}
expect(promises.size).toBe(numberOfThreads * maxMultiplier)
for (const workerNode of queuePool.workerNodes) {
- expect(workerNode.tasksUsage.running).toBeLessThanOrEqual(
+ expect(workerNode.workerUsage.tasks.executing).toBeLessThanOrEqual(
queuePool.opts.tasksQueueOptions.concurrency
)
- expect(workerNode.tasksUsage.ran).toBe(0)
- expect(workerNode.tasksQueue.size).toBeGreaterThan(0)
+ expect(workerNode.workerUsage.tasks.executed).toBe(0)
+ expect(workerNode.workerUsage.tasks.queued).toBeGreaterThan(0)
}
- expect(queuePool.info.runningTasks).toBe(numberOfThreads)
+ expect(queuePool.info.executingTasks).toBe(numberOfThreads)
expect(queuePool.info.queuedTasks).toBe(
numberOfThreads * maxMultiplier - numberOfThreads
)
)
await Promise.all(promises)
for (const workerNode of queuePool.workerNodes) {
- expect(workerNode.tasksUsage.running).toBe(0)
- expect(workerNode.tasksUsage.ran).toBeGreaterThan(0)
- expect(workerNode.tasksUsage.ran).toBeLessThanOrEqual(maxMultiplier)
- expect(workerNode.tasksQueue.size).toBe(0)
+ expect(workerNode.workerUsage.tasks.executing).toBe(0)
+ expect(workerNode.workerUsage.tasks.executed).toBeGreaterThan(0)
+ expect(workerNode.workerUsage.tasks.executed).toBeLessThanOrEqual(
+ maxMultiplier
+ )
+ expect(workerNode.workerUsage.tasks.queued).toBe(0)
}
})
})
expect(
errorPool.workerNodes.some(
- workerNode => workerNode.tasksUsage.error === 1
+ workerNode => workerNode.workerUsage.tasks.failed === 1
)
).toBe(true)
})
})
expect(
asyncErrorPool.workerNodes.some(
- workerNode => workerNode.tasksUsage.error === 1
+ workerNode => workerNode.workerUsage.tasks.failed === 1
)
).toBe(true)
})
})
it('Shutdown test', async () => {
- const exitPromise = TestUtils.waitWorkerExits(pool, numberOfThreads)
+ const exitPromise = TestUtils.waitWorkerEvents(
+ pool,
+ 'exit',
+ numberOfThreads
+ )
await pool.destroy()
const numberOfExitEvents = await exitPromise
expect(numberOfExitEvents).toBe(numberOfThreads)