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punktfunk/clients/apple
enricobuehler 3678c182d5
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feat(clients): codec preference on Windows/Apple/Android clients (Phase 2b)
Rounds out codec negotiation across the last three clients — each advertises what it can decode,
builds its decoder from the resolved Welcome.codec, and exposes a "Video codec" preference picker.

**Windows** (Rust, mirrors Linux): `decodable_codecs()` + `ffmpeg_codec_id()`; the D3D11VA and
software FFmpeg decoders (and the mid-session D3D11VA→software demotion) open the negotiated codec
instead of hardcoding HEVC; settings gain a `codec` field + reactor ComboBox; `--codec` CLI flag.

**Apple** (Swift/C-ABI): AnnexB is now codec-aware — a `VideoCodec` enum drives H.264 vs HEVC NAL
parsing / parameter-set extraction (`CMVideoFormatDescriptionCreateFromH264ParameterSets` for H.264,
no VPS) and AVCC repacking; `PunktfunkConnection` advertises H264|HEVC via `punktfunk_connect_ex7`,
reads `resolvedCodec` (`punktfunk_connection_codec`), and threads `videoCodec` into the stage-1/2
pipelines + `VideoDecoder`; SettingsView "Video codec" Picker (auto/HEVC/H.264). AV1 is left out
(hosts don't emit it on the native path, and it's not an AnnexB codec). Test call sites updated.

**Android** (Kotlin + Rust JNI): the JNI `nativeConnect` gains `preferredCodec`; the native decode
loop picks the AMediaCodec MIME (`video/hevc`|`video/avc`) from `connector.codec` and advertises
H264|HEVC; Settings `codec` field + Compose dropdown.

Core/host/probe/Linux clippy + tests green (unchanged from 2a). Windows/Apple/Android compile on
their platform CI (this Linux box can't build them — Windows toolchain / Xcode / the Android NDK's
opus-cmake toolchain). All follow the Linux client's validated pattern.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-07-02 00:29:38 +00:00
..

punktfunk — Apple client (macOS · iOS · iPadOS · tvOS)

The native Apple app for streaming a punktfunk host to your Mac, iPhone, iPad, or Apple TV. A SwiftUI app that finds hosts on your network, pairs with a PIN, and streams at your display's own resolution and refresh rate — with VideoToolbox hardware decode and full controller support.

All the networking and protocol work — QUIC control plane, UDP data plane, GF(2¹⁶) FEC, AES-GCM, Opus audio, cert pinning — lives in the shared Rust punktfunk-core (statically linked as PunktfunkCore.xcframework). This package is the Swift shell: decode, present, input, and UI.

Features

  • Hardware decode — VideoToolbox HEVC, with a low-latency stage-2 presenter (VTDecompressionSessionCAMetalLayer, presented off a CADisplayLink, ~11 ms p50) as the default and an AVSampleBufferDisplayLayer fallback.
  • HDR & 4:4:4 — PQ passthrough with a correct reference-white anchor, mid-session SDR↔HDR reconfiguration, and hardware-probed 4:4:4 support.
  • Your display's native mode — the host builds a virtual output at exactly your WxH@Hz; mid-stream resize renegotiates without reconnecting.
  • Audio both ways — Opus playback (CoreAudio, no bundled libopus) with a jitter ring, plus mic uplink; speaker/mic selectable in Settings.
  • Full controller support — one selected controller forwarded as pad 0, including DualSense feedback (rumble → CoreHaptics, lightbar, player LEDs, adaptive triggers) and touchpad/motion. The virtual pad type auto-resolves from your physical controller.
  • Mouse & keyboardGCMouse/GCKeyboard capture with click-to-capture and a ⌘⎋ release, plus iPad pointer lock and touch input.
  • Find hosts automatically — mDNS discovery (NWBrowser over _punktfunk._udp); first connect does a one-time SPAKE2 PIN pairing (or TOFU on trusted LANs), then reconnects on a pinned, Keychain-stored identity.
  • Tune the stream — a fps / Mb·s / latency HUD (skew-corrected across machines), a bitrate control, a per-host network speed test with a recommended bitrate, and a host-compositor picker.

Runs from one shared codebase across macOS, iOS, iPadOS, and tvOS.

Get it

Install from the App Store / TestFlight, or build from source below. Per-device install steps and the pairing walkthrough: docs.punktfunk.unom.io/docs/install-client.

Build / run / test (on a Mac)

Requires Xcode 26.5 / Swift 6.3. First build the Rust core into an xcframework, then build the app:

rustup target add aarch64-apple-darwin x86_64-apple-darwin
bash scripts/build-xcframework.sh            # → clients/apple/PunktfunkCore.xcframework
#   BUILD_IOS=1  also builds the iOS slices  (add the ios rustup targets)
#   BUILD_TVOS=1 also builds tvOS            (tier-3 targets, built from source — see below)

cd clients/apple
open Punktfunk.xcodeproj                      # the real app: ⌘R builds + runs Punktfunk.app
swift run PunktfunkClient                     # or the unbundled dev shell (CLI)
swift build && swift test                     # unit + loopback/remote tests (self-skip w/o a host)

tvOS slices are tier-3 Rust targets, built from source: rustup toolchain install nightly && rustup component add rust-src --toolchain nightly.

Test against a host

# full loopback proof — builds punktfunk-host (synthetic source, runs on macOS) and streams
# byte-verified frames into the Swift client, incl. the PIN pairing ceremony:
bash test-loopback.sh

# against a real Linux host on the LAN (see the repo README "Running on this box"):
PUNKTFUNK_REMOTE_HOST=<box-ip> swift test --filter RemoteFirstLightTests            # headless
PUNKTFUNK_AUTOCONNECT=<box-ip> PUNKTFUNK_MODE=1280x720x60 swift run PunktfunkClient # on glass

Project layout

  • PunktfunkKit (library) — the reusable pieces:
    • PunktfunkConnection — the wrapper over the C ABI (thread-safe close(), per-plane locks, pinning + TOFU).
    • AnnexB / StreamView / VideoDecoder / MetalVideoPresenter — format handling, the stage-1 (AVSampleBufferDisplayLayer) and stage-2 (VTDecompressionSessionCAMetalLayer) presenters.
    • InputCaptureGCMouse/GCKeyboard → host VK/mouse, with fractional-delta accumulation.
    • GamepadManager / GamepadCapture / GamepadFeedback / DualSenseTriggerEffect — controller discovery + selection, capture (buttons/axes/touchpad/motion), and host-feedback rendering.
    • HostDiscoveryNWBrowser over _punktfunk._udp.
  • PunktfunkClient (the app) — hosts grid with an On this network section, add-host sheet, the two trust flows (TOFU prompt + SPAKE2 PairSheet), the stream view with the HUD, a tabbed Settings pane (General / Display / Audio / Controllers / Advanced), and the network speed test. A Scene-level Stream menu carries Disconnect (⌘D) and the HUD toggle (⌘⇧S).
  • Tests (swift test) — Annex-B units, a real-codec VideoToolbox round trip, DualSense trigger-effect and gamepad-wire conversions, loopback integration against real local hosts, and the remote first-light test.

Notes for contributors

  • Xcode project (Punktfunk.xcodeproj) wraps the same sources as the swift run shell (a synchronized folder — no duplication). The macOS target is App-Sandboxed (needs network.server — the raw-UDP plane and quinn both bind()); iOS/tvOS use the shared entitlements file (keep app-sandbox out of it). Verify with codesign -d --entitlements :- <built .app>.
  • Decode flow: the host opens every stream with an IDR carrying VPS/SPS/PPS in-band, and recovery keyframes re-send them — refresh the format description on every IDR; there is no out-of-band extradata, ever.
  • ABI threading: one video pump thread per connection, one optional audio drain thread, and one optional feedback drain thread (rumble + HID-output). send() is enqueue-only and safe alongside all of them. The wrapper's per-plane locks make close() safe from anywhere.
  • DualSense motion scale (GamepadWire) is derived from hid-playstation's math, not yet live-verified — if gyro/accel feel wrong in a game, correct sign/scale there and evtest the host's virtual pad.
  • App Store screenshots are automated — tools/screenshots.sh all renders the real UI at the required pixel sizes via a DEBUG-only shot mode; the apple CI workflow captures the iOS sizes on every main push. See the script header for details.
  • Deeper design notes live in design/apple-stage2-presenter.md.