The host .deb was built on the Ubuntu 26.04 rust-ci image, so dpkg-shlibdeps baked in `Depends: libavcodec62` (FFmpeg 8) and a glibc-2.41 floor — making it uninstallable on Ubuntu 24.04 LTS (FFmpeg 6.1 / libavcodec60, glibc 2.39; apt reports the deps as "too recent"). The source floor (ffmpeg-next 8, libavcodec >=61 APIs) means a straight 24.04 rebuild would fail too. Build the host on Ubuntu 24.04 instead — lowering the glibc floor to 2.39 so one binary runs on 24.04 -> 26.04 — and bundle a from-source LGPL FFmpeg 8 into the package so it no longer depends on the distro libav*. Everything else the host links is soname-compatible on 24.04 (opus is vendored via cmake; NVENC/libcuda are dlopen-only, never link-time), and the only FFmpeg encoders used are *_nvenc / *_vaapi (software H.264 fallback is the BSD-2 openh264 crate, not FFmpeg libx264), so an LGPL build keeps the bundle license-clean. - ci/rust-ci-noble.Dockerfile (new): ubuntu:24.04 builder; nv-codec-headers + FFmpeg 8 (--enable-nvenc --enable-vaapi, shared) -> /opt/ffmpeg; PKG_CONFIG_PATH. - packaging/debian/build-deb.sh: BUNDLE_FFMPEG=1 copies libav*/libsw*/libpostproc into /usr/lib/punktfunk-host, patchelf-sets the rpath ($ORIGIN per-lib + binary --force-rpath), feeds them to dpkg-shlibdeps (captures libva2/libdrm2), and drops the libav* sonames from Depends. Normal (non-bundle) path unchanged. - .gitea/workflows/deb.yml: split into build-publish (client/web/scripting on the 26.04 image) and build-publish-host (noble image, BUNDLE_FFMPEG=1); parallel, identical version step, same apt distribution -> one universal host .deb. - .gitea/workflows/docker.yml: build+push punktfunk-rust-ci-noble. - packaging/debian/README.md: document the 24.04 LTS path + bundled local build. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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punktfunk-host — Debian/Ubuntu package (apt)
punktfunk-host is published as a .deb to Gitea's Debian package registry in the public
unom org, so the Ubuntu hosts update with plain apt. CI (.gitea/workflows/deb.yml) builds
and publishes on every push to main (a rolling <next-minor>~ciN.g<sha> build — the base is
derived from the latest stable tag by scripts/ci/pf-version.sh — to the canary apt
distribution) and on vX.Y.Z tags (a clean X.Y.Z to the stable distribution, plus attached
to the unified Gitea Release). The two are separate apt distributions, so a stable box never jumps
to a canary build — see Release Channels. The repo line
below subscribes to stable; swap stable → canary for the latest main builds.
The same workflow also publishes punktfunk-web (the browser management console — pairing +
status) and punktfunk-client (the native GTK4/libadwaita Linux client). punktfunk-host Recommends
punktfunk-web, so a default apt install punktfunk-host pulls the console too (alongside the
udev/sysctl bits) unless you've disabled weak deps; punktfunk-client is independent — install it
on the box you stream to. (punktfunk-probe is the headless reference/test tool, not packaged
here.)
Package layout mirrors the Fedora RPM (../rpm/punktfunk.spec): the host binary, the /dev/uinput
udev rule, the systemd user unit, headless session helpers, the example config, and the OpenAPI
doc. Runtime Depends are computed by dpkg-shlibdeps from the binary itself. The NVIDIA driver
(libnvidia-encode / libEGL_nvidia / libcuda) is not a dependency — it's installed out of
band, like on the RPM side.
Ubuntu 24.04 LTS (and why it needs a special build)
punktfunk-host needs FFmpeg 8 (libavcodec62), but Ubuntu 24.04 LTS ships FFmpeg 6.1
(libavcodec60). So a host .deb built the obvious way — on the same Ubuntu 26.04 image as the
client (ci/rust-ci.Dockerfile) — declares Depends: libavcodec62, … and a glibc-2.41 floor that
24.04's apt can't satisfy ("the required packages are too recent"). To fix that, the host .deb is
instead built on an Ubuntu 24.04 image (ci/rust-ci-noble.Dockerfile) that carries a from-source
FFmpeg 8, and that FFmpeg is bundled into the package (build-deb.sh BUNDLE_FFMPEG=1 → the
libav* land in /usr/lib/punktfunk-host, the binary's rpath points there, and the libav* sonames are
dropped from Depends). The result is one host .deb that installs on Ubuntu 24.04 LTS through
26.04 (glibc floor 2.39; no distro-FFmpeg dependency). The client/web/scripting .debs still build
on 26.04 (the native client needs SDL3 / GTK4 ≥ 4.20, absent on 24.04) — install the client on the box
you stream to, which is independent of the host's distro.
Install on a host (one-time)
The registry is public, so no apt auth is needed — just trust the repo's signing key:
sudo install -d -m 0755 /etc/apt/keyrings
curl -fsSL https://git.unom.io/api/packages/unom/debian/repository.key \
| sudo tee /etc/apt/keyrings/punktfunk.asc >/dev/null
echo "deb [signed-by=/etc/apt/keyrings/punktfunk.asc] https://git.unom.io/api/packages/unom/debian stable main" \
| sudo tee /etc/apt/sources.list.d/punktfunk.list
sudo apt update
sudo apt install punktfunk-host
Then, as the desktop user:
sudo usermod -aG input "$USER" # virtual gamepads (re-login to take effect)
mkdir -p ~/.config/punktfunk
cp /usr/share/punktfunk-host/host.env.example ~/.config/punktfunk/host.env # then edit
systemctl --user enable --now punktfunk-host
# Web console — enable it and read the auto-generated login password (then open https://<host-ip>:47992):
systemctl --user enable --now punktfunk-web
journalctl --user -u punktfunk-web-init | sed -n 's/.*password generated: //p'
Firewall
Debian ships no firewall and Ubuntu's ufw is installed-but-inactive by default, so out of the
box there is nothing to open. If you turn one on, the punktfunk-host package ships a one-liner
opener for both ufw and firewalld (neither auto-enabled):
# ufw (Ubuntu) — profile at /etc/ufw/applications.d/punktfunk, read at once (no reload):
sudo ufw allow punktfunk-native # the default native host
sudo ufw allow punktfunk-gamestream # …add for Moonlight compat
# firewalld — service definitions at /usr/lib/firewalld/services/:
sudo firewall-cmd --reload # load the installed definition
sudo firewall-cmd --permanent --add-service=punktfunk-native
# --add-service=punktfunk-gamestream # …add for Moonlight compat
sudo firewall-cmd --reload
If you installed the web console (punktfunk-web) and want it reachable from another device,
open its port with the matching one-liner — sudo ufw allow punktfunk-web or sudo firewall-cmd --permanent --add-service=punktfunk-web && sudo firewall-cmd --reload — which opens TCP 47992
(HTTPS, login-gated). The mgmt API (47990) is opened for paired clients by the punktfunk-native
profile (game-library browsing over mTLS); off-loopback it serves only read-only status/library and
keeps admin loopback-only.
Prefer explicit rules? Open the ports directly. The native punktfunk/1 plane:
- QUIC control plane: UDP 9777 (
serve --native-port Nto change). - Data plane: a separate UDP port. By default it's random — the host binds
0.0.0.0:0and tells the client which port it got. Video flows host → client, but the client sends the first packet (a hole-punch), so the host learns the client's real source and streams back — this traverses NAT / inter-VLAN with no forwarded port. You normally don't open it: if a deny-inbound firewall drops the punch, the host waits ~2.5 s and falls back to the client-reported address, and a stateful firewall then admits the return (it just adds ~2.5 s to session start). To skip that delay, pin it withserve --data-port <PORT>(orPUNKTFUNK_DATA_PORT): the host binds that fixed port and streams direct (no punch-wait) — open exactly that one port. A fixed port serves one session at a time (concurrent ones fall back to random + hole-punch), and direct mode needs the client's reported address to be reachable (flat LAN / a non-remapping port-forward).
And the GameStream / Moonlight ports (fixed) — only needed if you run the host with
serve --gamestream (opt-in, trusted LAN only); bare serve is native-only and doesn't open these:
| Port | Proto | Purpose |
|---|---|---|
| 47984 | TCP | HTTPS nvhttp (paired, mutual-TLS) |
| 47989 | TCP | HTTP nvhttp (/serverinfo, /pair PIN flow) |
| 48010 | TCP | RTSP handshake |
| 47998–48010 | UDP | Video RTP (+ FEC), ENet control (47999), audio (48000) |
| 5353 | UDP | mDNS auto-discovery |
The mgmt API (TCP 47990, HTTPS + mTLS) binds all interfaces by default so paired clients can browse the
game library — the punktfunk-native profile opens it. Off-loopback it serves only read-only
status/library to a paired client cert; the admin surface stays loopback-only. Pass
--mgmt-bind 127.0.0.1:47990 to keep it loopback-only (then leave 47990 closed).
With ufw (explicit ports, instead of the shipped profile):
sudo ufw allow 9777/udp # punktfunk/1 control plane
sudo ufw allow 47990/tcp # mgmt/library API (HTTPS + mTLS; LAN = read-only, paired)
sudo ufw allow 47984/tcp && sudo ufw allow 47989/tcp && sudo ufw allow 48010/tcp
sudo ufw allow 47998,47999,48000/udp # GameStream video/control/audio
sudo ufw allow 5353/udp # mDNS discovery
# The punktfunk/1 data plane uses a random UDP port; leave it closed on a LAN — the host hole-punches
# and falls back (~2.5s at session start if firewalled). To skip that, pin it: `serve --data-port
# 9778` and `ufw allow 9778/udp`.
With raw nftables (add to your inet filter input chain):
udp dport 9777 accept # punktfunk/1 control plane
tcp dport 47990 accept # mgmt/library API (HTTPS + mTLS; LAN = read-only, paired)
tcp dport { 47984, 47989, 48010 } accept
udp dport { 47998-48010, 5353 } accept
# The punktfunk/1 data plane is a random UDP port — normally left closed (hole-punch + ~2.5s
# fallback). Pin it with `serve --data-port <PORT>` to open exactly one instead.
Updates
sudo apt update && sudo apt upgrade # picks up the newest published build
systemctl --user restart punktfunk-host # if the unit was already running
Build a .deb locally
VERSION=0.0.1 bash packaging/debian/build-deb.sh # -> dist/punktfunk-host_0.0.1_amd64.deb
Needs dpkg-dev (dpkg-shlibdeps, dpkg-deb). It builds the release binary first if missing.
Building on a GPU box is fine — the NVIDIA driver lib is filtered out either way.
That plain invocation hard-depends on the build box's system FFmpeg, so it only installs on a box with the same libav* soname. For the universal package CI ships (installs on 24.04 LTS → 26.04), build it in the noble image with FFmpeg bundled:
docker build -f ci/rust-ci-noble.Dockerfile -t pf-noble ci
docker run --rm -v "$PWD:/src" -w /src pf-noble \
bash -lc 'VERSION=0.0.1 BUNDLE_FFMPEG=1 bash packaging/debian/build-deb.sh'
BUNDLE_FFMPEG=1 needs patchelf and an FFmpeg install at FFMPEG_PREFIX (default /opt/ffmpeg,
which the noble image provides).