Maxim Salnikov

@webmaxru

Diving deep, deep offline without drowning –

the web can do it!

What is an offline-ready web application

And how to build it today

Maxim Salnikov

  • PWA Slack organizer

  • PWA Oslo / PWA London meetups organizer

  • PWA speaker and trainer

  • Google Dev Expert in Web Technologies

Azure Developer Technical Lead at Microsoft

  1. The World Wide Web is the New Software Platform

  2. The Web Browser is the New Operating System

  3. JavaScript is the de facto Programming Language of the Web 

January, 2008

Web as an app platform is amazing

Browsers

  • Almost on every device with UI

  • Evergreen

  • APIs to access device hardware

Web as an app platform is amazing

JavaScript

Browsers

  • Versatile language

  • Powerful tooling

  • Evolving in a smart way

Web as an app platform is amazing

JavaScript

JS Engines

Browsers

  • Focus on the performance

  • Embedding possibilities

Web as an app platform is amazing

JavaScript

JS Engines

UI Layer

Browsers

  • Convenient tools to build responsive UIs

  • Focus on accessibility

  • Variety of high-quality components and libraries

Web as an app platform is amazing

Community

JavaScript

JS Engines

UI Layer

Browsers

69.7%

Web as an app platform is amazing

Community

JavaScript

JS Engines

UI Layer

Browsers

Issues?

Historically depends on the "connection status"

Solutions

Caching

Installing

  • HTTP Cache?

  • AppCache

  • Save page as... (complete)

  • Chrome Apps

  • Electron

  • NativeScript, React Native

What is PWA at all?

Progressive web apps use modern web APIs along with traditional progressive enhancement strategy to create cross-platform web applications.

These apps work everywhere and provide several features that give them the same user experience advantages as native apps.

works everywhere*

* but not everything**

natively

** use progressive enhancement strategy

Offline-

ready  

<

>

=

=

+

Application shell

Web App Manifest

Fast, responsive, mobile-first

Served via HTTPS

Offlinization Task #1

Application UI (App Shell)

We want our offline-ready webapp to

  1. Be available itself regardless of the connection status and be always updated

  2. Thoughtfully collect and store data received from the network during runtime (API, CDN, etc) to reuse it later

  3. Preserve the actions and data generated by user while offline to automatically sync it after connection restored

  4. Keep full control on fetching larger resources, provide progress info, have an access to downloaded data

Exactly like native apps do! (or better)

Let's build an App shell

My App

  • Define the minimal set of resources we need, and keep versioning in mind

  • On the first app load, explicitly put these resources into the Cache Storage

  • On the next app loads, serve resources from this cache before going to the network

  • At the same time, check if the never version is available. If yes, update the cache

Service Worker 101

Logically

Physically

-file(s)

App

Service-worker

Browser/OS

Event-driven worker

Cache

fetch
push
sync

Managing cache

self.addEventListener('install', event => {
  
    // Use Cache API to cache html/js/css

})
self.addEventListener('activate', event => {
  
    // Clean the cache from the obsolete app shell versions

})

handmade-service-worker.js

In the real world

  • Can't add opaque responses directly

  • Redirected requests should be managed

  • Always creating a new version of cache and deleting the old one is not optimal

  • Control over cache size is required

  • Cache invalidation for runtime caching is complex

  • ...

Intercepting requests

self.addEventListener('fetch', event => {

  if (event.request.url.indexOf('/api') != -1) {
    event.respondWith(
      // Network-First Strategy (for API?)
    )
  } else {
    event.respondWith(
      // Cache-First Strategy (for app shell?)
    )
  }
})

handmade-service-worker.js

In the real world

  • All kinds of fallbacks needed for the strategies

  • There are more complex strategies like Stale-While-Revalidate

  • Good to have some form of the routing

  • Good to have the possibility to provide some extra settings for different resource groups

  • ...

  • Application shell

  • Runtime caching

  • Replaying failed network requests

  • Offline Google Analytics

  • Broadcasting updates

Have our own service worker!

Working modes

  • Workbox CLI

  • Webpack plugin

  • Node module

# Installing the Workbox Node module
$ npm install workbox-build --save-dev

Build script

// We will use injectManifest mode
const {injectManifest} = require('workbox-build')

// Sample configuration with the basic options
var workboxConfig = {...}

// Calling the method and output the result
injectManifest(workboxConfig).then(({count, size}) => {
    console.log(`Generated ${workboxConfig.swDest},
    which will precache ${count} files, ${size} bytes.`)
})

workbox-build-inject.js

Build script configuration

// Sample configuration with the basic options
var workboxConfig = {
  globDirectory: 'dist/',
  globPatterns: [
    '**/*.{txt,png,ico,html,js,json,css}'
  ],
  swSrc: 'src/workbox-service-worker.js',
  swDest: 'dist/sw.js'
}

workbox-build-inject.js

Application Shell

// Importing Workbox itself from Google CDN
importScripts('https://googleapis.com/.../workbox-sw.js');

// Precaching and setting up the routing
workbox.precaching.precacheAndRoute([])

src/workbox-service-worker.js

Caching, serving, managing versions

Precaching manifest

[
  {
    "url": "index.html",
    "revision": "34c45cdf166d266929f6b532a8e3869e"
  },
  {
    "url": "favicon.ico",
    "revision": "b9aa7c338693424aae99599bec875b5f"
  },
  ...
]

Build flow integration

{
  "scripts": {
    "build-pwa": "npm run build-app &&
                  node workbox-build-inject.js"
  }
}

package.json

Offlinization Task #1.1

Better UX for update flow

App version updates

v1

v2

v1

v1

v2

Deployed

Displayed

v2

A new version of the app is available. Click to refresh.

const updateChannel = new BroadcastChannel('app-shell');

updateChannel.addEventListener('message', event => {
    // Inform about the new version & prompt to reload
});

Option #1: BroadcastChannel

main.js

workbox.precaching.addPlugins([
    new workbox.broadcastUpdate.Plugin('app-shell')
]);

src/workbox-service-worker.js

3

Option #2: Service worker lifecycle

Option #3: workbox-window from v4

Offlinization Task #2

Application Data

Intercepting requests

self.addEventListener('fetch', event => {

  if (event.request.url.indexOf('/api/breakingnews') != -1) {
    event.respondWith(
      // Network-First Strategy
    )
  } else if (event.request.url.indexOf('/api/archive') != -1 {
    event.respondWith(
      // Cache-First Strategy
    )
  }
})

handmade-service-worker.js

Routes and strategies

workbox.routing.registerRoute(
  new RegExp('/api/breakingnews'),
  new workbox.strategies.NetworkFirst()
);

src/workbox-service-worker.js

workbox.routing.registerRoute(
  new RegExp('/api/archive'),
  new workbox.strategies.CacheFirst({
    plugins: [...]
  })
);

Strategies

  • CacheFirst

  • CacheOnly

  • NetworkFirst

  • NetworkOnly

  • StaleWhileRevalidate

Plugins

  • Expiration

  • CacheableResponse

  • BroadcastUpdate

  • BackgroundSync

  • ...your own plugin?

Offlinization Task #3

Save and sync offline actions

Background sync

  • Deferring the actions until the user has stable connectivity

  • The sync will be performed even when the application is not running

navigator.serviceWorker.ready.then( swRegistration => {
  return swRegistration.sync.register('myFirstSync');
});

main.js

self.addEventListener('sync', event => {
  if (event.tag == 'myFirstSync') {
    event.waitUntil(
        // Do useful things...
    );
  }
});

handmade-service-worker.js

const postTweetPlugin =
    new workbox.backgroundSync.Plugin('tweetsQueue', {
        maxRetentionTime: 24 * 60 // Max retry period
    })

src/workbox-service-worker.js

workbox.routing.registerRoute(
  /(http[s]?:\/\/)?([^\/\s]+\/)post-tweet/,
  new workbox.strategies.NetworkOnly({
    plugins: [postTweetPlugin]
  }),
  'POST'
)

Offlinization Task #4

Full control over downloads

Background fetch

  • Dealing with poor/no connectivity by pausing/resuming the download/upload

  • App has an access to the fetched resources and to the status/progress of the fetch

  • Fetches (requests & responses) are alive after user closed all application tabs

  • Browser/OS shows UI to indicate the progress of the fetch, and allow the user to pause/abort

const registration = await navigator.serviceWorker.ready;
await registration.backgroundFetch.fetch(
  'my-series',
  ['s01e01.mpg', 's01e02.mpg'],
  {
    title: 'Downloading My Series',
    downloadTotal: 1000000000
   }
);

main.js

const bgFetches =
  await registration.backgroundFetch.getIds();
console.log(bgFetches);
addEventListener('backgroundfetchsuccess', event => {
  event.waitUntil(
    (async function() {
      try {
        // Put the responses to Cache Storage
        ...
        await event.updateUI({ title: `Downloaded!` });
      } catch (err) {
        await event.updateUI({ title: `Fail: ${err}` });
      }
    })()
  );
});

src/service-worker.js

More details

Summary

  • The web is a full-fledged application platform

  • Foundations of offline-ready mechanisms are in production in all modern browsers

  • Awesome tools are also available

  • Keeping focus on user needs and experience is the key

"Progressive Web Apps State of the Union" by Dominick Ng at BlinkOn 10

  • 2000 developers

  • Major browsers/frameworks/libs reps

Thank you!

Maxim Salnikov

@webmaxru

Questions?

Maxim Salnikov

@webmaxru

#WSH?

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