env/apps.json that the
SYSTEM service trusts (env/arg-injection LPE). host.env is now written
DACL-locked via write_secret_file; the config + logs dirs go through
create_private_dir.
- #8 [LOW]: write the web-console password file empty, icacls-lock it, THEN
write the secret — closes the brief write-then-icacls TOCTOU window.
- #11 [LOW]: the SYSTEM logs dir is DACL-locked (Users read-only, no
create), so a local user can't pre-plant host.log as a reparse/hardlink to
redirect SYSTEM's writes (subsumed by the #3 dir lockdown).
Deferred: #5 (host<->UMDF gamepad/IDD shared-section Everyone:GENERIC_ALL).
The section SDDL is intentionally permissive because the UMDF driver opens
it under a restricted token of unknown SID/integrity; scoping it blind would
likely break the live-validated gamepad/IDD pipeline, so it needs on-box
validation first. Tracked in the report.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Remediations from design/security-review-2026-06-28.md verified on Linux
(cargo check/clippy/test green; Windows-gated paths verify in CI):
- S1 [HIGH]: bump quinn-proto 0.11.14 -> 0.11.15 (RUSTSEC-2026-0185,
pre-auth out-of-order STREAM reassembly memory exhaustion on the
always-on default QUIC listener).
- #1 [HIGH]: remove the unauthenticated nvhttp `GET /pin` endpoint; the
GameStream PIN is delivered ONLY via the bearer-gated mgmt API, so a
network client can no longer submit its own displayed PIN and self-pair.
- #4 [HIGH->MED]: gate the unauthenticated RTSP/UDP media plane on a paired
`/launch` and bind it to the launching client's source IP (threaded
through the HTTPS handler), so an unpaired peer can neither start capture
on an idle host nor ride a paired client's active launch.
- #12: bound concurrent parked pairing waiters (MAX_PARKED_WAITERS) so a
pre-auth peer can't pin unbounded 300s handshakes. +regression test.
- #10: throttle the per-packet ENet control GCM-decrypt-failed warn
(exponential backoff) so a junk flood can't spam the log.
- #7 [MED->LOW]: serialize all process-global env mutation on the
session-setup path under a new vdisplay::ENV_LOCK (apply_session_env /
apply_input_env / the launch-cmd set_var / the gamescope env read), so
concurrent native sessions can't race set_var/getenv (data-race UB ->
host-wide DoS). Full per-session SessionContext threading remains a
follow-up for cross-session value confusion.
- #6 [MED]: move the gamescope EIS socket relay from world-writable /tmp to
$XDG_RUNTIME_DIR (per-user 0700) and reject a symlinked relay file, so a
local user can't intercept (keylog) or deny the remote session's input.
- S2: a malformed client Opus mic frame now drops that frame instead of
tearing down the shared host-lifetime virtual mic (cross-session DoS).
- S3: track held buttons/keys in capped HashSets (was unbounded Vec with
O(n) scans) so a paired client can't grow per-session input state.
- S5: reject fps==0/absurd at the open_video chokepoint (covers Hello,
ANNOUNCE, Reconfigure) so the encoder time_base/pts math can't div-by-0.
- S6: bound the shared mic mpsc (drop-newest when full).
- S4: cap Epic launcher-cache reads (catcache.bin/.item) so a planted giant
can't OOM the host during library enumeration.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
With cmake now found, Homebrew's CMake 4 refuses the vendored libopus's
`cmake_minimum_required(VERSION <3.5)` ("Compatibility with CMake < 3.5 has been
removed"). Export CMAKE_POLICY_VERSION_MINIMUM=3.5 (the same knob the Windows
build uses) so the cmake crate's child cmake configures the audiopus_sys libopus.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The self-hosted macOS runner runs steps with `bash --noprofile --norc`, so
Homebrew's bin dir is not on PATH — the previous `brew install cmake` died with
`brew: command not found` (exit 127). Find brew at its known prefix, install cmake
only if missing, and export the brew bin dir to $GITHUB_PATH so the subsequent
xcframework build (audiopus_sys → vendored libopus) actually finds `cmake`.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The 5.1/7.1 surround commit (7612238) added in-core Opus, which broke two CI jobs
that the merge didn't touch:
* Windows MSIX client: clients/windows/src/main.rs's headless `SessionParams`
initializer was missing the new `audio_channels` field (the GUI path sets it
from settings). Default the CLI/test path to stereo (2), matching trust.rs.
* Apple xcframework (apple.yml + release.yml): in-core Opus decode pulls
`audiopus_sys`, which builds a vendored *static* libopus via CMake when
pkg-config finds no system Opus — keeping the xcframework self-contained (no
runtime libopus.dylib on end-user Macs/devices). The self-hosted macOS runner
lacked `cmake`; install it self-healing before every xcframework build.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
A line-wrap put `+`/`*`-style markers at the start of two doc lines, which
clippy (Windows host job, rust 1.96) reads as markdown list items whose
unindented follow-on lines trip `doc_lazy_continuation` under `-D warnings`:
- encode/windows/nvenc.rs `chroma_444` field doc (the failing Windows-host
clippy job): "+ chromaFormatIDC = 3" → "and chromaFormatIDC = 3".
- encode/linux/vaapi.rs `probe_can_encode_444` doc: "+ validate" → "and
validate" (last line, didn't fire yet, but fragile — fixed pre-emptively).
Pure doc rewording, no behaviour change.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
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>
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>
Host-free UI screenshots of the GTK4/libadwaita client under a virtual X display
(clients/linux/tools/screenshots.sh) — Xvfb + software GL (llvmpipe) + a root-window
grab, one app launch per scene. PUNKTFUNK_SHOT_SCENE routes build_ui to render one
mock-populated REAL view (hosts grid / settings dialog / TOFU + PIN dialogs) and
print PF_SHOT_READY once it has settled; the saved-hosts grid is driven by a seeded
client-known-hosts.json. NON_UNIQUE in shot mode so back-to-back launches don't
collide. The stream scene is deferred — its page needs a live NativeClient.
Gated to stable release tags in a standalone best-effort workflow that builds the
client in the rust-ci image and captures under Xvfb; PNGs upload as a 30-day
artifact, not committed.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Marketing/store screenshots of the console, captured from the built Storybook
with headless Chromium (web/tools/screenshots.mjs) — every Pages/* + Shell/*
story rendered at 1440x900@2x. The page stories render from fixtures, so no live
mgmt API, login, or GPU is needed (the web analogue of apple.yml's screenshots
job). Gated to stable release tags in a standalone best-effort workflow; PNGs
upload as a 30-day artifact, not committed.
- Add Stats + Pairing stories (the two pages that lacked them) with stats/pairing
fixtures typed against the generated models.
- Extract a pure PairingView (index.tsx -> view.tsx), matching the
Dashboard/Clients/Stats split, so the page renders host-free from mock state
instead of racing its polling queries. Container wiring is behaviour-identical.
- Playwright driver + a chromium-capable tag-gated job.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The docs footer was a hand-maintained mirror of the marketing site's. Both now
render the same @unom/app-ui/footer component, so they stay in sync. The shared
view themes itself through @unom/style tokens (which the docs already map onto
their Fumadocs surfaces), and a resolveHref hook rebases root-relative links
onto the marketing-site origin. Footer types now come from the library too.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Plugin self-update (no Decky store): CI publishes a per-channel manifest.json
({version, immutable per-version artifact, sha256}) beside the zip and bakes
update.json {channel, manifest} into the plugin. main.py `check_update` reads the
installed version from package.json (the value Decky reports — not plugin.json),
fetches the channel manifest, and the frontend shows an "Update to vX" button that
drives Decky Loader's own install RPC (root downloads + SHA-256-verifies + hot-reloads).
CI now stamps a plain-numeric semver (0.3.<run> canary / X.Y.Z stable) into
package.json — a -ciN suffix would mis-order under compare-versions.
Linux client: `--fullscreen` (plus SteamDeck/gamescope env fallback) enters GTK
fullscreen on stream start so Gaming-Mode chrome is hidden; native-mode resolution
falls back to the display's first monitor when the window isn't mapped yet (was
dropping to the 1080p floor — wrong on the Deck's 1280×800); add a confirmed
"Remove saved host" action (KnownHosts::remove_by_fp).
Docs: new docs/steam-deck.md (Decky install/pair/stream/self-update/troubleshooting),
wired into meta.json nav, and cross-linked from clients/install-client/channels. This
is the page docs.punktfunk.unom.io/docs/steam-deck — the website's download link
pointed at it before it existed; committing it makes that link resolve.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The punktfunk-mic PipeWire source connected without RT_PROCESS, so it ran as an
async/main-loop node. In the host's busy multi-stream graph (desktop audio + video
capture + the session) it never acquired a driver, stayed suspended, and its
process() callback never fired — every recorder reading the remote mic heard pure
silence (the long-standing "Linux host mic broken"). Connect the mic stream with
RT_PROCESS so it is a synchronous node that joins its consumer's driver group and
is actually driven.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The GameStream/Moonlight video plane is a separate encode loop that lacked the
session-following the native punktfunk/1 plane has, so a mid-stream Desktop<->Game
switch killed the stream ("video stream failed") instead of following it.
* Normalize the session env like the native plane: extract open_gs_virtual_source,
which detects the LIVE compositor + apply_session_env/apply_input_env (gamescope
ATTACH default -> resize-on-attach to the box's own game-mode session at the
client mode; KWin/Mutter retargeting). GameStream previously ran a bare detect()
against raw process env, so in game mode it bare-spawned a COMPETING gamescope
instead of attaching to the box's session.
* In-place capture-loss rebuild: replace the `?` that ended the stream with a
bounded rebuild (re-detect the live compositor via the same factory, build the
new source BEFORE dropping the old, reopen the encoder, force an IDR) — keeping
the send thread + packetizer + socket + RTP clock. A same-resolution
Desktop<->Game toggle is now FOLLOWED with no Moonlight reconnect.
Protocol limit (unchanged): a mid-stream RESOLUTION change is impossible on
GameStream (WxH locked at ANNOUNCE; no Reconfigure) — a session toggle keeps the
negotiated mode, so this isn't hit. The portal/synthetic source passes no rebuild
closure (propagates as before).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Rewrite the Windows host docs page for first-time setup, on par with the
other host guides: remove the standout "Status:" banner, restructure into
Requirements / Install (web console + pairing + configure) / How it works /
Notes & limits.
Bring the content up to date with the shipping host:
- encode is all-vendor (NVENC/AMF/QSV + software fallback), not NVIDIA-only
- virtual display is punktfunk's own pf-vdisplay IDD (SudoVDA removed)
- gamepads need no prerequisite — UMDF drivers bundled; ViGEmBus is gone
- add HDR10 + Vulkan-game HDR layer coverage
Fix the same stale claims where other pages cross-reference the Windows host
(requirements, running-as-a-service, install, roadmap, status).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Make Steam game mode work on a display-less streaming host and stream it at the
client's resolution:
* Ship /etc/gamescope-session-plus/sessions.d/steam (packaging/bazzite/
gamescope-headless-session, installed by the RPM + Arch PKGBUILD): fall back to
gamescope's headless backend when no display is connected, so "Switch to Game
Mode" boots offscreen instead of crashing on the missing panel (and 5-striking
back to desktop). No-op on display-attached boxes; only sets unset values so
the host's per-client mode still wins.
* Default Bazzite/SteamOS to ATTACH (PUNKTFUNK_GAMESCOPE_ATTACH=1 in host.env):
the box owns its session (Desktop<->Game, persistent), the host follows +
captures it and never tears it down — so switching is rock-solid and a
disconnect leaves the box in its mode (reconnect returns there).
* Resize-on-attach (gamescope.rs): on connect, ensure the box's own game-mode
session runs at the CLIENT's resolution — reuse it when already matching (fast
path, no restart), else reconfigure + restart the box's own autologin
gamescope-session-plus@<client> at the client mode (cooperative: no competing
unit, so no autologin-respawn fight). Detect the live gamescope's -W/-H via
argv[0] in /proc (its /proc/<pid>/exe is unreadable for that process).
Validated live on a headless bazzite-deck-nvidia box: game mode boots headless +
stable (0 strikes); the host attaches + streams video/audio/EIS input; a
5120x1440 client reuses the matching session and streams at 5120x1440.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
A Bazzite/SteamOS Gaming↔Desktop switch tears the old compositor down and can
take 15s+ to bring the new one up — longer than the capture-loss rebuild's
~10s window, so the session failed mid-switch ("disconnect — session failed")
and forced the client to cold-reconnect. Retry the rebuild within a 40s budget
instead of giving up after one round, and re-detect the live compositor on
each attempt so the stream follows the box to whatever session comes up (a new
instance of the same compositor, or a different one — the kind-change case).
The QUIC keepalive runs on its own thread, so the client stays connected
(frozen on the last frame) and the stream resumes when the new output appears,
with no reconnect.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
When the compositor is torn down mid-stream (a Gaming↔Desktop switch removes
the virtual output), its PipeWire stream leaves Streaming for Paused rather
than disconnecting. try_latest treated that as Ok(None) ("static desktop —
repeat the last frame"), so the stream froze on the last frame forever and
neither recovery path fired: the capture-loss rebuild keys on Err, and the
session watcher keys on a session-KIND change (a desktop→desktop new KWin
instance is the same kind).
Track the PipeWire stream state via state_changed (a `streaming` flag) and,
in try_latest, surface a sustained non-Streaming state (1.5s grace for a
transient renegotiation blip) as a capture-loss Err — which the encode loop
already handles by rebuilding the pipeline in place. A static desktop stays
Streaming, so no false trigger. Complements the now-default session watcher.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The mid-stream session watcher (rebuild the backend in place when the box
flips Gaming↔Desktop) was opt-in via PUNKTFUNK_SESSION_WATCH, so it never
ran on a stock Bazzite/SteamOS box — switching modes froze the stream on the
now-dead compositor. Default it ON when os-release ID/ID_LIKE is
bazzite/steamos (the platforms that flip sessions); still off on plain
desktops. Also parse the env properly so PUNKTFUNK_SESSION_WATCH=0 actually
disables it (was: any value, including "0", enabled it).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
apply_input_env() hard-pinned PUNKTFUNK_INPUT_BACKEND=libei for KWin, and
default_backend() reads that env first — so the auto-detecting host (the
normal `serve` service) ignored the new KwinFakeInput backend and fell back
to the RemoteDesktop portal path that needs a user to approve. Route KWin to
"kwin" (org_kde_kwin_fake_input); GNOME/Mutter stay on libei (no fake_input
there).
Validated live on a Bazzite KDE box via the auto-detect path:
backend=KwinFakeInput, "KWin fake_input ready (no portal)", input events
forwarded with no errors.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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>
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>
Desktop-mode (KWin) streaming had no input: the path was libei via the
RemoteDesktop portal, which (a) isn't reachable from the host service env
and (b) requires a human to approve "Allow remote control?" — a
non-starter on a headless box. KWin's own headless RDP server (krdpserver)
solves this with org_kde_kwin_fake_input, authorized by the exact same
.desktop X-KDE-Wayland-Interfaces grant we already ship
(org_kde_kwin_fake_input is listed alongside zkde_screencast_unstable_v1).
Add a fake_input injector: vendor the protocol XML, bind the global as an
ordinary Wayland client, authenticate (auto-accepted for an
interface-authorized client — no dialog), and translate pointer (rel/abs),
button, scroll, keyboard (raw evdev keycodes resolved by KWin's own keymap)
and touch. Select it for KWin (compositor=="kwin" or XDG_CURRENT_DESKTOP
KDE); GNOME stays on libei (it has neither fake_input nor the wlr
protocols). PUNKTFUNK_INPUT_BACKEND=kwin forces it.
cargo check + clippy + fmt green.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Streaming the KDE *Desktop* (KWin) session failed on a real interactive
Plasma session with "KWin does not expose zkde_screencast_unstable_v1":
KWin treats the screencast/virtual-output and fake_input globals as
restricted and advertises them only to a client whose installed .desktop
lists them under X-KDE-Wayland-Interfaces (matched by /proc/<pid>/exe ->
Exec, and cached per-executable on first connect). The host shipped no
.desktop, so it was permanently denied; it only ever worked on the
headless dev box via KWIN_WAYLAND_NO_PERMISSION_CHECKS=1.
Ship packaging/linux/io.unom.Punktfunk.Host.desktop (least-privilege:
only the host, only zkde_screencast_unstable_v1 + org_kde_kwin_fake_input)
and install it from the RPM/.deb/Arch host packaging so it is present
before the host first connects. Drop the blunt session-wide
NO_PERMISSION_CHECKS hack from kde-desktop-setup.sh (it now only seeds the
RemoteDesktop input grant) and fix the now-misleading kwin.rs docs/errors.
Validated live on a Bazzite Kinoite box (KWin 6.6.4): probe-compositor +
spike --source kwin-virtual succeed against a KWin running WITHOUT the
permission bypass.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The Windows virtual mic fakes a capture endpoint by writing the client's
uplinked PCM into a virtual device's *render* endpoint, while the
desktop-audio plane loopback-captures the *default render* endpoint — with
no mutual exclusion between the two. WASAPI loopback captures the mixed
output of an endpoint (everything any app renders to it, including our mic
writes), so when both resolve to the same device — VB-CABLE used for both,
or the auto-installed Steam Streaming Microphone being the default render on
a headless box — the injected mic is captured straight back into the
host->client audio stream: an infinite echo.
find_device() now resolves the loopback's endpoint id (default render) and
skips any candidate matching it, scanning on to the next non-loopback match,
so the mic can never land on the device the loopback reads. The auto-install
path now provisions the full Steam pair (Streaming Microphone + Streaming
Speakers) so a bare host gets two distinct devices instead of one shared
one. Errors distinguish "no device" from "only candidate is the loopback
device". Linux was already immune (its mic is a dedicated Audio/Source node,
structurally separate from the monitored sink).
Windows-only (#[cfg(windows)]); rustfmt-clean, compile-checked in
windows-host CI, needs on-glass validation on the RTX box. Does not force
the system default playback onto Steam Streaming Speakers (IPolicyConfig) —
not required to break the echo.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The pnputil /add-driver call in windows/install.rs was committed unwrapped;
`cargo fmt --all --check` (which checks cfg(windows) files too) flagged it and
failed the `rust` CI job at the Format step, skipping clippy/build/test. Apply
rustfmt — no behavior change. Clears the way to cut the v0.2.0 release from
green main.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The wordmark was light violet only — low-contrast on a light README
background. Swap to a single theme-adaptive SVG: an internal
`prefers-color-scheme` media query paints it deep violet (the brand-mark
palette) on light backgrounds and the original light violet on dark, so it
reads on both GitHub/Gitea themes with no markup change.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Option A removed install-pf-vdisplay.ps1 / install-gamepad-drivers.ps1 / web-setup.ps1;
the installer now calls the exe subcommands. Drop the stale table rows + reword the
install-flow + 'thin installer' notes.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
- Add the centered punktfunk wordmark banner at the top (assets/punktfunk-logo.svg,
the same logo + layout the marketing site's README uses).
- Refresh the now-stale Windows-host facts: all-vendor (NVENC + AMF/QSV), its own
all-Rust pf-vdisplay IddCx virtual display (was SudoVDA), bundled UMDF virtual-gamepad
drivers (ViGEmBus gone), HDR incl. Vulkan-game HDR; x64-only, no longer NVIDIA-only.
- Note punktfunk-host covers Linux + Windows; point design/ at its new README index.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Port the three install-time PowerShell *files* (install-pf-vdisplay.ps1,
install-gamepad-drivers.ps1, web-setup.ps1) into punktfunk-host.exe subcommands:
`driver install [--gamepad] --dir <stage>` and `web setup --app-dir <app>
[--password-file <f>]` (windows/install.rs).
Why: PowerShell 5.1 reads a BOM-less .ps1 FILE in the machine ANSI codepage, so a
stray non-ASCII byte mis-decodes and aborts on a non-English box - exactly how the
pf-vdisplay driver install silently failed. A compiled subcommand drives the same
external tools (certutil/pnputil/nefconc/schtasks/netsh/icacls) as fixed string
literals, with no file-codepage surface. (The .iss's INLINE -Command PowerShell is a
command-line string, not a file read, so it's unaffected and stays.)
- windows/install.rs: faithful port - cert trust, gated nefconc node create + pnputil
for pf-vdisplay; pnputil per-inf for gamepads; web-password ACL, the PunktfunkWeb task
(generated UTF-16 XML), firewall rule, start. Best-effort (a hiccup warns, never aborts).
- punktfunk-host.iss [Run]: call the exe instead of `powershell -File`; drop the
web-setup.ps1 staging + WebSetup define; WebSetupParams emits --app-dir/--password-file.
- pack-host-installer.ps1: stop copying the three install scripts into the stages.
- delete the three .ps1 files.
The `mod install;` + dispatch arms in main.rs landed in the preceding docs commit
(swept up by a concurrent commit); this commit adds the module + installer wiring.
CI-compile-validated via windows-host; the install path is on-glass-validated on the
next canary install (the test box is offline).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Much of design/ described work that has since shipped. Trim each doc to
its durable rationale + still-open items (the code is the source of truth
for shipped detail; git history holds the full originals).
- Shipped plans -> status stubs: stats-capture, gamestream-host-plan,
apple-stage2-presenter, windows-service.
- Trimmed completed-out / open-kept: implementation-plan, hdr-pipeline,
host-latency, gpu-contention (fixed stale status table), game-library,
linux-setup (fixed m0->spike + stale zero-copy claim),
session-aware-host-followups, windows-client-bootstrap,
windows-dualsense-{scoping,game-detection}, windows-virtual-display,
security-review (per-finding status table; #12 still open),
apollo-comparison (shipped backlog collapsed to one-liners).
- Windows-host cluster consolidated: windows-host.md -> redirect into
windows-host-rewrite.md (whose stale scorecard is corrected -- goal1 is
merged, M4 done); windows-secure-desktop.md archived (now a fallback
behind IDD-push primary).
- Kept evergreen: ci.md, gamescope-multiuser.md, windows-build-and-packaging.md.
- New design/README.md: per-doc status table + consolidated open-items
roll-up so nothing is tracked in only one buried doc.
- Repoint 5 code comments to the archived secure-desktop doc path.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
A single repo-internal source of truth for the Windows build/packaging: what ships, the
all-Rust driver workspace built FROM SOURCE in CI (+ the anti-stale rationale), the
toolchain (clang 22 + bindgen 0.72, no LLVM pin), the Inno installer, the web console
bundle, the CI workflows, signing, and the dev loop. (design/, not the docs-site.)
packaging/windows/README.md: drop the deleted vendored-driver dir + its "Vendored driver"
callout, add the build-* / install-gamepad / clear-force-integrity rows, point at the new
design doc.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Now that the drivers build from source in CI, remove the dead checked-in binaries and
the toolchain cruft they left behind:
- Delete packaging/windows/{pf-vdisplay,gamepad-drivers}/ (the prebuilt .dll/.inf/.cat/.cer).
pack-host-installer.ps1 builds + signs all three drivers from the drivers/ workspace and
nothing reads the vendored dirs anymore; stage-pf-vdisplay.ps1's -VendorDir is now a
mandatory build-output path, not a vendored default.
- Drop the LLVM-21 pin. The vendored bindgen 0.71->0.72 bump (the shipping pack already
builds green on the runner-default clang 22) retired the bindgen-0.71 layout-test overflow
that needed LLVM 21.1.2, so windows-drivers.yml + provision-windows-wdk.ps1 no longer
install/point at C:\llvm-21 (~898 MB off a fresh provision) - both driver builds now use one
toolchain (clang 22 + bindgen 0.72).
- pack -SkipBuild on the gamepad build (build-pf-vdisplay.ps1 already builds the whole
workspace), build-web.ps1 reaps a stale node too, deploy-dev.ps1 nefconc path + comments.
- Reword the vendored-driver references (build scripts, .iss, READMEs, the vite web-bundle
comment) to the build-from-source reality.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The Bug C [UninstallRun] one-liner had `ForEach-Object { Stop-Process ... }`; Inno
Setup parses `{...}` as a constant in [Run]/[UninstallRun] sections, so ISCC aborted
with "Unknown constant" and the windows-host pack failed at the ISCC step (the host
build, clippy, driver build + web smoke-boot all passed). Escape `{` as `{{`. The
same one-liner in the [Code] StopWebConsole proc is inside a Pascal string literal,
so its brace is literal and must NOT be escaped. Validated: ISCC now parses past
[UninstallRun] + [Code] (fails only later on the absent dummy payload).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Fold the pf-dualsense (DualSense / DualShock 4) and pf-xusb (Xbox 360 / XInput)
UMDF drivers into the in-tree drivers workspace (their source had stale
../../crates/wdk-* path-deps from before the wdk vendoring reorg and could no
longer build at all) and build them from source per release, exactly like
pf-vdisplay - same anti-stale reasoning. One `cargo build --release` now builds
all three drivers against the vendored wdk-sys (incl. the bindgen 0.72 pin), and
build-gamepad-drivers.ps1 signs pf_dualsense + pf_xusb (clear FORCE_INTEGRITY ->
sign dll -> stampinf -> Inf2Cat -> sign cat) with one shared cert + .cer,
matching the layout install-gamepad-drivers.ps1 expects. pack-host-installer.ps1
builds + stages them instead of the retired checked-in binaries.
Validated on the runner: the whole workspace (pf-vdisplay + pf-dualsense +
pf-xusb) builds with CARGO_TARGET_DIR=C:\t set, and build-gamepad-drivers.ps1
produces signed pf_dualsense.{dll,inf,cat} + pf_xusb.{dll,inf,cat} + the .cer.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The CI driver build panicked in wdk-sys's build script - "a Cargo.lock file should
exist in the same directory as the top-level Cargo.toml". wdk-build's
find_top_level_cargo_manifest() walks UP from OUT_DIR for the first ancestor holding a
Cargo.lock and explicitly does NOT support non-default target dirs - but
build-pf-vdisplay.ps1 pointed CARGO_TARGET_DIR at an out-of-tree dir (to isolate from
CI's shared C:\t), so no ancestor of OUT_DIR had a Cargo.lock. Build into the driver
workspace's DEFAULT target dir instead (its ancestors include the driver Cargo.lock);
the driver's own [workspace] already isolates it and it has no CMake deps needing C:\t.
Also make the Test-FileCatalog coverage guard non-fatal (it can't open a catalog
signed by a not-yet-trusted cert). Validated on the runner with CARGO_TARGET_DIR=C:\t.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The pf-vdisplay virtual-display driver shipped as a checked-in PREBUILT binary
that went stale - two field failures on a fresh install (live-repro'd on a
German-locale Dell laptop):
* Bug A (every box): a repo-wide rename edited the vendored pf_vdisplay.inf
but never re-signed pf_vdisplay.cat, so the catalog stopped covering the INF
-> `pnputil /add-driver` fails SPAPI_E_FILE_HASH_NOT_IN_CATALOG -> driver
never installs -> every session dies "pf-vdisplay driver interface not
found".
* the prebuilt binary also predated IOCTL_SET_RENDER_ADAPTER (added to the
driver source after the vendor freeze) that the host needs to pin the IDD
render GPU on hybrid/Optimus boxes.
Fix: build the driver FROM SOURCE every release (build-pf-vdisplay.ps1, wired
into pack-host-installer.ps1) so .dll/.inf/.cat are always in lockstep and
current driver features ship. The runner's clang 22 made the driver's pinned
bindgen 0.71 emit opaque structs (157 layout-assert errors), so bump the
vendored wdk-sys/wdk-build bindgen 0.71 -> 0.72 (+ lock). The build self-signs
the driver per build (installer trusts the bundled .cer); a stable
DRIVER_CERT_PFX_B64 secret can override.
* Bug B (non-English boxes): the installer runs install-pf-vdisplay.ps1 etc.
via powershell.exe (5.1), which reads a BOM-less script in the ANSI codepage
- an em-dash's trailing 0x94 byte becomes a curly quote on German
Windows-1252 and the script aborts "unterminated string", so the driver
never installed (the gamepad script survived only because it was already
ASCII). Scrub every installer-run .ps1/.cmd to ASCII + add a CI gate that
fails on any non-ASCII so it can't regress.
* Bug C (upgrades): nothing stopped the OLD web console before re-registering
its task, so a stale server kept :3000 (the new one restart-looped on
EADDRINUSE) and served a broken old bundle (500 on /login). Stop + reap it
(runtime-agnostic, by the :3000 listener owner) in web-setup.ps1 and in the
.iss before the file copy + on uninstall.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
A freshly-added IddCx virtual display lands in CLONE/duplicate mode when a
physical display is already active (a laptop panel, an attached monitor): the
cloned output shares that display's source, so the OS never commits a distinct
path for it, never calls ASSIGN_SWAPCHAIN, and capture sees no frames - the
session fails "not an active display path / needs a WDDM GPU to activate" and
tears down with 0 frames (seen live on an Intel-iGPU + NVIDIA-Optimus laptop).
force_extend_topology() applies the EXTEND preset (the programmatic Win+P
"Extend") right after ADD so the IDD comes up as its own active path; the
existing resolve_gdi_name -> set_active_mode -> isolate_displays_ccd bring-up
then proceeds. Idempotent / no-op on a sole-display (headless single-GPU) box,
so it's safe on the path that already worked.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Arm streaming-perf-stats capture from the web console, play, stop, and review the
run as graphs; finished captures are saved to disk as browsable/exportable
recordings. Covers both the native punktfunk/1 path and GameStream.
- stats_recorder.rs: one shared Arc<StatsRecorder> ring (created in gamestream::serve,
shared with the mgmt API + both streaming loops, mirroring NativePairing). The
hot-path gate is a runtime AtomicBool that replaces the startup-only PUNKTFUNK_PERF
for *recording* (PERF stdout logging unchanged); bounded ring (~3 h); atomic
temp+rename writes to ~/.config/punktfunk/captures/*.json; path-traversal-safe ids;
poison-resilient locks.
- native (punktfunk1.rs) + GameStream (stream.rs) emit a StatsSample at their existing
~2 s / ~1 s aggregation boundary — per-stage latency p50/p99, fps new/repeat, goodput,
loss/FEC deltas — with no new per-frame work beyond the cheap atomic check.
FrameMsg.was_measured keeps pre-arm in-flight frames out of the first window's
percentiles (without zeroing the Windows-relay path's fps/encode).
- mgmt.rs: 7 bearer-only /api/v1/stats/* endpoints (capture start/stop/status/live;
recordings list/get/delete); api/openapi.json regenerated, in sync.
- web: new "Performance" page (recharts, rendered SSR-safe) — capture control, live
graphs while armed, recordings table (view / download-JSON / delete), and a detail
view with the latency stacked-area bottleneck breakdown (p50/p99 toggle) + throughput
+ health. Charts adapt to either path's stage set.
Design: design/stats-capture-plan.md. Built and adversarially reviewed via a multi-agent
workflow; workspace build/clippy(-D warnings)/fmt/tests green, OpenAPI no-drift. Not yet
on-glass validated against a live session.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The Android app is in Google Play Internal Testing, so the public Play Store URL
doesn't resolve for non-testers. Lead the Android install instructions with a
"request a tester invite on Discord" CTA (the Play listing unlocks once a Google
account is added to the test track), and surface the Discord + r/Punktfunk
community links in the README, the docs intro, and the docs-site nav.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>