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Author SHA1 Message Date
04bb70d657 release: Tag 0.4.3
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2023-01-22 19:13:56 +01:00
3fb5fd7eb8 style: Cleanup 2023-01-22 19:08:06 +01:00
a97f8bc372 fix: Fix ratchet null issue
Fixes #26.
2023-01-22 19:07:29 +01:00
7 changed files with 402 additions and 62 deletions

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@ -50,3 +50,7 @@
## 0.4.2
- Fix removeAllRatchets not removing, well, all ratchets. In fact, it did not remove any ratchet.
## 0.4.3
- Fix bug that causes ratchets to be unable to decrypt anything after receiving a heartbeat with a completely new session

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@ -28,7 +28,7 @@ Include `omemo_dart` in your `pubspec.yaml` like this:
dependencies:
omemo_dart:
hosted: https://git.polynom.me/api/packages/PapaTutuWawa/pub
version: ^0.4.0
version: ^0.4.3
# [...]
# [...]

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@ -5,13 +5,16 @@ abstract class OmemoEvent {}
/// Triggered when a ratchet has been modified
class RatchetModifiedEvent extends OmemoEvent {
RatchetModifiedEvent(this.jid, this.deviceId, this.ratchet, this.added);
RatchetModifiedEvent(this.jid, this.deviceId, this.ratchet, this.added, this.replaced);
final String jid;
final int deviceId;
final OmemoDoubleRatchet ratchet;
/// Indicates whether the ratchet has just been created (true) or just modified (false).
final bool added;
/// Indicates whether the ratchet has been replaced (true) or not.
final bool replaced;
}
/// Triggered when a ratchet has been removed and should be removed from storage.

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@ -29,8 +29,13 @@ import 'package:omemo_dart/src/x3dh/x3dh.dart';
import 'package:synchronized/synchronized.dart';
class _InternalDecryptionResult {
const _InternalDecryptionResult(this.ratchetCreated, this.payload);
const _InternalDecryptionResult(
this.ratchetCreated,
this.ratchetReplaced,
this.payload,
) : assert(!ratchetCreated || !ratchetReplaced, 'Ratchet must be either replaced or created');
final bool ratchetCreated;
final bool ratchetReplaced;
final String? payload;
}
@ -162,7 +167,7 @@ class OmemoManager {
_ratchetMap[key] = ratchet;
// Commit the ratchet
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, true));
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, true, false));
}
/// Build a new session with the user at [jid] with the device [deviceId] using data
@ -243,6 +248,7 @@ class OmemoManager {
mapKey.deviceId,
oldRatchet,
false,
false,
),
);
}
@ -267,17 +273,16 @@ class OmemoManager {
throw NotEncryptedForDeviceException();
}
final ratchetKey = RatchetMapKey(senderJid, senderDeviceId);
final decodedRawKey = base64.decode(rawKey.value);
List<int>? keyAndHmac;
OmemoAuthenticatedMessage authMessage;
OmemoDoubleRatchet? oldRatchet;
OmemoMessage? message;
var ratchetCreated = false;
if (rawKey.kex) {
// If the ratchet already existed, we store it. If it didn't, oldRatchet will stay
// null.
final ratchetKey = RatchetMapKey(senderJid, senderDeviceId);
final oldRatchet = getRatchet(ratchetKey)?.clone();
if (rawKey.kex) {
final kex = OmemoKeyExchange.fromBuffer(decodedRawKey);
authMessage = kex.message!;
message = OmemoMessage.fromBuffer(authMessage.message!);
@ -288,48 +293,45 @@ class OmemoManager {
if (oldRatchet.kexTimestamp > timestamp) {
throw InvalidKeyExchangeException();
}
// Try to decrypt it
try {
final decrypted = await oldRatchet.ratchetDecrypt(message, authMessage.writeToBuffer());
// Commit the ratchet
_eventStreamController.add(
RatchetModifiedEvent(
senderJid,
senderDeviceId,
oldRatchet,
false,
),
);
final plaintext = await _decryptAndVerifyHmac(
ciphertext,
decrypted,
);
_addSession(senderJid, senderDeviceId, oldRatchet);
return _InternalDecryptionResult(
true,
plaintext,
);
} catch (_) {
_log.finest('Failed to use old ratchet with KEX for existing ratchet');
}
}
final r = await _addSessionFromKeyExchange(senderJid, senderDeviceId, kex);
await _trustManager.onNewSession(senderJid, senderDeviceId);
// Try to decrypt with the new ratchet r
try {
keyAndHmac = await r.ratchetDecrypt(message, authMessage.writeToBuffer());
final result = await _decryptAndVerifyHmac(ciphertext, keyAndHmac);
// Add the new ratchet
_addSession(senderJid, senderDeviceId, r);
ratchetCreated = true;
// Replace the OPK
// TODO(PapaTutuWawa): Replace the OPK when we know that the KEX worked
await _deviceLock.synchronized(() async {
device = await device.replaceOnetimePrekey(kex.pkId!);
// Commit the device
_eventStreamController.add(DeviceModifiedEvent(device));
});
// Commit the ratchet
_eventStreamController.add(
RatchetModifiedEvent(
senderJid,
senderDeviceId,
r,
oldRatchet == null,
oldRatchet != null,
),
);
return _InternalDecryptionResult(
oldRatchet == null,
oldRatchet != null,
result,
);
} catch (ex) {
_log.finest('Kex failed due to $ex. Not proceeding with kex.');
}
} else {
authMessage = OmemoAuthenticatedMessage.fromBuffer(decodedRawKey);
message = OmemoMessage.fromBuffer(authMessage.message!);
@ -340,9 +342,10 @@ class OmemoManager {
throw NoDecryptionKeyException();
}
// TODO(PapaTutuWawa): When receiving a message that is not an OMEMOKeyExchange from a device there is no session with, clients SHOULD create a session with that device and notify it about the new session by responding with an empty OMEMO message as per Sending a message.
// We can guarantee that the ratchet exists at this point in time
final ratchet = getRatchet(ratchetKey)!;
oldRatchet ??= ratchet.clone();
try {
if (rawKey.kex) {
@ -351,7 +354,7 @@ class OmemoManager {
keyAndHmac = await ratchet.ratchetDecrypt(message, decodedRawKey);
}
} catch (_) {
_restoreRatchet(ratchetKey, oldRatchet);
_restoreRatchet(ratchetKey, oldRatchet!);
rethrow;
}
@ -362,16 +365,18 @@ class OmemoManager {
senderDeviceId,
ratchet,
false,
false,
),
);
try {
return _InternalDecryptionResult(
ratchetCreated,
false,
false,
await _decryptAndVerifyHmac(ciphertext, keyAndHmac),
);
} catch (_) {
_restoreRatchet(ratchetKey, oldRatchet);
_restoreRatchet(ratchetKey, oldRatchet!);
rethrow;
}
}
@ -551,7 +556,7 @@ class OmemoManager {
}
// Commit the ratchet
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false));
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false, false));
}
}
@ -600,7 +605,7 @@ class OmemoManager {
if (ratchet!.acknowledged) {
// Ratchet is acknowledged
if (ratchet.nr > 53 || result.ratchetCreated) {
if (ratchet.nr > 53 || result.ratchetCreated || result.ratchetReplaced) {
await sendEmptyOmemoMessageImpl(
await _encryptToJids(
[stanza.bareSenderJid],
@ -677,7 +682,7 @@ class OmemoManager {
..acknowledged = true;
// Commit it
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false));
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false, false));
} else {
_log.severe('Attempted to acknowledge ratchet ${key.toJsonKey()}, even though it does not exist');
}

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@ -136,7 +136,7 @@ class OmemoSessionManager {
_ratchetMap[key] = ratchet;
// Commit the ratchet
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, true));
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, true, false));
});
}
@ -321,7 +321,7 @@ class OmemoSessionManager {
}
// Commit the ratchet
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false));
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false, false));
}
}
});
@ -349,6 +349,7 @@ class OmemoSessionManager {
mapKey.deviceId,
oldRatchet,
false,
false,
),
);
});
@ -425,6 +426,7 @@ class OmemoSessionManager {
senderDeviceId,
oldRatchet,
false,
false,
),
);
@ -486,6 +488,7 @@ class OmemoSessionManager {
senderDeviceId,
ratchet,
false,
false,
),
);
@ -617,7 +620,7 @@ class OmemoSessionManager {
..acknowledged = true;
// Commit it
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false));
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet, false, false));
});
}

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@ -1,6 +1,6 @@
name: omemo_dart
description: An XMPP library independent OMEMO library
version: 0.4.2
version: 0.4.3
homepage: https://github.com/PapaTutuWawa/omemo_dart
publish_to: https://git.polynom.me/api/packages/PapaTutuWawa/pub

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@ -1,6 +1,7 @@
import 'dart:convert';
import 'package:logging/logging.dart';
import 'package:omemo_dart/omemo_dart.dart';
import 'package:omemo_dart/src/protobuf/omemo_key_exchange.dart';
import 'package:omemo_dart/src/trust/always.dart';
import 'package:test/test.dart';
@ -950,10 +951,13 @@ void main() {
final aliceDevice = await OmemoDevice.generateNewDevice(aliceJid, opkAmount: 1);
final bobDevice = await OmemoDevice.generateNewDevice(bobJid, opkAmount: 1);
EncryptionResult? aliceEmptyMessage;
final aliceManager = OmemoManager(
aliceDevice,
AlwaysTrustingTrustManager(),
(result, recipientJid) async {},
(result, recipientJid) async {
aliceEmptyMessage = result;
},
(jid) async {
expect(jid, bobJid);
@ -1005,7 +1009,29 @@ void main() {
expect(aliceManager.getRatchet(RatchetMapKey(bobJid, bobDevice.id)), null);
final aliceResult2 = await aliceManager.onOutgoingStanza(
// Alice prepares an empty OMEMO message
await aliceManager.sendOmemoHeartbeat(bobJid);
// And Bob receives it
final bobResult2 = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
await aliceManager.getDeviceId(),
DateTime.now().millisecondsSinceEpoch,
aliceEmptyMessage!.encryptedKeys,
null,
),
);
expect(bobResult2.error, null);
// Bob acks the new ratchet
await aliceManager.ratchetAcknowledged(
bobJid,
await bobManager.getDeviceId(),
);
// Alice sends another message
final aliceResult3 = await aliceManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[bobJid],
'I did not trust your last device, Bob!',
@ -1013,6 +1039,254 @@ void main() {
);
// Bob decrypts it
final bobResult3 = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
aliceDevice.id,
DateTime.now().millisecondsSinceEpoch,
aliceResult3.encryptedKeys,
base64.encode(aliceResult3.ciphertext!),
),
);
expect(bobResult3.error, null);
expect(bobResult3.payload, 'I did not trust your last device, Bob!');
// Bob responds
final bobResult4 = await bobManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[aliceJid],
"That's okay.",
),
);
// Alice decrypts
final aliceResult4 = await aliceManager.onIncomingStanza(
OmemoIncomingStanza(
bobJid,
bobDevice.id,
DateTime.now().millisecondsSinceEpoch,
bobResult4.encryptedKeys,
base64.encode(bobResult4.ciphertext!),
),
);
expect(aliceResult4.error, null);
expect(aliceResult4.payload, "That's okay.");
});
test('Test removing all ratchets and sending a message without post-heartbeat ack', () async {
// This test is the same as "Test removing all ratchets and sending a message" except
// that bob does not ack the ratchet after Alice's heartbeat after she recreated
// all ratchets.
const aliceJid = 'alice@server1';
const bobJid = 'bob@server2';
final aliceDevice = await OmemoDevice.generateNewDevice(aliceJid, opkAmount: 1);
final bobDevice = await OmemoDevice.generateNewDevice(bobJid, opkAmount: 1);
EncryptionResult? aliceEmptyMessage;
final aliceManager = OmemoManager(
aliceDevice,
AlwaysTrustingTrustManager(),
(result, recipientJid) async {
aliceEmptyMessage = result;
},
(jid) async {
expect(jid, bobJid);
return [bobDevice.id];
},
(jid, id) async {
expect(jid, bobJid);
return bobDevice.toBundle();
},
(jid) async {},
);
final bobManager = OmemoManager(
bobDevice,
AlwaysTrustingTrustManager(),
(result, recipientJid) async {},
(jid) async => null,
(jid, id) async => null,
(jid) async {},
);
// Alice encrypts a message for Bob
final aliceResult1 = await aliceManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[bobJid],
'Hello Bob!',
),
);
// And Bob decrypts it
await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
aliceDevice.id,
DateTime.now().millisecondsSinceEpoch,
aliceResult1.encryptedKeys,
base64.encode(aliceResult1.ciphertext!),
),
);
// Ratchets are acked
await aliceManager.ratchetAcknowledged(
bobJid,
bobDevice.id,
);
// Alice now removes all ratchets for Bob and sends another new message
await aliceManager.removeAllRatchets(bobJid);
expect(aliceManager.getRatchet(RatchetMapKey(bobJid, bobDevice.id)), null);
// Alice prepares an empty OMEMO message
await aliceManager.sendOmemoHeartbeat(bobJid);
// And Bob receives it
final bobResult2 = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
await aliceManager.getDeviceId(),
DateTime.now().millisecondsSinceEpoch,
aliceEmptyMessage!.encryptedKeys,
null,
),
);
expect(bobResult2.error, null);
// Alice sends another message
final aliceResult3 = await aliceManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[bobJid],
'I did not trust your last device, Bob!',
),
);
// Bob decrypts it
final bobResult3 = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
aliceDevice.id,
DateTime.now().millisecondsSinceEpoch,
aliceResult3.encryptedKeys,
base64.encode(aliceResult3.ciphertext!),
),
);
expect(bobResult3.error, null);
expect(bobResult3.payload, 'I did not trust your last device, Bob!');
// Bob responds
final bobResult4 = await bobManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[aliceJid],
"That's okay.",
),
);
// Alice decrypts
final aliceResult4 = await aliceManager.onIncomingStanza(
OmemoIncomingStanza(
bobJid,
bobDevice.id,
DateTime.now().millisecondsSinceEpoch,
bobResult4.encryptedKeys,
base64.encode(bobResult4.ciphertext!),
),
);
expect(aliceResult4.error, null);
expect(aliceResult4.payload, "That's okay.");
});
test('Test resending key exchanges', () async {
const aliceJid = 'alice@server1';
const bobJid = 'bob@server2';
final aliceDevice = await OmemoDevice.generateNewDevice(aliceJid, opkAmount: 1);
final bobDevice = await OmemoDevice.generateNewDevice(bobJid, opkAmount: 1);
final aliceManager = OmemoManager(
aliceDevice,
AlwaysTrustingTrustManager(),
(result, recipientJid) async {},
(jid) async {
expect(jid, bobJid);
return [ bobDevice.id ];
},
(jid, id) async {
expect(jid, bobJid);
return bobDevice.toBundle();
},
(jid) async {},
);
final bobManager = OmemoManager(
bobDevice,
AlwaysTrustingTrustManager(),
(result, recipientJid) async {},
(jid) async {
expect(jid, aliceJid);
return [aliceDevice.id];
},
(jid, id) async {
expect(jid, aliceJid);
return aliceDevice.toBundle();
},
(jid) async {},
);
// Alice sends Bob a message
final aliceResult1 = await aliceManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[bobJid],
'Hello World!',
),
);
// The first message must be a KEX message
expect(aliceResult1.encryptedKeys.first.kex, true);
// Bob decrypts Alice's message
final bobResult1 = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
aliceDevice.id,
DateTime.now().millisecondsSinceEpoch,
aliceResult1.encryptedKeys,
base64.encode(aliceResult1.ciphertext!),
),
);
expect(bobResult1.error, null);
expect(bobResult1.payload, 'Hello World!');
// Alice immediately sends another message
final aliceResult2 = await aliceManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[bobJid],
'Hello Bob',
),
);
// The response should contain a KEX
expect(aliceResult2.encryptedKeys.first.kex, true);
// The basic data should be the same
final parsedFirstKex = OmemoKeyExchange.fromBuffer(
base64.decode(aliceResult1.encryptedKeys.first.value),
);
final parsedSecondKex = OmemoKeyExchange.fromBuffer(
base64.decode(aliceResult2.encryptedKeys.first.value),
);
expect(parsedSecondKex.pkId, parsedFirstKex.pkId);
expect(parsedSecondKex.spkId, parsedFirstKex.spkId);
expect(parsedSecondKex.ik, parsedFirstKex.ik);
expect(parsedSecondKex.ek, parsedFirstKex.ek);
// Alice decrypts it
final bobResult2 = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
@ -1022,7 +1296,58 @@ void main() {
base64.encode(aliceResult2.ciphertext!),
),
);
expect(bobResult2.error, null);
expect(bobResult2.payload, 'Hello Bob');
expect(bobResult2.payload, 'I did not trust your last device, Bob!');
// Bob also sends a message
final bobResult3 = await bobManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[aliceJid],
'Hello Alice!',
),
);
// Alice decrypts it
final aliceResult3 = await aliceManager.onIncomingStanza(
OmemoIncomingStanza(
bobJid,
bobDevice.id,
DateTime.now().millisecondsSinceEpoch,
bobResult3.encryptedKeys,
base64.encode(bobResult3.ciphertext!),
),
);
expect(aliceResult3.error, null);
expect(aliceResult3.payload, 'Hello Alice!');
// Bob now acks the ratchet
await aliceManager.ratchetAcknowledged(
bobJid,
bobDevice.id,
);
// Alice replies
final aliceResult4 = await aliceManager.onOutgoingStanza(
const OmemoOutgoingStanza(
[bobJid],
'Hi Bob',
),
);
// The response should contain no KEX
expect(aliceResult4.encryptedKeys.first.kex, false);
// Bob decrypts it
final bobResult4 = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
aliceJid,
aliceDevice.id,
DateTime.now().millisecondsSinceEpoch,
aliceResult4.encryptedKeys,
base64.encode(aliceResult4.ciphertext!),
),
);
expect(bobResult4.error, null);
expect(bobResult4.payload, 'Hi Bob');
});
}