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worker-manager.test.js
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import {remote} from 'electron';
const {BrowserWindow} = remote;
import WorkerManager, {Operation, Worker} from '../lib/worker-manager';
import {isProcessAlive} from './helpers';
describe('WorkerManager', function() {
let workerManager;
beforeEach(function() {
if (process.env.ATOM_GITHUB_INLINE_GIT_EXEC) {
this.skip();
return;
}
workerManager = new WorkerManager();
});
afterEach(function() {
workerManager.destroy(true);
});
describe('isReady()', function() {
it('returns true if its worker is ready', async function() {
assert.isFalse(workerManager.isReady());
await workerManager.getReadyPromise();
assert.isTrue(workerManager.isReady());
workerManager.onSick(workerManager.getActiveWorker());
assert.isFalse(workerManager.isReady());
await workerManager.getReadyPromise();
assert.isTrue(workerManager.isReady());
});
});
describe('when a worker process crashes', function() {
it('creates a new worker process (with the same operation count limit) and executes remaining operations', async function() {
workerManager.createNewWorker({operationCountLimit: 40});
sinon.stub(Operation.prototype, 'execute');
const worker1 = workerManager.getActiveWorker();
await worker1.getReadyPromise();
workerManager.request();
workerManager.request();
workerManager.request();
const worker1OperationsInFlight = worker1.getRemainingOperations();
assert.lengthOf(worker1OperationsInFlight, 3);
const worker1Pid = worker1.getPid();
process.kill(worker1Pid, 'SIGKILL');
await assert.async.notEqual(worker1, workerManager.getActiveWorker());
const worker2 = workerManager.getActiveWorker();
await worker2.getReadyPromise();
assert.notEqual(worker2.getPid(), worker1Pid);
assert.equal(worker2.getOperationCountLimit(), worker1.getOperationCountLimit());
assert.deepEqual(worker2.getRemainingOperations(), worker1OperationsInFlight);
});
});
describe('when a worker process is sick', function() {
it('creates a new worker with a new operation count limit that is based on the limit and completed operation count of the last worker', function() {
function createSickWorker(operationCountLimit, completedOperationCount) {
const sickWorker = workerManager.getActiveWorker();
sinon.stub(sickWorker, 'getOperationCountLimit').returns(operationCountLimit);
sinon.stub(sickWorker, 'getCompletedOperationCount').returns(completedOperationCount);
return sickWorker;
}
// when the last worker operation count limit was greater than or equal to the completed operation count
// this means that the average spawn time for the first operationCountLimit operations was already higher than the threshold
// the system is likely just slow, so we should increase the operationCountLimit so next time we do more operations before creating a new process
const sickWorker1 = createSickWorker(10, 9);
workerManager.onSick(sickWorker1);
assert.notEqual(sickWorker1, workerManager.getActiveWorker());
assert.equal(workerManager.getActiveWorker().getOperationCountLimit(), 20);
const sickWorker2 = createSickWorker(50, 50);
workerManager.onSick(sickWorker2);
assert.notEqual(sickWorker2, workerManager.getActiveWorker());
assert.equal(workerManager.getActiveWorker().getOperationCountLimit(), 100);
const sickWorker3 = createSickWorker(100, 100);
workerManager.onSick(sickWorker3);
assert.notEqual(sickWorker3, workerManager.getActiveWorker());
assert.equal(workerManager.getActiveWorker().getOperationCountLimit(), 100);
// when the last worker operation count limit was less than the completed operation count
// this means that the system is performing better and we can drop the operationCountLimit back down to the base limit
const sickWorker4 = createSickWorker(100, 150);
workerManager.onSick(sickWorker4);
assert.notEqual(sickWorker4, workerManager.getActiveWorker());
assert.equal(workerManager.getActiveWorker().getOperationCountLimit(), 10);
});
describe('when the sick process crashes', function() {
it('completes remaining operations in existing active process', function() {
const sickWorker = workerManager.getActiveWorker();
sinon.stub(Operation.prototype, 'execute');
workerManager.request();
workerManager.request();
workerManager.request();
const operationsInFlight = sickWorker.getRemainingOperations();
assert.equal(operationsInFlight.length, 3);
workerManager.onSick(sickWorker);
assert.notEqual(sickWorker, workerManager.getActiveWorker());
const newWorker = workerManager.getActiveWorker();
assert.equal(newWorker.getRemainingOperations(), 0);
workerManager.onCrashed(sickWorker);
assert.equal(workerManager.getActiveWorker(), newWorker);
assert.equal(newWorker.getRemainingOperations().length, 3);
});
});
});
describe('destroy', function() {
it('destroys the renderer processes created after they have completed their operations', async function() {
const worker1 = workerManager.getActiveWorker();
await worker1.getReadyPromise();
sinon.stub(Operation.prototype, 'execute');
workerManager.request();
workerManager.request();
workerManager.request();
const worker1Operations = worker1.getRemainingOperations();
assert.equal(worker1Operations.length, 3);
workerManager.onSick(worker1);
const worker2 = workerManager.getActiveWorker();
await worker2.getReadyPromise();
workerManager.request();
workerManager.request();
const worker2Operations = worker2.getRemainingOperations();
assert.equal(worker2Operations.length, 2);
workerManager.destroy();
assert.isTrue(isProcessAlive(worker1.getPid()));
assert.isTrue(isProcessAlive(worker2.getPid()));
[...worker1Operations, ...worker2Operations].forEach(operation => operation.complete());
await assert.async.isFalse(isProcessAlive(worker1.getPid()));
await assert.async.isFalse(isProcessAlive(worker2.getPid()));
});
});
describe('when the manager process is destroyed', function() {
it('destroys all the renderer processes that were created', async function() {
this.retries(5); // FLAKE
const browserWindow = new BrowserWindow({show: !!process.env.ATOM_GITHUB_SHOW_RENDERER_WINDOW, webPreferences: {nodeIntegration: true, enableRemoteModule: true}});
browserWindow.loadURL('about:blank');
sinon.stub(Worker.prototype, 'getWebContentsId').returns(browserWindow.webContents.id);
const script = `
const ipc = require('electron').ipcRenderer;
(function() {
ipc.on('${Worker.channelName}', function() {
const args = Array.prototype.slice.apply(arguments)
args.shift();
args.unshift('${Worker.channelName}');
args.unshift(${remote.getCurrentWebContents().id})
ipc.sendTo.apply(ipc, args);
});
})()
`;
await browserWindow.webContents.executeJavaScript(script);
workerManager.destroy(true);
workerManager = new WorkerManager();
const worker1 = workerManager.getActiveWorker();
await worker1.getReadyPromise();
workerManager.onSick(worker1);
const worker2 = workerManager.getActiveWorker();
await worker2.getReadyPromise();
browserWindow.destroy();
await assert.async.isFalse(isProcessAlive(worker1.getPid()));
await assert.async.isFalse(isProcessAlive(worker2.getPid()));
});
});
});