Replace the ad-hoc screen switching with a Material3 bottom NavigationBar. Two top-level
destinations — Connect (Home icon) and Settings (gear) — persist across tab switches; the
immersive stream view is shown full-screen, outside the bar. Settings is now a tab, so its
button is dropped from the Connect screen.
- app/build.gradle.kts: + androidx.compose.material:material-icons-core (tab icons).
- MainActivity: Screen sealed interface -> Tab enum; App() wraps the tabs in a Scaffold with a
NavigationBar bottomBar (streamHandle != 0 -> StreamScreen full-screen); ConnectScreen drops
the onOpenSettings param + the Settings button.
Verified live (emulator): the bar renders with Connect/Settings; tapping a tab swaps content and
moves the selected indicator; the bar persists on both tabs.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The previous CI fix bumped the pinned platform to android-37, but the runner's sdkmanager has no
such package yet ("Failed to find package 'platforms;android-37'"), failing the SDK step before it
could install CMake. Revert to platforms;android-36 (AGP auto-installs the compileSdk-37 platform
during the build, as it did before) while keeping the cmake;3.22.1 package that fixes the libopus
cross-build.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
A managed list of known/paired hosts on the connect screen — one-tap reconnect + forget —
and a fix for the discovered-vs-manual trust-key split.
- kit/security: KnownHostStore (replaces the fp-only PinStore) stores KnownHost{address, port,
name, fpHex, paired} keyed by address:port, persisted as JSON in SharedPreferences. So a
discovered and a manually-typed connection to the same host now share ONE trust record (the old
PinStore keyed discovered hosts by the mDNS instance id, manual by host:port — pairing via one
path wasn't seen by the other).
- MainActivity: connect() looks up trust by (address, port); on a successful TOFU or PIN pairing
the host is saved (paired flag set for the PIN path). A "Saved hosts" section lists them (name,
address:port · paired/trusted, fp) with tap-to-reconnect (silent, pinned) and a Forget button.
Verified live (emulator -> home-worker-2): pair -> host appears under "Saved hosts" as paired;
tap -> silent reconnect (new host session, no dialog); Forget -> removed. Trust now shared across
the discovered + manual paths by construction.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
This session's push storm refilled the runner to 100% WITHIN the prune timer's 24h window
(it only trims >24h), so a build hit ENOSPC and actions/cache saved a truncated target/ ->
`error[E0463]: can't find crate for shlex` in ci.yml's clippy. Two fixes:
- Bump cargo-target-v2- -> v3- in ci.yml + deb.yml so the poisoned tarball is bypassed (a
suffix bump can't — restore-keys falls back to the old prefix; same as the v1->v2 fix).
- Harden scripts/ci/docker-prune: run HOURLY (was 6h) with a burst guard — if the disk is
still >85% after the normal until=12h trim, prune ALL idle images + build cache (in-use
protected). A fast push-burst can fill 99 GB inside any time window, so the disk-pressure
trigger, not the age filter, is the real backstop. Applied live on home-runner-1 (reclaimed
95%->66%) and checked in.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The android.yml runner installed the NDK but not cmake/ninja, so cargo-ndk's audiopus_sys
(libopus via CMake) failed with "is `cmake` not installed?" — broken since the audio increment
added the libopus dependency. kit/build.gradle.kts prepends $ANDROID_SDK/cmake/3.22.1/bin to
PATH (the same SDK CMake that makes local builds work); install cmake;3.22.1 (cmake + ninja) so
that path exists in CI too. Also pin platforms;android-37 to match compileSdk (AGP auto-installs
it otherwise).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The connect mode was hardcoded to 720p60 — violating the "native client resolution, no
scaling" invariant. Derive the device's real display mode (landscape, long edge = width) and
add a Settings screen to tune the stream, mirroring the Linux/Apple clients.
- crates/punktfunk-android: nativeConnect gains bitrateKbps + compositorPref + gamepadPref
(CompositorPref/GamepadPref wire bytes via from_u8); these were hardcoded Auto/Auto/0.
- app/Settings.kt: Settings (width/height/hz/bitrate/compositor/gamepad; 0 = native/auto) +
a SharedPreferences store + nativeDisplayMode (Display.mode, landscape-swapped) +
effectiveMode + the UI option tables.
- app/SettingsScreen.kt: dropdowns for resolution / refresh / bitrate / compositor / controller.
- MainActivity: App owns the settings + a Settings screen; ConnectScreen resolves the effective
mode (Native = the display), shows it on the Connect button, and threads the prefs through
nativeConnect.
Mic + codec selection deferred (mic uplink isn't wired yet; the decoder is HEVC-only).
Verified live (emulator pf_phone -> home-worker-2): default -> host mode=2400x1080@60 (the
emulator's native display, was 720p); Settings 1920x1080 + 20 Mbps + DualSense -> host
mode=1920x1080, requested_kbps=20000, gamepad=dualsense (host created a UHID DualSense).
Settings persist across screens; pinned reconnect stays silent.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
deb.yml builds the punktfunk-web .output in the rust-ci image, but that image had no bun
(only ci.yml's web/docs jobs use the oven/bun image) -> "bun: not found". Bake bun (+ unzip
for its installer) into ci/rust-ci.Dockerfile, and bootstrap it in the deb web step too so the
job is green against the previous image (docker.yml rebuild lag) — mirroring the rpm.yml fix.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Two CI fixes:
- rpm signing (2nd bug): overriding %__gpg_sign_cmd via --define reached gpg with
%{__plaintext_filename}/%{__signature_filename} UNEXPANDED ("No such file or directory").
Stop overriding it — use rpm's default signer (which expands those correctly) and just set
_gpg_name; a passphrase-less key + loopback in gpg.conf makes gpg sign headless. (Requires a
passphrase-less signing key, as the runbook's %no-protection key is.)
- flatpak: the job runs in fedora:43 which has no node, so actions/checkout (a JS action) failed
with "node: not found". Install nodejs in a plain `run:` step (shell, no node needed) before
checkout. Also scope the heavy flatpak-builder run to client/core/manifest changes (+ tags) so
it stops rebuilding on every unrelated docs/host push (tag pushes still build — paths filters
only branch pushes).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The first signed CI run failed at the Sign step: `%{__gpg} gpg ...` expands to `<gpgpath> gpg ...`,
so gpg got a spurious `gpg` filename arg ("no command supplied", options "not considered"). Dropped
the literal `gpg` → `%{__gpg} --batch ...`. Validated locally: the corrected invocation parses as a
sign command (fails only with "No secret key", which is present in CI). The checksig gate did its
job — nothing published, installs stayed safe.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The dedicated EdDSA signing key (AF245C506F4E4763, "punktfunk packages <packages@unom.io>")
whose private half is now the RPM_GPG_PRIVATE_KEY CI secret. Committing the public half so
clients can fetch it (raw URL) for gpgcheck=1. This push triggers a rpm.yml run that signs
0.2.0~ciN via packaging/rpm/sign-rpms.sh (no longer a no-op); the gpgcheck=1 flip follows once
that signed build is confirmed published.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
TOFU let anyone who could reach the host click "Trust" and stream, which defeats the point
on a LAN. Make SPAKE2 PIN pairing the default and only way to trust a NEW host; TOFU survives
as an explicit HOST opt-in (for fully trusted networks), advertised over mDNS so clients render
their trust UI from the host's policy rather than offering trust on faith.
Contract:
- Host advertises pair=required (default) or pair=optional. pair=required rejects unpaired
clients at the handshake; pair=optional accepts them (TOFU).
- Clients: a pinned host whose fingerprint matches connects silently; a pinned host whose
fingerprint CHANGED forces re-pairing via PIN (no re-trust shortcut); a NEW host is offered
TOFU only if it advertised pair=optional, otherwise PIN pairing is mandatory; a manually-typed
or unknown-policy host is always PIN.
Host (crates/punktfunk-host/src/main.rs):
- m3-host now REQUIRES pairing by default (was open by default). New --allow-tofu opts into
accepting unpaired clients + advertising pair=optional; pairing is always armed (PIN logged at
startup). serve --native was already secure-by-default (serve --open). The mDNS advert and the
accept loop already mapped require_pairing -> pair=required + reject; only the m3-host CLI
default + help text changed.
Clients honor the advertised policy:
- Android (MainActivity.kt): TOFU only for a discovered pair=optional host; manual/unknown -> PIN;
fp-change -> re-pair only (dropped the "Forget & re-TOFU" shortcut).
- Apple (HostDiscovery/SessionModel/ContentView/HostCards/HostStore): new allowsTofu
(pair==optional, distinct from unknown); connect() gates .awaitingTrust on it; unpinned
non-optional hosts route to the PIN sheet; "Forget Identity" re-pairs rather than re-TOFUs.
- Linux (app.rs/ui_hosts.rs/session.rs): ConnectRequest.pair_required -> pair_optional;
initiate_connect routes pinned/fp-changed/optional/else; manual + --connect unknown -> PIN; a
pinned connect rejected on trust grounds re-pairs.
Docs (CLAUDE.md, README.md, docs-site/content/docs/pairing.md): describe the gated model — PIN is
the default, TOFU an explicit opt-in with an impostor warning.
Verified: host cargo check/clippy/fmt clean; Android built + live (emulator -> home-worker-2):
a manual connect now opens the PIN dialog (no Trust button) and the PIN ceremony streams; Apple
swift build clean; Linux clippy -D warnings + fmt clean on the Linux box.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The audit's signing recommendation, scoped to RPM (apt's signed Release metadata already
covers .debs; bootc cosign deferred). packaging/rpm/sign-rpms.sh GPG-signs dist/*.rpm and
self-verifies (rpmkeys --checksig), run from rpm.yml between build + publish.
Safe to ship: the step is a NO-OP (exit 0, unsigned as today) until RPM_GPG_PRIVATE_KEY is
set as a CI secret — so it can't break current CI, and when enabled a bad macro fails loudly
via the in-step checksig rather than shipping bad signatures. rpm/README gains the one-time
enablement runbook (generate a dedicated passphrase-less key, add the secret, publish the
public key, flip gpgcheck=1 only after a signed build lands) and notes step-ca is for TLS,
not OpenPGP (it can't sign RPMs).
Also fixes the rpm/README version staleness the doc review caught: rolling is 0.2.0-0.ciN
(outranks the stray 0.1.1, no pin needed), host releases use host-v* not the client's v*.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Make the host docs match the real distribution path and the actual CLI. Reviewed by a
multi-agent pass (6 editors against one verified fact sheet + an accuracy reviewer); its
findings (a wrong client-Recommends claim, a native-concurrency overstatement) folded in.
- Install front door: new README "Install (host)" method-picker + docs-site/install.md
(+ nav), routing each distro to its package registry; source build demoted to a fallback.
- Registry-first install: ubuntu-gnome/ubuntu-kde now lead with the apt registry (not a
cargo build); bazzite leads with the Gitea RPM registry (was COPR/source). Source builds
moved to an appendix.
- CLI accuracy: serve --native arms pairing from the web console (NOT --allow-pairing, which
with --require-pairing/--max-concurrent is m3-host-only); --open disables mandatory pairing.
host-cli/configuration/pairing/quickstart/troubleshooting corrected; mgmt API documented as
always HTTPS+token. Native host serves one session at a time (extras queue) — not multi.
- Firewall: real ports documented (native UDP 9777 + the ephemeral data port caveat +
GameStream ports) for Debian + Arch (ufw + nftables), not just Bazzite.
- Sync/accuracy: punktfunk-client (GTK4) presented as a shipping client (not "roadmap"),
punktfunk-client-rs as the headless tool; host Recommends punktfunk-web only (not the
client); COPR chroots f43/44; bootc header says Gitea registry not COPR.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
- spec: narrow ExclusiveArch to x86_64 — no aarch64 build is produced/published (NVENC is
desktop-NVIDIA), so claiming aarch64 advertised an arch we never ship.
- build-deb.sh: ship punktfunk-kde-session.service (ExecStart repointed to the packaged
run-headless-kde.sh) + host.env.kde, matching the RPM/Arch — the deb README's "mirrors the
Fedora RPM" claim now holds.
- audit.yml: weekly + Cargo.lock-change `cargo audit` over the network-facing crypto dep tree
(RustSec advisories); ignore unfixables via .cargo/audit.toml.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The stale code a default install/upgrade got was a TAG LEAK: deb.yml/rpm.yml shared
`tags: ['v*']` with the Apple-client release.yml, so the v0.1.0/v0.1.1 tags cut to ship
the macOS app ALSO published host packages versioned 0.1.1 — which outranks every rolling
0.0.1~ciN / 0.0.1-0.ciN build in both registries (dpkg/rpm version compares confirm), so
`apt install`/`rpm-ostree install` silently fetched ~99-commits-stale code while the READMEs
claimed auto-tracking. Two fixes:
- Decouple host publishing from Apple `v*` tags: deb.yml/rpm.yml now trigger on `host-v*`
only, so a client tag can never poison the host channel again.
- Bump the rolling base 0.0.1 -> 0.2.0 (deb `0.2.0~ciN`, rpm `0.2.0-0.ciN`): sits ABOVE the
stray 0.1.1 yet BELOW a future 0.2.0 tag, and still climbs monotonically by run number — so
`apt upgrade`/`rpm-ostree upgrade` genuinely move forward. Spec default + build scripts +
PKGBUILD pkgver bumped to match.
Build provenance (so a stale/shadowed host is detectable): build.rs stamps PUNKTFUNK_BUILD_VERSION
(set by CI = the full package version, e.g. 0.2.0~ci120.g802e98d; falls back to the crate version
for a plain `cargo build`) into the binary via rustc-env. Surfaced in `punktfunk-host --version`,
the startup log, and the mgmt /health + /host `version` field (was a hardcoded CARGO_PKG_VERSION).
Deliberately env-driven, not git-derived — the RPM builds from a git-archive tarball with no .git.
Version computed BEFORE the build in deb.yml; the spec %build exports it from %{version}-%{release}
(and gains --locked for reproducibility parity with the .deb path). Validated: plain build reports
0.0.1, env-stamped build reports 0.2.0~ci999.gdeadbee.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
M4 Android stage 1 (trust). The client now presents a persistent self-signed identity on
every connect, pins host certs trust-on-first-use, and runs the SPAKE2 PIN pairing
ceremony — parity with the Apple/Linux clients. The Rust connector already exposed this;
this wires it through the JNI + a Keystore-backed Kotlin store + the connect UI.
- crates/punktfunk-android: nativeGenerateIdentity (mint), nativeConnect gains
certPem/keyPem/pinHex (identity + TOFU/pinned), nativeHostFingerprint, nativePair
(SPAKE2). hex32/parse_hex32 helpers.
- kit/security: IdentityStore (AndroidKeyStore AES-256-GCM-wrapped PEM blob; StrongBox
with TEE fallback; four-state load so a decrypt failure never shadow-mints), PinStore
(host-id -> fp-hex in SharedPreferences). obtainIdentity mints once on genuine first run.
- app: ConnectScreen loads/mints the identity, looks up the stored pin, and gates connect
on a trust decision — TOFU prompt (first connect), fingerprint-changed warning, PIN dialog.
- AndroidManifest: allowBackup=false (Keystore keys don't restore; a restored device
re-mints rather than carrying a dead blob).
Verified live (emulator -> home-worker-2, synthetic m3-host):
- identity: host logs the presented client fingerprint; stable across an app restart.
- TOFU: first-connect prompt -> Trust -> pins the observed host fp -> pinned reconnect
skips the prompt.
- SPAKE2: PIN ceremony -> "pairing complete — client trusted" -> auto-connect under
--require-pairing; wrong PIN / host down -> "Pairing failed".
Known follow-up: trust is keyed by mDNS instance id for discovered hosts but by
"host:port" for manually-typed ones, so pairing via one path isn't recognized by the other.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The punktfunk-web management console (pairing + status) shipped only via apt. Extend it
to the other HOST packaging methods, mirroring the Debian punktfunk-web .deb (flatpak is
the client, correctly excluded):
- rpm/punktfunk.spec: new noarch `punktfunk-web` subpackage (the .output bundle + a
/usr/bin/punktfunk-web-server node launcher + both systemd --user units + web-init.sh +
web.env.example), gated behind `%bcond_with web`. OFF by default because building the
Nitro/Node SSR bundle needs `bun`, which a plain rpmbuild / COPR mock chroot lacks. Host
package weak-Recommends punktfunk-web.
- ci/fedora-rpm.Dockerfile: install bun (+ unzip) so the CI builder can build the console.
- rpm.yml: build `PF_WITH_WEB=1` (Prep bootstraps bun to stay green pre-image-rebuild); the
publish loop already globs the new noarch rpm into the registry. build-rpm.sh: `--with web`
when PF_WITH_WEB=1.
- bootc/Containerfile: install from the Gitea RPM registry (which carries punktfunk-web)
instead of COPR — `dnf5 install punktfunk punktfunk-web`.
- arch/PKGBUILD: opt-in `punktfunk-web` split member (PF_WITH_WEB=1 appends it + bun) so a
default makepkg still builds host+client with no JS tooling — matching the spec's bcond.
- docs: packaging/README, rpm/README, copr/README (the no-bun caveat), bazzite/README
(Path B rewritten COPR→Gitea registry), arch/README — enable + journal-password steps.
Reviewed across methods by an adversarial multi-agent pass (rpm/ci/arch/bootc/consistency
lenses, each blocking finding 3x-verified); fixed the two it confirmed real — the Arch
bun-mandatory regression (now opt-in) and the stale COPR wording in bazzite Path B.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
M4 Android stage 1 (discovery). Kotlin-only — browse _punktfunk._udp and present a
tappable host list above the manual Host/Port fields.
- clients/android/kit: HostDiscovery — NsdManager browse + resolve (registerServiceInfoCallback
on API 34+ for reliable TXT, legacy resolveService on 31-33), MulticastLock while running, and
a pure parseTxt(proto/fp/pair/id). Exposes the live host set via an onChange callback (NSD
callbacks land on the main thread). DiscoveredHost(name, host, port, fingerprint?, pairingRequired).
+ a JVM unit test of parseTxt.
- clients/android/app: ConnectScreen renders discovered hosts (tap -> fill host/port + connect);
discovery scoped to the screen (start on enter, stop on connect/leave). Manifest adds
CHANGE_WIFI_MULTICAST_STATE + ACCESS_WIFI_STATE (NEARBY_WIFI_DEVICES already declared). Trust
stays TOFU (pin=None); fp shown advisory; pairingRequired shown (SPAKE2 PIN wiring is later).
Verified: parseTxt unit test (5/5 green); on the emulator a loopback NsdManager.registerService of
a fake _punktfunk._udp host was discovered + resolved + TXT-parsed and rendered as a card
(name/host:port/TOFU/fp) -- the full browse->resolve->parse->UI path. Real cross-LAN discovery
needs a physical device on the host LAN (the emulator's SLIRP NAT drops mDNS multicast).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Validated live on an RTX 4090 (Windows 11) host streaming to the Rust
reference client over the LAN: SudoVDA virtual display → DXGI Desktop
Duplication (D3D11 zero-copy) → NVENC HEVC → punktfunk/1. 720p60 and
1080p60 both clean (181 / 177 frames, 0 mismatched, p50 1.6 / 3.45 ms
cross-machine), coexisting with Apollo. Two real-hardware bugs the
GPU-less VM couldn't surface:
- DXGI capturer: the SudoVDA virtual monitor's DXGI output is enumerated
under the GPU that *renders* it (the 4090, LUID 0x15df6), NOT under the
SudoVDA "adapter" LUID SudoVDA reports (0x23276). Restricting the output
search to that LUID found nothing → "adapter has no output named
\\.\DISPLAYn". Now search ALL adapters for the GDI name, bind the D3D11
device to whichever adapter exposes it (NVENC then shares that device),
with a settle-retry (the output appears a beat after display creation)
and topology logging.
- native_pairing / apps: keyed config paths off raw $HOME, which a Windows
service/scheduled-task context doesn't set → "HOME unset" hard-fail at
m3-host startup. Route both through gamestream::config_dir(), which falls
back to %APPDATA% on Windows (cert/paired/apps now under AppData\Roaming).
clippy -D warnings + build green on x86_64-pc-windows-msvc (default and
--features nvenc) and Linux (78/78 tests).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The self-hosted runner filled its disk (95%, builds failing on ENOSPC): every CI
push builds a sha-<commit>-tagged Docker image per pipeline, and since those tags
are never dangling a plain `docker image prune` skips them — they piled up to 589
images / ~85 GB plus 18 GB of build cache. Two parts:
- scripts/ci/docker-prune.{service,timer}: a host-level systemd timer (every 6h,
Persistent) that prunes images/build-cache/containers older than 24h — in-use
images stay protected. Checked in (the runner is hand-provisioned and shared
across orgs) and already installed live; reclaimed 89 GB -> 39 GB (95% -> 42%).
- ci.yml / deb.yml: bump the `cargo-target-<rustc>-*` cache key to `-v2-`. The
disk-full build let actions/cache save a truncated target/ (a dep's .rmeta went
missing -> "error[E0463]: can't find crate for pem_rfc7468" while compiling der).
A suffix bump is useless here — restore-keys would fall back to the poisoned
prefix — so the prefix is versioned to force one clean rebuild. cargo-home is
untouched (sources were intact; the failure was a missing build artifact).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Every user needs the console for pairing, so ship it via apt, auto-wired to the
host — no manual bun/env setup. New punktfunk-web .deb (Architecture: all,
Depends: nodejs >= 20 — runs the node-server build under apt-native node, no
bundled bun):
- packaging/debian/build-web-deb.sh: stages web/.output (server + public) + a
/usr/bin/punktfunk-web-server wrapper (node) + the systemd --user units + the
web.env template + docs. Refuses a bun bundle (Bun.serve) as a wrong-preset guard.
- scripts/punktfunk-web.service: --user unit on :3000, EnvironmentFile sources the
host's ~/.config/punktfunk/mgmt-token (the shared bearer) + the generated
web-password; sets PUNKTFUNK_MGMT_URL=https://127.0.0.1:47990 +
NODE_TLS_REJECT_UNAUTHORIZED=0 (loopback self-signed cert). Restart=on-failure
rides out the host-writes-token-first ordering.
- scripts/punktfunk-web-init.service + web-init.sh: --user one-shot that generates
the login password (a .deb postinst runs as root → wrong $HOME) and surfaces it
to the journal.
- build-deb.sh: punktfunk-host now Recommends punktfunk-web (apt pulls it by
default; headless boxes opt out with --no-install-recommends).
- deb.yml: build the web console + smoke-boot it under node (gate the .deb on a
real /login 200) + build-web-deb.sh; the publish loop globs it automatically.
- web/{.env.example,web.env.example}: document the auto-wiring vs a manual deploy.
End state: `apt install punktfunk-host` pulls punktfunk-web; enable both --user
services; the console logs in (password from the journal) and proxies the host's
HTTPS mgmt API with the shared token — zero hand-edited env. Local .deb build +
node smoke-boot verified.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Switch the Nitro build preset from `bun` to `node-server` so the built
.output/server is a standalone HTTP server runnable by apt-native `node`
(validated: `node .output/server/index.mjs` → Listening, /login 200 on node
v25.9.0). This lets the upcoming punktfunk-web .deb depend on `nodejs (>= 20)`
instead of vendoring the bun binary. CI still BUILDS with bun; only the runtime
target changes, and bun still runs a node-server build, so existing
`bun run .output/server/index.mjs` deployments keep working. `vite dev` is
unaffected. Prereq for bundling the web console into the apt install.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The mgmt API already always serves HTTPS (the host identity cert), but on a
loopback bind with no token it ran unauthenticated — any local process could
drive it. Make auth required ALWAYS:
- new mgmt_token::load_or_generate(): token precedence is --mgmt-token > env
PUNKTFUNK_MGMT_TOKEN > persisted ~/.config/punktfunk/mgmt-token > freshly
generated 32-byte hex, persisted 0600 in KEY=VALUE form (so the bundled web
console can source it directly as a systemd EnvironmentFile — one source of
truth). config_dir() made pub(crate).
- parse_serve() resolves the token via load_or_generate() when unset, so a bare
`serve` Just Works with auth on and no operator step.
- mgmt::run() drops the loopback no-token exemption and requires a token;
require_auth()'s unauthenticated fallback now returns 401. The paired-cert
(mTLS) branch is unchanged — Apple client + library auth unaffected.
- web /api proxy: 503 (legible) instead of forwarding an empty bearer.
- tests: test_app/test_app_native default a token, send() auto-attaches the
bearer; blank-token test asserts the new "no token" refusal. 80 pass.
- docs: mgmt module doc + host.env.example reflect always-on auth + auto-gen.
Compiles, clippy/fmt clean, openapi no drift. Part B (bundle the web console into
apt, auto-wired to this token) follows.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
M4 Android stage 1 (DualSense feedback, host->client). Two Kotlin poll threads drain the
connector's rumble (0xCA) + HID-output (0xCD) planes via blocking native pulls and render
in Kotlin (Option B — no JNI upcalls, Android APIs stay in Kotlin).
- crates/punktfunk-android: feedback.rs — nativeNextRumble (returns (low<<16)|high, or -1)
+ nativeNextHidout (writes [kind][fields] into a caller's direct ByteBuffer). Ungated; no
new Cargo deps (next_rumble/next_hidout are on the quic feature already).
- clients/android: GamepadFeedback.kt — rumble -> VibratorManager (two-motor amplitude),
HID Led -> lightbar + PlayerLeds -> player LED via LightsManager (API 33+), adaptive
triggers parsed + logged (no public Android API); resolves the connected pad, emulator ->
logged no-op. Started/stopped in the StreamScreen lifecycle (stop + join before nativeClose).
Verified live (emulator -> synthetic host, PUNKTFUNK_TEST_FEEDBACK=1): client received +
decoded the full burst -- rumble low=16384 high=32768, Led r=10 g=20 b=30, PlayerLeds bits=4
player=1, Trigger which=1 mode=0x21 -- matching the host hook exactly. Rendering is a logged
no-op on the emulator (no controller); real haptics/lightbar/player-LED need a physical pad.
Deferred (need a physical DualSense + device enumeration): client->host rich input
(touchpad/motion send_rich_input) and DualSense controller-type negotiation.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
M4 Android stage 1 (gamepad). One controller forwarded as pad 0; mirrors the
Linux/Apple gamepad mapping (byte-identical GamepadButton/GamepadAxis events).
- crates/punktfunk-android: 2 JNI fns (nativeSendGamepadButton/Axis) building the
GamepadButton/GamepadAxis InputEvents (flags = pad index 0).
- clients/android: Gamepad.kt — BTN_*/AXIS_* wire constants, KEYCODE_*->BTN_* map, and
an AxisMapper (joystick MotionEvent -> sticks +-32767 +y-up / triggers 0..255 /
HAT->BTN_DPAD_* with on-change gating + release-all reset). MainActivity routes
gamepad-source KeyEvents in dispatchKeyEvent (DPAD only when from a gamepad, so
keyboard arrows still map to VK) and adds dispatchGenericMotionEvent for joystick axes.
Verified live (emulator -> gamescope host, `adb input gamepad keyevent`): host created
the virtual X-Box 360 uinput pad (index=0) and received the gamepad datagrams (input=22).
Axes can't be adb-injected (joystick MotionEvents) -- build/clippy + code-review this
increment; live stick/trigger test deferred to a physical controller. Deferred: device
enumeration/selection, controller-type negotiation, DualSense rich input.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The Steam `LibraryProvider` keyed off `$HOME` + Linux paths, so the game
library was empty on Windows. Add Windows discovery: the default Steam
install dirs under Program Files (`ProgramFiles(x86)`/`ProgramFiles`/
`ProgramW6432`), with games on other drives picked up via each root's
`libraryfolders.vdf` — whose Windows values are backslash-escaped, so
unescape `\\` → `\`. The existing root-scan/dedup logic is shared via a
new `steam_roots_existing` helper. The custom store (mgmt JSON CRUD) was
already cross-platform; only Steam auto-discovery was Linux-only.
Not yet covered: a non-default Steam install dir (the registry
`Valve\Steam\InstallPath`). Degrades gracefully — no Steam → empty list.
clippy -D warnings + library tests green on Windows and Linux.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
`serve` gave Moonlight clients no audio on Windows: the GameStream audio
stream thread was Linux-only (a non-Linux stub errored). Widen the
stereo path to Windows — the encode/RTP/AES-CBC/hand-rolled-RS(4,2)-FEC
logic is platform-neutral and already live-validated byte-identical on
Linux, and it now runs over the WASAPI capturer + the (already
cross-platform) `opus` crate. The cfg gates go from `linux` to
`any(linux, windows)`; only the surround path stays Linux-only because
its libopus *multistream* encoder needs `audiopus_sys` (a Linux dep) —
on Windows a surround request fails cleanly with a "use stereo" error.
Linux stays byte-identical (the `SessionEncoder::Surround` variant and
its match arm keep `#[cfg(linux)]`, so Linux compiles exactly as before).
Verified: clippy -D warnings + host test suite green on both
x86_64-pc-windows-msvc (73/73) and Linux (78/78).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The mgmt API serves HTTPS with the host's self-signed identity cert and requires
mTLS-or-bearer auth (the mTLS work), but the web console's proxy still defaulted to
`http://127.0.0.1:47990` — so a deployment copying .env.example got a plain-HTTP
request to an HTTPS port (→ 502 Bad Gateway, observed live on the Bazzite box).
- .env.example + server/util/auth.ts + vite.config.ts: default PUNKTFUNK_MGMT_URL to
https://127.0.0.1:47990.
- vite dev proxy: `secure: false` (the host cert is self-signed).
- Document that the deployment needs PUNKTFUNK_MGMT_TOKEN (matching the host's) and
NODE_TLS_REJECT_UNAUTHORIZED=0 — the web server's only outbound TLS is the loopback
hop to the host's own self-signed cert, so disabling verify there is scoped + safe.
The running Bazzite box is already fixed live (web.env → https + token + cert-skip,
verified: login 200, /api/v1/status 200). This makes fresh deployments correct.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
M4 Android stage 1 (input). Kotlin captures input and forwards it over JNI to
NativeClient::send_input (the connector is linked as a Rust crate).
- crates/punktfunk-android: 4 JNI send fns (pointer move / button / scroll / key)
building InputEvent with the GameStream wire codes — ungated, &self on the Sync
connector (safe from the UI thread).
- clients/android: Keymap.kt (Android KEYCODE_* -> Windows VK, the host's wire
contract, mirroring the Linux/Apple tables); Activity-level dispatchKeyEvent forwards
hardware keys to the active session (above the Compose focus system, so it's reliable);
a Compose touch-trackpad overlay -- 1-finger drag -> relative move, tap -> left click,
2-finger drag -> scroll.
Verified live (emulator -> gamescope host on the LAN box, synthetic `adb input`): host
received 31 input datagrams (input=31) and libei injected KeyDown/KeyUp, MouseButtonDown/Up
and MouseMove all emitted=true. Physical-mouse pointer capture + gamepad are next.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The Windows host test suite hit two pre-existing portability failures
(the autonomous Windows bring-up never ran `cargo test` on the VM):
- `vdisplay::detect_active_session_*` asserted a non-empty XDG runtime
dir — a Linux concept with no Windows equivalent. Gate just that
assertion to Linux (keep the call so the fn stays used → no dead_code).
- `mgmt::openapi_document_is_complete_and_checked_in` did a byte compare
against the checked-in spec, which git may check out CRLF on Windows
while serde_json emits LF. Compare content with `\r` stripped.
Host suite now 73/73 on x86_64-pc-windows-msvc; Linux unchanged (78 ok).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Wire the host→client rumble path on Windows, the analogue of the Linux
uinput EV_FF read loop: a game's force-feedback on the virtual Xbox 360
pad is delivered by ViGEm's notification API (`request_notification` →
`spawn_thread`, gated by the crate's `unstable_xtarget_notification`
feature). A per-pad background thread stores the latest motor levels;
`pump_rumble` relays changes to the client on the universal 0xCA plane
(motors scaled 0..255 → 0..65535). Dropping the target aborts the
notification, so the thread exits with the session. Live verification
still needs a physical pad.
Also fix the Windows backends' clippy debt — these modules are cfg-
excluded from Linux CI, so `clippy -D warnings` never saw them, and the
VM's rustc 1.96 clippy is stricter on shared code than the CI image:
- dxgi: manual checked division → checked_div().map_or
- sendinput: `x = x | y` → `x |= y`
- sudovda: `.then(|| ptr)` → `.then_some(ptr)`
- m3 pick_compositor: drop the needless early return (match form)
- m3 resolve_compositor: Windows arm is a tail expr, not `return`
All Windows backends now build + clippy clean (default and --features
nvenc); Linux unaffected (fmt/clippy/check green).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
"Controller disconnected every few seconds" (Forza Horizon, held steady): the
virtual UHID DualSense emitted HID report 0x01 ONLY on state change, but a real
DualSense streams it continuously (~250 Hz). When the player holds the
wheel/throttle steady the client sends no wire events, so the host wrote nothing
and /dev/uhid went silent for seconds — the kernel hid-playstation driver / Proton
/ SDL treat that as an unplugged controller. (The uinput X-Box pad is immune:
evdev holds last-known state with no periodic-report requirement.)
Add DualSenseManager::heartbeat(max_gap): re-emit each live pad's CURRENT report
when it's been silent for max_gap (idempotent — a stale-but-correct frame, never a
phantom input; write_state bumps seq+timestamp). write() resets the per-pad timer,
so an actively-used pad emits no extra reports — the heartbeat only fills genuine
silence. PadBackend::heartbeat() drives it at an 8 ms gap (~125 Hz) for DualSense
(no-op for X-Box), called every input-thread tick (the loop already runs ≤4 ms).
GET_REPORT feature replies + the pad lifecycle were ruled out by the investigation
(pad is created once, never torn down mid-session). Compiles, clippy/fmt clean, 78
host tests pass. Verify on the box: held-idle DualSense stays present in evtest /
no SDL CONTROLLERDEVICEREMOVED; Forza no longer toasts "controller disconnected".
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The DualSense intermittently showed up as an Xbox 360 pad on the host: the
client's `.auto` gamepad-type resolution read `GamepadManager.active`, which is
populated only by the async `.GCControllerDidConnect` notification (or the
init-time snapshot). At connect time `active` could still be nil with a DualSense
attached, so the client sent `.auto` and the host's pick_gamepad mapped that to
Xbox 360. Confirmed live: same box, two connects minutes apart logged
`gamepad="xbox360"` (auto) vs `honoring client gamepad request gamepad="dualsense"`.
resolveType() now calls rebuild() first to re-read GCController.controllers()
synchronously before reading `active`, closing the race for the common case
(controller attached before connecting).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The `m3` audio_thread (desktop capture → Opus 48 kHz stereo 5 ms CBR →
AUDIO_MAGIC datagrams) now runs on Windows, fed by the WASAPI loopback
capturer. The `opus` crate vendors libopus via `audiopus_sys` + cmake
(no system lib / vcpkg), so it builds on MSVC — moved into a
`cfg(any(linux, windows))` deps table and widened the audio_thread cfg
to match (the stub now only covers other targets, e.g. macOS).
Build note: CMake 4 rejects libopus's old `cmake_minimum_required`;
set `CMAKE_POLICY_VERSION_MINIMUM=3.5` when building the host on Windows.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
M4 Android stage 1 (audio). An audio thread pulls Opus packets from the connector
(next_audio), decodes to interleaved f32 stereo, and feeds AAudio via its realtime
data callback through a jitter ring ported from the Linux client (prime ~3 quanta,
drop-oldest cap, re-prime on drain). All in Rust on native threads — symmetric with
the video decode path.
- crates/punktfunk-android: audio.rs (Opus decode + jitter ring + AAudio callback);
SessionHandle gains an audio slot; nativeStartAudio/nativeStopAudio JNI; Drop stops it.
Android-only deps: opus 0.3 (libopus via cmake, static) + ndk "audio" (AAudio) — pure
C/NDK, no libc++_shared to bundle.
- clients/android: NativeBridge start/stop audio, called in the SurfaceView lifecycle.
- kit/build.gradle.kts: cargo-ndk env for the libopus cmake build (NDK root, Ninja,
LIBOPUS_STATIC/NO_PKG) + --platform 31 (libaaudio is API 26+).
Verified live (emulator -> gamescope host on the LAN box): AAudio opened 48k/stereo/f32;
a 440 Hz tone played into the host capture sink reached the client decoded -- opus ~200/s,
pcm_frames climbing in lockstep, peak=0.089 (real content, not silence), with video
streaming concurrently. Some underruns under emulator jitter (verify on hardware).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Two parked follow-ups from the session-aware host work:
#3 — KWin/Mutter virtual output not set primary. The auto-detected desktop path
*is* "stream this desktop", but the per-session virtual output wasn't promoted to
primary, so KDE/GNOME panels + windows stayed on an unstreamed real output and the
streamed screen showed only wallpaper. apply_session_env now defaults
PUNKTFUNK_KWIN_VIRTUAL_PRIMARY / PUNKTFUNK_MUTTER_VIRTUAL_PRIMARY on for the
auto path (explicit config still wins), so the streamed output becomes the sole
desktop.
#2 — input flaky after a mid-stream Gaming->Desktop switch. The xdg portal
(D-Bus-activated) and the systemd --user env still pointed at the old session, so
the host's RemoteDesktop portal opened against a half-stale env: it accepted
events but they didn't reach the compositor until a reconnect. New
vdisplay::settle_desktop_portal() pushes the live session env into the
systemd/D-Bus activation environment and (for KWin) restarts the portal so it
re-reads it, mirroring a fresh desktop login (and the existing wlroots portal
restart). Called from the mid-stream switch rebuild slot before the injector
reopens. GNOME uses Mutter's direct EIS, so it only gets the env push.
Compiles, clippy/fmt clean, 78 host tests pass. Live validation on the Bazzite
box next.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Windows GamepadManager via vigem-client (ViGEmBus) — the uinput-xpad analogue: one virtual Xbox 360 controller per client pad index, created lazily on first State. GameStream/Moonlight already uses the XInput conventions (low-16 button bits, sticks -32768..32767 +Y up, triggers 0..255), so the GamepadFrame->XGamepad mapping is 1:1. Replaces the non-Linux GamepadManager stub (same new/handle/pump_rumble API the m3 PadBackend drives, so no m3 change). Graceful when ViGEmBus is absent (gamepad disabled, session continues). Compiles clean on Windows + Linux; live-test needs the ViGEmBus driver + a physical pad. Rumble back-channel is a TODO (ViGEm notification API).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Zero-copy capture->encode on the GPU via the raw NVENC API (nvidia_video_codec_sdk sys + ENCODE_API; the safe wrapper is CUDA-only). Opens an NV_ENC_DEVICE_TYPE_DIRECTX session on the SAME ID3D11Device as the DXGI capturer (carried on the new FramePayload::D3d11), registers a pool of BGRA textures once, CopyResources each captured texture in and encode_picture; CBR/ULL, infinite GOP, P-only, forced-IDR for RFI. The DXGI capturer gains a D3D11 zero-copy output (selected, like the encoder, by PUNKTFUNK_ENCODER=nvenc) so capture+encode share textures.
OFF by default (the nvenc feature pulls the NVENC SDK + cudarc): the default Windows host links without it (openh264 path). cudarc builds toolkit-less via the SDK ci-check feature (dynamic-loading). At link time --features nvenc needs nvencodeapi.lib (NVENC SDK, or an import lib generated from the driver's nvEncodeAPI64.dll) on PUNKTFUNK_NVENC_LIB_DIR. Both default and --features nvenc builds validated to compile+link GPU-less on the VM (import lib generated from the driver DLL). Runtime needs a real NVIDIA GPU.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The punktfunk/1 control plane already compiled on Windows; these wire the last gaps so the host actually runs: config_dir falls back to %APPDATA% (HOME\.config when set), paired_path uses it, hostname from COMPUTERNAME, and resolve_compositor short-circuits the Linux session-detection on Windows (SudoVDA is the single backend; vdisplay::open ignores the compositor arg). Validated live on the VM: m3-host creates its identity, binds the QUIC endpoint (fingerprint logged), advertises mDNS (_punktfunk._udp, host from COMPUTERNAME), and accepts sessions. GPU-less validations green: m0 synthetic->openh264->core FEC loopback (120/120, 0 mismatches) and the m3 c_abi_connection_roundtrip control-plane test. Full session capture (SudoVDA->DXGI) + NVENC remain GPU-gated.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Windows Capturer via DXGI Desktop Duplication: create a D3D11 device on the SudoVDA adapter (by LUID), find the matching output (by GDI name), DuplicateOutput, and per AcquireNextFrame copy the desktop into a CPU-readable staging texture -> tightly-packed BGRA (FramePayload::Cpu, feeds the openh264 software encoder GPU-lessly). Handles WAIT_TIMEOUT (reuse last frame) and ACCESS_LOST (re-duplicate). Adds FramePayload::D3d11(D3d11Frame) for the future NVENC zero-copy path, and a VirtualOutput.win_capture identity (adapter LUID + GDI name) carried out of the SudoVDA backend. Pure helpers (pack_luid/gdi_name_matches/depad_bgra) unit-tested on the VM; the live duplication path needs a real GPU + an activated SudoVDA monitor. Compiles clean on Windows + Linux.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Windows AudioCapturer via the wasapi crate (0.23): loopback the default render endpoint (Render device + Direction::Capture + shared mode => STREAMFLAGS_LOOPBACK) at 48 kHz stereo f32 with autoconvert, feeding the existing Opus path with no resampling. Dedicated COM-MTA thread owns the !Send WASAPI objects; interleaved f32 chunks leave over a bounded lossy channel; RAII Drop stops + joins. Bring-up handshake reports a missing endpoint as Err so a session continues without audio. open_audio_capture Windows factory arm + module. Init chain validated live on the VM (open succeeds; next_chunk waits on a silent system). Virtual mic deferred (no Windows virtual-audio endpoint). m3 audio_thread wiring + opus hoist land with the integration task.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Windows Encoder impl via the openh264 crate (statically-bundled, BSD-2): low-latency screen-content config (Baseline/no-B-frames, bitrate RC, BT.709 limited, near-infinite GOP + forced-IDR recovery via request_keyframe), packed CPU pixels (BGRx/BGRA/RGB/RGBA/RGBx/BGR) -> I420 -> AnnexB with in-band SPS/PPS each IDR. Synchronous: submit encodes immediately, poll hands back the one AU, flush is a no-op. Windows open_video factory selects it (PUNKTFUNK_ENCODER=software|nvenc|auto; NVENC arm lands later), H.264-only with a clear error otherwise, SW bitrate ceiling. Unit-tested live on the VM: synthetic BGRx -> AnnexB IDR + SPS NAL. Unblocks the GPU-less capture->encode->FEC->send pipeline. Compiles clean on Windows + Linux.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Windows InputInjector via SendInput (Win32 KeyboardAndMouse), mirroring the wlroots backend: absolute mouse (MOUSEEVENTF_VIRTUALDESK normalized to the virtual desktop), relative mouse, scancode keyboard (MapVirtualKeyExW + extended-key flagging), scroll (no sign flip — Windows wheel matches GameStream), buttons. Client already sends Windows VK codes (no keycode table). Reattaches the thread to the input desktop (OpenInputDesktop/SetThreadDesktop) to survive UAC/lock switches. New Backend::SendInput, the Windows auto-default in default_backend(), open() arm, windows-crate features. Compiles clean on Windows + Linux. Live injection validates with the in-session host run (SendInput is desktop-isolated from an SSH network logon).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Windows VirtualDisplay backend driving SudoVDA (the Apollo IDD) via its DeviceIoControl IOCTL protocol: open by interface GUID, ADD at the client's exact WxH@Hz (mode baked into the IOCTL, no EDID seeding), mandatory watchdog ping thread, QueryDisplayConfig name resolution, RAII Drop -> REMOVE. Wired behind the existing VirtualDisplay trait (open()/probe() Windows arms). Validated live on the GPU-less VM (standalone + via the trait, env-gated test): version 0.2.1, ADD 1920x1080@60 -> target, watchdog hold, REMOVE. Monitor activation into a WDDM path (-> capturable \\.\DisplayN) needs a real GPU and is deferred with capture/NVENC. docs/windows-host.md updated.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
M4 Android stage 1 (video). Pull HEVC access units from the connector and render
them to the SurfaceView entirely in Rust (NDK AMediaCodec → ANativeWindow) — no
per-frame JNI, honoring the native-thread hot-path invariant.
- crates/punktfunk-android: decode.rs (one-in/one-out AMediaCodec loop; in-band
VPS/SPS/PPS so no out-of-band csd; dims from NativeClient::mode). SessionHandle
now holds an Arc<NativeClient> + the decode thread; nativeStartVideo/nativeStopVideo.
- clients/android: connect screen (host/port) + full-screen SurfaceView stream
screen — surfaceCreated -> nativeStartVideo, leaving -> stop + close.
Verified live (Android emulator -> m3-host on the LAN box, ABI v2): QUIC handshake,
8-round clock-skew sync, HEVC decoder configured at 1280x720, and the data plane
delivered + fed all 299 access units (the punktfunk/1 NAT hole-punch worked through
the emulator's SLIRP). Real-pixel render is pending a non-synthetic source:
`m3-host --source synthetic` emits dummy transport payloads (not HEVC), so the
decoder correctly produces nothing; `--source virtual` (a compositor on the host)
is needed to verify decode-to-screen.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
flatpak-cargo-generator.py (master) imports `tomlkit` + `aiohttp`; the workflow
installed `python3-toml`, so the "Generate offline cargo sources" step would fail
with ModuleNotFoundError. Install python3-tomlkit instead, and correct the same
note in build-flatpak.sh.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Ship the punktfunk Linux client to the Steam Deck as a Flatpak — the only viable
SteamOS install path, since /usr is read-only and lacks libadwaita/SDL3 — and
publish both it and the Decky plugin through Gitea. Built and validated live on a
Steam Deck (SteamOS 3.7): bundle installs user-scope, all libs resolve, libavcodec
resolves to the codecs-extra HEVC build, devices=all for DualSense hidraw.
packaging/flatpak (new):
- io.unom.Punktfunk.yml on GNOME 50 / freedesktop-sdk 25.08. rust-stable//25.08
(rustc 1.96 — the GTK4 chain needs >=1.92; the EOL GNOME-48/24.08 rust-stable at
1.89 could not build it) + llvm20 (libclang for bindgen in ffmpeg-sys-next/sdl3-sys).
HEVC libavcodec comes from the runtime's auto codecs-extra extension point (no
app-side codec declaration). Bundled SDL3 3.4.10 (matches sdl3-sys 0.6.6+SDL-3.4.10).
finish-args: wayland/fallback-x11, --device=all (GPU/VAAPI + evdev + hidraw — flatpak
cannot bind /dev/hidrawN char devices via --filesystem), pulseaudio, network,
~/.config/punktfunk.
- metainfo.xml, desktop, square SVG icon, build-flatpak.sh (offline cargo-sources;
on-Deck org.flatpak.Builder or CI), README.
clients/decky:
- add LICENSE (MIT), fix package.json license (BSD-3-Clause -> Apache-2.0 OR MIT),
add scripts/{package.sh,deploy.sh} (the plugins dir is root-owned: stage to /tmp,
sudo install, restart plugin_loader), align the launcher fallback to the real
flatpak app id io.unom.Punktfunk, rewrite the install section.
.gitea/workflows:
- flatpak.yml: privileged Fedora container builds the bundle and publishes to the
Gitea generic registry (+ release attachment on tags).
- decky.yml: pnpm build -> store-layout zip -> registry (stable latest/ URL for
Decky "install from URL").
docs: packaging/README + packaging/flatpak/README.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Rust-heavy client model (like punktfunk-client-linux): a new cdylib crate
crates/punktfunk-android links punktfunk-core and exposes the JNI seam;
Kotlin (clients/android) owns only the Android-framework surface. Kotlin can't
import the C header the way Swift can, so the bridge is written in Rust to reuse
the Linux client's orchestration rather than re-port it.
- crates/punktfunk-android: JNI bridge — abiVersion/coreVersion native-link
proof + session connect/close handle; plane pumps stubbed for M4 stage 1.
- clients/android: Gradle project — :app (Compose) + :kit (Android library with
a cargo-ndk Exec task -> jniLibs). AGP 9.2 / Gradle 9.4.1 / Kotlin 2.3.21 /
Compose BOM 2026.05.01 / compileSdk 37 / targetSdk 36 / minSdk 31, shipping
arm64-v8a + x86_64. Phone + TV (leanback) installable. README rewritten.
- .gitea/workflows/android.yml: CI mirroring apple.yml on a Linux runner.
- punktfunk-core: switch rcgen to the ring backend so the whole quic tree is
aws-lc-free (smaller client .so, cmake-free cross-compile; a win for all targets).
Validated on this box: :app:assembleDebug -> APK with both ABIs; emulator
first-light renders the bridge linked (core ABI v2) with logcat confirmation;
clippy -D warnings + cargo fmt clean; core tests green on the ring backend.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>