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https://github.com/DioxusLabs/dioxus
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459d8d69a7
* examples: add PWA w/ Dioxus CLI template * ci: properly set workspace and dependencies
198 lines
7.9 KiB
JavaScript
198 lines
7.9 KiB
JavaScript
"use strict";
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//console.log('WORKER: executing.');
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/* A version number is useful when updating the worker logic,
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allowing you to remove outdated cache entries during the update.
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*/
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var version = 'v1.0.0::';
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/* These resources will be downloaded and cached by the service worker
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during the installation process. If any resource fails to be downloaded,
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then the service worker won't be installed either.
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*/
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var offlineFundamentals = [
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// add here the files you want to cache
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'favicon.ico'
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];
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/* The install event fires when the service worker is first installed.
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You can use this event to prepare the service worker to be able to serve
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files while visitors are offline.
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*/
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self.addEventListener("install", function (event) {
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//console.log('WORKER: install event in progress.');
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/* Using event.waitUntil(p) blocks the installation process on the provided
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promise. If the promise is rejected, the service worker won't be installed.
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*/
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event.waitUntil(
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/* The caches built-in is a promise-based API that helps you cache responses,
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as well as finding and deleting them.
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*/
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caches
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/* You can open a cache by name, and this method returns a promise. We use
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a versioned cache name here so that we can remove old cache entries in
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one fell swoop later, when phasing out an older service worker.
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*/
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.open(version + 'fundamentals')
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.then(function (cache) {
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/* After the cache is opened, we can fill it with the offline fundamentals.
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The method below will add all resources in `offlineFundamentals` to the
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cache, after making requests for them.
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*/
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return cache.addAll(offlineFundamentals);
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})
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.then(function () {
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//console.log('WORKER: install completed');
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})
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);
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});
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/* The fetch event fires whenever a page controlled by this service worker requests
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a resource. This isn't limited to `fetch` or even XMLHttpRequest. Instead, it
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comprehends even the request for the HTML page on first load, as well as JS and
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CSS resources, fonts, any images, etc.
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*/
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self.addEventListener("fetch", function (event) {
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//console.log('WORKER: fetch event in progress.');
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/* We should only cache GET requests, and deal with the rest of method in the
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client-side, by handling failed POST,PUT,PATCH,etc. requests.
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*/
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if (event.request.method !== 'GET') {
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/* If we don't block the event as shown below, then the request will go to
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the network as usual.
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*/
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//console.log('WORKER: fetch event ignored.', event.request.method, event.request.url);
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return;
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}
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/* Similar to event.waitUntil in that it blocks the fetch event on a promise.
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Fulfillment result will be used as the response, and rejection will end in a
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HTTP response indicating failure.
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*/
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event.respondWith(
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caches
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/* This method returns a promise that resolves to a cache entry matching
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the request. Once the promise is settled, we can then provide a response
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to the fetch request.
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*/
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.match(event.request)
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.then(function (cached) {
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/* Even if the response is in our cache, we go to the network as well.
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This pattern is known for producing "eventually fresh" responses,
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where we return cached responses immediately, and meanwhile pull
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a network response and store that in the cache.
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Read more:
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https://ponyfoo.com/articles/progressive-networking-serviceworker
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*/
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var networked = fetch(event.request)
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// We handle the network request with success and failure scenarios.
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.then(fetchedFromNetwork, unableToResolve)
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// We should catch errors on the fetchedFromNetwork handler as well.
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.catch(unableToResolve);
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/* We return the cached response immediately if there is one, and fall
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back to waiting on the network as usual.
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*/
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//console.log('WORKER: fetch event', cached ? '(cached)' : '(network)', event.request.url);
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return cached || networked;
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function fetchedFromNetwork(response) {
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/* We copy the response before replying to the network request.
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This is the response that will be stored on the ServiceWorker cache.
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*/
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var cacheCopy = response.clone();
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//console.log('WORKER: fetch response from network.', event.request.url);
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caches
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// We open a cache to store the response for this request.
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.open(version + 'pages')
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.then(function add(cache) {
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/* We store the response for this request. It'll later become
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available to caches.match(event.request) calls, when looking
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for cached responses.
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*/
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cache.put(event.request, cacheCopy);
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})
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.then(function () {
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//console.log('WORKER: fetch response stored in cache.', event.request.url);
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});
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// Return the response so that the promise is settled in fulfillment.
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return response;
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}
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/* When this method is called, it means we were unable to produce a response
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from either the cache or the network. This is our opportunity to produce
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a meaningful response even when all else fails. It's the last chance, so
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you probably want to display a "Service Unavailable" view or a generic
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error response.
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*/
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function unableToResolve() {
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/* There's a couple of things we can do here.
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- Test the Accept header and then return one of the `offlineFundamentals`
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e.g: `return caches.match('/some/cached/image.png')`
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- You should also consider the origin. It's easier to decide what
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"unavailable" means for requests against your origins than for requests
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against a third party, such as an ad provider.
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- Generate a Response programmaticaly, as shown below, and return that.
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*/
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//console.log('WORKER: fetch request failed in both cache and network.');
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/* Here we're creating a response programmatically. The first parameter is the
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response body, and the second one defines the options for the response.
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*/
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return new Response('<h1>Service Unavailable</h1>', {
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status: 503,
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statusText: 'Service Unavailable',
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headers: new Headers({
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'Content-Type': 'text/html'
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})
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});
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}
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})
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);
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});
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/* The activate event fires after a service worker has been successfully installed.
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It is most useful when phasing out an older version of a service worker, as at
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this point you know that the new worker was installed correctly. In this example,
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we delete old caches that don't match the version in the worker we just finished
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installing.
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*/
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self.addEventListener("activate", function (event) {
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/* Just like with the install event, event.waitUntil blocks activate on a promise.
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Activation will fail unless the promise is fulfilled.
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*/
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//console.log('WORKER: activate event in progress.');
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event.waitUntil(
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caches
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/* This method returns a promise which will resolve to an array of available
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cache keys.
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*/
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.keys()
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.then(function (keys) {
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// We return a promise that settles when all outdated caches are deleted.
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return Promise.all(
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keys
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.filter(function (key) {
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// Filter by keys that don't start with the latest version prefix.
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return !key.startsWith(version);
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})
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.map(function (key) {
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/* Return a promise that's fulfilled
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when each outdated cache is deleted.
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*/
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return caches.delete(key);
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})
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);
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})
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.then(function () {
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//console.log('WORKER: activate completed.');
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})
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);
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});
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