feat(clients): Wake-on-LAN in apple/linux/windows/android/decky

Each client learns a host's MAC from the mDNS `mac` TXT while it's awake, persists it on the saved-host record, and — when reconnecting to an offline host — sends a magic packet before connecting, plus an explicit "Wake host" action. Apple wraps the C-ABI; linux/windows call the core fn directly (linux also gains a --wake CLI mode); android via a new nativeWakeOnLan JNI export (the mDNS browse record gains a 7th mac field); decky shells out to the linux client's --wake before launching the stream.

iOS/tvOS need the managed com.apple.developer.networking.multicast entitlement (pending Apple approval), so the wake path + UI are gated off via PunktfunkConnection.wakeOnLANAvailable and the entitlement is commented out — keeping iOS/tvOS releasable. MAC-learning stays active on every platform so it lights up the moment it's ungated. macOS works today.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
This commit is contained in:
2026-07-04 13:37:14 +02:00
parent 3bf14a3df7
commit fb709d68ce
33 changed files with 558 additions and 24 deletions
+6
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@@ -122,6 +122,12 @@ export const setSettings = callable<[settings: StreamSettings], { ok: boolean }>
"set_settings",
);
export const killStream = callable<[], { ok: boolean }>("kill_stream");
// Send a Wake-on-LAN magic packet to a saved host (headless flatpak --wake) so a sleeping host is
// up by the time the stream connects. The MAC is looked up from the flatpak client's own
// known-hosts store; `ok: false` (no-op) when none has been learned yet. Fire before launching.
export const wake = callable<[host: string, port: number], { ok: boolean; error?: string }>(
"wake",
);
export const checkUpdate = callable<[force: boolean], UpdateInfo>("check_update");
// Update the flatpak client in the user installation (`flatpak update --user -y io.unom.Punktfunk`).
export const updateClient = callable<
+7 -1
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@@ -8,7 +8,7 @@
// and start it with RunGame. The wrapper then execs
// `flatpak run io.unom.Punktfunk --connect <host>` as a reaper descendant.
import { runnerInfo, shortcutArt } from "./backend";
import { runnerInfo, shortcutArt, wake } from "./backend";
// SteamClient is a Steam-internal global injected into the CEF context; it is not fully typed
// by @decky/ui, so declare the surface we use. Signatures verified against MoonDeck + the
@@ -219,6 +219,11 @@ export async function launchStream(
port: number,
opts: LaunchOpts = {},
): Promise<void> {
// Wake-on-LAN: if this host is asleep, nudge it awake before the stream connects. Kicked off now
// so it races with the shortcut setup (near-zero added latency), and awaited just before RunGame.
// Best-effort — the flatpak client's --wake looks up the host's learned MAC (a no-op if none is
// known), and the connect that follows has its own retry window, so a failure never blocks launch.
const waking = wake(host, port).catch(() => ({ ok: false }));
const { appId, runner } = await ensureShortcut();
// Best-effort so the Deck's rich controls reach the client; no-op if the API is absent (the user
// disables Steam Input manually — see the Settings instruction).
@@ -240,6 +245,7 @@ export async function launchStream(
// KEY=value ... %command% args — %command% expands to the shortcut exe (/bin/sh); the wrapper
// script rides behind it as an argument and reads PF_* from the environment.
SteamClient.Apps.SetAppLaunchOptions(appId, `${env.join(" ")} %command% "${runner}"`);
await waking; // ensure the magic packet is out before the connect attempt
SteamClient.Apps.RunGame(gameIdFromAppId(appId), "", -1, 100);
}