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punktfunk/crates/punktfunk-core/Cargo.toml
T
enricobuehler 22c0d92f2e feat(core,host): Wake-on-LAN sender + host MAC advertisement
Add a runtime-free Wake-on-LAN sender in punktfunk-core (per-interface subnet-directed broadcast + 255.255.255.255 on ports 9/7, repeated, optional last-known-IP unicast) exposed both as a Rust fn and a punktfunk_wake_on_lan C-ABI (ABI v3), plus a parse_mac helper. The host enumerates its wake-capable NIC MAC(s) and advertises them in a new mDNS `mac` TXT record (routed NIC first), and best-effort detects & warns (never modifies) when the NIC isn't armed for WoL.

MAC delivery is via the unauthenticated mDNS TXT rather than the connection handshake by design: a spoofed MAC only makes a wake fail (the packet is inert; the cert fingerprint still gates the connection), and it avoids threading through the hot connect path.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-04 13:39:44 +02:00

94 lines
5.0 KiB
TOML

[package]
name = "punktfunk-core"
description = "punktfunk shared protocol/transport/FEC core, exposed over a stable C ABI"
version.workspace = true
edition.workspace = true
rust-version.workspace = true
license.workspace = true
authors.workspace = true
repository.workspace = true
[lib]
name = "punktfunk_core"
# `lib` — so punktfunk-host / punktfunk-probe / tools link it as a normal Rust crate.
# `staticlib` — `libpunktfunk_core.a` for the C test harness and static embedding.
# `cdylib` — `libpunktfunk_core.{so,dylib}` for Swift/Kotlin clients via the C ABI.
crate-type = ["lib", "cdylib", "staticlib"]
[features]
default = []
# Control-plane QUIC (pairing, config, reverse audio). tokio is permitted ONLY here,
# never on the per-frame hot path. Off by default so the core stays runtime-free.
quic = ["dep:quinn", "dep:tokio", "dep:rustls", "dep:rcgen", "dep:rustls-pki-types", "dep:sha2", "dep:hmac", "dep:spake2", "dep:opus"]
[dependencies]
reed-solomon-simd = "3.1" # GF(2^16) Leopard-RS, SIMD, O(n log n) — the wall-breaker (P2)
# Vendored fork of fec-rs: GF(2^8) classic RS with the *Cauchy* generator matrix
# (M[j][i] = inv[(m+i)^j]) — byte-identical to the `nanors` library Moonlight uses, so our
# parity is decodable by a stock Moonlight client. (reed-solomon-erasure is Vandermonde and is
# NOT interoperable.) See vendor/fec-rs/LICENSE (BSD-2-Clause).
fec-rs = { path = "vendor/fec-rs" }
aes-gcm = "0.10" # AES-128-GCM session crypto, matches GameStream
zerocopy = { version = "0.8", features = ["derive"] }
bytes = "1"
socket2 = { version = "0.6", features = [
"all",
] } # SO_SNDBUF/SO_RCVBUF growth (default UDP buffers too small for 4K/5K bursts) + DSCP/SO_PRIORITY media QoS
thiserror = "2"
tracing = { version = "0.1", default-features = false, features = ["std"] }
rand = "0.9"
zeroize = "1"
# Interface enumeration for Wake-on-LAN: computes each NIC's subnet-directed broadcast so a
# magic packet reaches the host's L2 segment on multi-homed clients (VPN/docker/multiple LANs),
# not just the default route. Tiny, cross-platform (getifaddrs / GetAdaptersAddresses), no cmake.
if-addrs = "0.13"
quinn = { version = "0.11", optional = true }
rustls = { version = "0.23", optional = true, default-features = false, features = ["ring", "std"] }
# Crypto backend pinned to `ring` (matching rustls/quinn above) so the whole quic tree is
# ring-only: no aws-lc-rs/aws-lc-sys (heavy C dep, needs cmake) is pulled in. Keeps the
# Android/iOS cdylib lean and the cross-compile cmake-free. `generate_simple_self_signed`
# is backend-agnostic, so the swap is transparent.
rcgen = { version = "0.13", optional = true, default-features = false, features = ["ring", "pem"] }
rustls-pki-types = { version = "1", optional = true }
sha2 = { version = "0.10", optional = true }
hmac = { version = "0.12", optional = true }
spake2 = { version = "0.4", optional = true }
tokio = { version = "1", optional = true, features = ["rt-multi-thread", "net", "sync", "macros"] }
# In-core Opus (multistream) DECODE for the C-ABI `punktfunk_connection_next_audio_pcm` path —
# used by embedders without a multistream-capable Opus decoder (Apple's AudioToolbox is
# stereo-only). The Rust clients link `opus` themselves and decode the raw `next_audio` frames,
# so this only matters when the connection API (quic) is built. Same libopus the host vendors;
# cargo unifies the build. Multistream API: `opus::MSDecoder` (lib.rs:1187).
opus = { version = "0.3", optional = true }
# `libc` for batched UDP syscalls: `sendmmsg`/`recvmmsg` on Linux (the 1 Gbps+ lever) and the
# `recv(MSG_DONTWAIT)` drain on the other unix (Apple/BSD) targets, which have no `recvmmsg`
# (see transport/udp.rs `recv_batch`). Needed on every unix target — non-unix (Windows) uses
# the scalar fallbacks. Cross-compiles (iOS/tvOS) don't pull libc transitively the way the
# macOS host build does, so it must be a direct dep here or those slices fail to link `libc::`.
[target.'cfg(unix)'.dependencies]
libc = "0.2"
# Windows UDP Send Offload (USO): `WSASendMsg` + `UDP_SEND_MSG_SIZE` is the Windows analogue of
# Linux UDP GSO — the 1 Gbps+ send lever (the host otherwise sends one packet per `send` syscall,
# which caps throughput at high packet rates). See transport/udp.rs.
[target.'cfg(windows)'.dependencies]
# windows-sys (raw FFI, the quinn-udp choice): the high-level `windows` crate doesn't bind the
# `WSASendMsg` extension function. WinSock feature gives WSASendMsg + WSAMSG/WSABUF/CMSGHDR.
# Win32_System_IO too: WSASendMsg's signature references OVERLAPPED, so it's gated on that feature.
windows-sys = { version = "0.59", features = ["Win32_Networking_WinSock", "Win32_System_IO"] }
[dev-dependencies]
proptest = "1"
# Tier-1 microbenchmarks (benches/pipeline.rs). default-features off → no plotters/HTML (headless
# CI just needs the measurement + target/criterion/**/estimates.json for the regression compare).
criterion = { version = "0.5", default-features = false, features = ["cargo_bench_support"] }
[[bench]]
name = "pipeline"
harness = false
[build-dependencies]
cbindgen = "0.29"