const timestamp = '__timestamp__'; const ASSETS = `cache${timestamp}`; // `shell` is an array of all the files generated by webpack, // `assets` is an array of everything in the `assets` directory const to_cache = __shell__.concat(__assets__); const cached = new Set(to_cache); // `routes` is an array of `{ pattern: RegExp }` objects that // match the pages in your app const routes = __routes__; self.addEventListener('install', event => { event.waitUntil( caches .open(ASSETS) .then(cache => cache.addAll(to_cache)) .then(() => { self.skipWaiting(); }) ); }); self.addEventListener('activate', event => { event.waitUntil( caches.keys().then(async keys => { // delete old caches for (const key of keys) { if (key !== ASSETS) await caches.delete(key); } await self.clients.claim(); }) ); }); self.addEventListener('fetch', event => { const url = new URL(event.request.url); // don't try to handle e.g. data: URIs if (!url.protocol.startsWith('http')) return; // always serve assets and webpack-generated files from cache if (cached.has(url.pathname)) { event.respondWith(caches.match(event.request)); return; } // for pages, you might want to serve a shell `index.html` file, // which Sapper has generated for you. It's not right for every // app, but if it's right for yours then uncomment this section /* if (url.origin === self.origin && routes.find(route => route.pattern.test(url.pathname))) { event.respondWith(caches.match('/index.html')); return; } */ // for everything else, try the network first, falling back to // cache if the user is offline. (If the pages never change, you // might prefer a cache-first approach to a network-first one.) event.respondWith( caches .open(`offline${timestamp}`) .then(async cache => { try { const response = await fetch(event.request); cache.put(event.request, response.clone()); return response; } catch(err) { const response = await cache.match(event.request); if (response) return response; throw err; } }) ); });