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Web Push notifications is a web browser messaging protocol defined by the W3C.
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Discussions of this interesting technology are clouded because of a
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terminological morass.
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To understand how Web Push operates, we need to observe that are three (and
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potentially four) parties involved. These are:
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1) The user's web browser. Let's call that BROWSER
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2) The Web Push Service Provider which is operated by the organization
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controlling the web browser's source code. Here named PROVIDER. An example of a
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PROVIDER is FCM (Firebase Cloud Messaging) which is owned by Google.
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3) The Web Application that a user is visiting from their web browser. Let's
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call this the SERVICE (short for Web Push application service)
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[4) A Custom Web Push Intermediary Service, either third party or self-hosted.
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Called INTERMEDIARY here. FCM also may fit in this category if the SERVICE
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has an API key from FCM.]
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The workflow works like this:
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BROWSER visits a website which hosts a SERVICE.
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The SERVICE asks BROWSER for its permission to subscribe to messages coming
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from the SERVICE.
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The SERVICE will provide context and obtain explicit permission before prompting
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for notification permission:
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In order to provide this context and explict permission a two-step opt-in process
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where the user is first presented with a pre-permission dialog box that explains
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what the notifications are for and why they are useful. This may help reduce the
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possibility of users clicking "don't allow".
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Now, to explain what happens in Typescript, we can activate a browser's
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permission dialogue in this manner:
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```
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function askPermission(): Promise<NotificationPermission> {
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return new Promise(function(resolve, reject) {
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const permissionResult = Notification.requestPermission(function(result) {
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resolve(result);
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});
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if (permissionResult) {
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permissionResult.then(resolve, reject);
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}
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}).then(function(permissionResult) {
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if (permissionResult !== 'granted') {
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throw new Error("We weren't granted permission.");
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}
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return permissionResult;
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});
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}
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```
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The Notification.permission property indicates the permission level for the
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current session and returns one of the following string values:
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'granted': The user has granted permission for notifications.
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'denied': The user has denied permission for notifications.
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'default': The user has not made a choice yet.
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Once the user has granted permission, the client application registers a service
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worker using the `ServiceWorkerRegistration` API.
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The `ServiceWorkerRegistration` API is accessible via the browser's `navigator`
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object and the `navigator.serviceWorker` child object and ultimately directly
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accessible via the navigator.serviceWorker.register method which also creates
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the service worker or the navigator.serviceWorker.getRegistration method.
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Once you have a `ServiceWorkerRegistration` object, that object will provide a
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child object named `pushManager` through which subscription and management of
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subscriptions may be done.
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Let's go through the `register` method first:
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```
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navigator.serviceWorker.register('sw.js', { scope: '/' })
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.then(function(registration) {
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console.log('Service worker registered successfully:', registration);
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})
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.catch(function(error) {
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console.log('Service worker registration failed:', error);
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});
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```
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The `sw.js` file contains the logic for what a service worker should do.
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It executes in a separate thread of execution from the web page but provides a
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means of communicating between itself and the web page via messages.
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Note that there is a scope can specify what network requests it may
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intercept.
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The Vue project already has its own service worker but it is possible to
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create multiple service worker files by registering them on different scopes.
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It is useful architecturally to specify a separate server worker file.
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In the case of web push, the path of the scope only has reference to the domain
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of the service worker and no relationship to the pathing for the web push
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server. In order to specify more than one server workers each needs to be on
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different scope paths!
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Here's a version which can be used for testing locally. Note there can be
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caching issues in your browser! Incognito is highly recommended.
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sw-dev.ts
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self.addEventListener('push', function(event: PushEvent) {
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console.log('Received a push message', event);
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const title = 'Push message';
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const body = 'The message body';
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const icon = '/images/icon-192x192.png';
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const tag = 'simple-push-demo-notification-tag';
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event.waitUntil(
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self.registration.showNotification(title, {
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body: body,
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icon: icon,
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tag: tag
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})
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);
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});
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vue.config.js
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module.exports = {
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pwa: {
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workboxOptions: {
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importScripts: ['sw-dev.ts']
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}
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}
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}
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Once we have the service worker registered and the ServiceWorkerRegistration is
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returned, we then have access to a `pushManager` property object. This property
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allows us to continue with the web push work flow.
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In the next step, BROWSER requests a data structure from SERVICE called a VAPID
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(Voluntary Application Server Identification) which is the public key from a
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key-pair.
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The VAPID is a specification used to identify the application server (i.e. the
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SERVICE server) that is sending push messages through a push PROVIDER. It's an
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authentication mechanism that allows the server to demonstrate its identity to
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the push PROVIDER, by use of a public and private key pair. These keys are used
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by the SERVICE in encrypting messages being sent to the BROWSER, as well as
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being used by the BROWSER in decrypting the messages coming from the SERVICE.
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The VAPID (Voluntary Application Server Identification) key provides more
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security and authenticity for web push notifications in the following ways:
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Identifying the Application Server:
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The VAPID key is used to identify the application server that is sending
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the push notifications. This ensures that the push notifications are
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authentic and not sent by a malicious third party.
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Encrypting the Messages:
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The VAPID key is used to sign the push notifications sent by the
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application server, ensuring that they are not tampered with during
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transmission. This provides an additional layer of security and
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authenticity for the push notifications.
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Adding Contact Information:
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The VAPID key allows a web application to add contact information to
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the push messages sent to the browser push service. This enables the
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push service to contact the application server in case of need or
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provide additional debug information about the push messages.
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Improving Delivery Rates:
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Using the VAPID key can help improve the overall performance of web push
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notifications, specifically improving delivery rates. By streamlining the
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delivery process, the chance of delivery errors along the way is lessened.
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If the BROWSER accepts and grants permission to subscribe to receiving from the
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SERVICE Web Push messages, then the BROWSER makes a subscription request to
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PROVIDER which creates and stores a special URL for that BROWSER.
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Here's a bit of code describing the above process:
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// b64 is the VAPID
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b64 = 'BEl62iUYgUivxIkv69yViEuiBIa-Ib9-SkvMeAtA3LFgDzkrxZJjSgSnfckjBJuBkr3qBUYIHBQFLXYp5Nksh8U';
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const applicationServerKey = urlBase64ToUint8Array(b64);
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const options: PushSubscriptionOptions = {
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userVisibleOnly: true,
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applicationServerKey: applicationServerKey
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};
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registration.pushManager.subscribe(options)
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.then(function(subscription) {
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console.log('Push subscription successful:', subscription);
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})
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.catch(function(error) {
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console.error('Push subscription failed:', error);
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});
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In this example, the `applicationServerKey` variable contains the VAPID public
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key, which is converted to a `Uint8Array` using a function such as this:
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```
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export function toUint8Array(base64String: string, atobFn: typeof atob): Uint8Array {
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const padding = "=".repeat((4 - (base64String.length % 4)) % 4);
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const base64 = (base64String + padding).replace(/-/g, "+").replace(/_/g, "/");
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const rawData = atobFn(base64);
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const outputArray = new Uint8Array(rawData.length);
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for (let i = 0; i < rawData.length; ++i) {
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outputArray[i] = rawData.charCodeAt(i);
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}
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return outputArray;
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}
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```
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The options object is of type `PushSubscriptionOptions`, which includes the
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`userVisibleOnly` and `applicationServerKey` (ie VAPID public key) properties.
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The subscribe() method returns a `Promise` that resolves to a `PushSubscription`
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object containing details of the subscription, such as the endpoint URL and the
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public key. The returned data would have a form like this:
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{
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"endpoint": "https://some.pushservice.com/some/unique/identifier",
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"expirationTime": null,
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"keys": {
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"p256dh": "some_base64_encoded_string",
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"auth": "some_other_base64_encoded_string"
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}
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}
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endpoint: A string representing the endpoint URL for the push service. This
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URL is essentially the push service address to which the push message would
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be sent for this particular subscription.
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expirationTime: A DOMHighResTimeStamp (which is basically a number or null)
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representing the subscription's expiration time in milliseconds since
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01 January, 1970 UTC. This can be null if the subscription never expires.
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options: An object that contains the options used for creating the
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subscription. This object itself has the following sub-properties:
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applicationServerKey: A public key your push service uses for application
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server identification. This is normally a Uint8Array.
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userVisibleOnly: A boolean value indicating that the push messages that
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are sent should be made visible to the user through a notification.
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This is often set to true.
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The BROWSER will, internally, then use that URL to check for incoming messages
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by way of the service worker we described earlier. The BROWSER also sends this
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URL back to SERVICE which will use that URL to send messages to the BROWSER via
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the PROVIDER.
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Ultimately, the actual internal process of receiving messages varies from BROWSER
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to BROWSER. Approaches vary from long-polling HTTP connections to WebSockets. A
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lot of handwaving and voodoo magic. The bottom line is that the BROWSER itself
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manages the connection to the PROVIDER whilst the SERVICE must send messages
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via the PROVIDER so that they reach the BROWSER service worker.
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Just to remind us that in our service worker our code for receiving messages
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will look something like this:
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self.addEventListener('push', function(event: PushEvent) {
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console.log('Received a push message', event);
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const title = 'Push message';
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const body = 'The message body';
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const icon = '/images/icon-192x192.png';
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const tag = 'simple-push-demo-notification-tag';
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event.waitUntil(
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self.registration.showNotification(title, {
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body: body,
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icon: icon,
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tag: tag
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})
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);
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});
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Now to address the issue of receiving notification messages on mobile devices.
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It should be noted that Web Push messages are only received when BROWSER is
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open, except in the cases of Chrome and Firefox mobile BROWSERS. In iOS, the
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mobile application (in our case a PWA) must be added to the Home Screen and
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permissions must be explicitly granted that allow the application to receive
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push notifications. Further, with an iOS device the user must enable wake on
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notification to have their device light-up when it receives a notification
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(https://support.apple.com/enus/HT208081).
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So what about #4? - The INTERMEDIARY. Well, It is possible under very special
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circumstances to create your own Web Push PROVIDER. The only case I've found so
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far relates to making an Android Custom ROM. (An Android Custom ROM is a
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customized version of the Android Operating System.) There are open source
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IMTERMEDIARY products such as UnifiedPush (https://unifiedpush.org/) which can
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fulfill this role. If you are using iOS you are not permitted to make or use
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your own custom Web Push PROVIDER. Apple will never allow anyone to do that.
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Apple has none of its own.
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It is, however, possible to have a sort of proxy working between your SERVICE
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and FCM (or iOS). Services that mash up various Push notification services (like
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OneSignal) can perform in the role of such proxies.
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#4 -The INTERMEDIARY- doesn't appear to be anything we should be spending our
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time on.
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