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Plugin self-update (no Decky store): CI publishes a per-channel manifest.json
({version, immutable per-version artifact, sha256}) beside the zip and bakes
update.json {channel, manifest} into the plugin. main.py `check_update` reads the
installed version from package.json (the value Decky reports — not plugin.json),
fetches the channel manifest, and the frontend shows an "Update to vX" button that
drives Decky Loader's own install RPC (root downloads + SHA-256-verifies + hot-reloads).
CI now stamps a plain-numeric semver (0.3.<run> canary / X.Y.Z stable) into
package.json — a -ciN suffix would mis-order under compare-versions.
Linux client: `--fullscreen` (plus SteamDeck/gamescope env fallback) enters GTK
fullscreen on stream start so Gaming-Mode chrome is hidden; native-mode resolution
falls back to the display's first monitor when the window isn't mapped yet (was
dropping to the 1080p floor — wrong on the Deck's 1280×800); add a confirmed
"Remove saved host" action (KnownHosts::remove_by_fp).
Docs: new docs/steam-deck.md (Decky install/pair/stream/self-update/troubleshooting),
wired into meta.json nav, and cross-linked from clients/install-client/channels. This
is the page docs.punktfunk.unom.io/docs/steam-deck — the website's download link
pointed at it before it existed; committing it makes that link resolve.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
429 lines
18 KiB
Python
429 lines
18 KiB
Python
"""
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punktfunk Decky plugin — backend.
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The Gaming-Mode UI (``src/index.tsx``) calls these methods over the Decky bridge. The actual
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STREAM is NOT launched here — it is launched by the frontend through Steam
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(SteamClient.Apps.RunGame on a hidden non-Steam shortcut that points at ``bin/punktfunkrun.sh``),
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because gamescope only focuses/fullscreens windows in the process tree Steam launched via
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``reaper``. A flatpak spawned from this backend would be invisible/unfocused (gamescope#484).
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The backend's jobs are the things Steam can't do:
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* **discover()** — browse the LAN over mDNS (``avahi-browse``) for ``_punktfunk._udp`` hosts.
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* **pair(host, port, pin, name)** — run the SPAKE2 PIN ceremony headlessly via the flatpak
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client's ``--pair`` mode, capturing the result. Pairing uses the SAME flatpak (so the same
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identity store the stream uses), so once paired the stream connects silently.
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* **runner_info()** — the absolute path to the launch wrapper + the flatpak app id, handed to
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the frontend so it can create/point the Steam shortcut.
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* **get_settings() / set_settings()** — read/write the flatpak client's stream settings JSON
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(resolution / bitrate / gamepad), so the Deck UI configures the stream the client reads.
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* **kill_stream()** — force-stop a wedged stream (``flatpak kill``).
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* **check_update()** — poll the registry's per-channel ``manifest.json`` and report whether a
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newer build is available (the frontend then drives Decky's own install RPC to apply it).
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The TXT-record keys parsed (``proto`` / ``fp`` / ``pair`` / ``id``) are defined by the host
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advert in ``crates/punktfunk-host/src/discovery.rs``.
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"""
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import asyncio
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import json
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import os
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import shutil
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import ssl
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import stat
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import time
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import urllib.request
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from pathlib import Path
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import decky
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# Flatpak application id of the GTK client (packaging/flatpak/io.unom.Punktfunk.yml).
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APP_ID = "io.unom.Punktfunk"
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# Service type advertised by punktfunk/1 hosts (matches NATIVE_SERVICE in the Rust host).
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SERVICE_TYPE = "_punktfunk._udp"
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# The flatpak client persists identity / known-hosts / settings under HOME/.config/punktfunk.
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# The sandbox HOME resolves to the REAL user home (== DECKY_USER_HOME), NOT the per-app
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# ~/.var/app/<APP_ID> dir — verified on-device (`flatpak run … sh -c 'echo $HOME'` prints
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# /home/deck, and the manifest's `--filesystem=~/.config/punktfunk` grants exactly that path;
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# we also pass HOME=DECKY_USER_HOME into `flatpak run`, see _flatpak_env). Pointing here is what
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# lets plugin settings actually reach the client AND lets us read the client's known-hosts to
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# tell whether THIS device is already paired with a given host.
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def _client_config_dir() -> Path:
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return Path(decky.DECKY_USER_HOME) / ".config" / "punktfunk"
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def _settings_path() -> Path:
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return _client_config_dir() / "client-gtk-settings.json"
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def _paired_fingerprints() -> set[str]:
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"""Host cert fingerprints (lowercase hex) this client has PIN-paired, from the client's
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known-hosts store. Keyed by fingerprint so it survives a host changing IP address."""
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try:
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data = json.loads((_client_config_dir() / "client-known-hosts.json").read_text())
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except (OSError, json.JSONDecodeError):
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return set()
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hosts = data.get("hosts", []) if isinstance(data, dict) else []
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return {
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h["fp_hex"].lower()
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for h in hosts
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if isinstance(h, dict) and h.get("paired") and isinstance(h.get("fp_hex"), str)
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}
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def _runner_path() -> str:
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"""Absolute path to the launch wrapper shipped with the plugin (bin/punktfunkrun.sh)."""
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return str(Path(decky.DECKY_PLUGIN_DIR) / "bin" / "punktfunkrun.sh")
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# ----------------------------------------------------------------------------------------
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# Self-update check (no Decky store). The plugin is distributed via "Install Plugin from
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# URL" pointing at our Gitea generic registry, so the official store never sees it and
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# can't offer updates. Instead the backend polls a tiny per-channel ``manifest.json`` the
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# CI publishes next to the zip, compares it to the installed version, and the frontend
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# offers a one-tap update that drives Decky's own (root, privileged) install RPC. The
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# channel + manifest URL are baked into ``update.json`` by CI (.gitea/workflows/decky.yml);
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# a dev/sideload build has no ``update.json`` and update checks are simply disabled.
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_UPDATE_TTL_S = 1800.0 # cache a successful check for 30 min (the QAM remounts often)
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_update_cache: dict = {"at": 0.0, "data": None}
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def _update_config() -> dict:
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"""The CI-baked ``{channel, manifest}`` next to the plugin (absent on dev builds)."""
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try:
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return json.loads((Path(decky.DECKY_PLUGIN_DIR) / "update.json").read_text())
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except (OSError, json.JSONDecodeError):
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return {}
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def _installed_version() -> str:
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"""The version Decky itself reports for this plugin — it reads ``package.json`` (NOT
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plugin.json), so the CI stamps the build version there."""
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try:
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pkg = json.loads((Path(decky.DECKY_PLUGIN_DIR) / "package.json").read_text())
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return str(pkg.get("version", "0.0.0"))
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except (OSError, json.JSONDecodeError):
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return "0.0.0"
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def _semver_tuple(v: str) -> tuple[int, int, int]:
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"""A tolerant (major, minor, patch) tuple for ``>`` comparison. We control the version
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format (plain numeric ``X.Y.Z`` on both channels), so leading-int-per-component is
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enough; any pre-release suffix is dropped before comparing."""
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parts: list[int] = []
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for comp in str(v).split("-", 1)[0].split(".")[:3]:
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digits = ""
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for ch in comp:
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if ch.isdigit():
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digits += ch
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else:
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break
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parts.append(int(digits) if digits else 0)
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while len(parts) < 3:
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parts.append(0)
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return (parts[0], parts[1], parts[2])
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def _fetch_json(url: str, timeout: float = 8.0) -> dict:
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"""Blocking HTTPS GET of a small JSON document (run in an executor)."""
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req = urllib.request.Request(
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url, headers={"Accept": "application/json", "User-Agent": "punktfunk-decky"}
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)
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ctx = ssl.create_default_context()
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with urllib.request.urlopen(req, timeout=timeout, context=ctx) as resp:
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return json.loads(resp.read().decode("utf-8", errors="replace"))
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def _flatpak() -> str | None:
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return shutil.which("flatpak") or (
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"/usr/bin/flatpak" if Path("/usr/bin/flatpak").exists() else None
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)
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def _flatpak_env() -> dict:
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"""Environment for a headless ``flatpak run`` from the backend (no display needed for
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pairing). Reconstruct the user-session bits flatpak wants; the backend may not inherit
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them. Harmless if some are already set."""
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env = dict(os.environ)
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# Decky Loader is a PyInstaller binary: it prepends its bundled libs (an older libssl) to
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# LD_LIBRARY_PATH (its /tmp/_MEI* unpack dir), and that env leaks into our subprocess. The
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# SYSTEM flatpak's libcurl needs OPENSSL_3.3.0 from the SYSTEM libssl, so the bundled libssl
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# breaks it ("libssl.so.3: version OPENSSL_3.3.0 not found"). Restore the pre-bundle value
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# PyInstaller saved as <VAR>_ORIG, or drop the var so the dynamic loader uses system libraries.
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for var in ("LD_LIBRARY_PATH", "LD_PRELOAD"):
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orig = env.pop(f"{var}_ORIG", None)
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if orig:
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env[var] = orig
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else:
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env.pop(var, None)
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env.setdefault("HOME", decky.DECKY_USER_HOME)
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uid = os.environ.get("PF_UID") or "1000"
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env.setdefault("XDG_RUNTIME_DIR", f"/run/user/{uid}")
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env.setdefault(
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"DBUS_SESSION_BUS_ADDRESS", f"unix:path=/run/user/{uid}/bus"
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)
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# Ensure flatpak can find the user installation.
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env.setdefault(
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"PATH", "/usr/bin:/bin:" + env.get("PATH", "")
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)
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return env
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def _split_txt(txt: str) -> list[str]:
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"""Split an avahi TXT column into tokens, honouring the ``"key=value"`` quoting."""
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tokens: list[str] = []
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cur: list[str] = []
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in_quote = False
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for ch in txt:
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if ch == '"':
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if in_quote:
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tokens.append("".join(cur))
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cur = []
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in_quote = not in_quote
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elif in_quote:
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cur.append(ch)
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if cur:
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tokens.append("".join(cur))
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return tokens
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def _parse_avahi_browse(stdout: str) -> list[dict]:
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"""Parse ``avahi-browse -rpt`` output into a list of host dicts (deduped on the TXT ``id``)."""
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out: dict[str, dict] = {}
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for raw in stdout.splitlines():
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line = raw.strip()
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if not line.startswith("="):
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continue
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parts = line.replace("\\;", "\x00").split(";")
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parts = [p.replace("\x00", ";") for p in parts]
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if len(parts) < 9:
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continue
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name = parts[3]
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address = parts[7]
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port_str = parts[8]
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txt = parts[9] if len(parts) > 9 else ""
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try:
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port = int(port_str)
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except ValueError:
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port = 0
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props: dict[str, str] = {}
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for token in _split_txt(txt):
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if "=" in token:
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k, v = token.split("=", 1)
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props[k] = v
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if props.get("proto") and not props["proto"].startswith("punktfunk/"):
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continue
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entry = {
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"name": name,
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"host": address,
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"port": port,
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"pair": props.get("pair", "optional"),
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"fp": props.get("fp", ""),
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"proto": props.get("proto", ""),
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}
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key = props.get("id") or f"{address}:{port}"
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existing = out.get(key)
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# Prefer IPv4 over IPv6 for the user-facing host string.
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if existing is None or (":" in existing["host"] and ":" not in address):
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out[key] = entry
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return list(out.values())
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class Plugin:
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async def discover(self) -> list[dict]:
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"""Browse the LAN for punktfunk/1 hosts. Returns ``[{name, host, port, pair, fp}]``."""
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avahi = shutil.which("avahi-browse")
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if not avahi:
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decky.logger.error("avahi-browse not found; install avahi for host discovery")
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return []
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try:
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proc = await asyncio.create_subprocess_exec(
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avahi, "-rpt", SERVICE_TYPE,
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stdout=asyncio.subprocess.PIPE,
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stderr=asyncio.subprocess.PIPE,
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)
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try:
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stdout, stderr = await asyncio.wait_for(proc.communicate(), timeout=8.0)
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except asyncio.TimeoutError:
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proc.kill()
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decky.logger.warning("avahi-browse timed out")
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return []
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except Exception: # noqa: BLE001
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decky.logger.exception("avahi-browse failed")
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return []
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if stderr:
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decky.logger.debug("avahi-browse stderr: %s", stderr.decode(errors="replace"))
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hosts = _parse_avahi_browse(stdout.decode(errors="replace"))
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# Mark which hosts THIS device has already paired (by cert fingerprint), so the UI can
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# show "Stream" instead of "Pair" — the mDNS `pair` field is the host's policy, not our
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# per-device pairing state.
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paired = _paired_fingerprints()
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for h in hosts:
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fp = h.get("fp") or ""
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h["paired"] = bool(fp) and fp.lower() in paired
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decky.logger.info("discovered %d punktfunk host(s)", len(hosts))
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return hosts
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async def pair(self, host: str, port: int, pin: str, name: str = "Steam Deck") -> dict:
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"""Run the SPAKE2 PIN ceremony headlessly via the flatpak client's ``--pair`` mode.
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The user arms pairing on the HOST (which displays a 4-digit PIN) and enters it here.
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On success the flatpak persists the host to its known-hosts as paired, so a later
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stream connects silently. Returns ``{ok, fp?, error?}``.
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"""
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flatpak = _flatpak()
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if not flatpak:
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return {"ok": False, "error": "flatpak-not-found"}
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argv = [
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flatpak, "run", "--arch=x86_64", APP_ID,
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"--pair", str(pin).strip(),
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"--connect", f"{host}:{port}",
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"--name", name,
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"--host-label", host,
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]
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decky.logger.info("pairing: %s", " ".join(argv[:6] + ["<pin>", "--connect", f"{host}:{port}"]))
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try:
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proc = await asyncio.create_subprocess_exec(
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*argv,
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stdout=asyncio.subprocess.PIPE,
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stderr=asyncio.subprocess.PIPE,
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env=_flatpak_env(),
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)
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stdout, stderr = await asyncio.wait_for(proc.communicate(), timeout=100.0)
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except asyncio.TimeoutError:
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return {"ok": False, "error": "pairing timed out"}
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except Exception as exc: # noqa: BLE001
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decky.logger.exception("pairing failed to launch")
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return {"ok": False, "error": str(exc)}
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out = stdout.decode(errors="replace")
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err = stderr.decode(errors="replace")
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if proc.returncode == 0 and "paired " in out:
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fp = ""
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for tok in out.split():
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if tok.startswith("fp="):
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fp = tok[3:]
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decky.logger.info("paired %s:%s", host, port)
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return {"ok": True, "fp": fp}
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decky.logger.warning("pairing failed (rc=%s): %s", proc.returncode, err.strip() or out.strip())
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# Surface the client's own one-line reason (wrong PIN / not armed) to the UI.
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reason = (err.strip().splitlines() or out.strip().splitlines() or ["pairing failed"])[-1]
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return {"ok": False, "error": reason}
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async def runner_info(self) -> dict:
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"""The wrapper-script path + flatpak app id the frontend needs to create the Steam
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shortcut. Also (re)asserts the script's exec bit — packaging can drop it."""
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path = _runner_path()
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try:
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st = os.stat(path)
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os.chmod(path, st.st_mode | stat.S_IXUSR | stat.S_IXGRP | stat.S_IXOTH)
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except OSError:
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decky.logger.warning("could not chmod runner %s", path)
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return {"runner": path, "app_id": APP_ID, "exists": Path(path).exists()}
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async def get_settings(self) -> dict:
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"""Read the flatpak client's stream settings (resolution/bitrate/gamepad…)."""
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try:
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return json.loads(_settings_path().read_text())
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except (OSError, json.JSONDecodeError):
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# The client's own defaults (native display, host-default bitrate, auto pad).
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return {
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"width": 0, "height": 0, "refresh_hz": 0, "bitrate_kbps": 0,
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"gamepad": "auto", "compositor": "auto",
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"inhibit_shortcuts": True, "mic_enabled": False,
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}
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async def set_settings(self, settings: dict) -> dict:
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"""Write the stream settings JSON the (sandboxed) client reads on launch."""
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try:
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d = _client_config_dir()
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d.mkdir(parents=True, exist_ok=True)
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_settings_path().write_text(json.dumps(settings, indent=2))
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return {"ok": True}
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except OSError as exc:
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decky.logger.exception("could not write settings")
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return {"ok": False, "error": str(exc)}
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async def kill_stream(self) -> dict:
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"""Force-stop a wedged stream client (``flatpak kill``)."""
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flatpak = _flatpak()
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if not flatpak:
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return {"ok": False, "error": "flatpak-not-found"}
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try:
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proc = await asyncio.create_subprocess_exec(
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flatpak, "kill", APP_ID,
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stdout=asyncio.subprocess.DEVNULL, stderr=asyncio.subprocess.DEVNULL,
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env=_flatpak_env(),
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)
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await asyncio.wait_for(proc.wait(), timeout=10.0)
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except Exception: # noqa: BLE001
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decky.logger.exception("flatpak kill failed")
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return {"ok": False}
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return {"ok": True}
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async def check_update(self, force: bool = False) -> dict:
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"""Is a newer build available in our registry? Compares the installed version
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(``package.json``) against the per-channel ``manifest.json`` the CI publishes, and
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returns everything the frontend needs to drive Decky's install RPC. Non-fatal: any
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failure (no channel baked in, network down) returns ``update_available: False``.
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"""
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current = _installed_version()
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cfg = _update_config()
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result = {
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"current": current,
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"latest": current,
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"artifact": "",
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"hash": "",
|
|
"channel": str(cfg.get("channel", "")),
|
|
"update_available": False,
|
|
}
|
|
|
|
manifest_url = cfg.get("manifest")
|
|
if not manifest_url:
|
|
result["error"] = "update-channel-unknown" # dev / sideloaded build
|
|
return result
|
|
|
|
now = time.monotonic()
|
|
cached = _update_cache["data"]
|
|
if not force and cached and (now - _update_cache["at"]) < _UPDATE_TTL_S:
|
|
return cached
|
|
|
|
try:
|
|
loop = asyncio.get_running_loop()
|
|
manifest = await loop.run_in_executor(None, _fetch_json, manifest_url)
|
|
except Exception as exc: # noqa: BLE001
|
|
decky.logger.warning("update check failed: %s", exc)
|
|
result["error"] = "fetch-failed"
|
|
return result # transient — don't cache, retry next open
|
|
|
|
latest = str(manifest.get("version", current))
|
|
result["latest"] = latest
|
|
result["artifact"] = str(manifest.get("artifact", ""))
|
|
result["hash"] = str(manifest.get("sha256", ""))
|
|
result["update_available"] = bool(result["artifact"]) and (
|
|
_semver_tuple(latest) > _semver_tuple(current)
|
|
)
|
|
if result["update_available"]:
|
|
decky.logger.info("update available: %s -> %s (%s)", current, latest, result["channel"])
|
|
_update_cache["at"] = now
|
|
_update_cache["data"] = result
|
|
return result
|
|
|
|
# ---- Decky lifecycle ----
|
|
|
|
async def _main(self):
|
|
decky.logger.info("punktfunk plugin loaded (runner=%s)", _runner_path())
|
|
|
|
async def _unload(self):
|
|
decky.logger.info("punktfunk plugin unloading")
|
|
|
|
async def _uninstall(self):
|
|
decky.logger.info("punktfunk plugin uninstalled")
|