enricobuehler
0f798d62b6
Two phases of pf-vdisplay (IddCx virtual display) lifecycle work, both validated on-glass on the RTX box.
Phase 1 — fix the long-standing IOCTL_ADD 0x80070490 (ERROR_NOT_FOUND) wedge that ghost-monitor
slot-budget exhaustion produced under ADD/REMOVE churn (the reset-script/reboot recurring failure).
Validated: 43 reconnect-churn cycles, 0 wedges, monitor-node count flat at 1.
* driver: on IddCxMonitorArrival failure, tear the created-but-not-arrived monitor down with
WdfObjectDelete + reclaim its id — the asymmetric-with-the-create-failure-path leak that exhausted
the 16-monitor MaxMonitorsSupported budget; recover MONITOR_MODES from lock poisoning instead of
failing closed (defensive; the driver builds panic=abort).
* host: collapse the build-retry churn — hold ONE monitor lease across all build attempts and preempt
only on Lingering (not Active), so a cold start does 1 ADD not 8; reap not-present "punktfunk"
monitor PDOs on startup (the reset-script step-2 logic, in-process) and self-heal a detected
0x80070490 by reaping + retrying ADD; force-preempt a stuck-Active prior monitor on the
begin_idd_setup timeout (the safety net the Lingering-only preempt would otherwise drop).
Phase 2 — give each client (keyed by its cert FINGERPRINT) a STABLE virtual-monitor id (1..=15) so
Windows reapplies that client's saved per-monitor config (DPI SCALING) across reconnects, and two
clients never share/bleed config. Validated: distinct clients -> distinct ids (1, 2); the driver
honors the host's id (echoed resolved == preferred).
* proto: rename AddRequest._reserved -> preferred_monitor_id (offset 20) and AddReply._reserved ->
resolved_monitor_id (offset 12) — byte-compatible (offset asserts), NO PROTOCOL_VERSION bump, so a
pre-Phase-2 driver degrades gracefully to auto-id (the host detects it via the resolved echo).
* driver: create_monitor honors a host-supplied preferred id via resolve_id (range 1..=15, never
collides with a live monitor) and seeds the EDID serial + IddCx ConnectorIndex + ContainerId from it.
* host: a persisted LRU fingerprint->id map (%ProgramData%\punktfunk\pf-vdisplay-identity.json),
threaded to add_monitor via a set_client_identity no-op trait method (Linux/GameStream unaffected).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Packaging punktfunk for Fedora / Bazzite
The punktfunk host is Linux-only and links system FFmpeg (NVENC), PipeWire, Opus and the NVIDIA driver. This directory packages it for the Fedora Atomic / Bazzite world (rpm-ostree + bootc), where most of those deps are already present.
👉 Ubuntu/Debian hosts install via
aptfrom Gitea's package registry — seedebian/README.md(apt update && apt upgradefor new builds).
👉 End-to-end Bazzite setup walkthrough (install → udev/group →
host.env→ service → firewall → verify → troubleshooting):bazzite/README.md. This file is the higher-level packaging rationale.
packaging/
rpm/punktfunk.spec # the RPM (builds punktfunk-host from source with cargo)
bazzite/host.env # gamescope-default config for a Bazzite appliance
bazzite/README.md # step-by-step Bazzite setup guide
bootc/Containerfile # bake punktfunk into a Bazzite-based atomic image
copr/ # COPR build-from-SCM settings
What's needed beyond base Fedora
| Dependency | Where it comes from |
|---|---|
ffmpeg-libs with NVENC |
RPM Fusion nonfree (ffmpeg, not ffmpeg-free) |
NVIDIA driver (libnvidia-encode, libEGL_nvidia) |
Bazzite -nvidia images ship it; plain Fedora: akmod-nvidia + xorg-x11-drv-nvidia-cuda |
| gamescope, PipeWire, wireplumber | Bazzite ships these; plain Fedora: dnf install gamescope pipewire wireplumber |
opus, libei |
Fedora base / updates |
On Bazzite the only genuinely new runtime bits are ffmpeg-libs (RPM Fusion) + opus +
libei — the rest of the stack is already there. The default backend is gamescope
(packaging/bazzite/host.env), which the host spawns headless per session — no desktop login.
Option A — Gitea RPM registry (recommended; per-host, rpm-ostree)
The host's RPM is published to unom's self-hosted Gitea RPM registry (CI builds it on every
push), mirroring the Debian/apt setup. Add one repo file, install, and track
updates with rpm-ostree upgrade — no COPR account needed. Full guide: rpm/README.md.
# GPG-signed pkgs + Gitea-signed metadata → gpgcheck=1, repo_gpgcheck=1 (see rpm/README.md)
sudo tee /etc/yum.repos.d/punktfunk.repo >/dev/null <<'REPO'
[gitea-unom-bazzite]
name=punktfunk (unom, Bazzite)
baseurl=https://git.unom.io/api/packages/unom/rpm/bazzite
enabled=1
gpgcheck=1
repo_gpgcheck=1
gpgkey=https://git.unom.io/api/packages/unom/rpm/repository.key
https://git.unom.io/api/packages/unom/generic/punktfunk-keys/1/RPM-GPG-KEY-punktfunk
REPO
rpm-ostree install punktfunk && systemctl reboot
# updates: rpm-ostree upgrade && systemctl reboot
Option B — COPR (per-host, rpm-ostree install)
- Create a COPR project, enable build-from-SCM pointing at this repo, spec path
packaging/rpm/punktfunk.spec(seecopr/README.md). Under External Repositories add RPM Fusion nonfree soffmpeg-develresolves at build time. - On the Bazzite host:
# RPM Fusion (for the NVENC ffmpeg) — usually already enabled on Bazzite rpm-ostree install \ https://mirrors.rpmfusion.org/free/fedora/rpmfusion-free-release-$(rpm -E %fedora).noarch.rpm \ https://mirrors.rpmfusion.org/nonfree/fedora/rpmfusion-nonfree-release-$(rpm -E %fedora).noarch.rpm # enable the COPR + install punktfunk sudo wget -O /etc/yum.repos.d/_copr_punktfunk.repo \ https://copr.fedorainfracloud.org/coprs/enricobuehler/punktfunk/repo/fedora-$(rpm -E %fedora)/ rpm-ostree install punktfunk systemctl reboot
Option B — bootc (image-based, atomic)
Layer punktfunk into a Bazzite image once, then rebase any number of hosts onto it — no
per-host drift. See bootc/Containerfile:
podman build -t ghcr.io/<you>/bazzite-punktfunk -f packaging/bootc/Containerfile .
podman push ghcr.io/<you>/bazzite-punktfunk
# on the target:
sudo bootc switch ghcr.io/<you>/bazzite-punktfunk && systemctl reboot
First-run setup (either option)
ujust add-user-to-input-group # virtual gamepads need /dev/uinput (then re-login).
# On Bazzite use ujust, NOT `usermod -aG input` (atomic OS — it won't stick).
mkdir -p ~/.config/punktfunk
cp /usr/share/punktfunk/host.env.bazzite ~/.config/punktfunk/host.env # edit (gamescope app, etc.)
systemctl --user enable --now punktfunk-host
# Management web console (pairing + status) — pulled in by default (the host RPM Recommends it;
# `--no-install-recommends` / headless-only boxes can skip it). Enable it and read the login password:
systemctl --user enable --now punktfunk-web
journalctl --user -u punktfunk-web-init | sed -n 's/.*password generated: //p' # then open http://<host-ip>:3000
Pair a stock Moonlight client (mDNS-discovered), or connect the native punktfunk/1 client — via the
web console at http://<host-ip>:3000 or directly.
⚠️ COPR caveat: COPR's mock chroot has no
bun, so a COPR build produces onlypunktfunk+punktfunk-client— notpunktfunk-web. For the console on a COPR/bootc host, install from the Gitea RPM registry (Option A — it carriespunktfunk-web), which is also whybootc/Containerfileinstalls from there rather than COPR.
Why not Flatpak (for the HOST)?
The host needs unsandboxed access the zero-copy NVENC path, /dev/uinput, the PipeWire
graph and the compositor's privileged protocols — a Flatpak sandbox fights all of these.
An RPM (or the bootc layer) installs into the host system where those just work.
👉 The client is a different story — it IS shipped as a Flatpak (the only viable Steam Deck install path: SteamOS
/usris read-only and lackslibadwaita/libSDL3). Seeflatpak/README.md. The client sandbox only needs the GPU render node, Wayland, PipeWire audio, the network and hidraw — all expressible as finish-args.
Building the SRPM/RPM locally (Fedora only)
git archive --format=tar.gz --prefix=punktfunk-0.0.1/ -o ~/rpmbuild/SOURCES/punktfunk-0.0.1.tar.gz HEAD
rpmbuild -ba packaging/rpm/punktfunk.spec # needs the BuildRequires from the spec
(Not buildable on Debian/Ubuntu — use a Fedora toolbox/container or COPR.)