Files
punktfunk/packaging/flatpak
enricobuehler 35d97ae6ac
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feat(windows): parallel virtual displays — proto v3 ring binding, manager slot map, group topology (W0–W3)
design/windows-parallel-virtual-displays.md (display-management Stage 7 / §6.6): N
simultaneously-live pf-vdisplay monitors, one sealed ring each, every idd-push-security
invariant preserved per-ring.

- proto v3: SharedHeader._pad → target_id — the ring NAMES its monitor, host-stamped
  before the magic; the driver publisher refuses a cross-bound ring via the shared,
  unit-tested frame::check_attach (new DRV_STATUS_BIND_FAIL — the gamepad pad_index
  validation applied to frames, invariant #10); the host's wait_for_attach surfaces the
  refusal loudly and self-checks its own stamp.
- manager: the one-monitor MgrState becomes a slot map keyed by the client's identity
  slot (0 = anonymous/GameStream); per-slot reconnect + dead-WUDFHost preempts,
  slot-scoped begin_idd_setup (a different identity is an admission question, never a
  preempt), ONE device-level watchdog pinger, per-slot /display/state + /display/release.
- group topology: isolate_displays_ccd takes the managed target SET (a sibling slot is
  never deactivated); SavedConfig + the DDC/PnP axes move to the group record (first-in
  captures, last-out restores); desktop layout via CCD source origins from the pure
  layout::arrange (auto-row default, manual pins win), re-applied on create + reconfigure.
- admission: the Windows separate→reject override now sits behind the
  PUNKTFUNK_WIN_SEPARATE=1 validation hatch (the wedge it guarded is structurally gone —
  a second identity gets its own monitor + ring; default flips in W5 after soak);
  max_displays and NVENC session-unit budgets decline an unaffordable display AT
  admission; kick_dwm_compose is process-globally throttled and per-display — cursor
  jump + 35 ms dwell (a sub-tick jump composes nothing; DWM reads dirties from current
  state at the next vsync tick).

On-glass on the RTX box: V1/V2/V4/V5/V6/V9 green — two paired clients on two monitors
streaming ~60 fps each with zero mismatches and zero bind failures, churn-hammer clean
(no 0x80070490), per-ring mode-change recreate leaves the sibling untouched, typed
budget rejection, fault-injected cross-bind refused loudly with the sibling undisturbed.
V7: WUDFHost-kill shared fate is clean; in-process device recovery is a known follow-up
(the retired-never-closed control handles block the adapter cycle — reset-pf-vdisplay.ps1
recovers). DWM composes two IDD monitors concurrently at 60 fps — the plan's
load-bearing unknown, answered yes.

Also carries the client-HDR EDID forwarding that shared this working tree
(Hello::display_hdr → AddRequest luminance tail → the monitor's CTA-861.3 HDR block,
PUNKTFUNK_CLIENT_PEAK_NITS hatch) and the Deck client fixes (40 ms rumble keep-alive
with 1-LSB jitter, HDR self-diagnosing presenter warn, flatpak HDR env).

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-11 01:06:44 +02:00
..

punktfunk client — Flatpak (Steam Deck / SteamOS, and any flatpak distro)

The native Linux client — the shell (crate punktfunk-client-linux, binary punktfunk-client) plus the Vulkan session binary it execs for streaming (crate punktfunk-client-session, binary punktfunk-session) — is published two ways by CI (.gitea/workflows/flatpak.yml), on every push to main (a rolling <next-minor>-ciN.g<sha> build, base derived from the latest stable tag by scripts/ci/pf-version.sh) and on v* tags (a clean X.Y.Z):

  1. Hosted OSTree repo at https://flatpak.unom.io (recommended) — a GPG-signed Flatpak remote served by a static Caddy container on unom-1, so users install once and then flatpak update. Shared unom-wide repo (remote name unom), reusable by other unom apps under the same signing key. See "Install (recommended)" below.
  2. Single-file .flatpak bundle in Gitea's generic package registry (unom org) — the no-remote fallback the Decky plugin consumes (stable latest/punktfunk-client.flatpak URL) and the offline/manual path. On tags it's also attached to the Gitea release.

The host is NOT a flatpak (it needs unsandboxed /dev/uinput + zero-copy NVENC — see ../README.md "Why not Flatpak"). Only the client is sandbox-friendly.

Why flatpak for the Steam Deck

SteamOS /usr is read-only and image-based, and the system is missing libadwaita and libSDL3 — so a bare punktfunk-client binary dropped into ~/.local/bin won't run. Flatpak is the Deck's native, update-survivable app path (the user already runs Moonlight and chiaki-ng as flatpaks), and the bundle carries libadwaita (from org.gnome.Platform//50) + a bundled SDL3, with HEVC-capable FFmpeg supplied automatically by the runtime's codecs-extra extension.

App id: io.unom.Punktfunk (matches the Apple bundle id family and the Decky plugin's flatpak fallback).

One command adds the signed unom remote and installs the client; it auto-adds Flathub for the GNOME runtime, and flatpak update tracks new builds from then on:

flatpak install --user https://flatpak.unom.io/io.unom.Punktfunk.flatpakref
flatpak run io.unom.Punktfunk

Equivalent two-step (add the whole remote, then install by app id):

flatpak remote-add --user --if-not-exists unom https://flatpak.unom.io/unom.flatpakrepo
flatpak install --user unom io.unom.Punktfunk

Updates — the whole point of the hosted repo:

flatpak update                    # or: flatpak update io.unom.Punktfunk

Install on the Deck via the bundle (no-remote fallback)

The generic registry is a plain HTTP file store, so just download the bundle and install it per-user (no root, survives SteamOS updates). This is what the Decky plugin uses; the hosted repo above is the better path for a human on the Deck:

# Pick a version: a tag like 1.2.3, or the newest main build's <next-minor>-ciN.gSHA.
VER=1.2.3
URL="https://git.unom.io/api/packages/unom/generic/punktfunk-client-flatpak/$VER/punktfunk-client-$VER.flatpak"

# Flathub must be enabled (it is on the Deck) so the GNOME runtime + codecs-extra extension pull in:
flatpak remote-add --user --if-not-exists flathub https://dl.flathub.org/repo/flathub.flatpakrepo

curl -fL -o /tmp/punktfunk-client.flatpak "$URL"
flatpak install --user --bundle /tmp/punktfunk-client.flatpak

Run it:

flatpak run io.unom.Punktfunk                 # GUI host list (mDNS)
flatpak run io.unom.Punktfunk --connect HOST:PORT

The Decky plugin launches exactly this (flatpak run io.unom.Punktfunk --connect …) once installed — see ../../clients/decky/README.md.

Updating the bundle install

If you installed from the bundle (not the hosted repo), it has no remote to track, so updates are "download the newer bundle and reinstall":

flatpak install --user --bundle /tmp/punktfunk-client.flatpak   # same command, newer file

Installs from https://flatpak.unom.io instead just take flatpak update (see "Install (recommended)" above).

Build locally / the CI fallback

CI builds this in a --privileged Fedora container, because flatpak-builder runs bubblewrap, which needs user namespaces the default Docker executor denies. If the Gitea runner can't grant --privileged (the job fails at flatpak-builder with "Creating new namespace failed: Operation not permitted"), build it out-of-band and upload by hand. The easiest place is on the Deck itself (it can run org.flatpak.Builder user-scope, no root):

# On the Deck (or any flatpak box), one-time:
flatpak install --user -y flathub org.flatpak.Builder

# build-flatpak.sh auto-detects org.flatpak.Builder, generates cargo-sources.json (or reuses an
# existing one — see below), builds, and exports dist/punktfunk-client-<version>.flatpak:
bash packaging/flatpak/build-flatpak.sh

# Upload to the generic registry (PAT with write:package):
curl -fsS --user "enricobuehler:$REGISTRY_TOKEN" \
  --upload-file dist/punktfunk-client-*.flatpak \
  "https://git.unom.io/api/packages/unom/generic/punktfunk-client-flatpak/0.0.1-manual/punktfunk-client.flatpak"

cargo-sources.json generation needs python3 + aiohttp + tomlkit, which the Deck lacks. Generate it on a dev box (build-flatpak.sh does it, or run the upstream flatpak-cargo-generator.py Cargo.lock -o packaging/flatpak/cargo-sources.json), rsync it next to the manifest, and build-flatpak.sh reuses it (it only regenerates when the file is absent or FORCE_GEN=1).

The Mac build host cannot build a Linux flatpak (no flatpak-builder for macOS), and home-worker-2 has no flatpak and no passwordless sudo to install it — so the Deck or the privileged CI container are the only two viable build sites.

Manifest

io.unom.Punktfunk.yml. Runtime org.gnome.Platform//50 (GTK 4.20 + libadwaita 1.8 ≥ the crate floors of v4_16 / v1_5), built on freedesktop-sdk 25.08, with two build-time SDK extensions: org.freedesktop.Sdk.Extension.rust-stable (→ //25.08, rustc 1.96 — the GTK4 dep chain, e.g. pango-sys 0.22, needs ≥ 1.92, which the EOL GNOME-48 / 24.08 rust-stable at 1.89 could not provide) and org.freedesktop.Sdk.Extension.llvm20 (libclang, needed by bindgen in ffmpeg-sys-next / sdl3-sys). HEVC-capable libavcodec (soname 61, accepted by ffmpeg-next 8.x) is supplied automatically at runtime by the freedesktop codecs-extra extension point (auto-downloaded with the runtime; no app-side codec declaration). A bundled SDL3 3.4.10 module (pinned to match sdl3-sys 0.6.6+SDL-3.4.10), and finish-args for Wayland + --device=all (GPU/VAAPI render node + evdev + the hidraw char-devices SDL3 needs for DualSense)

  • --socket=pulseaudio (PipeWire-pulse: playback + mic) + --share=network. Alongside it: io.unom.Punktfunk.desktop, io.unom.Punktfunk.metainfo.xml, io.unom.Punktfunk.svg (all installed by the manifest). A vulkan-headers module supplies what the session binary's ash/Vulkan build needs. cargo-sources.json (the offline crate cache) is a pure function of Cargo.lock; CI regenerates it each build and it is gitignored — generate it on any box with network + python3/aiohttp/tomlkit (build-flatpak.sh does this automatically) and, for a build host that lacks those (the Deck), rsync the generated file in alongside the manifest.

Offline Skia: the session binary's Skia console UI (pf-console-uiskia-safe) normally downloads prebuilt libskia binaries at build time, which is dead in the offline sandbox — so the manifest pins a skia-binaries-….tar.gz source and points the build at it with SKIA_BINARIES_URL: file://…. When bumping the skia-safe/skia-bindings crate version, update that pinned tarball (URL + sha256) to the matching skia-binaries release or the build breaks offline.

Hosting the repo (unom-1) + one-time setup

The OSTree repo flatpak-builder produces is GPG-signed in CI and rsynced to unom-1, where a tiny static Caddy container (server/compose.production.yml + server/Caddyfile, port 3230) serves the ./site tree (repo/ + unom.flatpakrepo + io.unom.Punktfunk.flatpakref + index.html). The edge Caddy on home-reverse-proxy-1 fronts it at https://flatpak.unom.io. The CI deploy step no-ops until the secret + infra exist, so it won't redden builds mid-setup.

Signing key: dedicated RSA-4096 key unom Flatpak Repo <flatpak@unom.io>. Public key committed at unom-flatpak.gpg (its base64 goes into the .flatpakrepo/.flatpakref GPGKey=); private key (ASCII-armored, then base64) lives only in the CI secret.

One-time setup (mirrors any new unom DMZ service — see the deploy-infra notes):

  1. Secret FLATPAK_GPG_PRIVATE_KEY on this repo = base64 of the armored private key (gpg --armor --export-secret-keys <fpr> | base64 -w0). DEPLOY_* + REGISTRY_TOKEN already exist.
  2. Edge Caddy on home-reverse-proxy-1 (/home/caddy/caddy/Caddyfile, apply by hand + ./reload.sh): flatpak.unom.io { reverse_proxy 192.168.50.50:3230 }
  3. Port allowlist: add 3230 to caddy_target_ports in unom/infra (proxmox/unom-1) + terraform apply.
  4. DNS: ensure flatpak.unom.io resolves to the edge proxy.

Re-signing/rotation: regenerate the key, replace unom-flatpak.gpg + the secret; every client must re-add the remote (the GPGKey changed), so rotate rarely.

Alternatives considered

  • Hosted OSTree repo (chosen): the only option that gives flatpak update. We self-host the static tree on unom-1 behind Caddy (Gitea has no flatpak/ostree registry); the build already produces the repo, so the marginal cost is GPG signing + an rsync + a 10-line static container.
  • Generic registry bundle (kept as fallback): one curl to publish, one flatpak install --bundle to consume; mirrors the deb/rpm curl-upload pattern. No auto-update — this is what the Decky plugin pulls (stable latest/punktfunk-client.flatpak), plus the offline/manual path.
  • Release attachment: also done on tags, good for a human-facing download page.
  • Flathub (deferred): best discoverability + zero hosting, but a separate submission/review process and less control; revisit once the client is past scaffold quality.