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plan §4.6 + Phase 3 productization: - Pinned bitrate: an Automatic client (bitrate 0) on a PyroWave session resolves to the codec's ~1.6 bpp operating point for the mode (≈200 Mbps at 1080p60) instead of the 20 Mbps H.26x default; explicit rates are honored. Mid-stream SetBitrate retargets are refused with the pinned rate acked (guards old/foreign clients), and the client-side AIMD controller + startup capacity probe stay off for the codec — no rate descent into wavelet mush, no climb probe whose VBV reasoning doesn't apply to hard per-frame CBR. Unit-tested. - All-intra silencing: the data plane drops drained keyframe/RFI requests on PyroWave sessions (the next frame IS the recovery), so the forced-IDR cooldown, RFI attempt, and storm coalescing never run. - Opt-in UI: 'PyroWave (wired LAN)' joins the console's Video-codec cycler; trust::Settings maps it to CODEC_PYROWAVE. Safe everywhere by the negotiation contract — an un-advertised preference falls back through the ladder. - FEC: decision recorded — adaptive FEC (10% start, loss-report driven) stays as-is for the MVP opaque-AU mode; the FEC≈0 policy belongs to the Phase-4 datagram-aligned mode. - THIRD-PARTY-NOTICES: the generator now lists third-party trees vendored inside first-party crates (pyrowave, Granite subset, volk, Vulkan-Headers) with their full license texts; file regenerated. - docs-site: 'PyroWave (wired-LAN codec)' page — what it is, the bandwidth table, how to enable it, current limits. Validated on .21: 309 host + 148 core + 26 client tests green, console-ui clean, both feature configs. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
punktfunk-core
The shared protocol core — the one place where punktfunk's transport, forward error correction, and crypto live. It's linked into the host and every native client, so there's exactly one implementation of the wire format everywhere.
Written in Rust with no async on the per-frame path (native threads only). It exposes both a normal Rust API and a stable, versioned C ABI, so the Swift and Kotlin clients — and any C embedder — link the same code as the Rust ones.
What's in here
- Transport & session (
session.rs,transport/,packet.rs) — thepunktfunk/1data plane over raw UDP: packetization, reassembly (with attacker-bounded limits), pacing, and socket tuning. - FEC (
fec/) — the wall-breaker. Two codes:- GF(2⁸) classic Reed–Solomon with the Cauchy generator matrix — byte-identical to the
nanorslibrary Moonlight uses, so our parity is decodable by a stock Moonlight client. - GF(2¹⁶) Leopard-RS (SIMD, O(n log n)) — up to 65535 shards/block, which removes the ~1 Gbps
FEC ceiling.
punktfunk/1negotiates this one.
- GF(2⁸) classic Reed–Solomon with the Cauchy generator matrix — byte-identical to the
- Crypto (
crypto.rs) — AES-128-GCM session encryption with per-direction nonce salts and sequence-as-AAD; SPAKE2 PIN pairing lives behind thequicfeature. - QUIC control plane (
quic.rs,client.rs, featurequic) — the Hello/Welcome/Start handshake, cert pinning/TOFU, reverse audio, and the embeddableNativeClientconnector. This is the only placetokio/quinnare allowed; the feature is off by default so the core stays runtime-free. - C ABI (
abi.rs) — the versioned surface (punktfunk_abi_version(),PunktfunkConfigcarrying its ownstruct_size) that generatesinclude/punktfunk_core.hvia cbindgen at build time.
Build outputs
The crate builds three ways at once (crate-type = ["lib", "cdylib", "staticlib"]):
| Output | Used by |
|---|---|
lib (rlib) |
the host, probe, and tools link it as a normal Rust crate |
cdylib (.so/.dylib) |
the Swift / Kotlin clients via the C ABI |
staticlib (.a) |
the C test harness and static embedding |
Test
cargo test -p punktfunk-core # unit + proptest + loopback
cargo run -p loss-harness # FEC loss-resilience sweep (no network needed)
bash crates/punktfunk-core/tests/c/run.sh # standalone C-ABI link + round-trip proof
Design invariants (do not regress)
- One core, linked everywhere — protocol/FEC/crypto live only here, behind the stable C ABI.
- No async on the hot path — the per-frame pipeline is native threads only;
quic(tokio/quinn) is control-plane only, feature-gated, off by default. - Security hardening stays intact — the reassembler bounds attacker-controlled fields before
allocating; AES-GCM keeps per-direction nonce salts + seq-as-AAD; the ABI checks
struct_size. Regression tests exist — keep them green.
Related
punktfunk-host— the streaming host built on this core- Clients — the apps that link this core over the C ABI (or directly, in Rust)
- punktfunk-planning:
implementation-plan.md(internal planning repo) — why GF(2¹⁶) FEC, the latency budget, and the architecture thesis