// SPDX-FileCopyrightText: 2021 Carl Schwan // // SPDX-License-Identifier: LGPL-2.1-or-later #include "testolmaccount.h" #include "crypto/qolmaccount.h" #include "connection.h" #include "events/encryptedfile.h" using namespace Quotient; void TestOlmAccount::pickleUnpickedTest() { QOlmAccount olmAccount(QStringLiteral("@foo:bar.com"), QStringLiteral("QuotientTestDevice")); olmAccount.createNewAccount(); auto identityKeys = olmAccount.identityKeys(); auto pickled = std::get(olmAccount.pickle(Unencrypted{})); QOlmAccount olmAccount2(QStringLiteral("@foo:bar.com"), QStringLiteral("QuotientTestDevice")); olmAccount2.unpickle(pickled, Unencrypted{}); auto identityKeys2 = olmAccount2.identityKeys(); QCOMPARE(identityKeys.curve25519, identityKeys2.curve25519); QCOMPARE(identityKeys.ed25519, identityKeys2.ed25519); } void TestOlmAccount::identityKeysValid() { QOlmAccount olmAccount(QStringLiteral("@foo:bar.com"), QStringLiteral("QuotientTestDevice")); olmAccount.createNewAccount(); const auto identityKeys = olmAccount.identityKeys(); const auto curve25519 = identityKeys.curve25519; const auto ed25519 = identityKeys.ed25519; // verify encoded keys length QCOMPARE(curve25519.size(), 43); QCOMPARE(ed25519.size(), 43); // encoded as valid base64? QVERIFY(QByteArray::fromBase64Encoding(curve25519).decodingStatus == QByteArray::Base64DecodingStatus::Ok); QVERIFY(QByteArray::fromBase64Encoding(ed25519).decodingStatus == QByteArray::Base64DecodingStatus::Ok); } void TestOlmAccount::signatureValid() { QOlmAccount olmAccount(QStringLiteral("@foo:bar.com"), QStringLiteral("QuotientTestDevice")); olmAccount.createNewAccount(); const auto message = "Hello world!"; const auto signature = olmAccount.sign(message); QVERIFY(QByteArray::fromBase64Encoding(signature).decodingStatus == QByteArray::Base64DecodingStatus::Ok); //let utility = OlmUtility::new(); //let identity_keys = olm_account.parsed_identity_keys(); //let ed25519_key = identity_keys.ed25519(); //assert!(utility // .ed25519_verify(&ed25519_key, message, &signature) // .unwrap()); } void TestOlmAccount::oneTimeKeysValid() { QOlmAccount olmAccount(QStringLiteral("@foo:bar.com"), QStringLiteral("QuotientTestDevice")); olmAccount.createNewAccount(); const auto maxNumberOfOneTimeKeys = olmAccount.maxNumberOfOneTimeKeys(); QCOMPARE(100, maxNumberOfOneTimeKeys); const auto oneTimeKeysEmpty = olmAccount.oneTimeKeys(); QVERIFY(oneTimeKeysEmpty.curve25519().isEmpty()); olmAccount.generateOneTimeKeys(20); const auto oneTimeKeysFilled = olmAccount.oneTimeKeys(); QCOMPARE(20, oneTimeKeysFilled.curve25519().count()); } void TestOlmAccount::deviceKeys() { // copied from mtxclient DeviceKeys device1; device1.userId = "@alice:example.com"; device1.deviceId = "JLAFKJWSCS"; device1.keys = {{"curve25519:JLAFKJWSCS", "3C5BFWi2Y8MaVvjM8M22DBmh24PmgR0nPvJOIArzgyI"}, {"ed25519:JLAFKJWSCS", "lEuiRJBit0IG6nUf5pUzWTUEsRVVe/HJkoKuEww9ULI"}}; // TODO that should be the default value device1.algorithms = QStringList {"m.olm.v1.curve25519-aes-sha2", "m.megolm.v1.aes-sha2"}; device1.signatures = { {"@alice:example.com", {{"ed25519:JLAFKJWSCS", "dSO80A01XiigH3uBiDVx/EjzaoycHcjq9lfQX0uWsqxl2giMIiSPR8a4d291W1ihKJL/" "a+myXS367WT6NAIcBA"}}}}; QJsonObject j; JsonObjectConverter::dumpTo(j, device1); QJsonDocument doc(j); QCOMPARE(doc.toJson(QJsonDocument::Compact), "{\"algorithms\":[\"m.olm.v1.curve25519-aes-sha2\",\"m.megolm.v1.aes-sha2\"]," "\"device_id\":\"JLAFKJWSCS\",\"keys\":{\"curve25519:JLAFKJWSCS\":" "\"3C5BFWi2Y8MaVvjM8M22DBmh24PmgR0nPvJOIArzgyI\",\"ed25519:JLAFKJWSCS\":" "\"lEuiRJBit0IG6nUf5pUzWTUEsRVVe/" "HJkoKuEww9ULI\"},\"signatures\":{\"@alice:example.com\":{\"ed25519:JLAFKJWSCS\":" "\"dSO80A01XiigH3uBiDVx/EjzaoycHcjq9lfQX0uWsqxl2giMIiSPR8a4d291W1ihKJL/" "a+myXS367WT6NAIcBA\"}},\"user_id\":\"@alice:example.com\"}"); auto doc2 = QJsonDocument::fromJson(R"({ "user_id": "@alice:example.com", "device_id": "JLAFKJWSCS", "algorithms": [ "m.olm.v1.curve25519-aes-sha2", "m.megolm.v1.aes-sha2" ], "keys": { "curve25519:JLAFKJWSCS": "3C5BFWi2Y8MaVvjM8M22DBmh24PmgR0nPvJOIArzgyI", "ed25519:JLAFKJWSCS": "lEuiRJBit0IG6nUf5pUzWTUEsRVVe/HJkoKuEww9ULI" }, "signatures": { "@alice:example.com": { "ed25519:JLAFKJWSCS": "dSO80A01XiigH3uBiDVx/EjzaoycHcjq9lfQX0uWsqxl2giMIiSPR8a4d291W1ihKJL/a+myXS367WT6NAIcBA" } }, "unsigned": { "device_display_name": "Alice's mobile phone" } })"); DeviceKeys device2; JsonObjectConverter::fillFrom(doc2.object(), device2); QCOMPARE(device2.userId, device1.userId); QCOMPARE(device2.deviceId, device1.deviceId); QCOMPARE(device2.keys, device1.keys); QCOMPARE(device2.algorithms, device1.algorithms); QCOMPARE(device2.signatures, device1.signatures); // UnsignedDeviceInfo is missing from the generated DeviceKeys object :( // QCOMPARE(device2.unsignedInfo.deviceDisplayName, "Alice's mobile phone"); } void TestOlmAccount::encryptedFile() { auto doc = QJsonDocument::fromJson(R"({ "url": "mxc://example.org/FHyPlCeYUSFFxlgbQYZmoEoe", "v": "v2", "key": { "alg": "A256CTR", "ext": true, "k": "aWF6-32KGYaC3A_FEUCk1Bt0JA37zP0wrStgmdCaW-0", "key_ops": ["encrypt","decrypt"], "kty": "oct" }, "iv": "w+sE15fzSc0AAAAAAAAAAA", "hashes": { "sha256": "fdSLu/YkRx3Wyh3KQabP3rd6+SFiKg5lsJZQHtkSAYA" }})"); EncryptedFile file; JsonObjectConverter::fillFrom(doc.object(), file); QCOMPARE(file.v, "v2"); QCOMPARE(file.iv, "w+sE15fzSc0AAAAAAAAAAA"); QCOMPARE(file.hashes["sha256"], "fdSLu/YkRx3Wyh3KQabP3rd6+SFiKg5lsJZQHtkSAYA"); QCOMPARE(file.key.alg, "A256CTR"); QCOMPARE(file.key.ext, true); QCOMPARE(file.key.k, "aWF6-32KGYaC3A_FEUCk1Bt0JA37zP0wrStgmdCaW-0"); QCOMPARE(file.key.keyOps.count(), 2); QCOMPARE(file.key.kty, "oct"); } #define CREATE_CONNECTION(VAR, USERNAME, SECRET, DEVICE_NAME) \ auto VAR = std::make_shared(); \ (VAR) ->resolveServer("@alice:localhost:" + QString::number(443)); \ connect( (VAR) .get(), &Connection::loginFlowsChanged, this, [this, VAR ] () { \ (VAR) ->loginWithPassword( (USERNAME) , SECRET , DEVICE_NAME , ""); \ }); \ connect( (VAR) .get(), &Connection::networkError, [=](QString error, const QString &, int, int) { \ QFAIL("Network error: make sure synapse is running"); \ }); \ connect( (VAR) .get(), &Connection::loginError, [=](QString error, const QString &) { \ QFAIL("Login failed"); \ }); \ QSignalSpy spy ## VAR ((VAR).get(), &Connection::loginFlowsChanged); \ QSignalSpy spy2 ## VAR ((VAR).get(), &Connection::connected); \ QVERIFY(spy ## VAR .wait(10000)); \ QVERIFY(spy2 ## VAR .wait(10000)); void TestOlmAccount::uploadIdentityKey() { CREATE_CONNECTION(conn, "alice", "secret", "AlicePhone") auto olmAccount = conn->olmAccount(); auto idKeys = olmAccount->identityKeys(); QVERIFY(idKeys.curve25519.size() > 10); QVERIFY(idKeys.curve25519.size() > 10); OneTimeKeys unused; auto request = olmAccount->createUploadKeyRequest(unused); connect(request, &BaseJob::result, this, [request, conn](BaseJob *job) { auto job2 = static_cast(job); QCOMPARE(job2->oneTimeKeyCounts().size(), 0); }); connect(request, &BaseJob::failure, this, [] { QFAIL("upload failed"); }); conn->run(request); QSignalSpy spy3(request, &BaseJob::result); QVERIFY(spy3.wait(10000)); } void TestOlmAccount::uploadOneTimeKeys() { CREATE_CONNECTION(conn, "alice", "secret", "AlicePhone") auto olmAccount = conn->olmAccount(); auto nKeys = olmAccount->generateOneTimeKeys(5); QCOMPARE(nKeys, 5); auto oneTimeKeys = olmAccount->oneTimeKeys(); QHash oneTimeKeysHash; const auto curve = oneTimeKeys.curve25519(); for (const auto &[keyId, key] : asKeyValueRange(curve)) { oneTimeKeysHash["curve25519:"+keyId] = key; } auto request = new UploadKeysJob(none, oneTimeKeysHash); connect(request, &BaseJob::result, this, [request, conn](BaseJob *job) { auto job2 = static_cast(job); QCOMPARE(job2->oneTimeKeyCounts().size(), 1); QCOMPARE(job2->oneTimeKeyCounts()["curve25519"], 5); }); connect(request, &BaseJob::failure, this, [] { QFAIL("upload failed"); }); conn->run(request); QSignalSpy spy3(request, &BaseJob::result); QVERIFY(spy3.wait(10000)); } void TestOlmAccount::uploadSignedOneTimeKeys() { CREATE_CONNECTION(conn, "alice", "secret", "AlicePhone") auto olmAccount = conn->olmAccount(); auto nKeys = olmAccount->generateOneTimeKeys(5); QCOMPARE(nKeys, 5); auto oneTimeKeys = olmAccount->oneTimeKeys(); QHash oneTimeKeysHash; const auto signedKey = olmAccount->signOneTimeKeys(oneTimeKeys); for (const auto &[keyId, key] : asKeyValueRange(signedKey)) { QVariant var; var.setValue(key); oneTimeKeysHash[keyId] = var; } auto request = new UploadKeysJob(none, oneTimeKeysHash); connect(request, &BaseJob::result, this, [request, nKeys, conn](BaseJob *job) { auto job2 = static_cast(job); QCOMPARE(job2->oneTimeKeyCounts().size(), 1); QCOMPARE(job2->oneTimeKeyCounts()["signed_curve25519"], nKeys); }); connect(request, &BaseJob::failure, this, [] { QFAIL("upload failed"); }); conn->run(request); QSignalSpy spy3(request, &BaseJob::result); QVERIFY(spy3.wait(10000)); } void TestOlmAccount::uploadKeys() { CREATE_CONNECTION(conn, "alice", "secret", "AlicePhone") auto olmAccount = conn->olmAccount(); auto idks = olmAccount->identityKeys(); olmAccount->generateOneTimeKeys(1); auto otks = olmAccount->oneTimeKeys(); auto request = olmAccount->createUploadKeyRequest(otks); connect(request, &BaseJob::result, this, [request, conn](BaseJob *job) { auto job2 = static_cast(job); QCOMPARE(job2->oneTimeKeyCounts().size(), 1); QCOMPARE(job2->oneTimeKeyCounts()["signed_curve25519"], 1); }); connect(request, &BaseJob::failure, this, [] { QFAIL("upload failed"); }); conn->run(request); QSignalSpy spy3(request, &BaseJob::result); QVERIFY(spy3.wait(10000)); } void TestOlmAccount::claimKeys() { CREATE_CONNECTION(alice, "alice", "secret", "AlicePhone") CREATE_CONNECTION(bob, "alice", "secret", "AlicePhone") // Bob uploads his keys. auto *bobOlm = bob->olmAccount(); bobOlm->generateOneTimeKeys(1); auto request = bobOlm->createUploadKeyRequest(bobOlm->oneTimeKeys()); connect(request, &BaseJob::result, this, [request, bob](BaseJob *job) { auto job2 = static_cast(job); QCOMPARE(job2->oneTimeKeyCounts().size(), 1); QCOMPARE(job2->oneTimeKeyCounts()["signed_curve25519"], 1); }); bob->run(request); QSignalSpy requestSpy(request, &BaseJob::result); QVERIFY(requestSpy.wait(10000)); // Alice retrieves bob's keys & claims one signed one-time key. auto *aliceOlm = alice->olmAccount(); QHash deviceKeys; deviceKeys[bob->userId()] = QStringList(); auto job = alice->callApi(deviceKeys); connect(job, &BaseJob::result, this, [bob, alice, aliceOlm, job, this] { auto bobDevices = job->deviceKeys()[bob->userId()]; QVERIFY(bobDevices.size() > 0); auto devices = {bob->deviceId()}; // Retrieve the identity key for the current device. auto bobEd25519 = bobDevices[bob->deviceId()].keys["ed25519:" + bob->deviceId()]; const auto currentDevice = bobDevices[bob->deviceId()]; // Verify signature. QVERIFY(verifyIdentitySignature(currentDevice, bob->deviceId(), bob->userId())); QHash> oneTimeKeys; for (const auto &d : devices) { oneTimeKeys[bob->userId()] = QHash(); oneTimeKeys[bob->userId()][d] = SignedCurve25519Key; } auto job = alice->callApi(oneTimeKeys); connect(job, &BaseJob::result, this, [aliceOlm, bob, bobEd25519, job] { const auto userId = bob->userId(); const auto deviceId = bob->deviceId(); // The device exists. QCOMPARE(job->oneTimeKeys().size(), 1); QCOMPARE(job->oneTimeKeys()[userId].size(), 1); // The key is the one bob sent. auto oneTimeKey = job->oneTimeKeys()[userId][deviceId]; QVERIFY(oneTimeKey.canConvert()); //auto algo = oneTimeKey.begin().key(); //auto contents = oneTimeKey.begin().value(); }); }); } void TestOlmAccount::claimMultipleKeys() { // Login with alice multiple times CREATE_CONNECTION(alice, "alice", "secret", "AlicePhone") CREATE_CONNECTION(alice1, "alice", "secret", "AlicePhone") CREATE_CONNECTION(alice2, "alice", "secret", "AlicePhone") auto olm = alice->olmAccount(); olm->generateOneTimeKeys(10); auto res = olm->createUploadKeyRequest(olm->oneTimeKeys()); alice->run(res); connect(res, &BaseJob::result, this, [res] { QCOMPARE(res->oneTimeKeyCounts().size(), 1); QCOMPARE(res->oneTimeKeyCounts()["signed_curve25519"], 10); }); QSignalSpy spy(res, &BaseJob::result); auto olm1 = alice1->olmAccount(); olm1->generateOneTimeKeys(10); auto res1 = olm1->createUploadKeyRequest(olm1->oneTimeKeys()); alice1->run(res1); connect(res1, &BaseJob::result, this, [res1] { QCOMPARE(res1->oneTimeKeyCounts().size(), 1); QCOMPARE(res1->oneTimeKeyCounts()["signed_curve25519"], 10); }); QSignalSpy spy1(res1, &BaseJob::result); auto olm2 = alice2->olmAccount(); olm2->generateOneTimeKeys(10); auto res2 = olm2->createUploadKeyRequest(olm2->oneTimeKeys()); alice2->run(res2); connect(res2, &BaseJob::result, this, [res2] { QCOMPARE(res2->oneTimeKeyCounts().size(), 1); QCOMPARE(res2->oneTimeKeyCounts()["signed_curve25519"], 10); }); QSignalSpy spy2(res2, &BaseJob::result); QVERIFY(spy.wait(10000)); QVERIFY(spy1.wait(10000)); QVERIFY(spy2.wait(10000)); // Bob will claim all keys from alice CREATE_CONNECTION(bob, "bob", "secret", "BobPhone") QStringList devices_; devices_ << alice->deviceId() << alice1->deviceId() << alice2->deviceId(); QHash> oneTimeKeys; for (const auto &d : devices_) { oneTimeKeys[alice->userId()] = QHash(); oneTimeKeys[alice->userId()][d] = SignedCurve25519Key; } auto job = bob->callApi(oneTimeKeys); connect(job, &BaseJob::result, this, [bob, job] { const auto userId = bob->userId(); const auto deviceId = bob->deviceId(); // The device exists. QCOMPARE(job->oneTimeKeys().size(), 1); QCOMPARE(job->oneTimeKeys()[userId].size(), 3); }); } QTEST_MAIN(TestOlmAccount)