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>
The re-architecture split the Linux client into two binaries (shell + Vulkan
session streamer) and added the pf-ffvk crate, whose build.rs runs bindgen over
FFmpeg's libavutil/hwcontext_vulkan.h (#include <vulkan/vulkan.h>). Two release
regressions fell out of that on the desktop-package legs:
1. Missing build dep. The Arch build (archlinux:base-devel + its own pacman list)
fatal-errored at `vulkan/vulkan.h file not found`. Add the Vulkan dev headers
wherever the client compiles from a self-managed dep set: arch (PKGBUILD
makedepends + arch.yml), rpm (spec BuildRequires + rpm.yml + fedora image),
deb.yml (belt-and-suspenders; the rust-ci image already bakes libvulkan-dev),
and the screenshots job. The flatpak builds offline against the GNOME SDK, so
install Vulkan-Headers into /app as a pinned module and point pf-ffvk's bindgen
at it via PF_FFVK_VULKAN_INCLUDE.
2. Only the shell shipped. arch/deb/rpm built and installed just punktfunk-client;
the shell execs its sibling punktfunk-session for a connect, so desktop
streaming would break exactly as Decky's did. Build and install BOTH binaries
in all three, and declare the runtime Vulkan loader the session binary dlopens
(vulkan-icd-loader / vulkan-loader / libvulkan1 — not a DT_NEEDED, so
shlibdeps/auto-requires can't see it).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
ffmpeg-sys-next binds a curated header list that omits every
hwcontext_*.h, so AVVulkanDeviceContext/AVVulkanFramesContext/AVVkFrame
— the surface that lets FFmpeg's Vulkan Video decoder run on the
presenter's own VkDevice and hand the decoded VkImages back — had no
Rust bindings at all. pf-ffvk generates them at build time from the
SYSTEM headers, which is the only ABI-safe option: the struct layout
depends on FF_API_* deprecation gates resolved in libavutil/version.h
(confirmed: FFmpeg 8.1 still carries the FIXED_QUEUES fields). Ships
ash<->vulkan.h handle conversions; opaque AVHW*/AVFrame types keep
ffmpeg-sys-next the owner of the core surface (pointer casts across).
Needs vulkan-headers (Arch) / libvulkan-dev (CI, added);
PF_FFVK_VULKAN_INCLUDE overrides for cross builds. Verified: bindgen
layout tests pass, av_vk_frame_alloc links and zero-initializes.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Web console
- Pairing/Library/Stats refactored into self-contained subsections that each own
their own queries + mutations; a shared slot-based layout (view.tsx) is filled by
the live page (containers) and Storybook (pure cards + fixtures) so the layout can't
drift.
- All paired devices in one list on Pairing with a protocol column (punktfunk/1 +
Moonlight), routing each unpair to the right endpoint; the redundant Clients page is
removed.
- Library: overview grid split from the add/edit form into separate files.
- Login screen links out to the docs.
Docs
- "Console login password" section on every host page (apt/RPM/Bazzite/SteamOS/Windows)
plus a new "Forgot your Password?" troubleshooting page, linked from the login screen.
- Console served as HTTP/1.1 over TLS (drop the unusable HTTP/3 advertising) across the
Bun entry, launchers, systemd units, and packaging.
Tooling
- Biome now respects .gitignore (stops linting generated code), config migrated to
2.5.1; all lint issues fixed cleanly.
Also includes this branch's in-progress host, Apple client, packaging, and CI changes.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
deb.yml builds the punktfunk-web .output in the rust-ci image, but that image had no bun
(only ci.yml's web/docs jobs use the oven/bun image) -> "bun: not found". Bake bun (+ unzip
for its installer) into ci/rust-ci.Dockerfile, and bootstrap it in the deb web step too so the
job is green against the previous image (docker.yml rebuild lag) — mirroring the rpm.yml fix.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The punktfunk-web management console (pairing + status) shipped only via apt. Extend it
to the other HOST packaging methods, mirroring the Debian punktfunk-web .deb (flatpak is
the client, correctly excluded):
- rpm/punktfunk.spec: new noarch `punktfunk-web` subpackage (the .output bundle + a
/usr/bin/punktfunk-web-server node launcher + both systemd --user units + web-init.sh +
web.env.example), gated behind `%bcond_with web`. OFF by default because building the
Nitro/Node SSR bundle needs `bun`, which a plain rpmbuild / COPR mock chroot lacks. Host
package weak-Recommends punktfunk-web.
- ci/fedora-rpm.Dockerfile: install bun (+ unzip) so the CI builder can build the console.
- rpm.yml: build `PF_WITH_WEB=1` (Prep bootstraps bun to stay green pre-image-rebuild); the
publish loop already globs the new noarch rpm into the registry. build-rpm.sh: `--with web`
when PF_WITH_WEB=1.
- bootc/Containerfile: install from the Gitea RPM registry (which carries punktfunk-web)
instead of COPR — `dnf5 install punktfunk punktfunk-web`.
- arch/PKGBUILD: opt-in `punktfunk-web` split member (PF_WITH_WEB=1 appends it + bun) so a
default makepkg still builds host+client with no JS tooling — matching the spec's bcond.
- docs: packaging/README, rpm/README, copr/README (the no-bun caveat), bazzite/README
(Path B rewritten COPR→Gitea registry), arch/README — enable + journal-password steps.
Reviewed across methods by an adversarial multi-agent pass (rpm/ci/arch/bootc/consistency
lenses, each blocking finding 3x-verified); fixed the two it confirmed real — the Arch
bun-mandatory regression (now opt-in) and the stale COPR wording in bazzite Path B.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Three changes to make a reproducible Fedora KDE host install:
- ci/fedora-rpm.Dockerfile: parameterize the Fedora base (ARG FEDORA_VERSION, default 43) so the
same builder produces the Bazzite (F43, libavcodec.so.61) and Fedora 44 (libavcodec.so.62) RPMs.
A binary RPM is soname-coupled to its base, so each target Fedora needs its own build/channel.
- spec: install punktfunk-kde-session.service (was in the tree but never packaged) with its
ExecStart repointed from the dev source tree to the installed run-headless-kde.sh. This is the
headless `kwin --virtual` session (KWIN_WAYLAND_NO_PERMISSION_CHECKS=1) the kwin backend needs —
an interactive Plasma session refuses to hand its privileged zkde_screencast protocol to an
external client, so a dedicated session is required. Not enabled by default (kwin hosts opt in).
- ship packaging/kde/host.env as host.env.kde — the ready KWin appliance config (wayland-kde).
Validated live on a Fedora 44 KDE box (RTX 4090): KWin virtual output + zero-copy dmabuf->CUDA->NVENC.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Hook the Linux client into the existing packaging CI:
- deb.yml builds both binaries and publishes punktfunk-host AND
punktfunk-client to the Gitea apt registry; new
packaging/debian/build-client-deb.sh mirrors the host script
(shlibdeps auto-Depends — GTK4/libadwaita/SDL3/FFmpeg/PipeWire
sonames; no NVIDIA filter, the client links no CUDA). Built and
inspected locally on Ubuntu 26.04.
- punktfunk.spec gains a "client" subpackage (binary + desktop entry +
udev rule); rpm.yml's publish loop picks it up unchanged.
- New shared assets: packaging/linux/io.unom.Punktfunk.desktop and
scripts/70-punktfunk-client.rules — DualSense hidraw uaccess (USB +
Bluetooth, steam-devices style) so SDL's HIDAPI driver gets
touchpad/motion/lightbar/triggers instead of degrading to evdev.
- Builder images learn the client link deps (rust-ci already had
them; fedora-rpm adds gtk4/libadwaita/SDL3-devel) with idempotent
install steps in deb.yml/rpm.yml since jobs run against the
previous push's image.
Workspace check CI (build/clippy/test) already covers the crate since
a601022.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Mirrors the apt pipeline for Fedora Atomic / Bazzite. New `rpm` workflow builds
the host RPM in a Fedora 43 builder image (ci/fedora-rpm.Dockerfile — matches
Bazzite's libavcodec.so.61, with a self-contained 16-symbol libcuda link stub so
no NVIDIA packages are needed in CI) and uploads to Gitea's public RPM registry
(group "bazzite") on every main push (rolling 0.0.1-0.ciN.<sha>) and v* tag
(clean X.Y.Z-1). Bazzite hosts then track it with `rpm-ostree upgrade`.
- packaging/rpm/build-rpm.sh: git-archive tarball + rpmbuild (--nodeps, since the
toolchain is rustup + dnf, not RPMs); copies to dist/, asserts no cuda/nvidia leak.
- punktfunk.spec: overridable pf_version/pf_release for CI snapshots; exclude
libcuda.so from auto-Requires (NVENC/EGL come from the driver, out of band) —
same NVIDIA filter as the .deb; fix a bogus changelog weekday.
- docker.yml builds+pushes the new fedora-rpm image; packaging README + rpm/README
document the rpm-ostree install/update path (recommended option).
Builder image seeded to the registry so rpm.yml's first run finds it. RPM build +
clean-Requires verified locally in the image (libavcodec.so.61 / libavutil.so.59,
no cuda).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Baked into the rust-ci image, plus an idempotent apt step in the rust
job itself — ci.yml runs against the previous push's image (docker.yml
bootstrap note), so the image change alone would leave this push and
the next one red.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Three workflows: ci.yml (Rust workspace inside the punktfunk-rust-ci
builder image + web/docs-site build+typecheck), docker.yml (build+push
punktfunk-web, punktfunk-docs, punktfunk-rust-ci to git.unom.io — host
and native clients stay un-dockerized by design), apple.yml (host-mode
macos-arm64 runner: Rust core -> PunktfunkCore.xcframework ->
swift build + swift test).
ci/rust-ci.Dockerfile: Ubuntu 26.04 with the workspace's link deps
(FFmpeg 8, PipeWire, Opus, GL/EGL/GBM, xkbcommon, libcuda via the
580-server userspace as a link stub) + pinned rustup + node for the JS
actions. Verified end to end in-container: build, 141/141 tests, C ABI
harness; all three images seeded to the registry manually.
scripts/ci/setup-macos-runner.sh provisions the Mac (rustup + darwin
targets, Node tarball, gitea-runner 1.0.8 host mode, LaunchAgent with
DEVELOPER_DIR auto-detect for sudo-free Xcode selection). Docs in
docs-site/content/docs/ci.md.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>