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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>
70 lines
3.6 KiB
Markdown
70 lines
3.6 KiB
Markdown
# punktfunk Android client
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Native Android client for **punktfunk/1**, targeting **phone + TV** (Compose, D-pad + touch).
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## Architecture — Rust-heavy (like the Linux client, not thin-native like Apple)
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Kotlin cannot `import` the cbindgen C header the way Swift can, so a native bridge is unavoidable.
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We write it in **Rust** and link `punktfunk-core` directly — so the Android client reuses the Linux
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client's orchestration (audio jitter ring, VK keymap inverse, latency/skew math, capture state
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machine, trust logic) instead of re-porting it into Kotlin.
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| Side | Owns |
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|------|------|
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| **Rust** (`crates/punktfunk-android` → `libpunktfunk_android.so`) | the JNI seam, `NativeClient` (QUIC control + UDP data plane), AnnexB→`AMediaCodec` decode, Opus+Oboe audio, VK keymap, latency math, trust/pairing |
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| **Kotlin** (`clients/android`) | Compose UI (host grid / settings / stream), `SurfaceView` lifecycle, input capture, `NsdManager` discovery, Keystore identity, permissions |
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The single seam is `io.unom.punktfunk.kit.NativeBridge` ⇄ `Java_io_unom_punktfunk_kit_NativeBridge_*`.
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## Layout
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```
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crates/punktfunk-android/ Rust cdylib (workspace member)
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src/lib.rs JNI_OnLoad + abiVersion/coreVersion (native-link proof)
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src/session.rs session handle lifecycle (connect/close); plane pumps = TODO
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clients/android/ Gradle project (this dir)
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settings.gradle.kts · build.gradle.kts · gradle.properties · gradlew
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app/ :app — Compose application (MainActivity)
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kit/ :kit — Android library: NativeBridge + the cargo-ndk build
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build.gradle.kts cargoNdk{Debug,Release} → src/main/jniLibs/<abi>/*.so
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```
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## Prerequisites (already set up on the dev Mac)
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- Android SDK + **NDK r28 LTS** (`28.2.13676358`), `platforms;android-37.0`, `build-tools;37.0.0`
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- **JDK 21** for Gradle/AGP (the machine default JDK 25 is too new for AGP 9.2)
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- Rust + `rustup target add aarch64-linux-android x86_64-linux-android` + `cargo install cargo-ndk`
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Toolchain pinned: AGP 9.2.0 · Gradle 9.4.1 · Kotlin 2.3.21 · Compose BOM 2026.05.01 ·
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compileSdk 37 · targetSdk 36 · minSdk 31 · ABIs arm64-v8a + x86_64.
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## Build & run
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**Android Studio:** open `clients/android` — it uses its bundled JBR 21 automatically. The
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`cargoNdk*` task builds the `.so` as part of the normal build.
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**CLI** (the machine default is JDK 25, so point Gradle at JDK 21):
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```sh
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export JAVA_HOME="$(brew --prefix openjdk@21)/libexec/openjdk.jdk/Contents/Home"
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cd clients/android
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./gradlew :app:assembleDebug # cargo-ndk cross-compiles libpunktfunk_android.so first
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./gradlew :app:installDebug # onto a running emulator/device
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# Emulators (created during env setup): emulator -avd pf_phone | emulator -avd pf_tv
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```
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The debug APK lands in `app/build/outputs/apk/debug/`. The scaffold screen calls
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`NativeBridge.abiVersion()` across JNI — a live ABI version proves the whole native stack is wired.
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## Status
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- **Scaffold (done):** Gradle modules, cargo-ndk wiring, JNI native-link proof, phone+TV-installable
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manifest. `crates/punktfunk-core` `rcgen` switched to the `ring` backend so the client `.so` is
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aws-lc-free.
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- **Next (M4 Android stage 1):** video decode (`AMediaCodec` async → `SurfaceView`), audio
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(Opus + Oboe + jitter ring), input capture → `send_input`, pairing/identity (Keystore-wrapped),
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mDNS discovery, the phone/TV Compose UI. The Rust-side homes are stubbed in
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`crates/punktfunk-android/src/session.rs` with port pointers to `crates/punktfunk-client-linux`.
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