Ramadhan Sjamsani
ad02ee252d
§1 notif banner: permission_handler v11 returns granted unconditionally
for Permission.notification on Android <13 because POST_NOTIFICATIONS
didn't exist as a runtime permission. Result: SHome1st amber "notifikasi
off" banner never showed on API 24-32 even when the user toggled
notifications off in Settings → Apps. Add a
NotificationManagerCompat.areNotificationsEnabled() pre-check via
flutter_local_notifications (works from API 19+) so the banner reflects
the real OS state on older Android.
§5 chat delivery: the contract is "WS when foreground, FCM when
background", but the previous build only honoured (1) — Android keeps
the TCP socket alive after the Dart isolate is paused, so backend's
`socket.readyState === 1` check returned true and FCM never fired.
Fix has five parts (all required together):
1. Customer-side lifecycle observer in client_app/main.dart closes
chatProvider's WS on paused/detached, reconnects on resumed.
2. `_appPaused` gate in main.dart suppresses the activeSessionProvider
listener's auto-reconnect (15s poll in active_session_notifier
would otherwise re-open the WS the next tick after the observer
closed it — defeating the fallback).
3. Mitra-side lifecycle observer in mitra_app/main.dart stashes
`_pausedChatSessionId`, calls mitraChatProvider.disconnect(), and
re-issues connect(saved) on resumed.
4. MitraChat gains a `_connectedSessionId` field + getter so the
observer in step 3 can read it back across disconnect (disconnect
clears it; the next connect overwrites it).
5. SearchingScreen resets pairingProvider when entering with a new
draft.paymentId — previously it retained PairingActiveData with
the *old* sessionId after a session ended, and the next pairing
flow navigated straight to that completed session showing
"Sesi sudah berakhir".
Backend additions under /internal/_test/* for assertion harness:
inspectSessionWsState + GET /ws-connection-state,
POST /send-chat-message-as-mitra (with delivered_via),
POST /send-chat-message-as-customer (with delivered_via),
POST /send-fcm-chat-message (raw FCM dispatch).
Maestro coverage:
- ts-customer-05-01: mitra → customer message when customer is
backgrounded → delivered_via=fcm.
- ts-customer-05-02: customer → mitra message when mitra is
backgrounded → delivered_via=fcm.
- ts-customer-01-01: §1 notif-denied banner on home. Documented
precondition: mitra must be force-stopped or backgrounded on the
chat screen before 05-02 runs (Maestro can only drive one --udid
per run; mitra-side lifecycle observer end-to-end is deferred).
Helper scripts under client_app/.maestro/scripts/:
inspect_ws_state.js, assert_ws_state.js,
send_chat_message_as_mitra.js, assert_delivered_via.js (takes
SENDER=mitra|customer to route to the matching backend endpoint).
README_section_05.md documents the test plan, helper scripts, and the
deferred mitra-side maestro driving. Both apps tested manually on
API 28 AVDs where FCM delivery is sub-second; API 24 has 5-30 min
heartbeats that make it impractical for FCM-related testing.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
172 lines
6.2 KiB
Dart
172 lines
6.2 KiB
Dart
import 'dart:async';
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import 'package:firebase_core/firebase_core.dart';
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import 'package:firebase_messaging/firebase_messaging.dart';
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import 'package:flutter/material.dart';
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import 'package:flutter_riverpod/flutter_riverpod.dart';
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import 'core/api/api_client_provider.dart';
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import 'core/auth/auth_notifier.dart';
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import 'core/auth/auth_providers_provider.dart';
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import 'core/auth/token_storage.dart';
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import 'core/chat/active_session_notifier.dart';
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import 'core/chat/chat_notifier.dart';
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import 'core/notifications/notification_service.dart';
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import 'core/theme/halo_theme.dart';
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import 'firebase_options.dart';
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import 'router.dart';
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void main() async {
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WidgetsFlutterBinding.ensureInitialized();
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// Pre-warm flutter_secure_storage. The first call triggers AndroidX
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// Security MasterKey generation (RSA in Keystore) — fast on hardware-backed
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// keystores but multi-second on emulator's software-emulated TEE. Kicking
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// it off here in parallel with Firebase init hides the latency behind the
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// splash instead of paying it on the user's first interaction.
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unawaited(TokenStorage().readRefreshToken());
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await Firebase.initializeApp(options: DefaultFirebaseOptions.currentPlatform);
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final messaging = FirebaseMessaging.instance;
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await messaging.requestPermission();
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runApp(const ProviderScope(child: App()));
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}
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class App extends ConsumerStatefulWidget {
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const App({super.key});
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@override
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ConsumerState<App> createState() => _AppState();
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}
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class _AppState extends ConsumerState<App> with WidgetsBindingObserver {
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bool _fcmRegistered = false;
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bool _authProvidersPreloaded = false;
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// Tracks whether the OS has paused/detached this isolate. The
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// activeSessionProvider runs a 15s poll (see active_session_notifier.dart);
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// each tick fires the listener below, which would otherwise re-open the
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// chat WebSocket immediately after didChangeAppLifecycleState closed it
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// — defeating the WS→FCM fallback. We gate the reconnect on this flag so
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// the WS stays closed while the app is backgrounded, even as polling
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// continues.
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bool _appPaused = false;
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@override
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void initState() {
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super.initState();
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WidgetsBinding.instance.addObserver(this);
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// Phase 4: preload server-driven auth-provider gating once on cold start.
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// Cached via @Riverpod(keepAlive: true) — subsequent reads are instant.
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WidgetsBinding.instance.addPostFrameCallback((_) {
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if (_authProvidersPreloaded) return;
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_authProvidersPreloaded = true;
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ref.read(authProvidersProvider.future);
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});
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}
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@override
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void dispose() {
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WidgetsBinding.instance.removeObserver(this);
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super.dispose();
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}
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@override
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void didChangeAppLifecycleState(AppLifecycleState state) {
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// Background → close the chat WebSocket so backend `sendMessage` falls
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// back to FCM (chat.service.js:51 — `if (!delivered) sendPushNotification`).
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// Without this, Android keeps the TCP socket alive after the Dart
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// isolate is paused, so the backend believes the customer is online and
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// never fires the push — the user sees no alert until they reopen the
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// app. See flow_customer.mermaid.md §5 (chat room) and the
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// implementation note in main.dart's activeSession listener.
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//
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// Foreground → re-establish the WS for the current active session, if
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// any. activeSessionProvider's last cached snapshot drives the target
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// session id; the chat notifier's `connectIfNotConnected` is a no-op
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// when the same session is already wired up.
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final notifier = ref.read(chatProvider.notifier);
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if (state == AppLifecycleState.paused ||
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state == AppLifecycleState.detached) {
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_appPaused = true;
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if (notifier.connectedSessionId != null) {
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notifier.disconnect();
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}
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} else if (state == AppLifecycleState.resumed) {
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_appPaused = false;
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final snapshot = ref.read(activeSessionProvider).valueOrNull;
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final sessionId = snapshot?.sessionId;
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if (sessionId != null &&
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(snapshot?.hasSession ?? false) &&
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notifier.connectedSessionId != sessionId) {
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notifier.connectIfNotConnected(sessionId);
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}
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}
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}
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void _registerFcmToken() {
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if (_fcmRegistered) return;
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_fcmRegistered = true;
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Future(() async {
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try {
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final token = await FirebaseMessaging.instance.getToken();
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if (token != null) {
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await ref.read(apiClientProvider).post('/api/shared/device-token', data: {'token': token});
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}
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} catch (_) {
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_fcmRegistered = false;
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}
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});
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}
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@override
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Widget build(BuildContext context) {
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// FCM registration on auth.
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ref.listen(authProvider, (prev, next) {
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final data = next.valueOrNull;
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if (data is AuthAuthenticatedData || data is AuthAnonymousData) {
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_registerFcmToken();
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} else {
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// Logged out (or initial) — ensure the chat WS is closed.
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ref.read(chatProvider.notifier).disconnect();
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}
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});
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// Global chat WebSocket lifecycle: connect whenever the user has an
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// active session, regardless of which screen is mounted. The chat screen
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// only joins this connection — it doesn't own it. FCM remains the
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// background-only fallback.
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//
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// Gate on `_appPaused`: activeSessionProvider runs a 15s poll that fires
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// this listener on every tick. If we reconnect while the app is
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// backgrounded, we undo the disconnect that didChangeAppLifecycleState
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// just performed and the FCM fallback never triggers for messages that
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// arrive during background.
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ref.listen(activeSessionProvider, (prev, next) {
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final snapshot = next.valueOrNull;
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final notifier = ref.read(chatProvider.notifier);
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if (snapshot == null || !snapshot.hasSession) {
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if (notifier.connectedSessionId != null) {
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notifier.disconnect();
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}
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return;
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}
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if (_appPaused) return;
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final sessionId = snapshot.sessionId;
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if (sessionId != null && notifier.connectedSessionId != sessionId) {
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notifier.connectIfNotConnected(sessionId);
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}
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});
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final router = ref.watch(routerProvider);
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NotificationService.initialize(router);
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return MaterialApp.router(
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title: 'Halo Bestie',
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theme: haloThemeData(),
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routerConfig: router,
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);
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}
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}
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