b271d0c816
The baseline stream held only WIFI_MODE_FULL_HIGH_PERF, which is deprecated AND non-functional on recent Android — so with the low-latency toggle off (the default) Wi-Fi power save stayed fully active: downlink delivery clumped at beacon intervals (a few hundred ms of latency mush, sawtoothing bitrate) and the AP's power-save buffer periodically overflowed, killing whole frames every few seconds (the host log's alternating loss_ppm=0/50000). Now every stream holds FULL_LOW_LATENCY (API 29+, the only effective power-save disable; foreground + screen-on, which a stream always is) AND FULL_HIGH_PERF (covers older releases) — the same pair Moonlight holds. The experimental toggle no longer selects the lock mode. Also: declare tracing's "log" feature explicitly in the native crate (core transport warnings → logcat must not hinge on quinn's default features), and align the low-latency toggle's copy with its actual scope. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
91 lines
4.1 KiB
Rust
91 lines
4.1 KiB
Rust
//! punktfunk Android client — the JNI bridge ("nativecore") over `punktfunk-core`.
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//!
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//! Architecture: the **Rust-heavy** client model (like `punktfunk-client-linux`, *not* the
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//! thin-native-over-C-ABI Apple model). This `cdylib` links `punktfunk-core` directly and drives
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//! the whole `punktfunk/1` protocol through [`punktfunk_core::client::NativeClient`]; Kotlin owns
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//! only the Android-framework surface (Compose UI, `SurfaceView` lifecycle, input capture, the
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//! Wi-Fi `MulticastLock` + permission UX, Keystore). The JNI seam below is the one place the two
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//! languages meet.
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//!
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//! Why Rust-heavy: Kotlin cannot `import` the cbindgen C header the way Swift can, so a native
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//! bridge is unavoidable. Writing it in Rust lets the Android client reuse the Linux client's
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//! orchestration verbatim — audio jitter ring, the VK keymap inverse, latency/skew math, the
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//! input capture state machine, trust/pairing logic, **mDNS discovery** ([`discovery`], the same
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//! `mdns-sd` browse the Linux/Windows clients use) — instead of re-porting it into Kotlin. Kotlin
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//! keeps only the Android-framework surface it must (Compose UI, `SurfaceView`, input capture, the
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//! Wi-Fi `MulticastLock` + permission UX, Keystore identity).
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//!
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//! JNI symbols map to `io.unom.punktfunk.kit.NativeBridge` in the `:kit` Gradle module
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//! (`clients/android`). The surface: the native-link proof (`abiVersion`/`coreVersion`), mDNS host
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//! discovery ([`discovery`]), and the session lifecycle in [`session`] — connect/pair + the trust
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//! surface, the per-plane pumps (video → AMediaCodec, audio ↔ AAudio, mic uplink), input, and
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//! rumble/HID feedback ([`feedback`]). Mode renegotiation is still TODO (see [`session`]).
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use jni::objects::JObject;
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use jni::sys::jint;
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use jni::JNIEnv;
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#[cfg(target_os = "android")]
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mod adpf;
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#[cfg(target_os = "android")]
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mod audio;
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#[cfg(target_os = "android")]
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mod decode;
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// Ungated: pure `mdns-sd` + `jni`, so the browse + its JNI seam link into the host workspace build
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// (and its unit test runs there) exactly like `session`/`stats`. Kotlin only ever calls it on device.
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mod discovery;
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mod feedback;
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#[cfg(target_os = "android")]
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mod mic;
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mod session;
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mod stats;
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// Ungated like `discovery`: pure `jni` + `punktfunk_core::wol` (no Android framework), so it links
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// into the host workspace build too. Kotlin only ever calls it on device.
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mod wol;
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/// Initialize `android_logger` once when the JVM loads the library. Logs land in logcat under the
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/// `punktfunk` tag. Core `tracing` events (transport warnings: socket-buffer clamp, QoS failures)
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/// arrive here too: tracing's "log" feature — declared explicitly in Cargo.toml rather than relied
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/// on via quinn's defaults — forwards them as `log` records since no tracing subscriber is ever
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/// installed. Android-only — there is no JVM (and no logcat) on the host build.
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#[cfg(target_os = "android")]
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#[no_mangle]
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pub extern "system" fn JNI_OnLoad(
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_vm: *mut jni::sys::JavaVM,
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_reserved: *mut std::ffi::c_void,
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) -> jint {
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android_logger::init_once(
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android_logger::Config::default()
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.with_max_level(log::LevelFilter::Info)
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.with_tag("punktfunk"),
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);
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log::info!(
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"punktfunk_android loaded (core ABI v{})",
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punktfunk_core::ABI_VERSION
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);
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jni::sys::JNI_VERSION_1_6
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}
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/// `NativeBridge.abiVersion(): Int` — the core's C-ABI version. A non-error return is the
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/// scaffold's proof that `System.loadLibrary` found the `.so`, the JNI symbol resolved, and the
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/// linked `punktfunk-core` is the one we expect.
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#[no_mangle]
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pub extern "system" fn Java_io_unom_punktfunk_kit_NativeBridge_abiVersion(
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_env: JNIEnv,
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_this: JObject,
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) -> jint {
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punktfunk_core::ABI_VERSION as jint
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}
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/// `NativeBridge.coreVersion(): String` — the crate version, proving JNI string marshaling works.
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#[no_mangle]
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pub extern "system" fn Java_io_unom_punktfunk_kit_NativeBridge_coreVersion<'local>(
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env: JNIEnv<'local>,
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_this: JObject<'local>,
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) -> jni::sys::jstring {
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match env.new_string(env!("CARGO_PKG_VERSION")) {
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Ok(s) => s.into_raw(),
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Err(_) => JObject::null().into_raw(),
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}
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}
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