Files
punktfunk/packaging/arch
enricobuehler b8fd652cb8 fix(packaging): autoload vhci-hcd and open its attach files for the usbip Deck pad
Steam Input only adopts the virtual Steam Deck controller when it arrives as
a real USB device (raw_gadget or usbip/vhci transports); the UHID fallback
has no USB interface and Steam ignores it. On a stock host neither
precondition for usbip held: vhci-hcd isn't loaded, and its sysfs
attach/detach files are root-only while the host runs as a user service —
so every session silently fell back to UHID and 'no controller appears on
the host' (live-debugged 2026-07-08: client events all arrived, the pad
existed, Steam just refused it).

Ship both preconditions with the host packages:
 * modules-load.d/punktfunk.conf loads vhci-hcd at boot (rpm/deb/arch;
   Bazzite gets it via the RPM payload + a modprobe in the sysext
   post-merge hook)
 * a udev rule in 60-punktfunk.rules grants the input group write on
   vhci_hcd's attach/detach whenever the device appears

Verified end-to-end on a live host: usbip in-process attach, hid-steam
binds all three interfaces, 'Steam Deck' + motion evdev appear, and Steam
adopts the pad (client-mode grab + its own virtual X360 emission).

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-08 10:50:19 +02:00
..

punktfunk on Arch Linux / SteamOS

Packaging for punktfunk on Arch and Arch-derived immutable distros. The PKGBUILD is a split package producing punktfunk-host (the gaming-rig host) and punktfunk-client (the native GTK4/libadwaita Linux client) — mirrors the rpm subpackages (packaging/rpm/punktfunk.spec) and the deb build scripts. On a Steam Deck used as a client you want punktfunk-client (it's what the Decky plugin launches); on a gaming rig, punktfunk-host.

Steam Deck as a HOST: don't use this PKGBUILD — SteamOS's read-only root makes makepkg/sysext awkward, and a prebuilt binary breaks on OS library bumps. Use the on-device build script instead: scripts/steamdeck/install.sh (it builds in a Debian-trixie distrobox ABI-matched to SteamOS and uses VAAPI on the Deck's AMD GPU). The Deck host path is the one exception to "host encode is NVENC-only" below.

A third member, punktfunk-web (the browser management console — pairing + status), is opt-in: build it by setting PF_WITH_WEB=1, which requires bun at build time (bun-bin from the AUR if it isn't in your repos). bun is also the runtime — the console serves HTTPS (HTTP/1.1 over TLS) via Bun.serve, so the package vendors the bun binary (no nodejs dependency). A default makepkg builds only host+client with no JS tooling — mirroring the RPM spec's %bcond_with web.

Host encode: NVENC on NVIDIA, VAAPI on AMD/Intel (PUNKTFUNK_ENCODER=auto picks one). The host now has a VAAPI encoder + zero-copy dmabuf path alongside NVENC/CUDA, so punktfunk-host works on Arch + NVIDIA and AMD/Intel (incl. the Steam Deck — see the on-device path above). The client decodes via VAAPI on AMD/Intel with a software fallback.

CI (.gitea/workflows/arch.yml) builds this PKGBUILD in an archlinux:base-devel container on every push and publishes the packages to the Gitea Arch package registry — a plain pacman repo, so an Arch box installs and updates punktfunk with pacman -Syu like everything else. Two repos mirror the deb/rpm channels: punktfunk (release tags) and punktfunk-canary (rolling main-branch builds, versioned X.Y.Z-0.<run#> so a later release always outranks them). Enable exactly one.

The registry signs the repo database and every package, so first import its key into pacman's keyring (a one-time step — after this, packages install signature-verified):

# 1. Trust the registry signing key.
curl -fsS https://git.unom.io/api/packages/unom/arch/repository.key \
  | sudo pacman-key --add -
sudo pacman-key --lsign-key E0CA04465C99C936E0B0C6510A317015A34DDD69

# 2. Add the repo (pick ONE channel — punktfunk for releases, punktfunk-canary for main builds).
#    printf, not a heredoc, so this works in fish too (CachyOS's default shell has no `<<EOF`).
printf '\n[punktfunk]\nServer = https://git.unom.io/api/packages/unom/arch/$repo/$arch\n' \
  | sudo tee -a /etc/pacman.conf >/dev/null

# 3. Sync + install.
sudo pacman -Sy punktfunk-host        # gaming rig
sudo pacman -Sy punktfunk-client      # the native GTK4 Linux client
sudo pacman -Sy punktfunk-web         # optional browser management console

(No SigLevel line needed — pacman's default Required DatabaseOptional verifies the signed packages against the key you just trusted. Arch is rolling, so the packages are built against current Arch sonames — keep the box itself updated too.)

Then the same first-run steps as a source build (printed by the install scriptlet): input group, host.env, systemctl --user enable --now punktfunk-host — see the next section.

Build from source — Arch Linux (mutable)

cd packaging/arch
# Build the working tree (CI / dev) — no git fetch:
PF_SRCDIR="$(git rev-parse --show-toplevel)" makepkg -f --holdver
# …or build the tagged release the AUR way:
makepkg -si
# …add the web console too (needs bun / bun-bin):
PF_WITH_WEB=1 PF_SRCDIR="$(git rev-parse --show-toplevel)" makepkg -f --holdver

Then the standard first-run (printed by the install scriptlet):

sudo usermod -aG input "$USER"          # virtual gamepads; re-login after
mkdir -p ~/.config/punktfunk
cp /usr/share/punktfunk/host.env.bazzite ~/.config/punktfunk/host.env   # gamescope backend
systemctl --user enable --now punktfunk-host
# Web console (if you installed the punktfunk-web package): enable it + read the login password.
systemctl --user enable --now punktfunk-web
journalctl --user -u punktfunk-web-init | sed -n 's/.*password generated: //p'   # open https://<host-ip>:47992

NVENC/EGL come from the NVIDIA driver: sudo pacman -S --needed nvidia-utils. Arch's stock ffmpeg already has NVENC built in — no RPM-Fusion-style swap needed (unlike Fedora).

Runtime dependency map (Fedora/Debian → Arch)

Need Arch package
FFmpeg + NVENC ffmpeg (NVENC built in)
PipeWire + Pulse + session mgr pipewire pipewire-pulse wireplumber
Opus / input injection opus libei
GL/EGL + gbm + xkb + wayland libglvnd mesa libxkbcommon wayland
NVIDIA driver (NVENC/EGL/CUDA) nvidia-utils (optdepend — never a hard dep)
Compositor backends gamescope (≥3.16.22) / kwin / mutter / sway (optdepends)

SteamOS 3 (immutable) — use a systemd-sysext

SteamOS has a read-only /usr on A/B partitions, and every OS update reimages the rootfs — so steamos-readonly disable + pacman (and flatpak/distrobox) are fragile or unusable for a host that needs /dev/uinput, /dev/uhid, the host PipeWire socket, the GPU render node, and the right to spawn a compositor. The update-survivable, SteamOS-blessed mechanism is a systemd-sysext: an overlay image merged read-only over /usr at boot, living in the writable /var/lib/extensions/ (so it persists across A/B updates, no readonly-disable).

Build the package, then wrap its /usr payload into a sysext image:

# 1. build the pacman package (needs an Arch environment / container)
cd packaging/arch && PF_SRCDIR="$(git rev-parse --show-toplevel)" makepkg -f --holdver
# 2. turn it into a sysext .raw (extracts the package's /usr into an image + extension-release)
bash build-sysext.sh punktfunk-host-*.pkg.tar.zst
# 3. on the SteamOS box:
sudo cp punktfunk-host.raw /var/lib/extensions/
sudo systemctl enable --now systemd-sysext      # merges it; survives OS updates
systemctl --user enable --now punktfunk-host     # the user unit is now under /usr/lib

The udev rule, sysctl, and systemd user unit all live under /usr/lib, so the merged sysext exposes them. systemd-sysext refresh re-merges after a reboot.

Steam Deck — the client (what the Decky plugin launches)

To stream to a Deck, you install punktfunk-client there — same sysext mechanism, but wrapping the client package instead. The split makepkg produces both .pkg.tar.zst files; on the Deck use the client one:

cd packaging/arch && PF_SRCDIR="$(git rev-parse --show-toplevel)" makepkg -f --holdver
bash build-sysext.sh punktfunk-client-*.pkg.tar.zst        # → punktfunk-client.raw
# on the Deck:
sudo cp punktfunk-client.raw /var/lib/extensions/
sudo systemctl enable --now systemd-sysext
sudo pacman -S --needed libva-mesa-driver                  # VAAPI hw decode on the Deck's AMD APU

Now punktfunk-client is on PATH, so the Decky plugin finds and launches it (punktfunk-client --connect host:port) — gamescope composites its video like a game. The client needs no /dev/uinput or compositor-spawning rights (it captures input and decodes), so it's a much lighter sysext than the host.

Firewall

Stock Arch ships no firewall — every port is open by default, so there is nothing to do. Spins that enable one do not get their ports opened for you: an Arch package never touches the admin's running firewall. CachyOS is the common case — it ships ufw enabled by default (not firewalld), so out of the box the host is unreachable until you allow it. Some other spins (e.g. EndeavourOS) enable firewalld instead.

The punktfunk-host package ships openers for both — a ufw application profile (/etc/ufw/applications.d/punktfunk) and firewalld service definitions (/usr/lib/firewalld/services/) — so enabling is one command whichever you run:

# ufw (CachyOS, and Ubuntu once you enable ufw) — reads the profile at once, no reload needed:
sudo ufw allow punktfunk-native        # the native-only host (the default)
sudo ufw allow punktfunk-gamestream    # …or add this for the Moonlight/GameStream host

# firewalld (EndeavourOS and other Fedora-like spins):
sudo firewall-cmd --reload                                        # pick up the installed def
sudo firewall-cmd --permanent --add-service=punktfunk-native
#                              --add-service=punktfunk-gamestream  # …for the Moonlight host
sudo firewall-cmd --reload

punktfunk-gamestream opens the fixed Moonlight ports + mDNS; punktfunk-native opens the QUIC control port (UDP 9777) + mDNS + the mgmt/library API (TCP 47990, HTTPS + mTLS). Enable both if the host runs serve --gamestream (which serves both planes). The data plane is an ephemeral UDP port the client opens with a hole-punch, so there is no fixed data port in either service — the host streams back out through the path the client opened, which any firewall that allows outbound UDP (the default) passes. The mgmt REST 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 and keeps the admin surface loopback-only (--mgmt-bind 127.0.0.1:47990 to opt out).

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 (or a firewall the shipped profiles don't cover)? Open the ports directly. The native punktfunk/1 plane:

  • QUIC control plane: UDP 9777 (serve --native-port N to change).
  • Data plane: a separate UDP port. By default it's random — the host binds 0.0.0.0:0 and 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 with serve --data-port <PORT> (or PUNKTFUNK_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
4799848010 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 punktfunk-native/punktfunk-gamestream 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 { 47998-48000, 5353 } accept # GameStream video/control/audio + mDNS
# 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.

Files

  • PKGBUILD — split package: punktfunk-host + punktfunk-client (builds the working tree via PF_SRCDIR, or a git tag for AUR).
  • punktfunk-host.install / punktfunk-client.install — pacman scriptlets (udev reload + sysctl + first-run hint, incl. the ufw/firewalld enable command for whichever is present), mirror the RPM %post / deb postinst.
  • The firewall openers are shared across all Linux packaging and live in ../linux/: the ufw application profile (punktfunk.ufw/etc/ufw/applications.d/punktfunk) and the firewalld service definitions (punktfunk-native.xml / punktfunk-gamestream.xml / punktfunk-web.xml/usr/lib/firewalld/services/). None auto-enabled; see Firewall above.
  • build-sysext.sh — wraps either built .pkg.tar.zst into a systemd-sysext .raw for SteamOS (derives the name from the package, so it works for host or client).