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48 Commits
v0.3.0 ... 0ffc0b067a

Author SHA1 Message Date
Alexander "PapaTutuWawa
0ffc0b067a docs: Migrate the example to the "new" OmemoManager 
Fixes #30.
 2023-06-12 19:37:51 +02:00
Alexander "PapaTutuWawa
3376929c24 style: Formattiing issues 2023-06-12 19:37:45 +02:00
Alexander "PapaTutuWawa
3783ec6f13 feat: Remove OmemoSessionManager 2023-06-12 19:21:07 +02:00
Alexander "PapaTutuWawa
65f1daff55 style: Format using dart format 2023-06-12 19:20:43 +02:00
Alexander "PapaTutuWawa
f2ec7bd759 fix: Initial receiving ratchet has no trust data 2023-06-12 19:13:38 +02:00
Alexander "PapaTutuWawa
04bb70d657 release: Tag 0.4.3
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2023-01-22 19:13:56 +01:00
Alexander "PapaTutuWawa
3fb5fd7eb8 style: Cleanup 2023-01-22 19:08:06 +01:00
Alexander "PapaTutuWawa
a97f8bc372 fix: Fix ratchet null issue 
Fixes #26.
 2023-01-22 19:07:29 +01:00
Alexander "PapaTutuWawa
e29ee07015 release: Tag 0.4.2
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2023-01-07 22:16:15 +01:00
Alexander "PapaTutuWawa
cc31475671 fix: Ratchets are not removed when using removeAllRatchets
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2023-01-07 22:14:10 +01:00
Alexander "PapaTutuWawa
de85ab7955 chore: Bump version
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2023-01-02 13:57:15 +01:00
Alexander "PapaTutuWawa
a08c654295 feat: Do not fetch bundles for our own device 2023-01-02 13:56:22 +01:00
PapaTutuWawa
3825232ebe Merge pull request #24 from PapaTutuWawa/feat/omemomanager
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OmemoManager.
 2023-01-01 16:59:00 +01:00
Alexander "PapaTutuWawa
32c0c5a4f0 feat: Update CHANGELOG and README 2023-01-01 16:55:15 +01:00
Alexander "PapaTutuWawa
092ce36410 feat: Add last features for use in moxxmpp 2023-01-01 16:49:19 +01:00
Alexander "PapaTutuWawa
4085631804 fix: Make logging less verbose 2022-12-27 12:49:11 +01:00
Alexander "PapaTutuWawa
6a9e98665d fix: Track new KEX entries using a ratchet key 2022-12-27 12:47:45 +01:00
Alexander "PapaTutuWawa
5f844dafda feat: Add getDeviceId 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
480de1ce8f test: Port the sending/receiving for the OmemoManager 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
5e6b54aab5 feat: Better guard against failed lookups 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
6c4dd62c5a feat: _decryptMessage explicitly tells us that a ratchet was created 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
54eeb816eb feat: Export OmemoManager 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
e35f65aff9 style: Fix style issues 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
4dc3cfb2b1 feat: Deprecate OmemoSessionManager 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
bca4840ca6 test: Add a test to ensure the library cannot get stuck 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
caf841c53e feat: Add more documentation 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
5bc1136ec0 feat: Implement getting fingerprints 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
d37a4bd719 chore: Bump version 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
b48665c357 feat: Begin work on the OmemoManager interface 2022-12-27 12:43:50 +01:00
Alexander "PapaTutuWawa
06707d1a34 feat: Compute the fingerprint of a bundle 2022-12-27 12:43:18 +01:00
Alexander "PapaTutuWawa
4346b31637 feat: Add funding
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2022-12-27 01:47:08 +01:00
Alexander "PapaTutuWawa
fe1ba99b14 feat: Indicate whether a ratchet has been created or not
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2022-12-09 20:41:53 +01:00
Alexander "PapaTutuWawa
797bf69856 fix: Crash when calling getDevicesTrust for unknown Jid
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2022-12-09 18:42:23 +01:00
Alexander "PapaTutuWawa
afad5056c0 release: Bump version to 0.3.2
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2022-11-05 13:50:45 +01:00
Alexander "PapaTutuWawa
c68471349a fix: Reuse old key exchange when the ratchet is unacked
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2022-10-22 12:41:41 +02:00
Alexander "PapaTutuWawa
1472624b1d fix: Use stanza receival timestamps to guard against stale kex messages
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2022-10-02 19:23:58 +02:00
Alexander "PapaTutuWawa
0826d043d5 feat: Attempt to detect already decrypted messages 2022-10-02 17:03:39 +02:00
Alexander "PapaTutuWawa
2aa3674c4b fix: Fix receiving an old key exchange breaking decryption 
This was mostly caused by Dart not copying values but referencing
them. AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA.

We know make some assumptions about received key exchanges, so this
needs some field testing.
 2022-10-02 14:56:20 +02:00
Alexander "PapaTutuWawa
7c3a9a75df chore: Let pub ignore the protobuf build artifacts
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2022-09-29 15:24:33 +02:00
Alexander "PapaTutuWawa
bc6f98bcd8 release: Version 0.3.1
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2022-09-29 15:24:33 +02:00
Alexander "PapaTutuWawa
a107dfad87 ci: Fix issue with duplicate naming
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2022-09-28 13:18:39 +02:00
Alexander "PapaTutuWawa
96771cf317 feat: Allow getting the device's fingerprint 2022-09-25 12:50:59 +02:00
Alexander "PapaTutuWawa
bea433e377 fix: React to all decryption errors with ratchet restoration 2022-09-25 11:35:12 +02:00
Alexander "PapaTutuWawa
47948fa6ea build: Add Woodpecker CI 2022-09-22 21:33:22 +02:00
Alexander "PapaTutuWawa
a23dd30eee chore: Commit the protobuf artifacts 2022-09-18 15:56:09 +02:00
Alexander "PapaTutuWawa
b4c14a9769 fix: Guard against a crash in the critical section 2022-09-15 23:33:07 +02:00
Alexander "PapaTutuWawa
b69acdd936 fix: Fix replaceOnetimePrekey mutating the device's id 2022-09-15 23:31:56 +02:00
Alexander "PapaTutuWawa
3d8c82fe5b docs: Update README 2022-09-15 13:52:29 +02:00
48 changed files with 3679 additions and 889 deletions
Expand all files Collapse all files

1
.github/FUNDING.yml vendored Normal file
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@@ -0,0 +1 @@
ko_fi: papatutuwawa

3
.gitignore vendored
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@@ -12,6 +12,3 @@ pubspec.lock
# NixOS
.direnv
.envrc
# Protobuf build artifacts
lib/protobuf/*.dart

1
.pubignore Normal file
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@@ -0,0 +1 @@
lib/protobuf

11
.woodpecker.yml Normal file
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@@ -0,0 +1,11 @@
pipeline:
lint:
image: dart:2.18.1
commands:
- dart pub get
- dart analyze --fatal-infos --fatal-warnings
test:
image: dart:2.18.1
commands:
- dart pub get
- dart test

26
CHANGELOG.md
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@@ -9,7 +9,6 @@
- Fix bug with the Double Ratchet causing only the initial message to be decryptable
- Expose `getDeviceMap` as a developer usable function
## 0.2.0
- Add convenience functions `getDeviceId` and `getDeviceBundle`
@@ -30,3 +29,28 @@
- If an error occurs while decrypting the message, the ratchet will now be reset to its prior state
- Fix a bug within the Varint encoding function. This should fix some occasional UnknownSignedPrekeyExceptions
- Remove OmemoSessionManager's toJson and fromJson. Use toJsonWithoutSessions and fromJsonWithoutSessions. Restoring sessions is not out-of-scope for that function
## 0.3.1
- Fix a bug that caused the device's id to change when replacing a OPK
- Every decryption failure now causes the ratchet to be restored to a pre-decryption state
- Add method to get the device's fingerprint
## 0.4.0
- Deprecate `OmemoSessionManager`. Use `OmemoManager` instead.
- Implement queued access to the ratchets inside the `OmemoManager`.
- Implement heartbeat messages.
- [BREAKING] Rename `Device` to `OmemoDevice`.
## 0.4.1
- Fix fetching the current device and building a ratchet session with it when encrypting for our own JID
## 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

8
README.md
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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: ^0.2.0
version: ^0.4.3
# [...]
# [...]
@@ -56,3 +56,9 @@ messages' formatting.
Licensed under the MIT license.
See `LICENSE`.
## Support
If you like what I do and you want to support me, feel free to donate to me on Ko-Fi.
[<img src="https://codeberg.org/moxxy/moxxyv2/raw/branch/master/assets/repo/kofi.png" height="36" style="height: 36px; border: 0px;"></img>](https://ko-fi.com/papatutuwawa)

4
analysis_options.yaml
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@@ -10,3 +10,7 @@ linter:
analyzer:
exclude:
- "lib/protobuf/*.dart"
# TODO: Remove once OmemoSessionManager is gone
- "test/omemo_test.dart"
- "example/omemo_dart_example.dart"
- "test/serialisation_test.dart"

79
example/omemo_dart_example.dart
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@@ -8,28 +8,45 @@ void main() async {
const aliceJid = 'alice@some.server';
const bobJid = 'bob@other.serve';
// You are Alice and want to begin using OMEMO, so you first create a SessionManager
final aliceSession = await OmemoSessionManager.generateNewIdentity(
// The bare Jid of Alice as a String
aliceJid,
// You are Alice and want to begin using OMEMO, so you first create an OmemoManager.
final aliceManager = OmemoManager(
// Generate Alice's OMEMO device bundle. We can specify how many One-time Prekeys we want, but
// per default, omemo_dart generates 100 (recommended by XEP-0384).
await OmemoDevice.generateNewDevice(aliceJid),
// The trust manager we want to use. In this case, we use the provided one that
// implements "Blind Trust Before Verification". To make things simpler, we keep
// no persistent data and can thus use the MemoryBTBVTrustManager. If we wanted to keep
// the state, we would have to override BlindTrustBeforeVerificationTrustManager.
MemoryBTBVTrustManager(),
// Here we specify how many Onetime Prekeys we want to have. XEP-0384 recommends around
// 100 OPKs, so let's generate 100. The parameter defaults to 100.
//opkAmount: 100,
// This function is called whenever we need to send an OMEMO heartbeat to [recipient].
// [result] is the encryted data to include. This needs to be wired into your XMPP library's
// OMEMO implementation.
// For simplicity, we use an empty function and imagine it works.
(result, recipient) async => {},
// This function is called whenever we need to fetch the device list for [jid].
// This needs to be wired into your XMPP library's OMEMO implementation.
// For simplicity, we use an empty function and imagine it works.
(jid) async => [],
// This function is called whenever we need to fetch the device bundle with id [id] from [jid].
// This needs to be wired into your XMPP library's OMEMO implementation.
// For simplicity, we use an empty function and imagine it works.
(jid, id) async => null,
// This function is called whenever we need to subscribe to [jid]'s device list PubSub node.
// This needs to be wired into your XMPP library's OMEMO implementation.
// For simplicity, we use an empty function and imagine it works.
(jid) async {},
);
// Alice now wants to chat with Bob at his bare Jid "bob@other.server". To make things
// simple, we just generate the identity bundle ourselves. In the real world, we would
// request it using PEP and then convert the device bundle into a OmemoBundle object.
final bobSession = await OmemoSessionManager.generateNewIdentity(
bobJid,
final bobManager = OmemoManager(
await OmemoDevice.generateNewDevice(bobJid),
MemoryBTBVTrustManager(),
// Just for illustrative purposes
opkAmount: 1,
(result, recipient) async => {},
(jid) async => [],
(jid, id) async => null,
(jid) async {},
);
// Alice prepares to send the message to Bob, so she builds the message stanza and
@@ -56,19 +73,18 @@ void main() async {
// Since Alice has no open session with Bob, we need to tell the session manager to build
// it when sending the message.
final message = await aliceSession.encryptToJid(
final message = await aliceSession.onOutgoingStanza(
OmemoOutgoingStanza(
// The bare receiver Jid
bobJid,
// The envelope we want to encrypt
[bobJid],
// The payload we want to encrypt, i.e. the envelope.
envelope,
// Since this is the first time Alice contacts Bob from this device, we need to create
// a new session. Let's also assume that Bob only has one device. We may, however,
// add more bundles to newSessions, if we know of more.
newSessions: [
await bobSession.getDeviceBundle(),
],
),
);
// In a proper implementation, we should also do some error checking here.
// Alice now builds the actual message stanza for Bob
final payload = base64.encode(message.ciphertext!);
final aliceDevice = await aliceSession.getDevice();
@@ -110,15 +126,26 @@ void main() async {
// Bob extracts the payload and attempts to decrypt it.
// ignore: unused_local_variable
final bobMessage = await bobSession.decryptMessage(
// base64 decode the payload
base64.decode(payload),
// Specify the Jid of the sender
final bobMessage = await bobManager.onIncomingStanza(
OmemoIncomingStanza(
// The bare sender JID of the message. In this case, it's Alice's.
aliceJid,
// Specify the device identifier of the sender (the "sid" attribute of <header />)
// The 'sid' attribute of the <header /> element. Here, we know that Alice only has one device.
aliceDevice.id,
// The deserialised keys
// Time the message was sent. Since the message was not delayed, we use the
// current time.
DateTime.now().millisecondsSinceEpoch,
/// The decoded <key /> elements. from the header. Note that we only include the ones
/// relevant for Bob, so all children of <keys jid='$bobJid' />.
keys,
/// The text of the <payload /> element, if it exists. If not, then the message might be
/// a hearbeat, where no payload is sent. In that case, use null.
payload,
),
);
// All Bob has to do now is replace the OMEMO wrapper element

3
lib/omemo_dart.dart
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@@ -10,8 +10,9 @@ export 'src/omemo/encrypted_key.dart';
export 'src/omemo/encryption_result.dart';
export 'src/omemo/events.dart';
export 'src/omemo/fingerprint.dart';
export 'src/omemo/omemomanager.dart';
export 'src/omemo/ratchet_map_key.dart';
export 'src/omemo/sessionmanager.dart';
export 'src/omemo/stanza.dart';
export 'src/trust/base.dart';
export 'src/trust/btbv.dart';
export 'src/x3dh/x3dh.dart';

379
lib/protobuf/schema.pb.dart Normal file
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@@ -0,0 +1,379 @@
///
// Generated code. Do not modify.
// source: schema.proto
//
// @dart = 2.12
// ignore_for_file: annotate_overrides,camel_case_types,constant_identifier_names,directives_ordering,library_prefixes,non_constant_identifier_names,prefer_final_fields,return_of_invalid_type,unnecessary_const,unnecessary_import,unnecessary_this,unused_import,unused_shown_name
import 'dart:core' as $core;
import 'package:protobuf/protobuf.dart' as $pb;
class OMEMOMessage extends $pb.GeneratedMessage {
static final $pb.BuilderInfo _i = $pb.BuilderInfo(
const $core.bool.fromEnvironment('protobuf.omit_message_names')
? ''
: 'OMEMOMessage',
createEmptyInstance: create)
..a<$core.int>(
1,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'n',
$pb.PbFieldType.QU3)
..a<$core.int>(
2,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'pn',
$pb.PbFieldType.QU3)
..a<$core.List<$core.int>>(
3,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'dhPub',
$pb.PbFieldType.QY)
..a<$core.List<$core.int>>(
4,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'ciphertext',
$pb.PbFieldType.OY);
OMEMOMessage._() : super();
factory OMEMOMessage({
$core.int? n,
$core.int? pn,
$core.List<$core.int>? dhPub,
$core.List<$core.int>? ciphertext,
}) {
final _result = create();
if (n != null) {
_result.n = n;
}
if (pn != null) {
_result.pn = pn;
}
if (dhPub != null) {
_result.dhPub = dhPub;
}
if (ciphertext != null) {
_result.ciphertext = ciphertext;
}
return _result;
}
factory OMEMOMessage.fromBuffer($core.List<$core.int> i,
[$pb.ExtensionRegistry r = $pb.ExtensionRegistry.EMPTY]) =>
create()..mergeFromBuffer(i, r);
factory OMEMOMessage.fromJson($core.String i,
[$pb.ExtensionRegistry r = $pb.ExtensionRegistry.EMPTY]) =>
create()..mergeFromJson(i, r);
@$core.Deprecated('Using this can add significant overhead to your binary. '
'Use [GeneratedMessageGenericExtensions.deepCopy] instead. '
'Will be removed in next major version')
OMEMOMessage clone() => OMEMOMessage()..mergeFromMessage(this);
@$core.Deprecated('Using this can add significant overhead to your binary. '
'Use [GeneratedMessageGenericExtensions.rebuild] instead. '
'Will be removed in next major version')
OMEMOMessage copyWith(void Function(OMEMOMessage) updates) =>
super.copyWith((message) => updates(message as OMEMOMessage))
as OMEMOMessage; // ignore: deprecated_member_use
$pb.BuilderInfo get info_ => _i;
@$core.pragma('dart2js:noInline')
static OMEMOMessage create() => OMEMOMessage._();
OMEMOMessage createEmptyInstance() => create();
static $pb.PbList<OMEMOMessage> createRepeated() =>
$pb.PbList<OMEMOMessage>();
@$core.pragma('dart2js:noInline')
static OMEMOMessage getDefault() => _defaultInstance ??=
$pb.GeneratedMessage.$_defaultFor<OMEMOMessage>(create);
static OMEMOMessage? _defaultInstance;
@$pb.TagNumber(1)
$core.int get n => $_getIZ(0);
@$pb.TagNumber(1)
set n($core.int v) {
$_setUnsignedInt32(0, v);
}
@$pb.TagNumber(1)
$core.bool hasN() => $_has(0);
@$pb.TagNumber(1)
void clearN() => clearField(1);
@$pb.TagNumber(2)
$core.int get pn => $_getIZ(1);
@$pb.TagNumber(2)
set pn($core.int v) {
$_setUnsignedInt32(1, v);
}
@$pb.TagNumber(2)
$core.bool hasPn() => $_has(1);
@$pb.TagNumber(2)
void clearPn() => clearField(2);
@$pb.TagNumber(3)
$core.List<$core.int> get dhPub => $_getN(2);
@$pb.TagNumber(3)
set dhPub($core.List<$core.int> v) {
$_setBytes(2, v);
}
@$pb.TagNumber(3)
$core.bool hasDhPub() => $_has(2);
@$pb.TagNumber(3)
void clearDhPub() => clearField(3);
@$pb.TagNumber(4)
$core.List<$core.int> get ciphertext => $_getN(3);
@$pb.TagNumber(4)
set ciphertext($core.List<$core.int> v) {
$_setBytes(3, v);
}
@$pb.TagNumber(4)
$core.bool hasCiphertext() => $_has(3);
@$pb.TagNumber(4)
void clearCiphertext() => clearField(4);
}
class OMEMOAuthenticatedMessage extends $pb.GeneratedMessage {
static final $pb.BuilderInfo _i = $pb.BuilderInfo(
const $core.bool.fromEnvironment('protobuf.omit_message_names')
? ''
: 'OMEMOAuthenticatedMessage',
createEmptyInstance: create)
..a<$core.List<$core.int>>(
1,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'mac',
$pb.PbFieldType.QY)
..a<$core.List<$core.int>>(
2,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'message',
$pb.PbFieldType.QY);
OMEMOAuthenticatedMessage._() : super();
factory OMEMOAuthenticatedMessage({
$core.List<$core.int>? mac,
$core.List<$core.int>? message,
}) {
final _result = create();
if (mac != null) {
_result.mac = mac;
}
if (message != null) {
_result.message = message;
}
return _result;
}
factory OMEMOAuthenticatedMessage.fromBuffer($core.List<$core.int> i,
[$pb.ExtensionRegistry r = $pb.ExtensionRegistry.EMPTY]) =>
create()..mergeFromBuffer(i, r);
factory OMEMOAuthenticatedMessage.fromJson($core.String i,
[$pb.ExtensionRegistry r = $pb.ExtensionRegistry.EMPTY]) =>
create()..mergeFromJson(i, r);
@$core.Deprecated('Using this can add significant overhead to your binary. '
'Use [GeneratedMessageGenericExtensions.deepCopy] instead. '
'Will be removed in next major version')
OMEMOAuthenticatedMessage clone() =>
OMEMOAuthenticatedMessage()..mergeFromMessage(this);
@$core.Deprecated('Using this can add significant overhead to your binary. '
'Use [GeneratedMessageGenericExtensions.rebuild] instead. '
'Will be removed in next major version')
OMEMOAuthenticatedMessage copyWith(
void Function(OMEMOAuthenticatedMessage) updates) =>
super.copyWith((message) => updates(message as OMEMOAuthenticatedMessage))
as OMEMOAuthenticatedMessage; // ignore: deprecated_member_use
$pb.BuilderInfo get info_ => _i;
@$core.pragma('dart2js:noInline')
static OMEMOAuthenticatedMessage create() => OMEMOAuthenticatedMessage._();
OMEMOAuthenticatedMessage createEmptyInstance() => create();
static $pb.PbList<OMEMOAuthenticatedMessage> createRepeated() =>
$pb.PbList<OMEMOAuthenticatedMessage>();
@$core.pragma('dart2js:noInline')
static OMEMOAuthenticatedMessage getDefault() => _defaultInstance ??=
$pb.GeneratedMessage.$_defaultFor<OMEMOAuthenticatedMessage>(create);
static OMEMOAuthenticatedMessage? _defaultInstance;
@$pb.TagNumber(1)
$core.List<$core.int> get mac => $_getN(0);
@$pb.TagNumber(1)
set mac($core.List<$core.int> v) {
$_setBytes(0, v);
}
@$pb.TagNumber(1)
$core.bool hasMac() => $_has(0);
@$pb.TagNumber(1)
void clearMac() => clearField(1);
@$pb.TagNumber(2)
$core.List<$core.int> get message => $_getN(1);
@$pb.TagNumber(2)
set message($core.List<$core.int> v) {
$_setBytes(1, v);
}
@$pb.TagNumber(2)
$core.bool hasMessage() => $_has(1);
@$pb.TagNumber(2)
void clearMessage() => clearField(2);
}
class OMEMOKeyExchange extends $pb.GeneratedMessage {
static final $pb.BuilderInfo _i = $pb.BuilderInfo(
const $core.bool.fromEnvironment('protobuf.omit_message_names')
? ''
: 'OMEMOKeyExchange',
createEmptyInstance: create)
..a<$core.int>(
1,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'pkId',
$pb.PbFieldType.QU3)
..a<$core.int>(
2,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'spkId',
$pb.PbFieldType.QU3)
..a<$core.List<$core.int>>(
3,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'ik',
$pb.PbFieldType.QY)
..a<$core.List<$core.int>>(
4,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'ek',
$pb.PbFieldType.QY)
..aQM<OMEMOAuthenticatedMessage>(
5,
const $core.bool.fromEnvironment('protobuf.omit_field_names')
? ''
: 'message',
subBuilder: OMEMOAuthenticatedMessage.create);
OMEMOKeyExchange._() : super();
factory OMEMOKeyExchange({
$core.int? pkId,
$core.int? spkId,
$core.List<$core.int>? ik,
$core.List<$core.int>? ek,
OMEMOAuthenticatedMessage? message,
}) {
final _result = create();
if (pkId != null) {
_result.pkId = pkId;
}
if (spkId != null) {
_result.spkId = spkId;
}
if (ik != null) {
_result.ik = ik;
}
if (ek != null) {
_result.ek = ek;
}
if (message != null) {
_result.message = message;
}
return _result;
}
factory OMEMOKeyExchange.fromBuffer($core.List<$core.int> i,
[$pb.ExtensionRegistry r = $pb.ExtensionRegistry.EMPTY]) =>
create()..mergeFromBuffer(i, r);
factory OMEMOKeyExchange.fromJson($core.String i,
[$pb.ExtensionRegistry r = $pb.ExtensionRegistry.EMPTY]) =>
create()..mergeFromJson(i, r);
@$core.Deprecated('Using this can add significant overhead to your binary. '
'Use [GeneratedMessageGenericExtensions.deepCopy] instead. '
'Will be removed in next major version')
OMEMOKeyExchange clone() => OMEMOKeyExchange()..mergeFromMessage(this);
@$core.Deprecated('Using this can add significant overhead to your binary. '
'Use [GeneratedMessageGenericExtensions.rebuild] instead. '
'Will be removed in next major version')
OMEMOKeyExchange copyWith(void Function(OMEMOKeyExchange) updates) =>
super.copyWith((message) => updates(message as OMEMOKeyExchange))
as OMEMOKeyExchange; // ignore: deprecated_member_use
$pb.BuilderInfo get info_ => _i;
@$core.pragma('dart2js:noInline')
static OMEMOKeyExchange create() => OMEMOKeyExchange._();
OMEMOKeyExchange createEmptyInstance() => create();
static $pb.PbList<OMEMOKeyExchange> createRepeated() =>
$pb.PbList<OMEMOKeyExchange>();
@$core.pragma('dart2js:noInline')
static OMEMOKeyExchange getDefault() => _defaultInstance ??=
$pb.GeneratedMessage.$_defaultFor<OMEMOKeyExchange>(create);
static OMEMOKeyExchange? _defaultInstance;
@$pb.TagNumber(1)
$core.int get pkId => $_getIZ(0);
@$pb.TagNumber(1)
set pkId($core.int v) {
$_setUnsignedInt32(0, v);
}
@$pb.TagNumber(1)
$core.bool hasPkId() => $_has(0);
@$pb.TagNumber(1)
void clearPkId() => clearField(1);
@$pb.TagNumber(2)
$core.int get spkId => $_getIZ(1);
@$pb.TagNumber(2)
set spkId($core.int v) {
$_setUnsignedInt32(1, v);
}
@$pb.TagNumber(2)
$core.bool hasSpkId() => $_has(1);
@$pb.TagNumber(2)
void clearSpkId() => clearField(2);
@$pb.TagNumber(3)
$core.List<$core.int> get ik => $_getN(2);
@$pb.TagNumber(3)
set ik($core.List<$core.int> v) {
$_setBytes(2, v);
}
@$pb.TagNumber(3)
$core.bool hasIk() => $_has(2);
@$pb.TagNumber(3)
void clearIk() => clearField(3);
@$pb.TagNumber(4)
$core.List<$core.int> get ek => $_getN(3);
@$pb.TagNumber(4)
set ek($core.List<$core.int> v) {
$_setBytes(3, v);
}
@$pb.TagNumber(4)
$core.bool hasEk() => $_has(3);
@$pb.TagNumber(4)
void clearEk() => clearField(4);
@$pb.TagNumber(5)
OMEMOAuthenticatedMessage get message => $_getN(4);
@$pb.TagNumber(5)
set message(OMEMOAuthenticatedMessage v) {
setField(5, v);
}
@$pb.TagNumber(5)
$core.bool hasMessage() => $_has(4);
@$pb.TagNumber(5)
void clearMessage() => clearField(5);
@$pb.TagNumber(5)
OMEMOAuthenticatedMessage ensureMessage() => $_ensure(4);
}

6
lib/protobuf/schema.pbenum.dart Normal file
View File

@@ -0,0 +1,6 @@
///
// Generated code. Do not modify.
// source: schema.proto
//
// @dart = 2.12
// ignore_for_file: annotate_overrides,camel_case_types,constant_identifier_names,directives_ordering,library_prefixes,non_constant_identifier_names,prefer_final_fields,return_of_invalid_type,unnecessary_const,unnecessary_import,unnecessary_this,unused_import,unused_shown_name

60
lib/protobuf/schema.pbjson.dart Normal file
View File

@@ -0,0 +1,60 @@
///
// Generated code. Do not modify.
// source: schema.proto
//
// @dart = 2.12
// ignore_for_file: annotate_overrides,camel_case_types,constant_identifier_names,deprecated_member_use_from_same_package,directives_ordering,library_prefixes,non_constant_identifier_names,prefer_final_fields,return_of_invalid_type,unnecessary_const,unnecessary_import,unnecessary_this,unused_import,unused_shown_name
import 'dart:core' as $core;
import 'dart:convert' as $convert;
import 'dart:typed_data' as $typed_data;
@$core.Deprecated('Use oMEMOMessageDescriptor instead')
const OMEMOMessage$json = {
'1': 'OMEMOMessage',
'2': [
{'1': 'n', '3': 1, '4': 2, '5': 13, '10': 'n'},
{'1': 'pn', '3': 2, '4': 2, '5': 13, '10': 'pn'},
{'1': 'dh_pub', '3': 3, '4': 2, '5': 12, '10': 'dhPub'},
{'1': 'ciphertext', '3': 4, '4': 1, '5': 12, '10': 'ciphertext'},
],
};
/// Descriptor for `OMEMOMessage`. Decode as a `google.protobuf.DescriptorProto`.
final $typed_data.Uint8List oMEMOMessageDescriptor = $convert.base64Decode(
'CgxPTUVNT01lc3NhZ2USDAoBbhgBIAIoDVIBbhIOCgJwbhgCIAIoDVICcG4SFQoGZGhfcHViGAMgAigMUgVkaFB1YhIeCgpjaXBoZXJ0ZXh0GAQgASgMUgpjaXBoZXJ0ZXh0');
@$core.Deprecated('Use oMEMOAuthenticatedMessageDescriptor instead')
const OMEMOAuthenticatedMessage$json = {
'1': 'OMEMOAuthenticatedMessage',
'2': [
{'1': 'mac', '3': 1, '4': 2, '5': 12, '10': 'mac'},
{'1': 'message', '3': 2, '4': 2, '5': 12, '10': 'message'},
],
};
/// Descriptor for `OMEMOAuthenticatedMessage`. Decode as a `google.protobuf.DescriptorProto`.
final $typed_data.Uint8List oMEMOAuthenticatedMessageDescriptor =
$convert.base64Decode(
'ChlPTUVNT0F1dGhlbnRpY2F0ZWRNZXNzYWdlEhAKA21hYxgBIAIoDFIDbWFjEhgKB21lc3NhZ2UYAiACKAxSB21lc3NhZ2U=');
@$core.Deprecated('Use oMEMOKeyExchangeDescriptor instead')
const OMEMOKeyExchange$json = {
'1': 'OMEMOKeyExchange',
'2': [
{'1': 'pk_id', '3': 1, '4': 2, '5': 13, '10': 'pkId'},
{'1': 'spk_id', '3': 2, '4': 2, '5': 13, '10': 'spkId'},
{'1': 'ik', '3': 3, '4': 2, '5': 12, '10': 'ik'},
{'1': 'ek', '3': 4, '4': 2, '5': 12, '10': 'ek'},
{
'1': 'message',
'3': 5,
'4': 2,
'5': 11,
'6': '.OMEMOAuthenticatedMessage',
'10': 'message'
},
],
};
/// Descriptor for `OMEMOKeyExchange`. Decode as a `google.protobuf.DescriptorProto`.
final $typed_data.Uint8List oMEMOKeyExchangeDescriptor = $convert.base64Decode(
'ChBPTUVNT0tleUV4Y2hhbmdlEhMKBXBrX2lkGAEgAigNUgRwa0lkEhUKBnNwa19pZBgCIAIoDVIFc3BrSWQSDgoCaWsYAyACKAxSAmlrEg4KAmVrGAQgAigMUgJlaxI0CgdtZXNzYWdlGAUgAigLMhouT01FTU9BdXRoZW50aWNhdGVkTWVzc2FnZVIHbWVzc2FnZQ==');

8
lib/protobuf/schema.pbserver.dart Normal file
View File

@@ -0,0 +1,8 @@
///
// Generated code. Do not modify.
// source: schema.proto
//
// @dart = 2.12
// ignore_for_file: annotate_overrides,camel_case_types,constant_identifier_names,deprecated_member_use_from_same_package,directives_ordering,library_prefixes,non_constant_identifier_names,prefer_final_fields,return_of_invalid_type,unnecessary_const,unnecessary_import,unnecessary_this,unused_import,unused_shown_name
export 'schema.pb.dart';

28
lib/src/crypto.dart
View File

@@ -6,7 +6,11 @@ import 'package:omemo_dart/src/keys.dart';
/// it indicates which of [kp] ([identityKey] == 1) or [pk] ([identityKey] == 2)
/// is the identity key. This is needed since the identity key pair/public key is
/// an Ed25519 key, but we need them as X25519 keys for DH.
Future<List<int>> omemoDH(OmemoKeyPair kp, OmemoPublicKey pk, int identityKey) async {
Future<List<int>> omemoDH(
OmemoKeyPair kp,
OmemoPublicKey pk,
int identityKey,
) async {
var ckp = kp;
var cpk = pk;
@@ -25,7 +29,6 @@ Future<List<int>> omemoDH(OmemoKeyPair kp, OmemoPublicKey pk, int identityKey) a
}
class HkdfKeyResult {
const HkdfKeyResult(this.encryptionKey, this.authenticationKey, this.iv);
final List<int> encryptionKey;
final List<int> authenticationKey;
@@ -35,7 +38,8 @@ class HkdfKeyResult {
/// cryptography _really_ wants to check the MAC output from AES-256-CBC. Since
/// we don't have it, we need the MAC check to always "pass".
class NoMacSecretBox extends SecretBox {
NoMacSecretBox(super.cipherText, { required super.nonce }) : super(mac: Mac.empty);
NoMacSecretBox(super.cipherText, {required super.nonce})
: super(mac: Mac.empty);
@override
Future<void> checkMac({
@@ -60,12 +64,20 @@ Future<HkdfKeyResult> deriveEncryptionKeys(List<int> input, String info) async {
);
final bytes = await result.extractBytes();
return HkdfKeyResult(bytes.sublist(0, 32), bytes.sublist(32, 64), bytes.sublist(64, 80));
return HkdfKeyResult(
bytes.sublist(0, 32),
bytes.sublist(32, 64),
bytes.sublist(64, 80),
);
}
/// A small helper function to make AES-256-CBC easier. Encrypt [plaintext] using [key] as
/// the encryption key and [iv] as the IV. Returns the ciphertext.
Future<List<int>> aes256CbcEncrypt(List<int> plaintext, List<int> key, List<int> iv) async {
Future<List<int>> aes256CbcEncrypt(
List<int> plaintext,
List<int> key,
List<int> iv,
) async {
final algorithm = AesCbc.with256bits(
macAlgorithm: MacAlgorithm.empty,
);
@@ -80,7 +92,11 @@ Future<List<int>> aes256CbcEncrypt(List<int> plaintext, List<int> key, List<int>
/// A small helper function to make AES-256-CBC easier. Decrypt [ciphertext] using [key] as
/// the encryption key and [iv] as the IV. Returns the ciphertext.
Future<List<int>> aes256CbcDecrypt(List<int> ciphertext, List<int> key, List<int> iv) async {
Future<List<int>> aes256CbcDecrypt(
List<int> ciphertext,
List<int> key,
List<int> iv,
) async {
final algorithm = AesCbc.with256bits(
macAlgorithm: MacAlgorithm.empty,
);

20
lib/src/double_ratchet/crypto.dart
View File

@@ -10,12 +10,19 @@ const encryptHkdfInfoString = 'OMEMO Message Key Material';
/// Signals ENCRYPT function as specified by OMEMO 0.8.3.
/// Encrypt [plaintext] using the message key [mk], given associated_data [associatedData]
/// and the AD output from the X3DH [sessionAd].
Future<List<int>> encrypt(List<int> mk, List<int> plaintext, List<int> associatedData, List<int> sessionAd) async {
Future<List<int>> encrypt(
List<int> mk,
List<int> plaintext,
List<int> associatedData,
List<int> sessionAd,
) async {
// Generate encryption, authentication key and IV
final keys = await deriveEncryptionKeys(mk, encryptHkdfInfoString);
final ciphertext = await aes256CbcEncrypt(plaintext, keys.encryptionKey, keys.iv);
final ciphertext =
await aes256CbcEncrypt(plaintext, keys.encryptionKey, keys.iv);
final header = OmemoMessage.fromBuffer(associatedData.sublist(sessionAd.length))
final header =
OmemoMessage.fromBuffer(associatedData.sublist(sessionAd.length))
..ciphertext = ciphertext;
final headerBytes = header.writeToBuffer();
final hmacInput = concat([sessionAd, headerBytes]);
@@ -29,7 +36,12 @@ Future<List<int>> encrypt(List<int> mk, List<int> plaintext, List<int> associate
/// Signals DECRYPT function as specified by OMEMO 0.8.3.
/// Decrypt [ciphertext] with the message key [mk], given the associated_data [associatedData]
/// and the AD output from the X3DH.
Future<List<int>> decrypt(List<int> mk, List<int> ciphertext, List<int> associatedData, List<int> sessionAd) async {
Future<List<int>> decrypt(
List<int> mk,
List<int> ciphertext,
List<int> associatedData,
List<int> sessionAd,
) async {
// Generate encryption, authentication key and IV
final keys = await deriveEncryptionKeys(mk, encryptHkdfInfoString);

154
lib/src/double_ratchet/double_ratchet.dart
View File

@@ -1,5 +1,6 @@
import 'dart:convert';
import 'package:cryptography/cryptography.dart';
import 'package:hex/hex.dart';
import 'package:meta/meta.dart';
import 'package:omemo_dart/src/crypto.dart';
import 'package:omemo_dart/src/double_ratchet/crypto.dart';
@@ -13,7 +14,6 @@ import 'package:omemo_dart/src/protobuf/omemo_message.dart';
const maxSkip = 1000;
class RatchetStep {
const RatchetStep(this.header, this.ciphertext);
final OmemoMessage header;
final List<int> ciphertext;
@@ -21,7 +21,6 @@ class RatchetStep {
@immutable
class SkippedKey {
const SkippedKey(this.dh, this.n);
factory SkippedKey.fromJson(Map<String, dynamic> data) {
@@ -54,7 +53,6 @@ class SkippedKey {
}
class OmemoDoubleRatchet {
OmemoDoubleRatchet(
this.dhs, // DHs
this.dhr, // DHr
@@ -68,6 +66,8 @@ class OmemoDoubleRatchet {
this.sessionAd,
this.mkSkipped, // MKSKIPPED
this.acknowledged,
this.kexTimestamp,
this.kex,
);
factory OmemoDoubleRatchet.fromJson(Map<String, dynamic> data) {
@@ -82,9 +82,11 @@ class OmemoDoubleRatchet {
'ns': 0,
'nr': 0,
'pn': 0,
'ik_pub': 'base/64/encoded',
'ik_pub': null | 'base/64/encoded',
'session_ad': 'base/64/encoded',
'acknowledged': true | false,
'kex_timestamp': int,
'kex': 'base/64/encoded',
'mkskipped': [
{
'key': 'base/64/encoded',
@@ -97,7 +99,8 @@ class OmemoDoubleRatchet {
// NOTE: Dart has some issues with just casting a List<dynamic> to List<Map<...>>, as
// such we need to convert the items by hand.
final mkSkipped = Map<SkippedKey, List<int>>.fromEntries(
(data['mkskipped']! as List<dynamic>).map<MapEntry<SkippedKey, List<int>>>(
(data['mkskipped']! as List<dynamic>)
.map<MapEntry<SkippedKey, List<int>>>(
(entry) {
final map = entry as Map<String, dynamic>;
final key = SkippedKey.fromJson(map);
@@ -129,6 +132,8 @@ class OmemoDoubleRatchet {
base64.decode(data['session_ad']! as String),
mkSkipped,
data['acknowledged']! as bool,
data['kex_timestamp']! as int,
data['kex'] as String?,
);
}
@@ -160,6 +165,13 @@ class OmemoDoubleRatchet {
final Map<SkippedKey, List<int>> mkSkipped;
/// The point in time at which we performed the kex exchange to create this ratchet.
/// Precision is milliseconds since epoch.
int kexTimestamp;
/// The key exchange that was used for initiating the session.
final String? kex;
/// Indicates whether we received an empty OMEMO message after building a session with
/// the device.
bool acknowledged;
@@ -167,7 +179,13 @@ class OmemoDoubleRatchet {
/// Create an OMEMO session using the Signed Pre Key [spk], the shared secret [sk] that
/// was obtained using a X3DH and the associated data [ad] that was also obtained through
/// a X3DH. [ik] refers to Bob's (the receiver's) IK public key.
static Future<OmemoDoubleRatchet> initiateNewSession(OmemoPublicKey spk, OmemoPublicKey ik, List<int> sk, List<int> ad) async {
static Future<OmemoDoubleRatchet> initiateNewSession(
OmemoPublicKey spk,
OmemoPublicKey ik,
List<int> sk,
List<int> ad,
int timestamp,
) async {
final dhs = await OmemoKeyPair.generateNewPair(KeyPairType.x25519);
final dhr = spk;
final rk = await kdfRk(sk, await omemoDH(dhs, dhr, 0));
@@ -186,6 +204,8 @@ class OmemoDoubleRatchet {
ad,
{},
false,
timestamp,
'',
);
}
@@ -193,7 +213,13 @@ class OmemoDoubleRatchet {
/// Pre Key keypair [spk], the shared secret [sk] that was obtained through a X3DH and
/// the associated data [ad] that was also obtained through a X3DH. [ik] refers to
/// Alice's (the initiator's) IK public key.
static Future<OmemoDoubleRatchet> acceptNewSession(OmemoKeyPair spk, OmemoPublicKey ik, List<int> sk, List<int> ad) async {
static Future<OmemoDoubleRatchet> acceptNewSession(
OmemoKeyPair spk,
OmemoPublicKey ik,
List<int> sk,
List<int> ad,
int kexTimestamp,
) async {
return OmemoDoubleRatchet(
spk,
null,
@@ -206,12 +232,15 @@ class OmemoDoubleRatchet {
ik,
ad,
{},
false,
true,
kexTimestamp,
null,
);
}
Future<Map<String, dynamic>> toJson() async {
final mkSkippedSerialised = List<Map<String, dynamic>>.empty(growable: true);
final mkSkippedSerialised =
List<Map<String, dynamic>>.empty(growable: true);
for (final entry in mkSkipped.entries) {
final result = await entry.key.toJson();
result['key'] = base64.encode(entry.value);
@@ -233,10 +262,21 @@ class OmemoDoubleRatchet {
'session_ad': base64.encode(sessionAd),
'mkskipped': mkSkippedSerialised,
'acknowledged': acknowledged,
'kex_timestamp': kexTimestamp,
'kex': kex,
};
}
Future<List<int>?> _trySkippedMessageKeys(OmemoMessage header, List<int> ciphertext) async {
/// Returns the OMEMO compatible fingerprint of the ratchet session.
Future<String> getOmemoFingerprint() async {
final curveKey = await ik.toCurve25519();
return HEX.encode(await curveKey.getBytes());
}
Future<List<int>?> _trySkippedMessageKeys(
OmemoMessage header,
List<int> ciphertext,
) async {
final key = SkippedKey(
OmemoPublicKey.fromBytes(header.dhPub!, KeyPairType.x25519),
header.n!,
@@ -245,7 +285,12 @@ class OmemoDoubleRatchet {
final mk = mkSkipped[key]!;
mkSkipped.remove(key);
return decrypt(mk, ciphertext, concat([sessionAd, header.writeToBuffer()]), sessionAd);
return decrypt(
mk,
ciphertext,
concat([sessionAd, header.writeToBuffer()]),
sessionAd,
);
}
return null;
@@ -268,18 +313,18 @@ class OmemoDoubleRatchet {
}
Future<void> _dhRatchet(OmemoMessage header) async {
pn = header.n!;
pn = ns;
ns = 0;
nr = 0;
dhr = OmemoPublicKey.fromBytes(header.dhPub!, KeyPairType.x25519);
final newRk = await kdfRk(rk, await omemoDH(dhs, dhr!, 0));
rk = newRk;
ckr = newRk;
rk = List.from(newRk);
ckr = List.from(newRk);
dhs = await OmemoKeyPair.generateNewPair(KeyPairType.x25519);
final newNewRk = await kdfRk(rk, await omemoDH(dhs, dhr!, 0));
rk = newNewRk;
cks = newNewRk;
rk = List.from(newNewRk);
cks = List.from(newNewRk);
}
/// Encrypt [plaintext] using the Double Ratchet.
@@ -297,7 +342,12 @@ class OmemoDoubleRatchet {
return RatchetStep(
header,
await encrypt(mk, plaintext, concat([sessionAd, header.writeToBuffer()]), sessionAd),
await encrypt(
mk,
plaintext,
concat([sessionAd, header.writeToBuffer()]),
sessionAd,
),
);
}
@@ -305,7 +355,10 @@ class OmemoDoubleRatchet {
/// Ratchet. Returns the decrypted (raw) plaintext.
///
/// Throws an SkippingTooManyMessagesException if too many messages were to be skipped.
Future<List<int>> ratchetDecrypt(OmemoMessage header, List<int> ciphertext) async {
Future<List<int>> ratchetDecrypt(
OmemoMessage header,
List<int> ciphertext,
) async {
// Check if we skipped too many messages
final plaintext = await _trySkippedMessageKeys(header, ciphertext);
if (plaintext != null) {
@@ -313,8 +366,8 @@ class OmemoDoubleRatchet {
}
final dhPubMatches = listsEqual(
header.dhPub ?? <int>[],
await dhr?.getBytes() ?? <int>[],
header.dhPub!,
(await dhr?.getBytes()) ?? <int>[],
);
if (!dhPubMatches) {
await _skipMessageKeys(header.pn!);
@@ -327,15 +380,65 @@ class OmemoDoubleRatchet {
ckr = newCkr;
nr++;
return decrypt(mk, ciphertext, concat([sessionAd, header.writeToBuffer()]), sessionAd);
return decrypt(
mk,
ciphertext,
concat([sessionAd, header.writeToBuffer()]),
sessionAd,
);
}
OmemoDoubleRatchet clone() {
return OmemoDoubleRatchet(
dhs,
dhr,
rk,
cks != null ? List<int>.from(cks!) : null,
ckr != null ? List<int>.from(ckr!) : null,
ns,
nr,
pn,
ik,
sessionAd,
Map<SkippedKey, List<int>>.from(mkSkipped),
acknowledged,
kexTimestamp,
kex,
);
}
OmemoDoubleRatchet cloneWithKex(String kex) {
return OmemoDoubleRatchet(
dhs,
dhr,
rk,
cks != null ? List<int>.from(cks!) : null,
ckr != null ? List<int>.from(ckr!) : null,
ns,
nr,
pn,
ik,
sessionAd,
Map<SkippedKey, List<int>>.from(mkSkipped),
acknowledged,
kexTimestamp,
kex,
);
}
@visibleForTesting
Future<bool> equals(OmemoDoubleRatchet other) async {
final dhrMatch = dhr == null
? other.dhr == null
:
// ignore: invalid_use_of_visible_for_testing_member
final dhrMatch = dhr == null ? other.dhr == null : await dhr!.equals(other.dhr!);
final ckrMatch = ckr == null ? other.ckr == null : listsEqual(ckr!, other.ckr!);
final cksMatch = cks == null ? other.cks == null : listsEqual(cks!, other.cks!);
other.dhr != null && await dhr!.equals(other.dhr!);
final ckrMatch = ckr == null
? other.ckr == null
: other.ckr != null && listsEqual(ckr!, other.ckr!);
final cksMatch = cks == null
? other.cks == null
: other.cks != null && listsEqual(cks!, other.cks!);
// ignore: invalid_use_of_visible_for_testing_member
final dhsMatch = await dhs.equals(other.dhs);
@@ -351,6 +454,7 @@ class OmemoDoubleRatchet {
ns == other.ns &&
nr == other.nr &&
pn == other.pn &&
listsEqual(sessionAd, other.sessionAd);
listsEqual(sessionAd, other.sessionAd) &&
kexTimestamp == other.kexTimestamp;
}
}

43
lib/src/errors.dart
View File

@@ -1,32 +1,61 @@
abstract class OmemoException {}
/// Triggered during X3DH if the signature if the SPK does verify to the actual SPK.
class InvalidSignatureException implements Exception {
String errMsg() => 'The signature of the SPK does not match the provided signature';
class InvalidSignatureException extends OmemoException implements Exception {
String errMsg() =>
'The signature of the SPK does not match the provided signature';
}
/// Triggered by the Double Ratchet if the computed HMAC does not match the attached HMAC.
/// Triggered by the Session Manager if the computed HMAC does not match the attached HMAC.
class InvalidMessageHMACException implements Exception {
class InvalidMessageHMACException extends OmemoException implements Exception {
String errMsg() => 'The computed HMAC does not match the provided HMAC';
}
/// Triggered by the Double Ratchet if skipping messages would cause skipping more than
/// MAXSKIP messages
class SkippingTooManyMessagesException implements Exception {
class SkippingTooManyMessagesException extends OmemoException
implements Exception {
String errMsg() => 'Skipping messages would cause a skip bigger than MAXSKIP';
}
/// Triggered by the Session Manager if the message key is not encrypted for the device.
class NotEncryptedForDeviceException implements Exception {
class NotEncryptedForDeviceException extends OmemoException
implements Exception {
String errMsg() => 'Not encrypted for this device';
}
/// Triggered by the Session Manager when there is no key for decrypting the message.
class NoDecryptionKeyException implements Exception {
class NoDecryptionKeyException extends OmemoException implements Exception {
String errMsg() => 'No key available for decrypting the message';
}
/// Triggered by the Session Manager when the identifier of the used Signed Prekey
/// is neither the current SPK's identifier nor the old one's.
class UnknownSignedPrekeyException implements Exception {
class UnknownSignedPrekeyException extends OmemoException implements Exception {
String errMsg() => 'Unknown Signed Prekey used.';
}
/// Triggered by the Session Manager when the received Key Exchange message does not meet
/// the requirement that a key exchange, given that the ratchet already exists, must be
/// sent after its creation.
class InvalidKeyExchangeException extends OmemoException implements Exception {
String errMsg() => 'The key exchange was sent before the last kex finished';
}
/// Triggered by the Session Manager when a message's sequence number is smaller than we
/// expect it to be.
class MessageAlreadyDecryptedException extends OmemoException
implements Exception {
String errMsg() => 'The message has already been decrypted';
}
/// Triggered by the OmemoManager when we could not encrypt a message as we have
/// no key material available. That happens, for example, when we want to create a
/// ratchet session with a JID we had no session with but fetching the device bundle
/// failed.
class NoKeyMaterialAvailableException extends OmemoException
implements Exception {
String errMsg() =>
'No key material available to create a ratchet session with';
}

10
lib/src/helpers.dart
View File

@@ -43,7 +43,11 @@ int generateRandom32BitNumber() {
return Random.secure().nextInt(4294967295 /*pow(2, 32) - 1*/);
}
OmemoPublicKey? decodeKeyIfNotNull(Map<String, dynamic> map, String key, KeyPairType type) {
OmemoPublicKey? decodeKeyIfNotNull(
Map<String, dynamic> map,
String key,
KeyPairType type,
) {
if (map[key] == null) return null;
return OmemoPublicKey.fromBytes(
@@ -73,3 +77,7 @@ OmemoKeyPair? decodeKeyPairIfNotNull(String? pk, String? sk, KeyPairType type) {
type,
);
}
int getTimestamp() {
return DateTime.now().millisecondsSinceEpoch;
}

39
lib/src/keys.dart
View File

@@ -9,7 +9,6 @@ const privateKeyLength = 32;
const publicKeyLength = 32;
class OmemoPublicKey {
const OmemoPublicKey(this._pubkey);
factory OmemoPublicKey.fromBytes(List<int> bytes, KeyPairType type) {
@@ -32,7 +31,10 @@ class OmemoPublicKey {
Future<String> asBase64() async => base64Encode(_pubkey.bytes);
Future<OmemoPublicKey> toCurve25519() async {
assert(type == KeyPairType.ed25519, 'Cannot convert non-Ed25519 public key to X25519');
assert(
type == KeyPairType.ed25519,
'Cannot convert non-Ed25519 public key to X25519',
);
final pkc = Uint8List(publicKeyLength);
TweetNaClExt.crypto_sign_ed25519_pk_to_x25519_pk(
@@ -40,14 +42,17 @@ class OmemoPublicKey {
Uint8List.fromList(await getBytes()),
);
return OmemoPublicKey(SimplePublicKey(List<int>.from(pkc), type: KeyPairType.x25519));
return OmemoPublicKey(
SimplePublicKey(List<int>.from(pkc), type: KeyPairType.x25519),
);
}
SimplePublicKey asPublicKey() => _pubkey;
@visibleForTesting
Future<bool> equals(OmemoPublicKey key) async {
return type == key.type && listsEqual(
return type == key.type &&
listsEqual(
await getBytes(),
await key.getBytes(),
);
@@ -55,7 +60,6 @@ class OmemoPublicKey {
}
class OmemoPrivateKey {
const OmemoPrivateKey(this._privkey, this.type);
final List<int> _privkey;
final KeyPairType type;
@@ -63,7 +67,10 @@ class OmemoPrivateKey {
Future<List<int>> getBytes() async => _privkey;
Future<OmemoPrivateKey> toCurve25519() async {
assert(type == KeyPairType.ed25519, 'Cannot convert non-Ed25519 private key to X25519');
assert(
type == KeyPairType.ed25519,
'Cannot convert non-Ed25519 private key to X25519',
);
final skc = Uint8List(privateKeyLength);
TweetNaClExt.crypto_sign_ed25519_sk_to_x25519_sk(
@@ -76,7 +83,8 @@ class OmemoPrivateKey {
@visibleForTesting
Future<bool> equals(OmemoPrivateKey key) async {
return type == key.type && listsEqual(
return type == key.type &&
listsEqual(
await getBytes(),
await key.getBytes(),
);
@@ -85,12 +93,15 @@ class OmemoPrivateKey {
/// A generic wrapper class for both Ed25519 and X25519 keypairs
class OmemoKeyPair {
const OmemoKeyPair(this.pk, this.sk, this.type);
/// Create an OmemoKeyPair just from a [type] and the bytes of the private and public
/// key.
factory OmemoKeyPair.fromBytes(List<int> publicKey, List<int> privateKey, KeyPairType type) {
factory OmemoKeyPair.fromBytes(
List<int> publicKey,
List<int> privateKey,
KeyPairType type,
) {
return OmemoKeyPair(
OmemoPublicKey.fromBytes(
publicKey,
@@ -107,7 +118,10 @@ class OmemoKeyPair {
/// Generate a completely new random OmemoKeyPair of type [type]. [type] must be either
/// KeyPairType.ed25519 or KeyPairType.x25519.
static Future<OmemoKeyPair> generateNewPair(KeyPairType type) async {
assert(type == KeyPairType.ed25519 || type == KeyPairType.x25519, 'Keypair must be either Ed25519 or X25519');
assert(
type == KeyPairType.ed25519 || type == KeyPairType.x25519,
'Keypair must be either Ed25519 or X25519',
);
SimpleKeyPair kp;
if (type == KeyPairType.ed25519) {
@@ -136,7 +150,10 @@ class OmemoKeyPair {
/// Return the bytes that comprise the public key.
Future<OmemoKeyPair> toCurve25519() async {
assert(type == KeyPairType.ed25519, 'Cannot convert non-Ed25519 keypair to X25519');
assert(
type == KeyPairType.ed25519,
'Cannot convert non-Ed25519 keypair to X25519',
);
return OmemoKeyPair(
await pk.toCurve25519(),

14
lib/src/omemo/bundle.dart
View File

@@ -1,9 +1,9 @@
import 'dart:convert';
import 'package:cryptography/cryptography.dart';
import 'package:hex/hex.dart';
import 'package:omemo_dart/src/keys.dart';
class OmemoBundle {
const OmemoBundle(
this.jid,
this.id,
@@ -13,17 +13,23 @@ class OmemoBundle {
this.ikEncoded,
this.opksEncoded,
);
/// The bare Jid the Bundle belongs to
final String jid;
/// The device Id
final int id;
/// The SPK but base64 encoded
final String spkEncoded;
final int spkId;
/// The SPK signature but base64 encoded
final String spkSignatureEncoded;
/// The IK but base64 encoded
final String ikEncoded;
/// The mapping of a OPK's id to the base64 encoded data
final Map<int, String> opksEncoded;
@@ -43,4 +49,10 @@ class OmemoBundle {
}
List<int> get spkSignature => base64Decode(spkSignatureEncoded);
/// Calculates the fingerprint of the bundle (See
/// https://xmpp.org/extensions/xep-0384.html#security § 2).
Future<String> getFingerprint() async {
return HEX.encode(await ik.getBytes());
}
}

2
lib/src/omemo/constants.dart Normal file
View File

@@ -0,0 +1,2 @@
/// The info used for when encrypting the AES key for the actual payload.
const omemoPayloadInfoString = 'OMEMO Payload';

9
lib/src/omemo/decryption_result.dart Normal file
View File

@@ -0,0 +1,9 @@
import 'package:meta/meta.dart';
import 'package:omemo_dart/src/errors.dart';
@immutable
class DecryptionResult {
const DecryptionResult(this.payload, this.error);
final String? payload;
final OmemoException? error;
}

52
lib/src/omemo/device.dart
View File

@@ -1,5 +1,6 @@
import 'dart:convert';
import 'package:cryptography/cryptography.dart';
import 'package:hex/hex.dart';
import 'package:meta/meta.dart';
import 'package:omemo_dart/src/helpers.dart';
import 'package:omemo_dart/src/keys.dart';
@@ -8,9 +9,8 @@ import 'package:omemo_dart/src/x3dh/x3dh.dart';
/// This class represents an OmemoBundle but with all keypairs belonging to the keys
@immutable
class Device {
const Device(
class OmemoDevice {
const OmemoDevice(
this.jid,
this.id,
this.ik,
@@ -23,7 +23,7 @@ class Device {
);
/// Deserialize the Device
factory Device.fromJson(Map<String, dynamic> data) {
factory OmemoDevice.fromJson(Map<String, dynamic> data) {
// NOTE: We use the way OpenSSH names their keys, meaning that ik is the Identity
// Keypair's private key, while ik_pub refers to the Identity Keypair's public
// key.
@@ -67,7 +67,7 @@ class Device {
),
);
return Device(
return OmemoDevice(
data['jid']! as String,
data['id']! as int,
OmemoKeyPair.fromBytes(
@@ -93,7 +93,10 @@ class Device {
}
/// Generate a completely new device, i.e. cryptographic identity.
static Future<Device> generateNewDevice(String jid, { int opkAmount = 100 }) async {
static Future<OmemoDevice> generateNewDevice(
String jid, {
int opkAmount = 100,
}) async {
final id = generateRandom32BitNumber();
final ik = await OmemoKeyPair.generateNewPair(KeyPairType.ed25519);
final spk = await OmemoKeyPair.generateNewPair(KeyPairType.x25519);
@@ -105,7 +108,7 @@ class Device {
opks[i] = await OmemoKeyPair.generateNewPair(KeyPairType.x25519);
}
return Device(jid, id, ik, spk, spkId, signature, null, null, opks);
return OmemoDevice(jid, id, ik, spk, spkId, signature, null, null, opks);
}
/// Our bare Jid
@@ -119,13 +122,16 @@ class Device {
/// The signed prekey...
final OmemoKeyPair spk;
/// ...its Id, ...
final int spkId;
/// ...and its signature
final List<int> spkSignature;
/// The old Signed Prekey...
final OmemoKeyPair? oldSpk;
/// ...and its Id
final int? oldSpkId;
@@ -135,12 +141,12 @@ class Device {
/// This replaces the Onetime-Prekey with id [id] with a completely new one. Returns
/// a new Device object that copies over everything but replaces said key.
@internal
Future<Device> replaceOnetimePrekey(int id) async {
Future<OmemoDevice> replaceOnetimePrekey(int id) async {
opks[id] = await OmemoKeyPair.generateNewPair(KeyPairType.x25519);
return Device(
return OmemoDevice(
jid,
id,
this.id,
ik,
spk,
spkId,
@@ -154,12 +160,12 @@ class Device {
/// This replaces the Signed-Prekey with a completely new one. Returns a new Device object
/// that copies over everything but replaces the Signed-Prekey and its signature.
@internal
Future<Device> replaceSignedPrekey() async {
Future<OmemoDevice> replaceSignedPrekey() async {
final newSpk = await OmemoKeyPair.generateNewPair(KeyPairType.x25519);
final newSpkId = generateRandom32BitNumber();
final newSignature = await sig(ik, await newSpk.pk.getBytes());
return Device(
return OmemoDevice(
jid,
id,
ik,
@@ -175,8 +181,8 @@ class Device {
/// Returns a new device that is equal to this one with the exception that the new
/// device's id is a new number between 0 and 2**32 - 1.
@internal
Device withNewId() {
return Device(
OmemoDevice withNewId() {
return OmemoDevice(
jid,
generateRandom32BitNumber(),
ik,
@@ -208,6 +214,13 @@ class Device {
);
}
/// Returns the fingerprint of the current device
Future<String> getFingerprint() async {
// Since the local key is Ed25519, we must convert it to Curve25519 first
final curveKey = await ik.pk.toCurve25519();
return HEX.encode(await curveKey.getBytes());
}
/// Serialise the device information.
Future<Map<String, dynamic>> toJson() async {
/// Serialise the OPKs
@@ -237,14 +250,16 @@ class Device {
}
@visibleForTesting
Future<bool> equals(Device other) async {
Future<bool> equals(OmemoDevice other) async {
var opksMatch = true;
if (opks.length != other.opks.length) {
opksMatch = false;
} else {
for (final entry in opks.entries) {
// ignore: invalid_use_of_visible_for_testing_member
final matches = await other.opks[entry.key]?.equals(entry.value) ?? false;
final matches =
// ignore: invalid_use_of_visible_for_testing_member
await other.opks[entry.key]?.equals(entry.value) ?? false;
if (!matches) {
opksMatch = false;
}
@@ -256,7 +271,10 @@ class Device {
// ignore: invalid_use_of_visible_for_testing_member
final spkMatch = await spk.equals(other.spk);
// ignore: invalid_use_of_visible_for_testing_member
final oldSpkMatch = oldSpk != null ? await oldSpk!.equals(other.oldSpk!) : other.oldSpk == null;
final oldSpkMatch = oldSpk != null
// ignore: invalid_use_of_visible_for_testing_member
? await oldSpk!.equals(other.oldSpk!)
: other.oldSpk == null;
return id == other.id &&
ikMatch &&
spkMatch &&

1
lib/src/omemo/encrypted_key.dart
View File

@@ -4,7 +4,6 @@ import 'package:meta/meta.dart';
/// <keys /> header.
@immutable
class EncryptedKey {
const EncryptedKey(this.jid, this.rid, this.value, this.kex);
final String jid;
final int rid;

26
lib/src/omemo/encryption_result.dart
View File

@@ -1,15 +1,33 @@
import 'package:meta/meta.dart';
import 'package:omemo_dart/src/errors.dart';
import 'package:omemo_dart/src/omemo/encrypted_key.dart';
import 'package:omemo_dart/src/omemo/ratchet_map_key.dart';
@immutable
class EncryptionResult {
const EncryptionResult(
this.ciphertext,
this.encryptedKeys,
this.deviceEncryptionErrors,
this.jidEncryptionErrors,
);
const EncryptionResult(this.ciphertext, this.encryptedKeys);
/// The actual message that was encrypted
/// The actual message that was encrypted.
final List<int>? ciphertext;
/// Mapping of the device Id to the key for decrypting ciphertext, encrypted
/// for the ratchet with said device Id
/// for the ratchet with said device Id.
final List<EncryptedKey> encryptedKeys;
/// Mapping of a ratchet map keys to a possible exception.
final Map<RatchetMapKey, OmemoException> deviceEncryptionErrors;
/// Mapping of a JID to a possible exception.
final Map<String, OmemoException> jidEncryptionErrors;
/// True if the encryption was a success. This means that we could encrypt for
/// at least one ratchet.
bool isSuccess(int numberOfRecipients) =>
encryptedKeys.isNotEmpty &&
jidEncryptionErrors.length < numberOfRecipients;
}

26
lib/src/omemo/events.dart
View File

@@ -5,32 +5,40 @@ abstract class OmemoEvent {}
/// Triggered when a ratchet has been modified
class RatchetModifiedEvent extends OmemoEvent {
RatchetModifiedEvent(this.jid, this.deviceId, this.ratchet);
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.
class RatchetRemovedEvent extends OmemoEvent {
RatchetRemovedEvent(this.jid, this.deviceId);
final String jid;
final int deviceId;
}
/// Triggered when the device map has been modified
class DeviceMapModifiedEvent extends OmemoEvent {
DeviceMapModifiedEvent(this.map);
final Map<String, List<int>> map;
class DeviceListModifiedEvent extends OmemoEvent {
DeviceListModifiedEvent(this.list);
final Map<String, List<int>> list;
}
/// Triggered by the OmemoSessionManager when our own device bundle was modified
/// and thus should be republished.
class DeviceModifiedEvent extends OmemoEvent {
DeviceModifiedEvent(this.device);
final Device device;
final OmemoDevice device;
}

1
lib/src/omemo/fingerprint.dart
View File

@@ -2,7 +2,6 @@ import 'package:meta/meta.dart';
@immutable
class DeviceFingerprint {
const DeviceFingerprint(this.deviceId, this.fingerprint);
final String fingerprint;
final int deviceId;

854
lib/src/omemo/omemomanager.dart Normal file
View File

@@ -0,0 +1,854 @@
import 'dart:async';
import 'dart:collection';
import 'dart:convert';
import 'package:collection/collection.dart';
import 'package:cryptography/cryptography.dart';
import 'package:hex/hex.dart';
import 'package:logging/logging.dart';
import 'package:meta/meta.dart';
import 'package:omemo_dart/src/crypto.dart';
import 'package:omemo_dart/src/double_ratchet/double_ratchet.dart';
import 'package:omemo_dart/src/errors.dart';
import 'package:omemo_dart/src/helpers.dart';
import 'package:omemo_dart/src/keys.dart';
import 'package:omemo_dart/src/omemo/bundle.dart';
import 'package:omemo_dart/src/omemo/constants.dart';
import 'package:omemo_dart/src/omemo/decryption_result.dart';
import 'package:omemo_dart/src/omemo/device.dart';
import 'package:omemo_dart/src/omemo/encrypted_key.dart';
import 'package:omemo_dart/src/omemo/encryption_result.dart';
import 'package:omemo_dart/src/omemo/events.dart';
import 'package:omemo_dart/src/omemo/fingerprint.dart';
import 'package:omemo_dart/src/omemo/ratchet_map_key.dart';
import 'package:omemo_dart/src/omemo/stanza.dart';
import 'package:omemo_dart/src/protobuf/omemo_authenticated_message.dart';
import 'package:omemo_dart/src/protobuf/omemo_key_exchange.dart';
import 'package:omemo_dart/src/protobuf/omemo_message.dart';
import 'package:omemo_dart/src/trust/base.dart';
import 'package:omemo_dart/src/x3dh/x3dh.dart';
import 'package:synchronized/synchronized.dart';
class _InternalDecryptionResult {
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;
}
class OmemoManager {
OmemoManager(
this._device,
this._trustManager,
this.sendEmptyOmemoMessageImpl,
this.fetchDeviceListImpl,
this.fetchDeviceBundleImpl,
this.subscribeToDeviceListNodeImpl,
);
final Logger _log = Logger('OmemoManager');
/// Functions for connecting with the OMEMO library
/// Send an empty OMEMO:2 message using the encrypted payload @result to
/// @recipientJid.
final Future<void> Function(EncryptionResult result, String recipientJid)
sendEmptyOmemoMessageImpl;
/// Fetch the list of device ids associated with @jid. If the device list cannot be
/// fetched, return null.
final Future<List<int>?> Function(String jid) fetchDeviceListImpl;
/// Fetch the device bundle for the device with id @id of jid. If it cannot be fetched, return null.
final Future<OmemoBundle?> Function(String jid, int id) fetchDeviceBundleImpl;
/// Subscribe to the device list PEP node of @jid.
final Future<void> Function(String jid) subscribeToDeviceListNodeImpl;
/// Map bare JID to its known devices
Map<String, List<int>> _deviceList = {};
/// Map bare JIDs to whether we already requested the device list once
final Map<String, bool> _deviceListRequested = {};
/// Map bare a ratchet key to its ratchet. Note that this is also locked by
/// _ratchetCriticalSectionLock.
Map<RatchetMapKey, OmemoDoubleRatchet> _ratchetMap = {};
/// Map bare JID to whether we already tried to subscribe to the device list node.
final Map<String, bool> _subscriptionMap = {};
/// For preventing a race condition in encryption/decryption
final Map<String, Queue<Completer<void>>> _ratchetCriticalSectionQueue = {};
final Lock _ratchetCriticalSectionLock = Lock();
/// The OmemoManager's trust management
final TrustManager _trustManager;
TrustManager get trustManager => _trustManager;
/// Our own keys...
final Lock _deviceLock = Lock();
// ignore: prefer_final_fields
OmemoDevice _device;
/// The event bus of the session manager
final StreamController<OmemoEvent> _eventStreamController =
StreamController<OmemoEvent>.broadcast();
Stream<OmemoEvent> get eventStream => _eventStreamController.stream;
/// Enter the critical section for performing cryptographic operations on the ratchets
Future<void> _enterRatchetCriticalSection(String jid) async {
final completer = await _ratchetCriticalSectionLock.synchronized(() {
if (_ratchetCriticalSectionQueue.containsKey(jid)) {
final c = Completer<void>();
_ratchetCriticalSectionQueue[jid]!.addLast(c);
return c;
}
_ratchetCriticalSectionQueue[jid] = Queue();
return null;
});
if (completer != null) {
await completer.future;
}
}
/// Leave the critical section for the ratchets.
Future<void> _leaveRatchetCriticalSection(String jid) async {
await _ratchetCriticalSectionLock.synchronized(() {
if (_ratchetCriticalSectionQueue.containsKey(jid)) {
if (_ratchetCriticalSectionQueue[jid]!.isEmpty) {
_ratchetCriticalSectionQueue.remove(jid);
} else {
_ratchetCriticalSectionQueue[jid]!.removeFirst().complete();
}
}
});
}
Future<String?> _decryptAndVerifyHmac(
List<int>? ciphertext,
List<int> keyAndHmac,
) async {
// Empty OMEMO messages should just have the key decrypted and/or session set up.
if (ciphertext == null) {
return null;
}
final key = keyAndHmac.sublist(0, 32);
final hmac = keyAndHmac.sublist(32, 48);
final derivedKeys = await deriveEncryptionKeys(key, omemoPayloadInfoString);
final computedHmac =
await truncatedHmac(ciphertext, derivedKeys.authenticationKey);
if (!listsEqual(hmac, computedHmac)) {
throw InvalidMessageHMACException();
}
return utf8.decode(
await aes256CbcDecrypt(
ciphertext,
derivedKeys.encryptionKey,
derivedKeys.iv,
),
);
}
/// Add a session [ratchet] with the [deviceId] to the internal tracking state.
/// NOTE: Must be called from within the ratchet critical section.
void _addSession(String jid, int deviceId, OmemoDoubleRatchet ratchet) {
// Add the bundle Id
if (!_deviceList.containsKey(jid)) {
_deviceList[jid] = [deviceId];
// Commit the device map
_eventStreamController.add(DeviceListModifiedEvent(_deviceList));
} else {
// Prevent having the same device multiple times in the list
if (!_deviceList[jid]!.contains(deviceId)) {
_deviceList[jid]!.add(deviceId);
// Commit the device map
_eventStreamController.add(DeviceListModifiedEvent(_deviceList));
}
}
// Add the ratchet session
final key = RatchetMapKey(jid, deviceId);
_ratchetMap[key] = ratchet;
// Commit the ratchet
_eventStreamController
.add(RatchetModifiedEvent(jid, deviceId, ratchet, true, false));
}
/// Build a new session with the user at [jid] with the device [deviceId] using data
/// from the key exchange [kex]. In case [kex] contains an unknown Signed Prekey
/// identifier an UnknownSignedPrekeyException will be thrown.
Future<OmemoDoubleRatchet> _addSessionFromKeyExchange(
String jid,
int deviceId,
OmemoKeyExchange kex,
) async {
// Pick the correct SPK
final device = await getDevice();
OmemoKeyPair spk;
if (kex.spkId == _device.spkId) {
spk = _device.spk;
} else if (kex.spkId == _device.oldSpkId) {
spk = _device.oldSpk!;
} else {
throw UnknownSignedPrekeyException();
}
final kexResult = await x3dhFromInitialMessage(
X3DHMessage(
OmemoPublicKey.fromBytes(kex.ik!, KeyPairType.ed25519),
OmemoPublicKey.fromBytes(kex.ek!, KeyPairType.x25519),
kex.pkId!,
),
spk,
device.opks.values.elementAt(kex.pkId!),
device.ik,
);
final ratchet = await OmemoDoubleRatchet.acceptNewSession(
spk,
OmemoPublicKey.fromBytes(kex.ik!, KeyPairType.ed25519),
kexResult.sk,
kexResult.ad,
getTimestamp(),
);
// Notify the trust manager
await trustManager.onNewSession(jid, deviceId);
return ratchet;
}
/// Create a ratchet session initiated by Alice to the user with Jid [jid] and the device
/// [deviceId] from the bundle [bundle].
@visibleForTesting
Future<OmemoKeyExchange> addSessionFromBundle(
String jid,
int deviceId,
OmemoBundle bundle,
) async {
final device = await getDevice();
final kexResult = await x3dhFromBundle(
bundle,
device.ik,
);
final ratchet = await OmemoDoubleRatchet.initiateNewSession(
bundle.spk,
bundle.ik,
kexResult.sk,
kexResult.ad,
getTimestamp(),
);
await _trustManager.onNewSession(jid, deviceId);
_addSession(jid, deviceId, ratchet);
return OmemoKeyExchange()
..pkId = kexResult.opkId
..spkId = bundle.spkId
..ik = await device.ik.pk.getBytes()
..ek = await kexResult.ek.pk.getBytes();
}
/// In case a decryption error occurs, the Double Ratchet spec says to just restore
/// the ratchet to its old state. As such, this function restores the ratchet at
/// [mapKey] with [oldRatchet].
/// NOTE: Must be called from within the ratchet critical section
void _restoreRatchet(RatchetMapKey mapKey, OmemoDoubleRatchet oldRatchet) {
_log.finest(
'Restoring ratchet ${mapKey.jid}:${mapKey.deviceId} to ${oldRatchet.nr}',
);
_ratchetMap[mapKey] = oldRatchet;
// Commit the ratchet
_eventStreamController.add(
RatchetModifiedEvent(
mapKey.jid,
mapKey.deviceId,
oldRatchet,
false,
false,
),
);
}
/// Attempt to decrypt [ciphertext]. [keys] refers to the <key /> elements inside the
/// <keys /> element with a "jid" attribute matching our own. [senderJid] refers to the
/// bare Jid of the sender. [senderDeviceId] refers to the "sid" attribute of the
/// <encrypted /> element.
/// [timestamp] refers to the time the message was sent. This might be either what the
/// server tells you via "XEP-0203: Delayed Delivery" or the point in time at which
/// you received the stanza, if no Delayed Delivery element was found.
///
/// If the received message is an empty OMEMO message, i.e. there is no <payload />
/// element, then [ciphertext] must be set to null. In this case, this function
/// will return null as there is no message to be decrypted. This, however, is used
/// to set up sessions or advance the ratchets.
Future<_InternalDecryptionResult> _decryptMessage(
List<int>? ciphertext,
String senderJid,
int senderDeviceId,
List<EncryptedKey> keys,
int timestamp,
) async {
// Try to find a session we can decrypt with.
var device = await getDevice();
final rawKey = keys.firstWhereOrNull((key) => key.rid == device.id);
if (rawKey == null) {
throw NotEncryptedForDeviceException();
}
final decodedRawKey = base64.decode(rawKey.value);
List<int>? keyAndHmac;
OmemoAuthenticatedMessage authMessage;
OmemoMessage? message;
// 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!);
// Guard against old key exchanges
if (oldRatchet != null) {
_log.finest(
'KEX for existent ratchet ${ratchetKey.toJsonKey()}. ${oldRatchet.kexTimestamp} > $timestamp: ${oldRatchet.kexTimestamp > timestamp}',
);
if (oldRatchet.kexTimestamp > timestamp) {
throw InvalidKeyExchangeException();
}
}
final r =
await _addSessionFromKeyExchange(senderJid, senderDeviceId, kex);
// 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);
// Replace the OPK
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!);
}
final devices = _deviceList[senderJid];
if (devices?.contains(senderDeviceId) != true) {
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)!;
try {
if (rawKey.kex) {
keyAndHmac =
await ratchet.ratchetDecrypt(message, authMessage.writeToBuffer());
} else {
keyAndHmac = await ratchet.ratchetDecrypt(message, decodedRawKey);
}
} catch (_) {
_restoreRatchet(ratchetKey, oldRatchet!);
rethrow;
}
// Commit the ratchet
_eventStreamController.add(
RatchetModifiedEvent(
senderJid,
senderDeviceId,
ratchet,
false,
false,
),
);
try {
return _InternalDecryptionResult(
false,
false,
await _decryptAndVerifyHmac(ciphertext, keyAndHmac),
);
} catch (_) {
_restoreRatchet(ratchetKey, oldRatchet!);
rethrow;
}
}
/// Returns, if it exists, the ratchet associated with [key].
/// NOTE: Must be called from within the ratchet critical section.
@visibleForTesting
OmemoDoubleRatchet? getRatchet(RatchetMapKey key) => _ratchetMap[key];
/// Figure out what bundles we have to still build a session with.
Future<List<OmemoBundle>> _fetchNewBundles(String jid) async {
// Check if we already requested the device list for [jid]
List<int> bundlesToFetch;
if (!_deviceListRequested.containsKey(jid) ||
!_deviceList.containsKey(jid)) {
// We don't have an up-to-date version of the device list
final newDeviceList = await fetchDeviceListImpl(jid);
if (newDeviceList == null) return [];
_deviceList[jid] = newDeviceList;
bundlesToFetch = newDeviceList.where((id) {
return !_ratchetMap.containsKey(RatchetMapKey(jid, id)) ||
_deviceList[jid]?.contains(id) == false;
}).toList();
// Trigger an event with the new device list
_eventStreamController.add(DeviceListModifiedEvent(_deviceList));
} else {
// We already have an up-to-date version of the device list
bundlesToFetch = _deviceList[jid]!
.where((id) => !_ratchetMap.containsKey(RatchetMapKey(jid, id)))
.toList();
}
if (bundlesToFetch.isNotEmpty) {
_log.finest('Fetching bundles $bundlesToFetch for $jid');
}
final device = await getDevice();
final newBundles = List<OmemoBundle>.empty(growable: true);
for (final id in bundlesToFetch) {
if (jid == device.jid && id == device.id) continue;
final bundle = await fetchDeviceBundleImpl(jid, id);
if (bundle != null) newBundles.add(bundle);
}
return newBundles;
}
/// Encrypt the key [plaintext] for all known bundles of the Jids in [jids]. Returns a
/// map that maps the device Id to the ciphertext of [plaintext].
///
/// If [plaintext] is null, then the result will be an empty OMEMO message, i.e. one that
/// does not contain a <payload /> element. This means that the ciphertext attribute of
/// the result will be null as well.
/// NOTE: Must be called within the ratchet critical section
Future<EncryptionResult> _encryptToJids(
List<String> jids,
String? plaintext,
) async {
final encryptedKeys = List<EncryptedKey>.empty(growable: true);
var ciphertext = const <int>[];
var keyPayload = const <int>[];
if (plaintext != null) {
// Generate the key and encrypt the plaintext
final key = generateRandomBytes(32);
final keys = await deriveEncryptionKeys(key, omemoPayloadInfoString);
ciphertext = await aes256CbcEncrypt(
utf8.encode(plaintext),
keys.encryptionKey,
keys.iv,
);
final hmac = await truncatedHmac(ciphertext, keys.authenticationKey);
keyPayload = concat([key, hmac]);
} else {
keyPayload = List<int>.filled(32, 0x0);
}
final kex = <RatchetMapKey, OmemoKeyExchange>{};
for (final jid in jids) {
for (final newSession in await _fetchNewBundles(jid)) {
kex[RatchetMapKey(jid, newSession.id)] = await addSessionFromBundle(
newSession.jid,
newSession.id,
newSession,
);
}
}
// We assume that the user already checked if the session exists
final deviceEncryptionErrors = <RatchetMapKey, OmemoException>{};
final jidEncryptionErrors = <String, OmemoException>{};
for (final jid in jids) {
final devices = _deviceList[jid];
if (devices == null) {
_log.severe('Device list does not exist for $jid.');
jidEncryptionErrors[jid] = NoKeyMaterialAvailableException();
continue;
}
if (!_subscriptionMap.containsKey(jid)) {
unawaited(subscribeToDeviceListNodeImpl(jid));
_subscriptionMap[jid] = true;
}
for (final deviceId in devices) {
// Empty OMEMO messages are allowed to bypass trust
if (plaintext != null) {
// Only encrypt to devices that are trusted
if (!(await _trustManager.isTrusted(jid, deviceId))) continue;
// Only encrypt to devices that are enabled
if (!(await _trustManager.isEnabled(jid, deviceId))) continue;
}
final ratchetKey = RatchetMapKey(jid, deviceId);
var ratchet = _ratchetMap[ratchetKey];
if (ratchet == null) {
_log.severe('Ratchet ${ratchetKey.toJsonKey()} does not exist.');
deviceEncryptionErrors[ratchetKey] =
NoKeyMaterialAvailableException();
continue;
}
final ciphertext =
(await ratchet.ratchetEncrypt(keyPayload)).ciphertext;
if (kex.containsKey(ratchetKey)) {
// The ratchet did not exist
final k = kex[ratchetKey]!
..message = OmemoAuthenticatedMessage.fromBuffer(ciphertext);
final buffer = base64.encode(k.writeToBuffer());
encryptedKeys.add(
EncryptedKey(
jid,
deviceId,
buffer,
true,
),
);
ratchet = ratchet.cloneWithKex(buffer);
_ratchetMap[ratchetKey] = ratchet;
} else if (!ratchet.acknowledged) {
// The ratchet exists but is not acked
if (ratchet.kex != null) {
final oldKex =
OmemoKeyExchange.fromBuffer(base64.decode(ratchet.kex!))
..message = OmemoAuthenticatedMessage.fromBuffer(ciphertext);
encryptedKeys.add(
EncryptedKey(
jid,
deviceId,
base64.encode(oldKex.writeToBuffer()),
true,
),
);
} else {
// The ratchet is not acked but we don't have the old key exchange
_log.warning(
'Ratchet for $jid:$deviceId is not acked but the kex attribute is null',
);
encryptedKeys.add(
EncryptedKey(
jid,
deviceId,
base64.encode(ciphertext),
false,
),
);
}
} else {
// The ratchet exists and is acked
encryptedKeys.add(
EncryptedKey(
jid,
deviceId,
base64.encode(ciphertext),
false,
),
);
}
// Commit the ratchet
_eventStreamController
.add(RatchetModifiedEvent(jid, deviceId, ratchet, false, false));
}
}
return EncryptionResult(
plaintext != null ? ciphertext : null,
encryptedKeys,
deviceEncryptionErrors,
jidEncryptionErrors,
);
}
/// Call when receiving an OMEMO:2 encrypted stanza. Will handle everything and
/// decrypt it.
Future<DecryptionResult> onIncomingStanza(OmemoIncomingStanza stanza) async {
await _enterRatchetCriticalSection(stanza.bareSenderJid);
if (!_subscriptionMap.containsKey(stanza.bareSenderJid)) {
unawaited(subscribeToDeviceListNodeImpl(stanza.bareSenderJid));
_subscriptionMap[stanza.bareSenderJid] = true;
}
final ratchetKey =
RatchetMapKey(stanza.bareSenderJid, stanza.senderDeviceId);
final _InternalDecryptionResult result;
try {
result = await _decryptMessage(
stanza.payload != null ? base64.decode(stanza.payload!) : null,
stanza.bareSenderJid,
stanza.senderDeviceId,
stanza.keys,
stanza.timestamp,
);
} on OmemoException catch (ex) {
await _leaveRatchetCriticalSection(stanza.bareSenderJid);
return DecryptionResult(
null,
ex,
);
}
// Check if the ratchet is acked
final ratchet = getRatchet(ratchetKey);
assert(
ratchet != null,
'We decrypted the message, so the ratchet must exist',
);
if (ratchet!.acknowledged) {
// Ratchet is acknowledged
if (ratchet.nr > 53 || result.ratchetCreated || result.ratchetReplaced) {
await sendEmptyOmemoMessageImpl(
await _encryptToJids(
[stanza.bareSenderJid],
null,
),
stanza.bareSenderJid,
);
}
// Ratchet is acked
await _leaveRatchetCriticalSection(stanza.bareSenderJid);
return DecryptionResult(
result.payload,
null,
);
} else {
// Ratchet is not acked.
// Mark as acked and send an empty OMEMO message.
await ratchetAcknowledged(
stanza.bareSenderJid,
stanza.senderDeviceId,
enterCriticalSection: false,
);
await sendEmptyOmemoMessageImpl(
await _encryptToJids(
[stanza.bareSenderJid],
null,
),
stanza.bareSenderJid,
);
await _leaveRatchetCriticalSection(stanza.bareSenderJid);
return DecryptionResult(
result.payload,
null,
);
}
}
/// Call when sending out an encrypted stanza. Will handle everything and
/// encrypt it.
Future<EncryptionResult> onOutgoingStanza(OmemoOutgoingStanza stanza) async {
_log.finest('Waiting to enter critical section');
await _enterRatchetCriticalSection(stanza.recipientJids.first);
_log.finest('Entered critical section');
final result = _encryptToJids(
stanza.recipientJids,
stanza.payload,
);
await _leaveRatchetCriticalSection(stanza.recipientJids.first);
return result;
}
// Sends a hearbeat message as specified by XEP-0384 to [jid].
Future<void> sendOmemoHeartbeat(String jid) async {
// TODO(Unknown): Include some error handling
final result = await _encryptToJids(
[jid],
null,
);
await sendEmptyOmemoMessageImpl(result, jid);
}
/// Mark the ratchet for device [deviceId] from [jid] as acked.
Future<void> ratchetAcknowledged(
String jid,
int deviceId, {
bool enterCriticalSection = true,
}) async {
if (enterCriticalSection) await _enterRatchetCriticalSection(jid);
final key = RatchetMapKey(jid, deviceId);
if (_ratchetMap.containsKey(key)) {
final ratchet = _ratchetMap[key]!..acknowledged = true;
// Commit it
_eventStreamController
.add(RatchetModifiedEvent(jid, deviceId, ratchet, false, false));
} else {
_log.severe(
'Attempted to acknowledge ratchet ${key.toJsonKey()}, even though it does not exist',
);
}
if (enterCriticalSection) await _leaveRatchetCriticalSection(jid);
}
/// Generates an entirely new device. May be useful when the user wants to reset their cryptographic
/// identity. Triggers an event to commit it to storage.
Future<void> regenerateDevice() async {
await _deviceLock.synchronized(() async {
_device = await OmemoDevice.generateNewDevice(_device.jid);
// Commit it
_eventStreamController.add(DeviceModifiedEvent(_device));
});
}
/// Returns the device used for encryption and decryption.
Future<OmemoDevice> getDevice() => _deviceLock.synchronized(() => _device);
/// Returns the id of the device used for encryption and decryption.
Future<int> getDeviceId() async => (await getDevice()).id;
/// Directly aquire the current device as a OMEMO device bundle.
Future<OmemoBundle> getDeviceBundle() async => (await getDevice()).toBundle();
/// Directly aquire the current device's fingerprint.
Future<String> getDeviceFingerprint() async =>
(await getDevice()).getFingerprint();
/// Returns the fingerprints for all devices of [jid] that we have a session with.
/// If there are not sessions with [jid], then returns null.
Future<List<DeviceFingerprint>?> getFingerprintsForJid(String jid) async {
if (!_deviceList.containsKey(jid)) return null;
await _enterRatchetCriticalSection(jid);
final fingerprintKeys = _deviceList[jid]!
.map((id) => RatchetMapKey(jid, id))
.where((key) => _ratchetMap.containsKey(key));
final fingerprints = List<DeviceFingerprint>.empty(growable: true);
for (final key in fingerprintKeys) {
final curveKey = await _ratchetMap[key]!.ik.toCurve25519();
fingerprints.add(
DeviceFingerprint(
key.deviceId,
HEX.encode(await curveKey.getBytes()),
),
);
}
await _leaveRatchetCriticalSection(jid);
return fingerprints;
}
/// Ensures that the device list is fetched again on the next message sending.
void onNewConnection() {
_deviceListRequested.clear();
_subscriptionMap.clear();
}
/// Sets the device list for [jid] to [devices]. Triggers a DeviceListModifiedEvent.
void onDeviceListUpdate(String jid, List<int> devices) {
_deviceList[jid] = devices;
_deviceListRequested[jid] = true;
// Trigger an event
_eventStreamController.add(DeviceListModifiedEvent(_deviceList));
}
void initialize(
Map<RatchetMapKey, OmemoDoubleRatchet> ratchetMap,
Map<String, List<int>> deviceList,
) {
_deviceList = deviceList;
_ratchetMap = ratchetMap;
}
/// Removes all ratchets for JID [jid]. This also removes all trust decisions for
/// [jid] from the trust manager. This function triggers a RatchetRemovedEvent for
/// every removed ratchet and a DeviceListModifiedEvent afterwards. Behaviour for
/// the trust manager is dependent on its implementation.
Future<void> removeAllRatchets(String jid) async {
await _enterRatchetCriticalSection(jid);
for (final deviceId in _deviceList[jid]!) {
// Remove the ratchet and commit it
_ratchetMap.remove(RatchetMapKey(jid, deviceId));
_eventStreamController.add(RatchetRemovedEvent(jid, deviceId));
}
// Remove the devices from the device list cache and commit it
_deviceList.remove(jid);
_deviceListRequested.remove(jid);
_eventStreamController.add(DeviceListModifiedEvent(_deviceList));
// Remove trust decisions
await _trustManager.removeTrustDecisionsForJid(jid);
await _leaveRatchetCriticalSection(jid);
}
/// Replaces the internal device with [newDevice]. Does not trigger an event.
Future<void> replaceDevice(OmemoDevice newDevice) async {
await _deviceLock.synchronized(() {
_device = newDevice;
});
}
}

5
lib/src/omemo/ratchet_map_key.dart
View File

@@ -2,7 +2,6 @@ import 'package:meta/meta.dart';
@immutable
class RatchetMapKey {
const RatchetMapKey(this.jid, this.deviceId);
factory RatchetMapKey.fromJsonKey(String key) {
@@ -24,7 +23,9 @@ class RatchetMapKey {
@override
bool operator ==(Object other) {
return other is RatchetMapKey && jid == other.jid && deviceId == other.deviceId;
return other is RatchetMapKey &&
jid == other.jid &&
deviceId == other.deviceId;
}
@override

578
lib/src/omemo/sessionmanager.dart
View File

@@ -1,578 +0,0 @@
import 'dart:async';
import 'dart:convert';
import 'package:collection/collection.dart';
import 'package:cryptography/cryptography.dart';
import 'package:hex/hex.dart';
import 'package:logging/logging.dart';
import 'package:meta/meta.dart';
import 'package:omemo_dart/src/crypto.dart';
import 'package:omemo_dart/src/double_ratchet/double_ratchet.dart';
import 'package:omemo_dart/src/errors.dart';
import 'package:omemo_dart/src/helpers.dart';
import 'package:omemo_dart/src/keys.dart';
import 'package:omemo_dart/src/omemo/bundle.dart';
import 'package:omemo_dart/src/omemo/device.dart';
import 'package:omemo_dart/src/omemo/encrypted_key.dart';
import 'package:omemo_dart/src/omemo/encryption_result.dart';
import 'package:omemo_dart/src/omemo/events.dart';
import 'package:omemo_dart/src/omemo/fingerprint.dart';
import 'package:omemo_dart/src/omemo/ratchet_map_key.dart';
import 'package:omemo_dart/src/protobuf/omemo_authenticated_message.dart';
import 'package:omemo_dart/src/protobuf/omemo_key_exchange.dart';
import 'package:omemo_dart/src/protobuf/omemo_message.dart';
import 'package:omemo_dart/src/trust/base.dart';
import 'package:omemo_dart/src/x3dh/x3dh.dart';
import 'package:synchronized/synchronized.dart';
/// The info used for when encrypting the AES key for the actual payload.
const omemoPayloadInfoString = 'OMEMO Payload';
class OmemoSessionManager {
OmemoSessionManager(this._device, this._deviceMap, this._ratchetMap, this._trustManager)
: _lock = Lock(),
_deviceLock = Lock(),
_eventStreamController = StreamController<OmemoEvent>.broadcast(),
_log = Logger('OmemoSessionManager');
/// Deserialise the OmemoSessionManager from JSON data [data] that does not contain
/// the ratchet sessions.
factory OmemoSessionManager.fromJsonWithoutSessions(
Map<String, dynamic> data,
Map<RatchetMapKey, OmemoDoubleRatchet> ratchetMap,
TrustManager trustManager,
) {
// NOTE: Dart has some issues with just casting a List<dynamic> to List<Map<...>>, as
// such we need to convert the items by hand.
return OmemoSessionManager(
Device.fromJson(data['device']! as Map<String, dynamic>),
(data['devices']! as Map<String, dynamic>).map<String, List<int>>(
(key, value) {
return MapEntry(
key,
(value as List<dynamic>).map<int>((i) => i as int).toList(),
);
}
),
ratchetMap,
trustManager,
);
}
/// Generate a new cryptographic identity.
static Future<OmemoSessionManager> generateNewIdentity(String jid, TrustManager trustManager, { int opkAmount = 100 }) async {
assert(opkAmount > 0, 'opkAmount must be bigger than 0.');
final device = await Device.generateNewDevice(jid, opkAmount: opkAmount);
return OmemoSessionManager(device, {}, {}, trustManager);
}
/// Logging
Logger _log;
/// Lock for _ratchetMap and _bundleMap
final Lock _lock;
/// Mapping of the Device Id to its OMEMO session
final Map<RatchetMapKey, OmemoDoubleRatchet> _ratchetMap;
/// Mapping of a bare Jid to its Device Ids
final Map<String, List<int>> _deviceMap;
/// The event bus of the session manager
final StreamController<OmemoEvent> _eventStreamController;
/// Our own keys...
// ignore: prefer_final_fields
Device _device;
/// and its lock
final Lock _deviceLock;
/// The trust manager
final TrustManager _trustManager;
TrustManager get trustManager => _trustManager;
/// A stream that receives events regarding the session
Stream<OmemoEvent> get eventStream => _eventStreamController.stream;
/// Returns our own device.
Future<Device> getDevice() async {
return _deviceLock.synchronized(() => _device);
}
/// Returns the id attribute of our own device. This is just a short-hand for
/// ```await (session.getDevice()).id```.
Future<int> getDeviceId() async {
return _deviceLock.synchronized(() => _device.id);
}
/// Returns the device as an OmemoBundle. This is just a short-hand for
/// ```await (await session.getDevice()).toBundle()```.
Future<OmemoBundle> getDeviceBundle() async {
return _deviceLock.synchronized(() async => _device.toBundle());
}
/// Add a session [ratchet] with the [deviceId] to the internal tracking state.
Future<void> _addSession(String jid, int deviceId, OmemoDoubleRatchet ratchet) async {
await _lock.synchronized(() async {
// Add the bundle Id
if (!_deviceMap.containsKey(jid)) {
_deviceMap[jid] = [deviceId];
// Commit the device map
_eventStreamController.add(DeviceMapModifiedEvent(_deviceMap));
} else {
// Prevent having the same device multiple times in the list
if (!_deviceMap[jid]!.contains(deviceId)) {
_deviceMap[jid]!.add(deviceId);
// Commit the device map
_eventStreamController.add(DeviceMapModifiedEvent(_deviceMap));
}
}
// Add the ratchet session
final key = RatchetMapKey(jid, deviceId);
_ratchetMap[key] = ratchet;
// Commit the ratchet
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet));
});
}
/// Create a ratchet session initiated by Alice to the user with Jid [jid] and the device
/// [deviceId] from the bundle [bundle].
@visibleForTesting
Future<OmemoKeyExchange> addSessionFromBundle(String jid, int deviceId, OmemoBundle bundle) async {
final device = await getDevice();
final kexResult = await x3dhFromBundle(
bundle,
device.ik,
);
final ratchet = await OmemoDoubleRatchet.initiateNewSession(
bundle.spk,
bundle.ik,
kexResult.sk,
kexResult.ad,
);
await _trustManager.onNewSession(jid, deviceId);
await _addSession(jid, deviceId, ratchet);
return OmemoKeyExchange()
..pkId = kexResult.opkId
..spkId = bundle.spkId
..ik = await device.ik.pk.getBytes()
..ek = await kexResult.ek.pk.getBytes();
}
/// Build a new session with the user at [jid] with the device [deviceId] using data
/// from the key exchange [kex]. In case [kex] contains an unknown Signed Prekey
/// identifier an UnknownSignedPrekeyException will be thrown.
Future<void> _addSessionFromKeyExchange(String jid, int deviceId, OmemoKeyExchange kex) async {
// Pick the correct SPK
final device = await getDevice();
final spk = await _lock.synchronized(() async {
if (kex.spkId == _device.spkId) {
return _device.spk;
} else if (kex.spkId == _device.oldSpkId) {
return _device.oldSpk;
}
return null;
});
if (spk == null) {
throw UnknownSignedPrekeyException();
}
final kexResult = await x3dhFromInitialMessage(
X3DHMessage(
OmemoPublicKey.fromBytes(kex.ik!, KeyPairType.ed25519),
OmemoPublicKey.fromBytes(kex.ek!, KeyPairType.x25519),
kex.pkId!,
),
spk,
device.opks.values.elementAt(kex.pkId!),
device.ik,
);
final ratchet = await OmemoDoubleRatchet.acceptNewSession(
spk,
OmemoPublicKey.fromBytes(kex.ik!, KeyPairType.ed25519),
kexResult.sk,
kexResult.ad,
);
await _trustManager.onNewSession(jid, deviceId);
await _addSession(jid, deviceId, ratchet);
}
/// Like [encryptToJids] but only for one Jid [jid].
Future<EncryptionResult> encryptToJid(String jid, String? plaintext, { List<OmemoBundle>? newSessions }) {
return encryptToJids([jid], plaintext, newSessions: newSessions);
}
/// Encrypt the key [plaintext] for all known bundles of the Jids in [jids]. Returns a
/// map that maps the device Id to the ciphertext of [plaintext].
///
/// If [plaintext] is null, then the result will be an empty OMEMO message, i.e. one that
/// does not contain a <payload /> element. This means that the ciphertext attribute of
/// the result will be null as well.
Future<EncryptionResult> encryptToJids(List<String> jids, String? plaintext, { List<OmemoBundle>? newSessions }) async {
final encryptedKeys = List<EncryptedKey>.empty(growable: true);
var ciphertext = const <int>[];
var keyPayload = const <int>[];
if (plaintext != null) {
// Generate the key and encrypt the plaintext
final key = generateRandomBytes(32);
final keys = await deriveEncryptionKeys(key, omemoPayloadInfoString);
ciphertext = await aes256CbcEncrypt(
utf8.encode(plaintext),
keys.encryptionKey,
keys.iv,
);
final hmac = await truncatedHmac(ciphertext, keys.authenticationKey);
keyPayload = concat([key, hmac]);
} else {
keyPayload = List<int>.filled(32, 0x0);
}
final kex = <int, OmemoKeyExchange>{};
if (newSessions != null) {
for (final newSession in newSessions) {
kex[newSession.id] = await addSessionFromBundle(newSession.jid, newSession.id, newSession);
}
}
await _lock.synchronized(() async {
// We assume that the user already checked if the session exists
for (final jid in jids) {
for (final deviceId in _deviceMap[jid]!) {
// Empty OMEMO messages are allowed to bypass trust
if (plaintext != null) {
// Only encrypt to devices that are trusted
if (!(await _trustManager.isTrusted(jid, deviceId))) continue;
// Onyl encrypt to devices that are enabled
if (!(await _trustManager.isEnabled(jid, deviceId))) continue;
}
final ratchetKey = RatchetMapKey(jid, deviceId);
final ratchet = _ratchetMap[ratchetKey]!;
final ciphertext = (await ratchet.ratchetEncrypt(keyPayload)).ciphertext;
// Commit the ratchet
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet));
if (kex.isNotEmpty && kex.containsKey(deviceId)) {
final k = kex[deviceId]!
..message = OmemoAuthenticatedMessage.fromBuffer(ciphertext);
encryptedKeys.add(
EncryptedKey(
jid,
deviceId,
base64.encode(k.writeToBuffer()),
true,
),
);
} else {
encryptedKeys.add(
EncryptedKey(
jid,
deviceId,
base64.encode(ciphertext),
false,
),
);
}
}
}
});
return EncryptionResult(
plaintext != null ? ciphertext : null,
encryptedKeys,
);
}
/// In case a decryption error occurs, the Double Ratchet spec says to just restore
/// the ratchet to its old state. As such, this function restores the ratchet at
/// [mapKey] with [oldRatchet].
Future<void> _restoreRatchet(RatchetMapKey mapKey, OmemoDoubleRatchet oldRatchet) async {
await _lock.synchronized(() {
_log.finest('Restoring ratchet ${mapKey.jid}:${mapKey.deviceId}');
_ratchetMap[mapKey] = oldRatchet;
// Commit the ratchet
_eventStreamController.add(
RatchetModifiedEvent(
mapKey.jid,
mapKey.deviceId,
oldRatchet,
),
);
});
}
/// Attempt to decrypt [ciphertext]. [keys] refers to the <key /> elements inside the
/// <keys /> element with a "jid" attribute matching our own. [senderJid] refers to the
/// bare Jid of the sender. [senderDeviceId] refers to the "sid" attribute of the
/// <encrypted /> element.
///
/// If the received message is an empty OMEMO message, i.e. there is no <payload />
/// element, then [ciphertext] must be set to null. In this case, this function
/// will return null as there is no message to be decrypted. This, however, is used
/// to set up sessions or advance the ratchets.
Future<String?> decryptMessage(List<int>? ciphertext, String senderJid, int senderDeviceId, List<EncryptedKey> keys) async {
// Try to find a session we can decrypt with.
var device = await getDevice();
final rawKey = keys.firstWhereOrNull((key) => key.rid == device.id);
if (rawKey == null) {
throw NotEncryptedForDeviceException();
}
final ratchetKey = RatchetMapKey(senderJid, senderDeviceId);
final decodedRawKey = base64.decode(rawKey.value);
OmemoAuthenticatedMessage authMessage;
OmemoDoubleRatchet? oldRatchet;
if (rawKey.kex) {
// If the ratchet already existed, we store it. If it didn't, oldRatchet will stay
// null.
oldRatchet = await _getRatchet(ratchetKey);
// TODO(PapaTutuWawa): Only do this when we should
final kex = OmemoKeyExchange.fromBuffer(decodedRawKey);
await _addSessionFromKeyExchange(
senderJid,
senderDeviceId,
kex,
);
authMessage = kex.message!;
// Replace the OPK
await _deviceLock.synchronized(() async {
device = await device.replaceOnetimePrekey(kex.pkId!);
// Commit the device
_eventStreamController.add(DeviceModifiedEvent(device));
});
} else {
authMessage = OmemoAuthenticatedMessage.fromBuffer(decodedRawKey);
}
final devices = _deviceMap[senderJid];
if (devices == null) {
throw NoDecryptionKeyException();
}
if (!devices.contains(senderDeviceId)) {
throw NoDecryptionKeyException();
}
final message = OmemoMessage.fromBuffer(authMessage.message!);
List<int>? keyAndHmac;
// We can guarantee that the ratchet exists at this point in time
final ratchet = (await _getRatchet(ratchetKey))!;
oldRatchet ??= ratchet ;
try {
if (rawKey.kex) {
keyAndHmac = await ratchet.ratchetDecrypt(message, authMessage.writeToBuffer());
} else {
keyAndHmac = await ratchet.ratchetDecrypt(message, decodedRawKey);
}
} on InvalidMessageHMACException {
await _restoreRatchet(ratchetKey, oldRatchet);
rethrow;
}
// Commit the ratchet
_eventStreamController.add(RatchetModifiedEvent(senderJid, senderDeviceId, ratchet));
// Empty OMEMO messages should just have the key decrypted and/or session set up.
if (ciphertext == null) {
return null;
}
final key = keyAndHmac.sublist(0, 32);
final hmac = keyAndHmac.sublist(32, 48);
final derivedKeys = await deriveEncryptionKeys(key, omemoPayloadInfoString);
final computedHmac = await truncatedHmac(ciphertext, derivedKeys.authenticationKey);
if (!listsEqual(hmac, computedHmac)) {
// TODO(PapaTutuWawa): I am unsure if we should restore the ratchet here
await _restoreRatchet(ratchetKey, oldRatchet);
throw InvalidMessageHMACException();
}
final plaintext = await aes256CbcDecrypt(ciphertext, derivedKeys.encryptionKey, derivedKeys.iv);
return utf8.decode(plaintext);
}
/// Returns the list of hex-encoded fingerprints we have for sessions with [jid].
Future<List<DeviceFingerprint>> getHexFingerprintsForJid(String jid) async {
final fingerprints = List<DeviceFingerprint>.empty(growable: true);
await _lock.synchronized(() async {
// Get devices for jid
final devices = _deviceMap[jid]!;
for (final deviceId in devices) {
final ratchet = _ratchetMap[RatchetMapKey(jid, deviceId)]!;
fingerprints.add(
DeviceFingerprint(
deviceId,
HEX.encode(await ratchet.ik.getBytes()),
),
);
}
});
return fingerprints;
}
/// Replaces the Signed Prekey and its signature in our own device bundle. Triggers
/// a DeviceModifiedEvent when done.
/// See https://xmpp.org/extensions/xep-0384.html#protocol-key_exchange under the point
/// "signed PreKey rotation period" for recommendations.
Future<void> rotateSignedPrekey() async {
await _deviceLock.synchronized(() async {
_device = await _device.replaceSignedPrekey();
// Commit the new device
_eventStreamController.add(DeviceModifiedEvent(_device));
});
}
/// Returns the device map, i.e. the mapping of bare Jid to its device identifiers
/// we have built sessions with.
Future<Map<String, List<int>>> getDeviceMap() async {
return _lock.synchronized(() => _deviceMap);
}
/// Removes the ratchet identified by [jid] and [deviceId] from the session manager.
/// Also triggers events for commiting the new device map to storage and removing
/// the old ratchet.
Future<void> removeRatchet(String jid, int deviceId) async {
await _lock.synchronized(() async {
// Remove the ratchet
_ratchetMap.remove(RatchetMapKey(jid, deviceId));
// Commit it
_eventStreamController.add(RatchetRemovedEvent(jid, deviceId));
// Remove the device from jid
_deviceMap[jid]!.remove(deviceId);
if (_deviceMap[jid]!.isEmpty) {
_deviceMap.remove(jid);
}
// Commit it
_eventStreamController.add(DeviceMapModifiedEvent(_deviceMap));
});
}
/// Removes all ratchets for Jid [jid]. Triggers a DeviceMapModified event at the end and an
/// RatchetRemovedEvent for each ratchet.
Future<void> removeAllRatchets(String jid) async {
await _lock.synchronized(() async {
for (final deviceId in _deviceMap[jid]!) {
// Remove the ratchet
_ratchetMap.remove(RatchetMapKey(jid, deviceId));
// Commit it
_eventStreamController.add(RatchetRemovedEvent(jid, deviceId));
}
// Remove the device from jid
_deviceMap.remove(jid);
// Commit it
_eventStreamController.add(DeviceMapModifiedEvent(_deviceMap));
});
}
/// Returns the list of device identifiers belonging to [jid] that are yet unacked, i.e.
/// we have not yet received an empty OMEMO message from.
Future<List<int>?> getUnacknowledgedRatchets(String jid) async {
return _lock.synchronized(() async {
final ret = List<int>.empty(growable: true);
final devices = _deviceMap[jid];
if (devices == null) return null;
for (final device in devices) {
final ratchet = _ratchetMap[RatchetMapKey(jid, device)]!;
if (!ratchet.acknowledged) ret.add(device);
}
return ret;
});
}
/// Returns true if the ratchet for [jid] with device identifier [deviceId] is
/// acknowledged. Returns false if not.
Future<bool> isRatchetAcknowledged(String jid, int deviceId) async {
return _lock.synchronized(() => _ratchetMap[RatchetMapKey(jid, deviceId)]!.acknowledged);
}
/// Mark the ratchet for device [deviceId] from [jid] as acked.
Future<void> ratchetAcknowledged(String jid, int deviceId) async {
await _lock.synchronized(() async {
final ratchet = _ratchetMap[RatchetMapKey(jid, deviceId)]!
..acknowledged = true;
// Commit it
_eventStreamController.add(RatchetModifiedEvent(jid, deviceId, ratchet));
});
}
/// Generates an entirely new device. May be useful when the user wants to reset their cryptographic
/// identity. Triggers an event to commit it to storage.
Future<void> regenerateDevice({ int opkAmount = 100 }) async {
await _deviceLock.synchronized(() async {
_device = await Device.generateNewDevice(_device.jid, opkAmount: opkAmount);
// Commit it
_eventStreamController.add(DeviceModifiedEvent(_device));
});
}
/// Make our device have a new identifier. Only useful before publishing it as a bundle
/// to make sure that our device has a id that is account unique.
Future<void> regenerateDeviceId() async {
await _deviceLock.synchronized(() async {
_device = _device.withNewId();
// Commit it
_eventStreamController.add(DeviceModifiedEvent(_device));
});
}
Future<OmemoDoubleRatchet?> _getRatchet(RatchetMapKey key) async {
return _lock.synchronized(() async {
return _ratchetMap[key];
});
}
@visibleForTesting
OmemoDoubleRatchet getRatchet(String jid, int deviceId) => _ratchetMap[RatchetMapKey(jid, deviceId)]!;
@visibleForTesting
Map<RatchetMapKey, OmemoDoubleRatchet> getRatchetMap() => _ratchetMap;
/// Serialise the entire session manager into a JSON object.
Future<Map<String, dynamic>> toJsonWithoutSessions() async {
/*
{
'devices': {
'alice@...': [1, 2, ...],
'bob@...': [1],
...
},
'device': { ... },
}
*/
return {
'devices': _deviceMap,
'device': await (await getDevice()).toJson(),
};
}
}

41
lib/src/omemo/stanza.dart Normal file
View File

@@ -0,0 +1,41 @@
import 'package:omemo_dart/src/omemo/encrypted_key.dart';
/// Describes a stanza that was received by the underlying XMPP library.
class OmemoIncomingStanza {
const OmemoIncomingStanza(
this.bareSenderJid,
this.senderDeviceId,
this.timestamp,
this.keys,
this.payload,
);
/// The bare JID of the sender of the stanza.
final String bareSenderJid;
/// The device ID of the sender.
final int senderDeviceId;
/// The timestamp when the stanza was received.
final int timestamp;
/// The included encrypted keys
final List<EncryptedKey> keys;
/// The string payload included in the <encrypted /> element.
final String? payload;
}
/// Describes a stanza that is to be sent out
class OmemoOutgoingStanza {
const OmemoOutgoingStanza(
this.recipientJids,
this.payload,
);
/// The JIDs the stanza will be sent to.
final List<String> recipientJids;
/// The serialised XML data that should be encrypted.
final String payload;
}

1
lib/src/protobuf/omemo_authenticated_message.dart
View File

@@ -2,7 +2,6 @@ import 'package:omemo_dart/src/helpers.dart';
import 'package:omemo_dart/src/protobuf/protobuf.dart';
class OmemoAuthenticatedMessage {
OmemoAuthenticatedMessage();
factory OmemoAuthenticatedMessage.fromBuffer(List<int> data) {

1
lib/src/protobuf/omemo_key_exchange.dart
View File

@@ -3,7 +3,6 @@ import 'package:omemo_dart/src/protobuf/omemo_authenticated_message.dart';
import 'package:omemo_dart/src/protobuf/protobuf.dart';
class OmemoKeyExchange {
OmemoKeyExchange();
factory OmemoKeyExchange.fromBuffer(List<int> data) {

1
lib/src/protobuf/omemo_message.dart
View File

@@ -2,7 +2,6 @@ import 'package:omemo_dart/src/helpers.dart';
import 'package:omemo_dart/src/protobuf/protobuf.dart';
class OmemoMessage {
OmemoMessage();
factory OmemoMessage.fromBuffer(List<int> data) {

1
lib/src/protobuf/protobuf.dart
View File

@@ -13,7 +13,6 @@ int fieldId(int number, int type) {
}
class VarintDecode {
const VarintDecode(this.n, this.length);
final int n;
final int length;

3
lib/src/trust/always.dart
View File

@@ -18,6 +18,9 @@ class AlwaysTrustingTrustManager extends TrustManager {
@override
Future<void> setEnabled(String jid, int deviceId, bool enabled) async {}
@override
Future<void> removeTrustDecisionsForJid(String jid) async {}
@override
Future<Map<String, dynamic>> toJson() async => <String, dynamic>{};
}

3
lib/src/trust/base.dart
View File

@@ -19,4 +19,7 @@ abstract class TrustManager {
/// Serialize the trust manager to JSON.
Future<Map<String, dynamic>> toJson();
/// Removes all trust decisions for [jid].
Future<void> removeTrustDecisionsForJid(String jid);
}

70
lib/src/trust/btbv.dart
View File

@@ -15,18 +15,25 @@ enum BTBVTrustState {
int _trustToInt(BTBVTrustState state) {
switch (state) {
case BTBVTrustState.notTrusted: return 1;
case BTBVTrustState.blindTrust: return 2;
case BTBVTrustState.verified: return 3;
case BTBVTrustState.notTrusted:
return 1;
case BTBVTrustState.blindTrust:
return 2;
case BTBVTrustState.verified:
return 3;
}
}
BTBVTrustState _trustFromInt(int i) {
switch (i) {
case 1: return BTBVTrustState.notTrusted;
case 2: return BTBVTrustState.blindTrust;
case 3: return BTBVTrustState.verified;
default: return BTBVTrustState.notTrusted;
case 1:
return BTBVTrustState.notTrusted;
case 2:
return BTBVTrustState.blindTrust;
case 3:
return BTBVTrustState.verified;
default:
return BTBVTrustState.notTrusted;
}
}
@@ -122,21 +129,28 @@ abstract class BlindTrustBeforeVerificationTrustManager extends TrustManager {
});
}
/// Returns a mapping from the device identifiers of [jid] to their trust state.
/// Returns a mapping from the device identifiers of [jid] to their trust state. If
/// there are no devices known for [jid], then an empty map is returned.
Future<Map<int, BTBVTrustState>> getDevicesTrust(String jid) async {
return _lock.synchronized(() async {
final map = <int, BTBVTrustState>{};
await _lock.synchronized(() async {
if (!devices.containsKey(jid)) return map;
for (final deviceId in devices[jid]!) {
map[deviceId] = trustCache[RatchetMapKey(jid, deviceId)]!;
}
});
return map;
});
}
/// Sets the trust of [jid]'s device with identifier [deviceId] to [state].
Future<void> setDeviceTrust(String jid, int deviceId, BTBVTrustState state) async {
Future<void> setDeviceTrust(
String jid,
int deviceId,
BTBVTrustState state,
) async {
await _lock.synchronized(() async {
trustCache[RatchetMapKey(jid, deviceId)] = state;
@@ -169,10 +183,14 @@ abstract class BlindTrustBeforeVerificationTrustManager extends TrustManager {
Future<Map<String, dynamic>> toJson() async {
return {
'devices': devices,
'trust': trustCache.map((key, value) => MapEntry(
key.toJsonKey(), _trustToInt(value),
),),
'enable': enablementCache.map((key, value) => MapEntry(key.toJsonKey(), value)),
'trust': trustCache.map(
(key, value) => MapEntry(
key.toJsonKey(),
_trustToInt(value),
),
),
'enable':
enablementCache.map((key, value) => MapEntry(key.toJsonKey(), value)),
};
}
@@ -189,8 +207,11 @@ abstract class BlindTrustBeforeVerificationTrustManager extends TrustManager {
/// From a serialized version of a BTBV trust manager, extract the trust cache.
/// NOTE: This is needed as Dart cannot just cast a List<dynamic> to List<int> and so on.
static Map<RatchetMapKey, BTBVTrustState> trustCacheFromJson(Map<String, dynamic> json) {
return (json['trust']! as Map<String, dynamic>).map<RatchetMapKey, BTBVTrustState>(
static Map<RatchetMapKey, BTBVTrustState> trustCacheFromJson(
Map<String, dynamic> json,
) {
return (json['trust']! as Map<String, dynamic>)
.map<RatchetMapKey, BTBVTrustState>(
(key, value) => MapEntry(
RatchetMapKey.fromJsonKey(key),
_trustFromInt(value as int),
@@ -200,7 +221,9 @@ abstract class BlindTrustBeforeVerificationTrustManager extends TrustManager {
/// From a serialized version of a BTBV trust manager, extract the enable cache.
/// NOTE: This is needed as Dart cannot just cast a List<dynamic> to List<int> and so on.
static Map<RatchetMapKey, bool> enableCacheFromJson(Map<String, dynamic> json) {
static Map<RatchetMapKey, bool> enableCacheFromJson(
Map<String, dynamic> json,
) {
return (json['enable']! as Map<String, dynamic>).map<RatchetMapKey, bool>(
(key, value) => MapEntry(
RatchetMapKey.fromJsonKey(key),
@@ -209,13 +232,22 @@ abstract class BlindTrustBeforeVerificationTrustManager extends TrustManager {
);
}
@override
Future<void> removeTrustDecisionsForJid(String jid) async {
await _lock.synchronized(() async {
devices.remove(jid);
await commitState();
});
}
/// Called when the state of the trust manager has been changed. Allows the user to
/// commit the trust state to persistent storage.
@visibleForOverriding
Future<void> commitState();
@visibleForTesting
BTBVTrustState getDeviceTrust(String jid, int deviceId) => trustCache[RatchetMapKey(jid, deviceId)]!;
BTBVTrustState getDeviceTrust(String jid, int deviceId) =>
trustCache[RatchetMapKey(jid, deviceId)]!;
}
/// A BTBV TrustManager that does not commit its state to persistent storage. Well suited

3
lib/src/trust/never.dart
View File

@@ -18,6 +18,9 @@ class NeverTrustingTrustManager extends TrustManager {
@override
Future<void> setEnabled(String jid, int deviceId, bool enabled) async {}
@override
Future<void> removeTrustDecisionsForJid(String jid) async {}
@override
Future<Map<String, dynamic>> toJson() async => <String, dynamic>{};
}

20
lib/src/x3dh/x3dh.dart
View File

@@ -12,7 +12,6 @@ const omemoX3DHInfoString = 'OMEMO X3DH';
/// Performed by Alice
class X3DHAliceResult {
const X3DHAliceResult(this.ek, this.sk, this.opkId, this.ad);
final OmemoKeyPair ek;
final List<int> sk;
@@ -22,7 +21,6 @@ class X3DHAliceResult {
/// Received by Bob
class X3DHMessage {
const X3DHMessage(this.ik, this.ek, this.opkId);
final OmemoPublicKey ik;
final OmemoPublicKey ek;
@@ -30,7 +28,6 @@ class X3DHMessage {
}
class X3DHBobResult {
const X3DHBobResult(this.sk, this.ad);
final List<int> sk;
final List<int> ad;
@@ -39,7 +36,10 @@ class X3DHBobResult {
/// Sign [message] using the keypair [keyPair]. Note that [keyPair] must be
/// a Ed25519 keypair.
Future<List<int>> sig(OmemoKeyPair keyPair, List<int> message) async {
assert(keyPair.type == KeyPairType.ed25519, 'Signature keypair must be Ed25519');
assert(
keyPair.type == KeyPairType.ed25519,
'Signature keypair must be Ed25519',
);
final signature = await Ed25519().sign(
message,
keyPair: await keyPair.asKeyPair(),
@@ -70,7 +70,10 @@ Future<List<int>> kdf(List<int> km) async {
/// Alice builds a session with Bob using his bundle [bundle] and Alice's identity key
/// pair [ik].
Future<X3DHAliceResult> x3dhFromBundle(OmemoBundle bundle, OmemoKeyPair ik) async {
Future<X3DHAliceResult> x3dhFromBundle(
OmemoBundle bundle,
OmemoKeyPair ik,
) async {
// Check the signature first
final signatureValue = await Ed25519().verify(
await bundle.spk.getBytes(),
@@ -108,7 +111,12 @@ Future<X3DHAliceResult> x3dhFromBundle(OmemoBundle bundle, OmemoKeyPair ik) asyn
/// Bob builds the X3DH shared secret from the inital message [msg], the SPK [spk], the
/// OPK [opk] that was selected by Alice and our IK [ik]. Returns the shared secret.
Future<X3DHBobResult> x3dhFromInitialMessage(X3DHMessage msg, OmemoKeyPair spk, OmemoKeyPair opk, OmemoKeyPair ik) async {
Future<X3DHBobResult> x3dhFromInitialMessage(
X3DHMessage msg,
OmemoKeyPair spk,
OmemoKeyPair opk,
OmemoKeyPair ik,
) async {
final dh1 = await omemoDH(spk, msg.ik, 2);
final dh2 = await omemoDH(ik, msg.ek, 1);
final dh3 = await omemoDH(spk, msg.ek, 0);

2
pubspec.yaml
View File

@@ -1,6 +1,6 @@
name: omemo_dart
description: An XMPP library independent OMEMO library
version: 0.3.0
version: 0.4.3
homepage: https://github.com/PapaTutuWawa/omemo_dart
publish_to: https://git.polynom.me/api/packages/PapaTutuWawa/pub

9
test/double_ratchet_test.dart
View File

@@ -76,7 +76,6 @@ void main() {
print('X3DH key exchange done');
// Alice and Bob now share sk as a common secret and ad
// Build a session
final alicesRatchet = await OmemoDoubleRatchet.initiateNewSession(
@@ -84,12 +83,14 @@ void main() {
ikBob.pk,
resultAlice.sk,
resultAlice.ad,
0,
);
final bobsRatchet = await OmemoDoubleRatchet.acceptNewSession(
spkBob,
ikAlice.pk,
resultBob.sk,
resultBob.ad,
0,
);
expect(alicesRatchet.sessionAd, bobsRatchet.sessionAd);
@@ -99,7 +100,8 @@ void main() {
if (i.isEven) {
// Alice encrypts a message
final aliceRatchetResult = await alicesRatchet.ratchetEncrypt(utf8.encode(messageText));
final aliceRatchetResult =
await alicesRatchet.ratchetEncrypt(utf8.encode(messageText));
print('Alice sent the message');
// Alice sends it to Bob
@@ -115,7 +117,8 @@ void main() {
expect(utf8.encode(messageText), bobRatchetResult);
} else {
// Bob sends a message to Alice
final bobRatchetResult = await bobsRatchet.ratchetEncrypt(utf8.encode(messageText));
final bobRatchetResult =
await bobsRatchet.ratchetEncrypt(utf8.encode(messageText));
print('Bob sent the message');
// Bobs sends it to Alice

268
test/omemo_test.dart
View File

@@ -12,6 +12,36 @@ void main() {
print('${record.level.name}: ${record.message}');
});
test('Test replacing a onetime prekey', () async {
const aliceJid = 'alice@server.example';
final device = await OmemoDevice.generateNewDevice(aliceJid, opkAmount: 1);
final newDevice = await device.replaceOnetimePrekey(0);
expect(device.jid, newDevice.jid);
expect(device.id, newDevice.id);
var opksMatch = true;
if (newDevice.opks.length != device.opks.length) {
opksMatch = false;
} else {
for (final entry in device.opks.entries) {
final m = await newDevice.opks[entry.key]?.equals(entry.value) ?? false;
if (!m) opksMatch = false;
}
}
expect(opksMatch, true);
expect(await device.ik.equals(newDevice.ik), true);
expect(await device.spk.equals(newDevice.spk), true);
final oldSpkMatch = device.oldSpk != null
? await device.oldSpk!.equals(newDevice.oldSpk!)
: newDevice.oldSpk == null;
expect(oldSpkMatch, true);
expect(listsEqual(device.spkSignature, newDevice.spkSignature), true);
});
test('Test using OMEMO sessions with only one device per user', () async {
const aliceJid = 'alice@server.example';
const bobJid = 'bob@other.server.example';
@@ -35,7 +65,7 @@ void main() {
deviceModified = true;
} else if (event is RatchetModifiedEvent) {
ratchetModified++;
} else if (event is DeviceMapModifiedEvent) {
} else if (event is DeviceListModifiedEvent) {
deviceMapModified++;
}
});
@@ -60,6 +90,7 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
aliceMessage.encryptedKeys,
0,
);
expect(messagePlaintext, bobMessage);
// The ratchet should be modified two times: Once for when the ratchet is created and
@@ -75,6 +106,12 @@ void main() {
false,
);
// Ratchets are acked
await aliceSession.ratchetAcknowledged(
bobJid, await bobSession.getDeviceId());
await bobSession.ratchetAcknowledged(
aliceJid, await aliceSession.getDeviceId());
// Bob responds to Alice
const bobResponseText = 'Oh, hello Alice!';
final bobResponseMessage = await bobSession.encryptToJid(
@@ -91,11 +128,13 @@ void main() {
bobJid,
await bobSession.getDeviceId(),
bobResponseMessage.encryptedKeys,
0,
);
expect(bobResponseText, aliceReceivedMessage);
});
test('Test using OMEMO sessions with only two devices for the receiver', () async {
test('Test using OMEMO sessions with only two devices for the receiver',
() async {
const aliceJid = 'alice@server.example';
const bobJid = 'bob@other.server.example';
@@ -140,9 +179,16 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
aliceMessage.encryptedKeys,
0,
);
expect(messagePlaintext, bobMessage);
// Ratchets are acked
await aliceSession.ratchetAcknowledged(
bobJid, await bobSession.getDeviceId());
await bobSession.ratchetAcknowledged(
aliceJid, await aliceSession.getDeviceId());
// Bob responds to Alice
const bobResponseText = 'Oh, hello Alice!';
final bobResponseMessage = await bobSession.encryptToJid(
@@ -159,6 +205,7 @@ void main() {
bobJid,
await bobSession.getDeviceId(),
bobResponseMessage.encryptedKeys,
0,
);
expect(bobResponseText, aliceReceivedMessage);
@@ -215,6 +262,7 @@ void main() {
aliceJid,
await aliceSession1.getDeviceId(),
aliceMessage.encryptedKeys,
0,
);
expect(messagePlaintext, bobMessage);
@@ -224,6 +272,7 @@ void main() {
aliceJid,
await aliceSession1.getDeviceId(),
aliceMessage.encryptedKeys,
0,
);
expect(messagePlaintext, aliceMessage2);
});
@@ -264,6 +313,7 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
aliceMessage.encryptedKeys,
0,
);
expect(bobMessage, null);
@@ -282,7 +332,7 @@ void main() {
// Setup an event listener
final oldDevice = await aliceSession.getDevice();
Device? newDevice;
OmemoDevice? newDevice;
aliceSession.eventStream.listen((event) {
if (event is DeviceModifiedEvent) {
newDevice = event.device;
@@ -341,6 +391,7 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
aliceMessage.encryptedKeys,
0,
);
expect(messagePlaintext, bobMessage);
});
@@ -407,8 +458,15 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
aliceMessage.encryptedKeys,
0,
);
// Ratchets are acked
await aliceSession.ratchetAcknowledged(
bobJid, await bobSession.getDeviceId());
await bobSession.ratchetAcknowledged(
aliceJid, await aliceSession.getDeviceId());
for (var i = 0; i < 100; i++) {
final messageText = 'Test Message #$i';
// Bob responds to Alice
@@ -426,6 +484,7 @@ void main() {
bobJid,
await bobSession.getDeviceId(),
bobResponseMessage.encryptedKeys,
0,
);
expect(messageText, aliceReceivedMessage);
}
@@ -545,7 +604,8 @@ void main() {
// ...
// Alice marks the ratchet as acknowledged
await aliceSession.ratchetAcknowledged(bobJid, await bobSession.getDeviceId());
await aliceSession.ratchetAcknowledged(
bobJid, await bobSession.getDeviceId());
expect(
(await aliceSession.getUnacknowledgedRatchets(bobJid))!.isEmpty,
true,
@@ -580,6 +640,7 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
msg1.encryptedKeys,
0,
);
final aliceRatchet1 = aliceSession.getRatchet(
bobJid,
@@ -604,6 +665,7 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
msg2.encryptedKeys,
getTimestamp(),
);
final aliceRatchet2 = aliceSession.getRatchet(
bobJid,
@@ -623,7 +685,7 @@ void main() {
expect(await bobRatchet1.equals(bobRatchet2), false);
});
test('Test receiving an old message that contains a KEX', () async {
test('Test resending key exchanges', () async {
const aliceJid = 'alice@server.example';
const bobJid = 'bob@other.server.example';
// Alice and Bob generate their sessions
@@ -646,39 +708,144 @@ void main() {
await bobSession.getDeviceBundle(),
],
);
// The first message should be a kex message
expect(msg1.encryptedKeys.first.kex, true);
await bobSession.decryptMessage(
msg1.ciphertext,
aliceJid,
await aliceSession.getDeviceId(),
msg1.encryptedKeys,
0,
);
// Alice is impatient and immediately sends another message before the original one
// can be acknowledged by Bob
final msg2 = await aliceSession.encryptToJid(
bobJid,
"Why don't you answer?",
);
expect(msg2.encryptedKeys.first.kex, true);
await bobSession.decryptMessage(
msg2.ciphertext,
aliceJid,
await aliceSession.getDeviceId(),
msg2.encryptedKeys,
getTimestamp(),
);
});
test('Test receiving old messages including a KEX', () async {
const aliceJid = 'alice@server.example';
const bobJid = 'bob@other.server.example';
// Alice and Bob generate their sessions
final aliceSession = await OmemoSessionManager.generateNewIdentity(
aliceJid,
AlwaysTrustingTrustManager(),
opkAmount: 1,
);
final bobSession = await OmemoSessionManager.generateNewIdentity(
bobJid,
AlwaysTrustingTrustManager(),
opkAmount: 2,
);
final bobsReceivedMessages = List<EncryptionResult>.empty(growable: true);
final bobsReceivedMessagesTimestamps = List<int>.empty(growable: true);
// Alice sends Bob a message
final msg1 = await aliceSession.encryptToJid(
bobJid,
'Hallo Welt',
newSessions: [
await bobSession.getDeviceBundle(),
],
);
bobsReceivedMessages.add(msg1);
final t1 = getTimestamp();
bobsReceivedMessagesTimestamps.add(t1);
await bobSession.decryptMessage(
msg1.ciphertext,
aliceJid,
await aliceSession.getDeviceId(),
msg1.encryptedKeys,
t1,
);
// Ratchets are acked
await aliceSession.ratchetAcknowledged(
bobJid, await bobSession.getDeviceId());
await bobSession.ratchetAcknowledged(
aliceJid, await aliceSession.getDeviceId());
// Bob responds
final msg2 = await bobSession.encryptToJid(
aliceJid,
'Hello!',
);
await aliceSession.decryptMessage(
msg2.ciphertext,
bobJid,
await bobSession.getDeviceId(),
msg2.encryptedKeys,
getTimestamp(),
);
// Due to some issue with the transport protocol, the first message Bob received is
// received again
try {
await bobSession.decryptMessage(
msg1.ciphertext,
// Send some messages between the two
for (var i = 0; i < 100; i++) {
final msg = await aliceSession.encryptToJid(
bobJid,
'Hello $i',
);
bobsReceivedMessages.add(msg);
final t = getTimestamp();
bobsReceivedMessagesTimestamps.add(t);
final result = await bobSession.decryptMessage(
msg.ciphertext,
aliceJid,
await aliceSession.getDeviceId(),
msg1.encryptedKeys,
msg.encryptedKeys,
t,
);
expect(result, 'Hello $i');
}
// Due to some issue with the transport protocol, the messages to Bob are received
// again.
final ratchetPreError = bobSession
.getRatchet(aliceJid, await aliceSession.getDeviceId())
.clone();
var invalidKex = 0;
var errorCounter = 0;
for (var i = 0; i < bobsReceivedMessages.length; i++) {
final msg = bobsReceivedMessages[i];
try {
await bobSession.decryptMessage(
msg.ciphertext,
aliceJid,
await aliceSession.getDeviceId(),
msg.encryptedKeys,
bobsReceivedMessagesTimestamps[i],
);
expect(true, false);
} on InvalidMessageHMACException {
// NOOP
} on InvalidMessageHMACException catch (_) {
errorCounter++;
} on InvalidKeyExchangeException catch (_) {
invalidKex++;
}
}
final ratchetPostError = bobSession
.getRatchet(aliceJid, await aliceSession.getDeviceId())
.clone();
// The 100 messages including the initial KEX message
expect(invalidKex, 1);
expect(errorCounter, 100);
expect(await ratchetPreError.equals(ratchetPostError), true);
final msg3 = await aliceSession.encryptToJid(
bobJid,
@@ -689,12 +856,13 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
msg3.encryptedKeys,
104,
);
expect(result, 'Are you okay?');
});
test('Test receiving an old message that does not contain a KEX', () async {
test("Test ignoring a new KEX when we haven't acket it yet", () async {
const aliceJid = 'alice@server.example';
const bobJid = 'bob@other.server.example';
// Alice and Bob generate their sessions
@@ -706,7 +874,7 @@ void main() {
final bobSession = await OmemoSessionManager.generateNewIdentity(
bobJid,
AlwaysTrustingTrustManager(),
opkAmount: 2,
opkAmount: 1,
);
// Alice sends Bob a message
@@ -717,50 +885,72 @@ void main() {
await bobSession.getDeviceBundle(),
],
);
expect(msg1.encryptedKeys.first.kex, true);
await bobSession.decryptMessage(
msg1.ciphertext,
aliceJid,
await aliceSession.getDeviceId(),
msg1.encryptedKeys,
getTimestamp(),
);
// Bob responds
final msg2 = await bobSession.encryptToJid(
// Alice sends another message before the ack can reach us
final msg2 = await aliceSession.encryptToJid(
bobJid,
'ANSWER ME!',
);
expect(msg2.encryptedKeys.first.kex, true);
await bobSession.decryptMessage(
msg2.ciphertext,
aliceJid,
'Hello!',
);
await aliceSession.decryptMessage(
msg2.ciphertext,
bobJid,
await bobSession.getDeviceId(),
await aliceSession.getDeviceId(),
msg2.encryptedKeys,
getTimestamp(),
);
// Due to some issue with the transport protocol, the first message Alice received is
// received again.
try {
await aliceSession.decryptMessage(
msg2.ciphertext,
bobJid,
await bobSession.getDeviceId(),
msg2.encryptedKeys,
);
expect(true, false);
} catch (_) {
// NOOP
}
// Now the acks reach us
await aliceSession.ratchetAcknowledged(
bobJid, await bobSession.getDeviceId());
await bobSession.ratchetAcknowledged(
aliceJid, await aliceSession.getDeviceId());
// Alice sends another message
final msg3 = await aliceSession.encryptToJid(
bobJid,
'Are you okay?',
"You read the message, didn't you?",
);
final result = await bobSession.decryptMessage(
expect(msg3.encryptedKeys.first.kex, false);
await bobSession.decryptMessage(
msg3.ciphertext,
aliceJid,
await aliceSession.getDeviceId(),
msg3.encryptedKeys,
getTimestamp(),
);
expect(result, 'Are you okay?');
for (var i = 0; i < 100; i++) {
final messageText = 'Test Message #$i';
// Bob responds to Alice
final bobResponseMessage = await bobSession.encryptToJid(
aliceJid,
messageText,
);
// Bob sends the message to Alice
// ...
// Alice decrypts it
final aliceReceivedMessage = await aliceSession.decryptMessage(
bobResponseMessage.ciphertext,
bobJid,
await bobSession.getDeviceId(),
bobResponseMessage.encryptedKeys,
0,
);
expect(messageText, aliceReceivedMessage);
}
});
}

1446
test/omemomanager_test.dart Normal file
View File

File diff suppressed because it is too large Load Diff

2
test/protobuf_test.dart
View File

@@ -169,7 +169,7 @@ void main() {
expect(decoded.pkId, 698);
expect(decoded.spkId, 245);
expect(decoded.ik, <int>[1, 4, 6]);
expect(decoded.ek, <int>[4 ,6 ,7 , 80]);
expect(decoded.ek, <int>[4, 6, 7, 80]);
expect(decoded.message!.mac, <int>[5, 6, 8, 0]);
expect(decoded.message!.message, <int>[4, 5, 7, 3, 2]);

26
test/serialisation_test.dart
View File

@@ -18,21 +18,23 @@ void main() {
final oldDevice = await oldSession.getDevice();
final serialised = jsonify(await oldDevice.toJson());
final newDevice = Device.fromJson(serialised);
final newDevice = OmemoDevice.fromJson(serialised);
expect(await oldDevice.equals(newDevice), true);
});
test('Test serialising and deserialising the Device after rotating the SPK', () async {
test('Test serialising and deserialising the Device after rotating the SPK',
() async {
// Generate a random session
final oldSession = await OmemoSessionManager.generateNewIdentity(
'user@test.server',
AlwaysTrustingTrustManager(),
opkAmount: 1,
);
final oldDevice = await (await oldSession.getDevice()).replaceSignedPrekey();
final oldDevice =
await (await oldSession.getDevice()).replaceSignedPrekey();
final serialised = jsonify(await oldDevice.toJson());
final newDevice = Device.fromJson(serialised);
final newDevice = OmemoDevice.fromJson(serialised);
expect(await oldDevice.equals(newDevice), true);
});
@@ -62,8 +64,10 @@ void main() {
aliceJid,
await aliceSession.getDeviceId(),
aliceMessage.encryptedKeys,
getTimestamp(),
);
final aliceOld = aliceSession.getRatchet(bobJid, await bobSession.getDeviceId());
final aliceOld =
aliceSession.getRatchet(bobJid, await bobSession.getDeviceId());
final aliceSerialised = jsonify(await aliceOld.toJson());
final aliceNew = OmemoDoubleRatchet.fromJson(aliceSerialised);
@@ -115,7 +119,8 @@ void main() {
expect(result2.deviceId, test2.deviceId);
});
test('Test serializing and deserializing the components of the BTBV manager', () async {
test('Test serializing and deserializing the components of the BTBV manager',
() async {
// Caroline's BTBV manager
final btbv = MemoryBTBVTrustManager();
// Example data
@@ -129,17 +134,20 @@ void main() {
await btbv.onNewSession(bobJid, 4);
final serialized = jsonify(await btbv.toJson());
final deviceList = BlindTrustBeforeVerificationTrustManager.deviceListFromJson(
final deviceList =
BlindTrustBeforeVerificationTrustManager.deviceListFromJson(
serialized,
);
expect(btbv.devices, deviceList);
final trustCache = BlindTrustBeforeVerificationTrustManager.trustCacheFromJson(
final trustCache =
BlindTrustBeforeVerificationTrustManager.trustCacheFromJson(
serialized,
);
expect(btbv.trustCache, trustCache);
final enableCache = BlindTrustBeforeVerificationTrustManager.enableCacheFromJson(
final enableCache =
BlindTrustBeforeVerificationTrustManager.enableCacheFromJson(
serialized,
);
expect(btbv.enablementCache, enableCache);

8
test/x3dh_test.dart
View File

@@ -71,9 +71,13 @@ void main() {
var exception = false;
try {
await x3dhFromBundle(bundleBob, ikAlice);
} catch(e) {
} catch (e) {
exception = true;
expect(e is InvalidSignatureException, true, reason: 'Expected InvalidSignatureException, but got $e');
expect(
e is InvalidSignatureException,
true,
reason: 'Expected InvalidSignatureException, but got $e',
);
}
expect(exception, true, reason: 'Expected test failure');