Two bodies of work in one commit (the rename moved files the fixes also touched).
Naming/structure cleanup (pre-launch):
- Host modules m3.rs->punktfunk1.rs, m0.rs->spike.rs; CLI m3-host->punktfunk1-host,
m0->spike; bare `punktfunk-host` now prints help. Types M3Options/M3Source->
Punktfunk1Options/Punktfunk1Source.
- Clients consolidated out of crates/ into clients/: punktfunk-client-rs->
clients/probe (crate punktfunk-probe), client-linux->clients/linux,
client-windows->clients/windows, punktfunk-android->clients/android/native
(crate punktfunk-client-android; kept [lib] name=punktfunk_android so the JNI
contract is unchanged). crates/ now holds only core + host.
- Milestone codes M0-M4 purged from code/CLI/CLAUDE.md/README/docs/docs-site,
kept only in docs/implementation-plan.md. docs/m2-plan.md->
docs/gamestream-host-plan.md. CI/gradle/flatpak paths updated.
Client loss-recovery (video froze and never recovered after a brief drop):
- Export punktfunk_connection_frames_dropped through the C ABI (the core already
tracked it for the client keyframe-recovery loop; it was never reachable from
the ABI clients). Regenerated punktfunk_core.h.
- Apple (StreamPump + Stage2Pipeline) and Android (decode.rs) now poll
frames_dropped and request a keyframe when it climbs -- the same loss-driven
recovery Linux/Windows already had. Under infinite GOP the decoder silently
conceals reference-missing frames, so the decode-error trigger rarely fires.
Apple rumble robustness (worked then went spotty -- DualSense + Xbox):
- Add CHHapticEngine stopped/reset handlers (rebuild on app background / audio
interruption / server reset) and drop the permanent `broken` latch on a
transient drive failure; latch only when the controller truly has no haptics.
- Surface swallowed SDL set_rumble errors on Linux/Windows + diagnostic logging.
Verified: cargo build/clippy/fmt --workspace, C-ABI harness, header drift.
Not runnable on this box (verify in CI): Gitea workflows, gradle/Android,
flatpak, Swift/decky.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
r0adkll/upload-google-play hides real API errors behind "Unknown error
occurred." Proved the full upload sequence (insert edit -> upload bundle ->
track update -> validate) succeeds with the service account, so the failure was
r0adkll's opaque error handling and/or a base64-encoded SERVICE_ACCOUNT_JSON
secret.
clients/android/ci/play-upload.py does the same sequence with stdlib + openssl
(no pip), reuses the SERVICE_ACCOUNT_JSON secret, tolerates it being raw JSON or
base64, auto-retries commit with changesNotSentForReview, and prints Google's
actual error. Locally dry-run-validated against the live app (both secret forms).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Build a universal release APK alongside the AAB and push both to the public
generic registry (punktfunk-android/<run_number>/) before the Play upload, so
artifacts are downloadable even while the Play step is still failing. Matches
windows-msix.yml / deb.yml (REGISTRY_TOKEN, user enricobuehler).
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>
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>
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>