--- name: capacitor-offline-first description: Guide to building offline-first Capacitor apps with data synchronization, caching strategies, and conflict resolution. Covers Fast SQL, service workers, and network detection. Use this skill when users need their app to work without internet. --- # Offline-First Capacitor Apps Build apps that work seamlessly with or without internet connectivity. ## When to Use This Skill - User needs offline support - User asks about data sync - User wants caching - User needs local database - User has connectivity issues ## Offline-First Architecture ``` ┌─────────────────────────────────────────┐ │ UI Layer │ ├─────────────────────────────────────────┤ │ Service Layer │ │ ┌─────────────┐ ┌─────────────────┐ │ │ │ Online Mode │ │ Offline Mode │ │ │ └──────┬──────┘ └────────┬────────┘ │ ├─────────┼──────────────────┼────────────┤ │ │ Sync Manager │ │ │ └────────┬─────────┘ │ ├──────────────────┼──────────────────────┤ │ ┌───────────────┴───────────────────┐ │ │ │ Local Database │ │ │ │ (Fast SQL / IndexedDB) │ │ │ └───────────────────────────────────┘ │ └─────────────────────────────────────────┘ ``` ## Network Detection ### Using Capacitor Network Plugin ```bash npm install @capacitor/network npx cap sync ``` ```typescript import { Network } from '@capacitor/network'; // Check current status const status = await Network.getStatus(); console.log('Connected:', status.connected); console.log('Connection type:', status.connectionType); // Listen for changes Network.addListener('networkStatusChange', (status) => { console.log('Network status changed:', status.connected); if (status.connected) { // Back online - sync data syncManager.syncPendingChanges(); } else { // Offline - show indicator showOfflineIndicator(); } }); ``` ### Network-Aware Service ```typescript import { Network } from '@capacitor/network'; class NetworkAwareService { private isOnline = true; constructor() { this.init(); } private async init() { const status = await Network.getStatus(); this.isOnline = status.connected; Network.addListener('networkStatusChange', (status) => { this.isOnline = status.connected; }); } async fetch(url: string, options?: RequestInit): Promise { if (!this.isOnline) { // Return cached data return this.getCachedData(url); } try { const response = await fetch(url, options); const data = await response.json(); // Cache the response await this.cacheData(url, data); return data; } catch (error) { // Network error - try cache return this.getCachedData(url); } } } ``` ## Local Database with Fast SQL ### Installation ```bash npm install @capgo/capacitor-fast-sql npx cap sync ``` Before using Fast SQL in production, complete the required platform setup: - iOS: allow localhost networking for the plugin transport. - Android: add the localhost cleartext exception required by the plugin. - Web: install `sql.js` if the app needs the web fallback. Use the dedicated `sqlite-to-fast-sql` skill when you need the full platform checklist. ### Database Setup ```typescript import { KeyValueStore } from '@capgo/capacitor-fast-sql'; class Database { private store: Awaited> | null = null; async open() { if (this.store) return; this.store = await KeyValueStore.open({ database: 'myapp', store: 'data', encrypted: false, }); } async set(key: string, value: any) { await this.open(); await this.store!.set(key, value); } async get(key: string): Promise { await this.open(); return this.store!.get(key); } async remove(key: string) { await this.open(); await this.store!.remove(key); } async keys(): Promise { await this.open(); return this.store!.keys(); } } ``` ### Offline Data Repository ```typescript interface Entity { id: string; updatedAt: number; syncStatus: 'synced' | 'pending' | 'conflict'; } class OfflineRepository { constructor( private db: Database, private collection: string ) {} getCollection(): string { return this.collection; } async getAll(): Promise { const keys = await this.db.keys(); const items: T[] = []; for (const key of keys) { if (key.startsWith(`${this.collection}:`)) { const item = await this.db.get(key); if (item) items.push(item); } } return items; } async getById(id: string): Promise { return this.db.get(`${this.collection}:${id}`); } async save(item: T, options?: { markPending?: boolean }): Promise { item.updatedAt = Date.now(); if (options?.markPending ?? true) { item.syncStatus = 'pending'; } await this.db.set(`${this.collection}:${item.id}`, item); } async delete(id: string): Promise { // Soft delete - mark for sync const item = await this.getById(id); if (item) { item.syncStatus = 'pending'; (item as any).deleted = true; await this.db.set(`${this.collection}:${id}`, item); } } async getPending(): Promise { const all = await this.getAll(); return all.filter((item) => item.syncStatus === 'pending'); } async markSynced(id: string): Promise { const item = await this.getById(id); if (item) { item.syncStatus = 'synced'; await this.db.set(`${this.collection}:${id}`, item); } } } ``` ## Sync Manager ```typescript import { Network } from '@capacitor/network'; class SyncManager { private isSyncing = false; private syncQueue: Array<() => Promise> = []; constructor(private repositories: OfflineRepository[]) { this.setupNetworkListener(); } private setupNetworkListener() { Network.addListener('networkStatusChange', async (status) => { if (status.connected) { await this.syncAll(); } }); } async syncAll() { if (this.isSyncing) return; this.isSyncing = true; try { for (const repo of this.repositories) { await this.syncRepository(repo); } } finally { this.isSyncing = false; } } private async syncRepository(repo: OfflineRepository) { const pending = await repo.getPending(); for (const item of pending) { try { if ((item as any).deleted) { await this.deleteRemote(item); } else { await this.syncToRemote(item); } await repo.markSynced(item.id); } catch (error) { console.error('Sync failed for item:', item.id, error); // Keep as pending for retry } } // Pull remote changes await this.pullRemoteChanges(repo); } private async syncToRemote(item: any) { await fetch(`/api/${item.collection}/${item.id}`, { method: 'PUT', headers: { 'Content-Type': 'application/json' }, body: JSON.stringify(item), }); } private async deleteRemote(item: any) { await fetch(`/api/${item.collection}/${item.id}`, { method: 'DELETE', }); } private async pullRemoteChanges(repo: OfflineRepository) { const lastSync = await this.getLastSyncTime(repo); const collection = repo.getCollection(); const response = await fetch( `/api/${collection}?since=${lastSync}` ); const remoteItems = await response.json(); for (const remoteItem of remoteItems) { const localItem = await repo.getById(remoteItem.id); if (!localItem) { // New item from server await repo.save({ ...remoteItem, syncStatus: 'synced' }, { markPending: false }); } else if (localItem.syncStatus === 'synced') { // No local changes - update from server await repo.save({ ...remoteItem, syncStatus: 'synced' }, { markPending: false }); } else { // Conflict - local has pending changes await this.resolveConflict(localItem, remoteItem, repo); } } await this.setLastSyncTime(repo, Date.now()); } private async resolveConflict( local: any, remote: any, repo: OfflineRepository ) { // Last-write-wins strategy if (local.updatedAt > remote.updatedAt) { // Keep local, re-sync to server local.syncStatus = 'pending'; await repo.save(local); } else { // Server wins await repo.save({ ...remote, syncStatus: 'synced' }, { markPending: false }); } } } ``` ## Service Worker Caching ### Register Service Worker ```typescript // src/main.ts if ('serviceWorker' in navigator) { navigator.serviceWorker.register('/sw.js'); } ``` ### Service Worker with Workbox ```typescript // public/sw.js import { precacheAndRoute } from 'workbox-precaching'; import { registerRoute } from 'workbox-routing'; import { StaleWhileRevalidate, CacheFirst, NetworkFirst } from 'workbox-strategies'; // Precache static assets precacheAndRoute(self.__WB_MANIFEST); // Cache API responses registerRoute( ({ url }) => url.pathname.startsWith('/api/'), new NetworkFirst({ cacheName: 'api-cache', networkTimeoutSeconds: 5, }) ); // Cache images registerRoute( ({ request }) => request.destination === 'image', new CacheFirst({ cacheName: 'image-cache', plugins: [ { expiration: { maxEntries: 100, maxAgeSeconds: 7 * 24 * 60 * 60, // 1 week }, }, ], }) ); // Cache fonts registerRoute( ({ request }) => request.destination === 'font', new CacheFirst({ cacheName: 'font-cache', }) ); ``` ## Optimistic UI Updates ```typescript class TodoService { constructor( private repo: OfflineRepository, private syncManager: SyncManager ) {} async addTodo(text: string): Promise { const todo: Todo = { id: crypto.randomUUID(), text, completed: false, updatedAt: Date.now(), syncStatus: 'pending', }; // Save locally immediately await this.repo.save(todo); // Trigger sync in background this.syncManager.syncAll().catch(console.error); return todo; } async toggleComplete(id: string): Promise { const todo = await this.repo.getById(id); if (!todo) throw new Error('Todo not found'); todo.completed = !todo.completed; await this.repo.save(todo); this.syncManager.syncAll().catch(console.error); return todo; } } ``` ## Queue Failed Requests ```typescript class RequestQueue { private queue: QueuedRequest[] = []; constructor(private storage: Database) { this.loadQueue(); } private async loadQueue() { this.queue = await this.storage.get('requestQueue') || []; } private async saveQueue() { await this.storage.set('requestQueue', this.queue); } async enqueue(request: QueuedRequest) { this.queue.push(request); await this.saveQueue(); } async processQueue() { const status = await Network.getStatus(); if (!status.connected) return; while (this.queue.length > 0) { const request = this.queue[0]; try { await fetch(request.url, { method: request.method, headers: request.headers, body: request.body, }); this.queue.shift(); await this.saveQueue(); } catch (error) { // Stop processing on failure break; } } } } ``` ## Best Practices ### 1. Show Sync Status ```tsx function SyncIndicator() { const { isOnline, pendingChanges, isSyncing } = useSyncStatus(); if (!isOnline) { return Offline; } if (isSyncing) { return Syncing...; } if (pendingChanges > 0) { return {pendingChanges} pending; } return Synced; } ``` ### 2. Handle Conflicts Gracefully ```typescript async function handleConflict(local: Todo, remote: Todo): Promise { // Option 1: Last write wins return local.updatedAt > remote.updatedAt ? local : remote; // Option 2: Merge changes return { ...remote, ...local, updatedAt: Math.max(local.updatedAt, remote.updatedAt), }; // Option 3: Ask user const choice = await showConflictDialog(local, remote); return choice === 'local' ? local : remote; } ``` ### 3. Validate Before Sync ```typescript function validateTodo(todo: Todo): boolean { if (!todo.id || !todo.text) return false; if (todo.text.length > 500) return false; return true; } async function syncTodo(todo: Todo) { if (!validateTodo(todo)) { throw new Error('Invalid todo'); } // Proceed with sync } ``` ## Resources - Capacitor Network: https://capacitorjs.com/docs/apis/network - Workbox: https://developer.chrome.com/docs/workbox - IndexedDB: https://developer.mozilla.org/docs/Web/API/IndexedDB_API - Offline First Manifesto: http://offlinefirst.org