import LockHandler, { LockType, LockHandlerOptions, Lock, activeLock, LockClientType } from '../../services/synchronizer/LockHandler'; import { isNetworkSyncTarget, fileApi, setupDatabaseAndSynchronizer, synchronizer, switchClient, msleep, expectThrow, expectNotThrow } from '../../testing/test-utils'; // For tests with memory of file system we can use low intervals to make the tests faster. // However if we use such low values with network sync targets, some calls might randomly fail with // ECONNRESET and similar errors (Dropbox or OneDrive migth also throttle). Also we can't use a // low lock TTL value because the lock might expire between the time it's written and the time it's checked. // For that reason we add this multiplier for non-memory sync targets. const timeoutMultiplier = isNetworkSyncTarget() ? 100 : 1; let lockHandler_: LockHandler = null; function newLockHandler(options: LockHandlerOptions = null): LockHandler { return new LockHandler(fileApi(), options); } function lockHandler(): LockHandler { if (lockHandler_) return lockHandler_; lockHandler_ = new LockHandler(fileApi()); return lockHandler_; } describe('synchronizer_LockHandler', () => { beforeEach(async () => { // logger.setLevel(Logger.LEVEL_WARN); lockHandler_ = null; await setupDatabaseAndSynchronizer(1); await setupDatabaseAndSynchronizer(2); await switchClient(1); await synchronizer().start(); // Need to sync once to setup the sync target and allow locks to work // logger.setLevel(Logger.LEVEL_DEBUG); }); it('should acquire and release a sync lock', (async () => { await lockHandler().acquireLock(LockType.Sync, LockClientType.Mobile, '123456'); const locks = await lockHandler().locks(LockType.Sync); expect(locks.length).toBe(1); expect(locks[0].type).toBe(LockType.Sync); expect(locks[0].clientId).toBe('123456'); expect(locks[0].clientType).toBe(LockClientType.Mobile); await lockHandler().releaseLock(LockType.Sync, LockClientType.Mobile, '123456'); expect((await lockHandler().locks(LockType.Sync)).length).toBe(0); })); it('should not use files that are not locks', (async () => { if (lockHandler().useBuiltInLocks) return; // Doesn't make sense with built-in locks await fileApi().put('locks/desktop.ini', 'a'); await fileApi().put('locks/exclusive.json', 'a'); await fileApi().put('locks/garbage.json', 'a'); await fileApi().put('locks/1_2_72c4d1b7253a4475bfb2f977117d26ed.json', 'a'); // Check that it doesn't cause an error if it fetches an old style lock await fileApi().put('locks/sync_desktop_82c4d1b7253a4475bfb2f977117d26ed.json', 'a'); const locks = await lockHandler().locks(LockType.Sync); expect(locks.length).toBe(1); expect(locks[0].type).toBe(LockType.Sync); expect(locks[0].clientType).toBe(LockClientType.Mobile); expect(locks[0].clientId).toBe('72c4d1b7253a4475bfb2f977117d26ed'); })); it('should allow multiple sync locks', (async () => { await lockHandler().acquireLock(LockType.Sync, LockClientType.Mobile, '111'); await switchClient(2); await lockHandler().acquireLock(LockType.Sync, LockClientType.Mobile, '222'); expect((await lockHandler().locks(LockType.Sync)).length).toBe(2); { await lockHandler().releaseLock(LockType.Sync, LockClientType.Mobile, '222'); const locks = await lockHandler().locks(LockType.Sync); expect(locks.length).toBe(1); expect(locks[0].clientId).toBe('111'); } })); it('should auto-refresh a lock', (async () => { const handler = newLockHandler({ autoRefreshInterval: 100 * timeoutMultiplier }); const lock = await handler.acquireLock(LockType.Sync, LockClientType.Desktop, '111'); const lockBefore = activeLock(await handler.locks(), new Date(), handler.lockTtl, LockType.Sync, LockClientType.Desktop, '111'); handler.startAutoLockRefresh(lock, () => {}); await msleep(500 * timeoutMultiplier); const lockAfter = activeLock(await handler.locks(), new Date(), handler.lockTtl, LockType.Sync, LockClientType.Desktop, '111'); expect(lockAfter.updatedTime).toBeGreaterThan(lockBefore.updatedTime); handler.stopAutoLockRefresh(lock); })); it('should call the error handler when lock has expired while being auto-refreshed', (async () => { const handler = newLockHandler({ lockTtl: 50 * timeoutMultiplier, autoRefreshInterval: 200 * timeoutMultiplier, }); const lock = await handler.acquireLock(LockType.Sync, LockClientType.Desktop, '111'); // eslint-disable-next-line @typescript-eslint/no-explicit-any -- Old code before rule was applied let autoLockError: any = null; // eslint-disable-next-line @typescript-eslint/no-explicit-any -- Old code before rule was applied handler.startAutoLockRefresh(lock, (error: any) => { autoLockError = error; }); try { await msleep(250 * timeoutMultiplier); expect(autoLockError).toBeTruthy(); expect(autoLockError.code).toBe('lockExpired'); } finally { handler.stopAutoLockRefresh(lock); } })); it('should not allow sync locks if there is an exclusive lock', (async () => { await lockHandler().acquireLock(LockType.Exclusive, LockClientType.Desktop, '111'); await expectThrow(async () => { await lockHandler().acquireLock(LockType.Sync, LockClientType.Mobile, '222'); }, 'hasExclusiveLock'); })); it('should not allow exclusive lock if there are sync locks', (async () => { const lockHandler = newLockHandler({ lockTtl: 1000 * 60 * 60 }); if (lockHandler.useBuiltInLocks) return; // Tested server side await lockHandler.acquireLock(LockType.Sync, LockClientType.Mobile, '111'); await lockHandler.acquireLock(LockType.Sync, LockClientType.Mobile, '222'); await expectThrow(async () => { await lockHandler.acquireLock(LockType.Exclusive, LockClientType.Desktop, '333'); }, 'hasSyncLock'); })); it('should allow exclusive lock if the sync locks have expired', (async () => { const lockHandler = newLockHandler({ lockTtl: 500 * timeoutMultiplier }); if (lockHandler.useBuiltInLocks) return; // Tested server side await lockHandler.acquireLock(LockType.Sync, LockClientType.Mobile, '111'); await lockHandler.acquireLock(LockType.Sync, LockClientType.Mobile, '222'); await msleep(600 * timeoutMultiplier); await expectNotThrow(async () => { await lockHandler.acquireLock(LockType.Exclusive, LockClientType.Desktop, '333'); }); })); it('should decide what is the active exclusive lock', (async () => { const lockHandler = newLockHandler(); { const locks: Lock[] = [ { type: LockType.Exclusive, clientId: '1', clientType: LockClientType.Desktop, updatedTime: Date.now(), }, ]; await msleep(100); locks.push({ type: LockType.Exclusive, clientId: '2', clientType: LockClientType.Desktop, updatedTime: Date.now(), }); const lock = activeLock(locks, new Date(), lockHandler.lockTtl, LockType.Exclusive); expect(lock.clientId).toBe('1'); } })); // it('should ignore locks by same client when trying to acquire exclusive lock', (async () => { // const lockHandler = newLockHandler(); // await lockHandler.acquireLock(LockType.Sync, LockClientType.Desktop, '111'); // await expectThrow(async () => { // await lockHandler.acquireLock(LockType.Exclusive, LockClientType.Desktop, '111', { clearExistingSyncLocksFromTheSameClient: false }); // }, 'hasSyncLock'); // await expectNotThrow(async () => { // await lockHandler.acquireLock(LockType.Exclusive, LockClientType.Desktop, '111', { clearExistingSyncLocksFromTheSameClient: true }); // }); // const lock = activeLock(await lockHandler.locks(), new Date(), lockHandler.lockTtl, LockType.Exclusive); // expect(lock.clientId).toBe('111'); // })); });