465 lines
17 KiB
Dart
465 lines
17 KiB
Dart
/*
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* Ansible inventory script used at Famedly GmbH for managing many hosts
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* Copyright (C) 2020 Famedly GmbH
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as
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* published by the Free Software Foundation, either version 3 of the
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* License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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*
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* You should have received a copy of the GNU Affero General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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import 'dart:convert';
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import 'package:famedlysdk/famedlysdk.dart';
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import 'package:famedlysdk/encryption.dart';
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import 'package:famedlysdk/src/utils/logs.dart';
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import 'package:test/test.dart';
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import 'package:olm/olm.dart' as olm;
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import '../fake_client.dart';
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import '../fake_matrix_api.dart';
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class MockSSSS extends SSSS {
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MockSSSS(Encryption encryption) : super(encryption);
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bool requestedSecrets = false;
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@override
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Future<void> maybeRequestAll(List<DeviceKeys> devices) async {
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requestedSecrets = true;
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final handle = open();
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handle.unlock(recoveryKey: SSSS_KEY);
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await handle.maybeCacheAll();
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}
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}
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EventUpdate getLastSentEvent(KeyVerification req) {
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final entry = FakeMatrixApi.calledEndpoints.entries
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.firstWhere((p) => p.key.contains('/send/'));
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final type = entry.key.split('/')[6];
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final content = json.decode(entry.value.first);
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return EventUpdate(
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content: {
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'event_id': req.transactionId,
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'type': type,
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'content': content,
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'origin_server_ts': DateTime.now().millisecondsSinceEpoch,
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'sender': req.client.userID,
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},
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eventType: type,
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type: 'timeline',
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roomID: req.room.id,
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);
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}
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void main() {
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/// All Tests related to the ChatTime
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group('Key Verification', () {
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var olmEnabled = true;
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try {
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olm.init();
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olm.Account();
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} catch (_) {
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olmEnabled = false;
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Logs.warning('[LibOlm] Failed to load LibOlm: ' + _.toString());
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}
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Logs.success('[LibOlm] Enabled: $olmEnabled');
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if (!olmEnabled) return;
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// key @othertest:fakeServer.notExisting
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const otherPickledOlmAccount =
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'VWhVApbkcilKAEGppsPDf9nNVjaK8/IxT3asSR0sYg0S5KgbfE8vXEPwoiKBX2cEvwX3OessOBOkk+ZE7TTbjlrh/KEd31p8Wo+47qj0AP+Ky+pabnhi+/rTBvZy+gfzTqUfCxZrkzfXI9Op4JnP6gYmy7dVX2lMYIIs9WCO1jcmIXiXum5jnfXu1WLfc7PZtO2hH+k9CDKosOFaXRBmsu8k/BGXPSoWqUpvu6WpEG9t5STk4FeAzA';
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Client client1;
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Client client2;
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test('setupClient', () async {
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client1 = await getClient();
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client2 = Client('othertestclient', httpClient: FakeMatrixApi());
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client2.database = client1.database;
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await client2.checkServer('https://fakeServer.notExisting');
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client2.connect(
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newToken: 'abc',
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newUserID: '@othertest:fakeServer.notExisting',
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newHomeserver: client2.homeserver,
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newDeviceName: 'Text Matrix Client',
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newDeviceID: 'FOXDEVICE',
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newOlmAccount: otherPickledOlmAccount,
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);
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await Future.delayed(Duration(milliseconds: 10));
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client1.verificationMethods = {
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KeyVerificationMethod.emoji,
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KeyVerificationMethod.numbers
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};
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client2.verificationMethods = {
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KeyVerificationMethod.emoji,
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KeyVerificationMethod.numbers
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};
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});
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test('Run emoji / number verification', () async {
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// for a full run we test in-room verification in a cleartext room
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// because then we can easily intercept the payloads and inject in the other client
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FakeMatrixApi.calledEndpoints.clear();
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// make sure our master key is *not* verified to not triger SSSS for now
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client1.userDeviceKeys[client1.userID].masterKey.setDirectVerified(false);
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final req1 =
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await client1.userDeviceKeys[client2.userID].startVerification();
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var evt = getLastSentEvent(req1);
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expect(req1.state, KeyVerificationState.waitingAccept);
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KeyVerification req2;
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final sub = client2.onKeyVerificationRequest.stream.listen((req) {
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req2 = req;
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});
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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await Future.delayed(Duration(milliseconds: 10));
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await sub.cancel();
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expect(req2 != null, true);
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// send ready
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FakeMatrixApi.calledEndpoints.clear();
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await req2.acceptVerification();
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evt = getLastSentEvent(req2);
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expect(req2.state, KeyVerificationState.waitingAccept);
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// send start
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req1);
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// send accept
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FakeMatrixApi.calledEndpoints.clear();
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req2);
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// send key
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req1);
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// send key
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FakeMatrixApi.calledEndpoints.clear();
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req2);
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// receive last key
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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// compare emoji
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expect(req1.state, KeyVerificationState.askSas);
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expect(req2.state, KeyVerificationState.askSas);
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expect(req1.sasTypes[0], 'emoji');
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expect(req1.sasTypes[1], 'decimal');
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expect(req2.sasTypes[0], 'emoji');
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expect(req2.sasTypes[1], 'decimal');
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// compare emoji
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final emoji1 = req1.sasEmojis;
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final emoji2 = req2.sasEmojis;
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for (var i = 0; i < 7; i++) {
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expect(emoji1[i].emoji, emoji2[i].emoji);
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expect(emoji1[i].name, emoji2[i].name);
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}
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// compare numbers
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final numbers1 = req1.sasNumbers;
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final numbers2 = req2.sasNumbers;
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for (var i = 0; i < 3; i++) {
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expect(numbers1[i], numbers2[i]);
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}
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// alright, they match
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// send mac
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FakeMatrixApi.calledEndpoints.clear();
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await req1.acceptSas();
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evt = getLastSentEvent(req1);
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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expect(req1.state, KeyVerificationState.waitingSas);
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// send mac
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FakeMatrixApi.calledEndpoints.clear();
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await req2.acceptSas();
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evt = getLastSentEvent(req2);
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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expect(req1.state, KeyVerificationState.done);
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expect(req2.state, KeyVerificationState.done);
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expect(
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client1.userDeviceKeys[client2.userID].deviceKeys[client2.deviceID]
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.directVerified,
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true);
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expect(
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client2.userDeviceKeys[client1.userID].deviceKeys[client1.deviceID]
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.directVerified,
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true);
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await client1.encryption.keyVerificationManager.cleanup();
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await client2.encryption.keyVerificationManager.cleanup();
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});
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test('ask SSSS start', () async {
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client1.userDeviceKeys[client1.userID].masterKey.setDirectVerified(true);
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await client1.encryption.ssss.clearCache();
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final req1 =
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await client1.userDeviceKeys[client2.userID].startVerification();
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expect(req1.state, KeyVerificationState.askSSSS);
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await req1.openSSSS(recoveryKey: SSSS_KEY);
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await Future.delayed(Duration(milliseconds: 10));
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expect(req1.state, KeyVerificationState.waitingAccept);
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await req1.cancel();
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await client1.encryption.keyVerificationManager.cleanup();
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});
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test('ask SSSS end', () async {
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FakeMatrixApi.calledEndpoints.clear();
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// make sure our master key is *not* verified to not triger SSSS for now
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client1.userDeviceKeys[client1.userID].masterKey.setDirectVerified(false);
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// the other one has to have their master key verified to trigger asking for ssss
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client2.userDeviceKeys[client2.userID].masterKey.setDirectVerified(true);
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final req1 =
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await client1.userDeviceKeys[client2.userID].startVerification();
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var evt = getLastSentEvent(req1);
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expect(req1.state, KeyVerificationState.waitingAccept);
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KeyVerification req2;
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final sub = client2.onKeyVerificationRequest.stream.listen((req) {
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req2 = req;
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});
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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await Future.delayed(Duration(milliseconds: 10));
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await sub.cancel();
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expect(req2 != null, true);
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// send ready
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FakeMatrixApi.calledEndpoints.clear();
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await req2.acceptVerification();
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evt = getLastSentEvent(req2);
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expect(req2.state, KeyVerificationState.waitingAccept);
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// send start
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req1);
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// send accept
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FakeMatrixApi.calledEndpoints.clear();
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req2);
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// send key
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req1);
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// send key
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FakeMatrixApi.calledEndpoints.clear();
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req2);
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// receive last key
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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// compare emoji
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expect(req1.state, KeyVerificationState.askSas);
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expect(req2.state, KeyVerificationState.askSas);
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// compare emoji
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final emoji1 = req1.sasEmojis;
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final emoji2 = req2.sasEmojis;
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for (var i = 0; i < 7; i++) {
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expect(emoji1[i].emoji, emoji2[i].emoji);
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expect(emoji1[i].name, emoji2[i].name);
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}
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// compare numbers
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final numbers1 = req1.sasNumbers;
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final numbers2 = req2.sasNumbers;
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for (var i = 0; i < 3; i++) {
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expect(numbers1[i], numbers2[i]);
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}
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// alright, they match
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client1.userDeviceKeys[client1.userID].masterKey.setDirectVerified(true);
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await client1.encryption.ssss.clearCache();
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// send mac
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FakeMatrixApi.calledEndpoints.clear();
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await req1.acceptSas();
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evt = getLastSentEvent(req1);
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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expect(req1.state, KeyVerificationState.waitingSas);
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// send mac
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FakeMatrixApi.calledEndpoints.clear();
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await req2.acceptSas();
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evt = getLastSentEvent(req2);
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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expect(req1.state, KeyVerificationState.askSSSS);
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expect(req2.state, KeyVerificationState.done);
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await req1.openSSSS(recoveryKey: SSSS_KEY);
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await Future.delayed(Duration(milliseconds: 10));
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expect(req1.state, KeyVerificationState.done);
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client1.encryption.ssss = MockSSSS(client1.encryption);
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(client1.encryption.ssss as MockSSSS).requestedSecrets = false;
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await client1.encryption.ssss.clearCache();
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await req1.maybeRequestSSSSSecrets();
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await Future.delayed(Duration(milliseconds: 10));
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expect((client1.encryption.ssss as MockSSSS).requestedSecrets, true);
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// delay for 12 seconds to be sure no other tests clear the ssss cache
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await Future.delayed(Duration(seconds: 12));
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await client1.encryption.keyVerificationManager.cleanup();
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await client2.encryption.keyVerificationManager.cleanup();
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});
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test('reject verification', () async {
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FakeMatrixApi.calledEndpoints.clear();
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// make sure our master key is *not* verified to not triger SSSS for now
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client1.userDeviceKeys[client1.userID].masterKey.setDirectVerified(false);
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final req1 =
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await client1.userDeviceKeys[client2.userID].startVerification();
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var evt = getLastSentEvent(req1);
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expect(req1.state, KeyVerificationState.waitingAccept);
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KeyVerification req2;
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final sub = client2.onKeyVerificationRequest.stream.listen((req) {
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req2 = req;
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});
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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await Future.delayed(Duration(milliseconds: 10));
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await sub.cancel();
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FakeMatrixApi.calledEndpoints.clear();
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await req2.rejectVerification();
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evt = getLastSentEvent(req2);
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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expect(req1.state, KeyVerificationState.error);
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expect(req2.state, KeyVerificationState.error);
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await client1.encryption.keyVerificationManager.cleanup();
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await client2.encryption.keyVerificationManager.cleanup();
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});
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test('reject sas', () async {
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FakeMatrixApi.calledEndpoints.clear();
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// make sure our master key is *not* verified to not triger SSSS for now
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client1.userDeviceKeys[client1.userID].masterKey.setDirectVerified(false);
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final req1 =
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await client1.userDeviceKeys[client2.userID].startVerification();
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var evt = getLastSentEvent(req1);
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expect(req1.state, KeyVerificationState.waitingAccept);
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KeyVerification req2;
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final sub = client2.onKeyVerificationRequest.stream.listen((req) {
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req2 = req;
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});
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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await Future.delayed(Duration(milliseconds: 10));
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await sub.cancel();
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expect(req2 != null, true);
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// send ready
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FakeMatrixApi.calledEndpoints.clear();
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await req2.acceptVerification();
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evt = getLastSentEvent(req2);
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expect(req2.state, KeyVerificationState.waitingAccept);
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// send start
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req1);
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// send accept
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FakeMatrixApi.calledEndpoints.clear();
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req2);
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// send key
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req1);
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// send key
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FakeMatrixApi.calledEndpoints.clear();
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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evt = getLastSentEvent(req2);
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// receive last key
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FakeMatrixApi.calledEndpoints.clear();
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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await req1.acceptSas();
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FakeMatrixApi.calledEndpoints.clear();
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await req2.rejectSas();
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evt = getLastSentEvent(req2);
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await client1.encryption.keyVerificationManager.handleEventUpdate(evt);
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expect(req1.state, KeyVerificationState.error);
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expect(req2.state, KeyVerificationState.error);
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await client1.encryption.keyVerificationManager.cleanup();
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await client2.encryption.keyVerificationManager.cleanup();
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});
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test('other device accepted', () async {
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FakeMatrixApi.calledEndpoints.clear();
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// make sure our master key is *not* verified to not triger SSSS for now
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client1.userDeviceKeys[client1.userID].masterKey.setDirectVerified(false);
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final req1 =
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await client1.userDeviceKeys[client2.userID].startVerification();
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var evt = getLastSentEvent(req1);
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expect(req1.state, KeyVerificationState.waitingAccept);
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KeyVerification req2;
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final sub = client2.onKeyVerificationRequest.stream.listen((req) {
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req2 = req;
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});
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await client2.encryption.keyVerificationManager.handleEventUpdate(evt);
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await Future.delayed(Duration(milliseconds: 10));
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await sub.cancel();
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expect(req2 != null, true);
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await client2.encryption.keyVerificationManager
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.handleEventUpdate(EventUpdate(
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content: {
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'event_id': req2.transactionId,
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'type': 'm.key.verification.ready',
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'content': {
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'methods': ['m.sas.v1'],
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'from_device': 'SOMEOTHERDEVICE',
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'm.relates_to': {
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'rel_type': 'm.reference',
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'event_id': req2.transactionId,
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},
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},
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'origin_server_ts': DateTime.now().millisecondsSinceEpoch,
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'sender': client2.userID,
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},
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eventType: 'm.key.verification.ready',
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type: 'timeline',
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roomID: req2.room.id,
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));
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expect(req2.state, KeyVerificationState.error);
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await req2.cancel();
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await client1.encryption.keyVerificationManager.cleanup();
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await client2.encryption.keyVerificationManager.cleanup();
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});
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test('dispose client', () async {
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await client1.dispose(closeDatabase: true);
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await client2.dispose(closeDatabase: true);
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});
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});
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}
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