Phase 5.2 of design/encoder-recovery-hardening.md (design/linux-direct-nvenc.md). The Linux NVIDIA host encodes through libavcodec `hevc_nvenc`, which structurally cannot express `nvEncInvalidateRefFrames` — so every FEC-unrecoverable loss is a full IDR and, since the client freezes-until-reanchor, a per-loss freeze for RTT+IDR-encode. This ports the Windows raw-NVENC backend to NV_ENC_DEVICE_TYPE_CUDA over the shared CUcontext so Linux NVIDIA gets the same real RFI + F2 recovery-anchor + reset() stall lever + HDR-SEI/Main10 plumbing. New `encode/linux/nvenc_cuda.rs` (`NvencCudaEncoder`): - runtime-loaded entry table via `dlopen libnvidia-encode.so.1` (never link-time, mirroring the zerocopy::cuda libcuda loader) — one binary still starts on AMD/Intel Linux boxes and falls through to VAAPI/software; - session on the shared CUcontext (zerocopy::cuda::context()); - an encoder-owned ring of registered CUDADEVICEPTR input surfaces (zerocopy::cuda::InputSurface + a contiguous-NV12 allocator), each captured DeviceBuffer device→device copied in via the existing copy_* helpers — mirrors the libav recycled-hwframe-pool copy, so zero regression vs today; - config/RFI/anchor/reset ported from the Windows backend; sync-only (NVENC async is Windows-only, so that whole subsystem is dropped); - Main10/HDR-SEI wired but inert until a Linux P010 capture path (Phase 5.1). Wired behind PUNKTFUNK_NVENC_DIRECT (default OFF) in open_nvenc_probed; the Windows path is untouched (no shared extraction in v1). Two on-hardware `#[ignore]` smokes added. Validated on .21 (RTX 5070 Ti, driver 610.43.03): builds on Linux under ci-check, clippy-clean, full host suite 272/0, NV12 smoke (8 AUs, real invalidate_ref_frames + recovery_anchor on a P-frame) and YUV444 FREXT smoke (6 AUs, chroma_444) green; Windows compile unaffected. Owed: the client-in-the-loop matrix (RFI-survives-ABR, reset() heal, A/B vs libav) and the default flip. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
punktfunk-host
The streaming host — the program you run on the machine whose desktop or games you want to stream. For each client that connects, it spins up a virtual display sized to that device, captures it on the GPU, encodes with hardware NVENC/VAAPI/AMF/QSV, and sends it out over a low-latency transport — no physical monitor, no letterboxing, no rearranging your real screens.
It speaks two protocols from one process:
- GameStream — so any Moonlight / Artemis client works day one.
punktfunk/1— punktfunk's own faster protocol (QUIC control plane, GF(2¹⁶) FEC + AES-GCM data plane) that the native clients use.
Runs on Linux (the primary, most battle-tested path) and Windows (x64). The shared protocol,
FEC, and crypto live in punktfunk-core; this crate is everything
platform-facing around it.
What it does
- Per-client virtual displays at the exact WxH@Hz. Linux uses per-compositor backends — KWin, gamescope, Mutter, and Sway/wlroots; Windows uses its own all-Rust IddCx virtual display, even on the secure desktop (UAC / lock screen).
- GPU zero-copy capture → encode. dmabuf → CUDA/Vulkan → NVENC on Linux; on Windows the host pushes frames straight into its own IDD (sealed IDD-push, no screen-scraping) → GPU encode. Encoders auto-select by GPU vendor: NVENC (NVIDIA), VAAPI (Linux AMD/Intel), AMF/QSV (Windows AMD/Intel), or software H.264 as a floor. HDR/10-bit and HEVC 4:4:4 supported.
- Input injection. Mouse/keyboard (libei / gamescope EIS / wlr / Windows SendInput) and virtual gamepads — Xbox 360/One, DualSense, DualShock 4 — with rumble and HID feedback back-channels.
- Audio both ways. Opus audio host→client, plus a virtual microphone the client can talk into.
- Trust & discovery. A persistent host identity, SPAKE2 PIN pairing (default) or TOFU, and mDNS auto-advertisement so clients find the host without typing an IP.
- Management API + web console. A REST API (
mgmt.rs, OpenAPI atapi/openapi.json) drives status, paired devices, and on-demand pairing; the browser UI is inweb/.
Run it
punktfunk-host serve runs inside your desktop session. Bare serve is the secure native-only
default (punktfunk/1 + the management API); add --gamestream on a trusted LAN to also accept
stock Moonlight clients.
# Linux, from the repo root (see the repo README "Running on this box" for the headless recipe):
cargo run -rp punktfunk-host -- serve # native-only (secure default)
cargo run -rp punktfunk-host -- serve --gamestream # + Moonlight compatibility
Then pair from the web console (https://<host-ip>:47992) or the client app.
Most people should install a package rather than run from source — see
packaging/ (apt · rpm/COPR/bootc · Arch/sysext · Windows installer) and
the per-platform guides at docs.punktfunk.unom.io/docs/install.
Subcommands
| Command | Purpose |
|---|---|
serve |
The host (native punktfunk/1 + mgmt API; --gamestream adds Moonlight). |
punktfunk1-host |
Standalone native-protocol listener for testing/measurement (--source virtual, --max-sessions). |
openapi |
Print the management-API OpenAPI spec (regenerates api/openapi.json). |
library |
Inspect the multi-store game library. |
service · driver · web |
Windows: SCM service, driver install, bundled web console. |
*-test / *-selftest / *-probe |
Diagnostics (input, zero-copy, HDR, compositor, gamepads). |
--help lists them all.
Layout
src/
main.rs CLI + subcommand dispatch
config.rs · session_plan.rs · session_tuning.rs · pipeline.rs session setup + the frame pipeline
vdisplay/ per-compositor virtual outputs (kwin · gamescope · mutter · wlroots)
capture/ · capture.rs screen/dmabuf capture (+ Windows IDD-push)
encode/ · encode.rs per-GPU encoders (nvenc · vaapi · ffmpeg_win (AMF/QSV) · sw)
linux/zerocopy/ dmabuf → CUDA → NVENC bridges (EGL/GL tiled, Vulkan LINEAR)
inject/ · inject.rs input backends (libei · wlr · uinput gamepads · UHID DualSense/DS4)
audio/ · audio.rs Opus out + virtual mic (PipeWire / WASAPI)
gamestream/ Moonlight compat: nvhttp · pairing · rtsp · control · stream · gamepad · apps
punktfunk1.rs the native punktfunk/1 host (QUIC control + native-thread UDP data plane)
mgmt.rs · native_pairing.rs · stats_recorder.rs management API, pairing, perf capture
hdr.rs · library.rs HDR metadata; multi-store game library
linux/ · windows/ platform-confined backends
Related
punktfunk-core— the shared protocol · FEC · crypto core- Clients — the apps that connect (Apple · Linux · Windows · Android · probe)
- Packaging & docs — install & operate
- punktfunk-planning (internal planning repo) — architecture rationale and deep-dive plans