/* global _, textsecure, libsignal, storage */ 'use strict'; describe('SignalProtocolStore', () => { const number = '+5558675309'; let store; let identityKey; let testKey; before(done => { store = textsecure.storage.protocol; store.hydrateCaches(); identityKey = { pubKey: libsignal.crypto.getRandomBytes(33), privKey: libsignal.crypto.getRandomBytes(32), }; testKey = { pubKey: libsignal.crypto.getRandomBytes(33), privKey: libsignal.crypto.getRandomBytes(32), }; storage.put('registrationId', 1337); storage.put('identityKey', identityKey); storage.fetch().then(done, done); }); describe('getLocalRegistrationId', () => { it('retrieves my registration id', async () => { await store.hydrateCaches(); const id = await store.getLocalRegistrationId(); assert.strictEqual(id, 1337); }); }); describe('getIdentityKeyPair', () => { it('retrieves my identity key', async () => { await store.hydrateCaches(); const key = await store.getIdentityKeyPair(); assertEqualArrayBuffers(key.pubKey, identityKey.pubKey); assertEqualArrayBuffers(key.privKey, identityKey.privKey); }); }); describe('saveIdentity', () => { const address = new libsignal.SignalProtocolAddress(number, 1); const identifier = address.toString(); it('stores identity keys', async () => { await store.saveIdentity(identifier, testKey.pubKey); const key = await store.loadIdentityKey(number); assertEqualArrayBuffers(key, testKey.pubKey); }); it('allows key changes', async () => { const newIdentity = libsignal.crypto.getRandomBytes(33); await store.saveIdentity(identifier, testKey.pubKey); await store.saveIdentity(identifier, newIdentity); }); describe('When there is no existing key (first use)', () => { before(async () => { await store.removeIdentityKey(number); await store.saveIdentity(identifier, testKey.pubKey); }); it('marks the key firstUse', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert(identity.firstUse); }); it('sets the timestamp', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert(identity.timestamp); }); it('sets the verified status to DEFAULT', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.verified, store.VerifiedStatus.DEFAULT); }); }); describe('When there is a different existing key (non first use)', () => { const newIdentity = libsignal.crypto.getRandomBytes(33); const oldTimestamp = Date.now(); before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: identifier, publicKey: testKey.pubKey, firstUse: true, timestamp: oldTimestamp, nonblockingApproval: false, verified: store.VerifiedStatus.DEFAULT, }); await store.hydrateCaches(); await store.saveIdentity(identifier, newIdentity); }); it('marks the key not firstUse', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert(!identity.firstUse); }); it('updates the timestamp', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.notEqual(identity.timestamp, oldTimestamp); }); describe('The previous verified status was DEFAULT', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: oldTimestamp, nonblockingApproval: false, verified: store.VerifiedStatus.DEFAULT, }); await store.hydrateCaches(); await store.saveIdentity(identifier, newIdentity); }); it('sets the new key to default', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.verified, store.VerifiedStatus.DEFAULT); }); }); describe('The previous verified status was VERIFIED', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: oldTimestamp, nonblockingApproval: false, verified: store.VerifiedStatus.VERIFIED, }); await store.hydrateCaches(); await store.saveIdentity(identifier, newIdentity); }); it('sets the new key to unverified', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual( identity.verified, store.VerifiedStatus.UNVERIFIED ); }); }); describe('The previous verified status was UNVERIFIED', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: oldTimestamp, nonblockingApproval: false, verified: store.VerifiedStatus.UNVERIFIED, }); await store.hydrateCaches(); await store.saveIdentity(identifier, newIdentity); }); it('sets the new key to unverified', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual( identity.verified, store.VerifiedStatus.UNVERIFIED ); }); }); }); describe('When the key has not changed', () => { const oldTimestamp = Date.now(); before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, timestamp: oldTimestamp, nonblockingApproval: false, verified: store.VerifiedStatus.DEFAULT, }); await store.hydrateCaches(); }); describe('If it is marked firstUse', () => { before(async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); identity.firstUse = true; await window.Signal.Data.createOrUpdateIdentityKey(identity); await store.hydrateCaches(); }); it('nothing changes', async () => { await store.saveIdentity(identifier, testKey.pubKey, true); const identity = await window.Signal.Data.getIdentityKeyById(number); assert(!identity.nonblockingApproval); assert.strictEqual(identity.timestamp, oldTimestamp); }); }); describe('If it is not marked firstUse', () => { before(async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); identity.firstUse = false; await window.Signal.Data.createOrUpdateIdentityKey(identity); await store.hydrateCaches(); }); describe('If nonblocking approval is required', () => { let now; before(async () => { now = Date.now(); const identity = await window.Signal.Data.getIdentityKeyById( number ); identity.timestamp = now; await window.Signal.Data.createOrUpdateIdentityKey(identity); await store.hydrateCaches(); }); it('sets non-blocking approval', async () => { await store.saveIdentity(identifier, testKey.pubKey, true); const identity = await window.Signal.Data.getIdentityKeyById( number ); assert.strictEqual(identity.nonblockingApproval, true); assert.strictEqual(identity.timestamp, now); assert.strictEqual(identity.firstUse, false); }); }); }); }); }); describe('saveIdentityWithAttributes', () => { let now; let validAttributes; before(async () => { now = Date.now(); validAttributes = { publicKey: testKey.pubKey, firstUse: true, timestamp: now, verified: store.VerifiedStatus.VERIFIED, nonblockingApproval: false, }; await store.removeIdentityKey(number); }); describe('with valid attributes', () => { before(async () => { await store.saveIdentityWithAttributes(number, validAttributes); }); it('publicKey is saved', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); }); it('firstUse is saved', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.firstUse, true); }); it('timestamp is saved', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.timestamp, now); }); it('verified is saved', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.verified, store.VerifiedStatus.VERIFIED); }); it('nonblockingApproval is saved', async () => { const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.nonblockingApproval, false); }); }); describe('with invalid attributes', () => { let attributes; beforeEach(() => { attributes = _.clone(validAttributes); }); async function testInvalidAttributes() { try { await store.saveIdentityWithAttributes(number, attributes); throw new Error('saveIdentityWithAttributes should have failed'); } catch (error) { // good. we expect to fail with invalid attributes. } } it('rejects an invalid publicKey', async () => { attributes.publicKey = 'a string'; await testInvalidAttributes(); }); it('rejects invalid firstUse', async () => { attributes.firstUse = 0; await testInvalidAttributes(); }); it('rejects invalid timestamp', async () => { attributes.timestamp = NaN; await testInvalidAttributes(); }); it('rejects invalid verified', async () => { attributes.verified = null; await testInvalidAttributes(); }); it('rejects invalid nonblockingApproval', async () => { attributes.nonblockingApproval = 0; await testInvalidAttributes(); }); }); }); describe('setApproval', () => { it('sets nonblockingApproval', async () => { await store.setApproval(number, true); const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.nonblockingApproval, true); }); }); describe('setVerified', () => { async function saveRecordDefault() { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.DEFAULT, nonblockingApproval: false, }); await store.hydrateCaches(); } describe('with no public key argument', () => { before(saveRecordDefault); it('updates the verified status', async () => { await store.setVerified(number, store.VerifiedStatus.VERIFIED); const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.verified, store.VerifiedStatus.VERIFIED); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); }); }); describe('with the current public key', () => { before(saveRecordDefault); it('updates the verified status', async () => { await store.setVerified( number, store.VerifiedStatus.VERIFIED, testKey.pubKey ); const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.verified, store.VerifiedStatus.VERIFIED); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); }); }); describe('with a mismatching public key', () => { const newIdentity = libsignal.crypto.getRandomBytes(33); before(saveRecordDefault); it('does not change the record.', async () => { await store.setVerified( number, store.VerifiedStatus.VERIFIED, newIdentity ); const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.verified, store.VerifiedStatus.DEFAULT); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); }); }); }); describe('processContactSyncVerificationState', () => { const newIdentity = libsignal.crypto.getRandomBytes(33); let keychangeTriggered; beforeEach(() => { keychangeTriggered = 0; store.bind('keychange', () => { keychangeTriggered += 1; }); }); afterEach(() => { store.unbind('keychange'); }); describe('when the new verified status is DEFAULT', () => { describe('when there is no existing record', () => { before(async () => { await window.Signal.Data.removeIdentityKeyById(number); await store.hydrateCaches(); }); it('does nothing', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.DEFAULT, newIdentity ); const identity = await window.Signal.Data.getIdentityKeyById(number); if (identity) { // fetchRecord resolved so there is a record. // Bad. throw new Error( 'processContactSyncVerificationState should not save new records' ); } assert.strictEqual(keychangeTriggered, 0); }); }); describe('when the record exists', () => { describe('when the existing key is different', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.VERIFIED, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('does not save the new identity (because this is a less secure state)', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.DEFAULT, newIdentity ); const identity = await window.Signal.Data.getIdentityKeyById( number ); assert.strictEqual( identity.verified, store.VerifiedStatus.VERIFIED ); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); assert.strictEqual(keychangeTriggered, 0); }); }); describe('when the existing key is the same but VERIFIED', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.VERIFIED, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('updates the verified status', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.DEFAULT, testKey.pubKey ); const identity = await window.Signal.Data.getIdentityKeyById( number ); assert.strictEqual(identity.verified, store.VerifiedStatus.DEFAULT); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); assert.strictEqual(keychangeTriggered, 0); }); }); describe('when the existing key is the same and already DEFAULT', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.DEFAULT, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('does not hang', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.DEFAULT, testKey.pubKey ); assert.strictEqual(keychangeTriggered, 0); }); }); }); }); describe('when the new verified status is UNVERIFIED', () => { describe('when there is no existing record', () => { before(async () => { await window.Signal.Data.removeIdentityKeyById(number); await store.hydrateCaches(); }); it('saves the new identity and marks it verified', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.UNVERIFIED, newIdentity ); const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual( identity.verified, store.VerifiedStatus.UNVERIFIED ); assertEqualArrayBuffers(identity.publicKey, newIdentity); assert.strictEqual(keychangeTriggered, 0); }); }); describe('when the record exists', () => { describe('when the existing key is different', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.VERIFIED, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('saves the new identity and marks it UNVERIFIED', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.UNVERIFIED, newIdentity ); const identity = await window.Signal.Data.getIdentityKeyById( number ); assert.strictEqual( identity.verified, store.VerifiedStatus.UNVERIFIED ); assertEqualArrayBuffers(identity.publicKey, newIdentity); assert.strictEqual(keychangeTriggered, 1); }); }); describe('when the key exists and is DEFAULT', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.DEFAULT, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('updates the verified status', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.UNVERIFIED, testKey.pubKey ); const identity = await window.Signal.Data.getIdentityKeyById( number ); assert.strictEqual( identity.verified, store.VerifiedStatus.UNVERIFIED ); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); assert.strictEqual(keychangeTriggered, 0); }); }); describe('when the key exists and is already UNVERIFIED', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.UNVERIFIED, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('does not hang', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.UNVERIFIED, testKey.pubKey ); assert.strictEqual(keychangeTriggered, 0); }); }); }); }); describe('when the new verified status is VERIFIED', () => { describe('when there is no existing record', () => { before(async () => { await window.Signal.Data.removeIdentityKeyById(number); await store.hydrateCaches(); }); it('saves the new identity and marks it verified', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.VERIFIED, newIdentity ); const identity = await window.Signal.Data.getIdentityKeyById(number); assert.strictEqual(identity.verified, store.VerifiedStatus.VERIFIED); assertEqualArrayBuffers(identity.publicKey, newIdentity); assert.strictEqual(keychangeTriggered, 0); }); }); describe('when the record exists', () => { describe('when the existing key is different', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.VERIFIED, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('saves the new identity and marks it VERIFIED', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.VERIFIED, newIdentity ); const identity = await window.Signal.Data.getIdentityKeyById( number ); assert.strictEqual( identity.verified, store.VerifiedStatus.VERIFIED ); assertEqualArrayBuffers(identity.publicKey, newIdentity); assert.strictEqual(keychangeTriggered, 1); }); }); describe('when the existing key is the same but UNVERIFIED', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.UNVERIFIED, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('saves the identity and marks it verified', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.VERIFIED, testKey.pubKey ); const identity = await window.Signal.Data.getIdentityKeyById( number ); assert.strictEqual( identity.verified, store.VerifiedStatus.VERIFIED ); assertEqualArrayBuffers(identity.publicKey, testKey.pubKey); assert.strictEqual(keychangeTriggered, 0); }); }); describe('when the existing key is the same and already VERIFIED', () => { before(async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, firstUse: true, timestamp: Date.now(), verified: store.VerifiedStatus.VERIFIED, nonblockingApproval: false, }); await store.hydrateCaches(); }); it('does not hang', async () => { await store.processContactSyncVerificationState( number, store.VerifiedStatus.VERIFIED, testKey.pubKey ); assert.strictEqual(keychangeTriggered, 0); }); }); }); }); }); describe('isUntrusted', () => { it('returns false if identity key old enough', async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, timestamp: Date.now() - 10 * 1000 * 60, verified: store.VerifiedStatus.DEFAULT, firstUse: false, nonblockingApproval: false, }); await store.hydrateCaches(); const untrusted = await store.isUntrusted(number); assert.strictEqual(untrusted, false); }); it('returns false if new but nonblockingApproval is true', async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, timestamp: Date.now(), verified: store.VerifiedStatus.DEFAULT, firstUse: false, nonblockingApproval: true, }); await store.hydrateCaches(); const untrusted = await store.isUntrusted(number); assert.strictEqual(untrusted, false); }); it('returns false if new but firstUse is true', async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, timestamp: Date.now(), verified: store.VerifiedStatus.DEFAULT, firstUse: true, nonblockingApproval: false, }); await store.hydrateCaches(); const untrusted = await store.isUntrusted(number); assert.strictEqual(untrusted, false); }); it('returns true if new, and no flags are set', async () => { await window.Signal.Data.createOrUpdateIdentityKey({ id: number, publicKey: testKey.pubKey, timestamp: Date.now(), verified: store.VerifiedStatus.DEFAULT, firstUse: false, nonblockingApproval: false, }); await store.hydrateCaches(); const untrusted = await store.isUntrusted(number); assert.strictEqual(untrusted, true); }); }); describe('getVerified', () => { before(async () => { await store.setVerified(number, store.VerifiedStatus.VERIFIED); }); it('resolves to the verified status', async () => { const result = await store.getVerified(number); assert.strictEqual(result, store.VerifiedStatus.VERIFIED); }); }); describe('isTrustedIdentity', () => { const address = new libsignal.SignalProtocolAddress(number, 1); const identifier = address.toString(); describe('When invalid direction is given', () => { it('should fail', async () => { try { await store.isTrustedIdentity(number, testKey.pubKey); throw new Error('isTrustedIdentity should have failed'); } catch (error) { // good } }); }); describe('When direction is RECEIVING', () => { it('always returns true', async () => { const newIdentity = libsignal.crypto.getRandomBytes(33); await store.saveIdentity(identifier, testKey.pubKey); const trusted = await store.isTrustedIdentity( identifier, newIdentity, store.Direction.RECEIVING ); if (!trusted) { throw new Error('isTrusted returned false when receiving'); } }); }); describe('When direction is SENDING', () => { describe('When there is no existing key (first use)', () => { before(async () => { await store.removeIdentityKey(number); }); it('returns true', async () => { const newIdentity = libsignal.crypto.getRandomBytes(33); const trusted = await store.isTrustedIdentity( identifier, newIdentity, store.Direction.SENDING ); if (!trusted) { throw new Error('isTrusted returned false on first use'); } }); }); describe('When there is an existing key', () => { before(async () => { await store.saveIdentity(identifier, testKey.pubKey); }); describe('When the existing key is different', () => { it('returns false', async () => { const newIdentity = libsignal.crypto.getRandomBytes(33); const trusted = await store.isTrustedIdentity( identifier, newIdentity, store.Direction.SENDING ); if (trusted) { throw new Error('isTrusted returned true on untrusted key'); } }); }); describe('When the existing key matches the new key', () => { const newIdentity = libsignal.crypto.getRandomBytes(33); before(async () => { await store.saveIdentity(identifier, newIdentity); }); it('returns false if keys match but we just received this new identiy', async () => { const trusted = await store.isTrustedIdentity( identifier, newIdentity, store.Direction.SENDING ); if (trusted) { throw new Error('isTrusted returned true on untrusted key'); } }); it('returns true if we have already approved identity', async () => { await store.saveIdentity(identifier, newIdentity, true); const trusted = await store.isTrustedIdentity( identifier, newIdentity, store.Direction.SENDING ); if (!trusted) { throw new Error('isTrusted returned false on an approved key'); } }); }); }); }); }); describe('storePreKey', () => { it('stores prekeys', async () => { await store.storePreKey(1, testKey); const key = await store.loadPreKey(1); assertEqualArrayBuffers(key.pubKey, testKey.pubKey); assertEqualArrayBuffers(key.privKey, testKey.privKey); }); }); describe('removePreKey', () => { before(async () => { await store.storePreKey(2, testKey); }); it('deletes prekeys', async () => { await store.removePreKey(2, testKey); const key = await store.loadPreKey(2); assert.isUndefined(key); }); }); describe('storeSignedPreKey', () => { it('stores signed prekeys', async () => { await store.storeSignedPreKey(3, testKey); const key = await store.loadSignedPreKey(3); assertEqualArrayBuffers(key.pubKey, testKey.pubKey); assertEqualArrayBuffers(key.privKey, testKey.privKey); }); }); describe('removeSignedPreKey', () => { before(async () => { await store.storeSignedPreKey(4, testKey); }); it('deletes signed prekeys', async () => { await store.removeSignedPreKey(4, testKey); const key = await store.loadSignedPreKey(4); assert.isUndefined(key); }); }); describe('storeSession', () => { it('stores sessions', async () => { const testRecord = 'an opaque string'; await store.storeSession(`${number}.1`, testRecord); const record = await store.loadSession(`${number}.1`); assert.deepEqual(record, testRecord); }); }); describe('removeAllSessions', () => { it('removes all sessions for a number', async () => { const testRecord = 'an opaque string'; const devices = [1, 2, 3].map(deviceId => { return [number, deviceId].join('.'); }); await Promise.all( devices.map(async encodedNumber => { await store.storeSession(encodedNumber, testRecord + encodedNumber); }) ); await store.removeAllSessions(number); const records = await Promise.all( devices.map(store.loadSession.bind(store)) ); for (let i = 0, max = records.length; i < max; i += 1) { assert.isUndefined(records[i]); } }); }); describe('clearSessionStore', () => { it('clears the session store', async () => { const testRecord = 'an opaque string'; await store.storeSession(`${number}.1`, testRecord); await store.clearSessionStore(); const record = await store.loadSession(`${number}.1`); assert.isUndefined(record); }); }); describe('getDeviceIds', () => { it('returns deviceIds for a number', async () => { const testRecord = 'an opaque string'; const devices = [1, 2, 3, 10].map(deviceId => { return [number, deviceId].join('.'); }); await Promise.all( devices.map(async encodedNumber => { await store.storeSession(encodedNumber, testRecord + encodedNumber); }) ); const deviceIds = await store.getDeviceIds(number); assert.sameMembers(deviceIds, [1, 2, 3, 10]); }); it('returns empty array for a number with no device ids', async () => { const deviceIds = await store.getDeviceIds('foo'); assert.sameMembers(deviceIds, []); }); }); describe('Not yet processed messages', () => { beforeEach(async () => { await store.removeAllUnprocessed(); const items = await store.getAllUnprocessed(); assert.strictEqual(items.length, 0); }); it('adds three and gets them back', async () => { await Promise.all([ store.addUnprocessed({ id: 2, envelope: 'second', timestamp: 2 }), store.addUnprocessed({ id: 3, envelope: 'third', timestamp: 3 }), store.addUnprocessed({ id: 1, envelope: 'first', timestamp: 1 }), ]); const items = await store.getAllUnprocessed(); assert.strictEqual(items.length, 3); // they are in the proper order because the collection comparator is 'timestamp' assert.strictEqual(items[0].envelope, 'first'); assert.strictEqual(items[1].envelope, 'second'); assert.strictEqual(items[2].envelope, 'third'); }); it('saveUnprocessed successfully updates item', async () => { const id = 1; await store.addUnprocessed({ id, envelope: 'first', timestamp: 1 }); await store.updateUnprocessedWithData(id, { decrypted: 'updated' }); const items = await store.getAllUnprocessed(); assert.strictEqual(items.length, 1); assert.strictEqual(items[0].decrypted, 'updated'); assert.strictEqual(items[0].timestamp, 1); }); it('removeUnprocessed successfully deletes item', async () => { const id = 1; await store.addUnprocessed({ id, envelope: 'first', timestamp: 1 }); await store.removeUnprocessed(id); const items = await store.getAllUnprocessed(); assert.strictEqual(items.length, 0); }); }); });