1
0
mirror of https://github.com/laurent22/joplin.git synced 2024-12-18 09:35:20 +02:00
joplin/packages/app-cli/tests/synchronizer_LockHandler.ts

201 lines
7.2 KiB
TypeScript
Raw Normal View History

import LockHandler, { LockType, LockHandlerOptions, Lock } from '@joplin/lib/services/synchronizer/LockHandler';
2020-11-05 18:58:23 +02:00
const { isNetworkSyncTarget, asyncTest, fileApi, setupDatabaseAndSynchronizer, synchronizer, switchClient, msleep, expectThrow, expectNotThrow } = require('./test-utils.js');
process.on('unhandledRejection', (reason: any, p: any) => {
console.log('Unhandled Rejection at: Promise', p, 'reason:', reason);
});
// 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 timeoutMultipler = 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', function() {
beforeEach(async (done: Function) => {
// 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);
done();
});
it('should acquire and release a sync lock', asyncTest(async () => {
await lockHandler().acquireLock(LockType.Sync, '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('mobile');
await lockHandler().releaseLock(LockType.Sync, 'mobile', '123456');
expect((await lockHandler().locks(LockType.Sync)).length).toBe(0);
}));
it('should not use files that are not locks', asyncTest(async () => {
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/sync_mobile_72c4d1b7253a4475bfb2f977117d26ed.json', 'a');
const locks = await lockHandler().locks(LockType.Sync);
expect(locks.length).toBe(1);
}));
it('should allow multiple sync locks', asyncTest(async () => {
await lockHandler().acquireLock(LockType.Sync, 'mobile', '111');
await switchClient(2);
await lockHandler().acquireLock(LockType.Sync, 'mobile', '222');
expect((await lockHandler().locks(LockType.Sync)).length).toBe(2);
{
await lockHandler().releaseLock(LockType.Sync, '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', asyncTest(async () => {
const handler = newLockHandler({ autoRefreshInterval: 100 * timeoutMultipler });
const lock = await handler.acquireLock(LockType.Sync, 'desktop', '111');
const lockBefore = await handler.activeLock(LockType.Sync, 'desktop', '111');
handler.startAutoLockRefresh(lock, () => {});
await msleep(500 * timeoutMultipler);
const lockAfter = await handler.activeLock(LockType.Sync, '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', asyncTest(async () => {
const handler = newLockHandler({
lockTtl: 50 * timeoutMultipler,
autoRefreshInterval: 200 * timeoutMultipler,
});
const lock = await handler.acquireLock(LockType.Sync, 'desktop', '111');
let autoLockError: any = null;
handler.startAutoLockRefresh(lock, (error: any) => {
autoLockError = error;
});
await msleep(250 * timeoutMultipler);
expect(autoLockError.code).toBe('lockExpired');
handler.stopAutoLockRefresh(lock);
}));
it('should not allow sync locks if there is an exclusive lock', asyncTest(async () => {
await lockHandler().acquireLock(LockType.Exclusive, 'desktop', '111');
await expectThrow(async () => {
await lockHandler().acquireLock(LockType.Sync, 'mobile', '222');
}, 'hasExclusiveLock');
}));
it('should not allow exclusive lock if there are sync locks', asyncTest(async () => {
const lockHandler = newLockHandler({ lockTtl: 1000 * 60 * 60 });
await lockHandler.acquireLock(LockType.Sync, 'mobile', '111');
await lockHandler.acquireLock(LockType.Sync, 'mobile', '222');
await expectThrow(async () => {
await lockHandler.acquireLock(LockType.Exclusive, 'desktop', '333');
}, 'hasSyncLock');
}));
it('should allow exclusive lock if the sync locks have expired', asyncTest(async () => {
const lockHandler = newLockHandler({ lockTtl: 500 * timeoutMultipler });
await lockHandler.acquireLock(LockType.Sync, 'mobile', '111');
await lockHandler.acquireLock(LockType.Sync, 'mobile', '222');
await msleep(600 * timeoutMultipler);
await expectNotThrow(async () => {
await lockHandler.acquireLock(LockType.Exclusive, 'desktop', '333');
});
}));
it('should decide what is the active exclusive lock', asyncTest(async () => {
const lockHandler = newLockHandler();
{
const lock1: Lock = { type: LockType.Exclusive, clientId: '1', clientType: 'd' };
const lock2: Lock = { type: LockType.Exclusive, clientId: '2', clientType: 'd' };
await lockHandler.saveLock_(lock1);
await msleep(100);
await lockHandler.saveLock_(lock2);
const activeLock = await lockHandler.activeLock(LockType.Exclusive);
expect(activeLock.clientId).toBe('1');
}
}));
// it('should not have race conditions', asyncTest(async () => {
// const lockHandler = newLockHandler();
// const clients = [];
// for (let i = 0; i < 20; i++) {
// clients.push({
// id: 'client' + i,
// type: 'desktop',
// });
// }
// for (let loopIndex = 0; loopIndex < 1000; loopIndex++) {
// const promises:Promise<void | Lock>[] = [];
// for (let clientIndex = 0; clientIndex < clients.length; clientIndex++) {
// const client = clients[clientIndex];
// promises.push(
// lockHandler.acquireLock(LockType.Exclusive, client.type, client.id).catch(() => {})
// );
// // if (gotLock) {
// // await msleep(100);
// // const locks = await lockHandler.locks(LockType.Exclusive);
// // console.info('=======================================');
// // console.info(locks);
// // lockHandler.releaseLock(LockType.Exclusive, client.type, client.id);
// // }
// // await msleep(500);
// }
// const result = await Promise.all(promises);
// const locks = result.filter((lock:any) => !!lock);
// expect(locks.length).toBe(1);
// const lock:Lock = locks[0] as Lock;
// const allLocks = await lockHandler.locks();
// console.info('================================', allLocks);
// lockHandler.releaseLock(LockType.Exclusive, lock.clientType, lock.clientId);
// }
// }));
});