DEFAULT_WORKER_CHOICE_STRATEGY_OPTIONS,
EMPTY_FUNCTION,
isPlainObject,
- median
+ median,
+ round
} from '../utils'
import { KillBehaviors, isKillBehavior } from '../worker/worker-options'
import { CircularArray } from '../circular-array'
type PoolType,
PoolTypes,
type TasksQueueOptions,
- type WorkerType
+ type WorkerType,
+ WorkerTypes
} from './pool'
-import type { IWorker, Task, WorkerNode, WorkerUsage } from './worker'
+import type {
+ IWorker,
+ MessageHandler,
+ Task,
+ WorkerNode,
+ WorkerUsage
+} from './worker'
import {
Measurements,
WorkerChoiceStrategies,
* Base class that implements some shared logic for all poolifier pools.
*
* @typeParam Worker - Type of worker which manages this pool.
- * @typeParam Data - Type of data sent to the worker. This can only be serializable data.
- * @typeParam Response - Type of execution response. This can only be serializable data.
+ * @typeParam Data - Type of data sent to the worker. This can only be structured-cloneable data.
+ * @typeParam Response - Type of execution response. This can only be structured-cloneable data.
*/
export abstract class AbstractPool<
Worker extends IWorker,
Response
>
+ /**
+ * The start timestamp of the pool.
+ */
+ private readonly startTimestamp
+
/**
* Constructs a new poolifier pool.
*
this.setupHook()
- for (let i = 1; i <= this.numberOfWorkers; i++) {
+ while (this.workerNodes.length < this.numberOfWorkers) {
this.createAndSetupWorker()
}
+
+ this.startTimestamp = performance.now()
}
private checkFilePath (filePath: string): void {
worker: this.worker,
minSize: this.minSize,
maxSize: this.maxSize,
+ utilization: round(this.utilization),
workerNodes: this.workerNodes.length,
idleWorkerNodes: this.workerNodes.reduce(
(accumulator, workerNode) =>
- workerNode.workerUsage.tasks.executing === 0
+ workerNode.usage.tasks.executing === 0
? accumulator + 1
: accumulator,
0
),
busyWorkerNodes: this.workerNodes.reduce(
(accumulator, workerNode) =>
- workerNode.workerUsage.tasks.executing > 0
- ? accumulator + 1
- : accumulator,
+ workerNode.usage.tasks.executing > 0 ? accumulator + 1 : accumulator,
0
),
executedTasks: this.workerNodes.reduce(
(accumulator, workerNode) =>
- accumulator + workerNode.workerUsage.tasks.executed,
+ accumulator + workerNode.usage.tasks.executed,
0
),
executingTasks: this.workerNodes.reduce(
(accumulator, workerNode) =>
- accumulator + workerNode.workerUsage.tasks.executing,
+ accumulator + workerNode.usage.tasks.executing,
0
),
queuedTasks: this.workerNodes.reduce(
(accumulator, workerNode) =>
- accumulator + workerNode.workerUsage.tasks.queued,
+ accumulator + workerNode.usage.tasks.queued,
0
),
maxQueuedTasks: this.workerNodes.reduce(
(accumulator, workerNode) =>
- accumulator + workerNode.workerUsage.tasks.maxQueued,
+ accumulator + workerNode.usage.tasks.maxQueued,
0
),
failedTasks: this.workerNodes.reduce(
(accumulator, workerNode) =>
- accumulator + workerNode.workerUsage.tasks.failed,
+ accumulator + workerNode.usage.tasks.failed,
0
)
}
}
+ /**
+ * Gets the pool run time.
+ *
+ * @returns The pool run time in milliseconds.
+ */
+ private get runTime (): number {
+ return performance.now() - this.startTimestamp
+ }
+
+ /**
+ * Gets the approximate pool utilization.
+ *
+ * @returns The pool utilization.
+ */
+ private get utilization (): number {
+ const poolRunTimeCapacity = this.runTime * this.maxSize
+ const totalTasksRunTime = this.workerNodes.reduce(
+ (accumulator, workerNode) =>
+ accumulator + workerNode.usage.runTime.aggregate,
+ 0
+ )
+ const totalTasksWaitTime = this.workerNodes.reduce(
+ (accumulator, workerNode) =>
+ accumulator + workerNode.usage.waitTime.aggregate,
+ 0
+ )
+ return (totalTasksRunTime + totalTasksWaitTime) / poolRunTimeCapacity
+ }
+
/**
* Pool type.
*
*/
protected abstract get maxSize (): number
+ /**
+ * Get the worker given its id.
+ *
+ * @param workerId - The worker id.
+ * @returns The worker if found in the pool worker nodes, `undefined` otherwise.
+ */
+ private getWorkerById (workerId: number): Worker | undefined {
+ return this.workerNodes.find(workerNode => workerNode.info.id === workerId)
+ ?.worker
+ }
+
/**
* Gets the given worker its worker node key.
*
* @param worker - The worker.
- * @returns The worker node key if the worker is found in the pool worker nodes, `-1` otherwise.
+ * @returns The worker node key if found in the pool worker nodes, `-1` otherwise.
*/
private getWorkerNodeKey (worker: Worker): number {
return this.workerNodes.findIndex(
protected internalBusy (): boolean {
return (
this.workerNodes.findIndex(workerNode => {
- return workerNode.workerUsage.tasks.executing === 0
+ return workerNode.usage.tasks.executing === 0
}) === -1
)
}
if (
this.opts.enableTasksQueue === true &&
(this.busy ||
- this.workerNodes[workerNodeKey].workerUsage.tasks.executing >=
+ this.workerNodes[workerNodeKey].usage.tasks.executing >=
((this.opts.tasksQueueOptions as TasksQueueOptions)
.concurrency as number))
) {
protected abstract destroyWorker (worker: Worker): void | Promise<void>
/**
- * Setup hook to execute code before worker node are created in the abstract constructor.
- * Can be overridden
+ * Setup hook to execute code before worker nodes are created in the abstract constructor.
+ * Can be overridden.
*
* @virtual
*/
workerNodeKey: number,
task: Task<Data>
): void {
- const workerUsage = this.workerNodes[workerNodeKey].workerUsage
+ const workerUsage = this.workerNodes[workerNodeKey].usage
++workerUsage.tasks.executing
this.updateWaitTimeWorkerUsage(workerUsage, task)
}
worker: Worker,
message: MessageValue<Response>
): void {
- const workerUsage =
- this.workerNodes[this.getWorkerNodeKey(worker)].workerUsage
+ const workerUsage = this.workerNodes[this.getWorkerNodeKey(worker)].usage
this.updateTaskStatisticsWorkerUsage(workerUsage, message)
this.updateRunTimeWorkerUsage(workerUsage, message)
this.updateEluWorkerUsage(workerUsage, message)
* @param worker - The worker which should register a listener.
* @param listener - The message listener callback.
*/
- protected abstract registerWorkerMessageListener<
- Message extends Data | Response
- >(worker: Worker, listener: (message: MessageValue<Message>) => void): void
+ private registerWorkerMessageListener<Message extends Data | Response>(
+ worker: Worker,
+ listener: (message: MessageValue<Message>) => void
+ ): void {
+ worker.on('message', listener as MessageHandler<Worker>)
+ }
/**
* Creates a new worker.
/**
* Function that can be hooked up when a worker has been newly created and moved to the pool worker nodes.
- *
- * Can be used to update the `maxListeners` or binding the `main-worker`\<-\>`worker` connection if not bind by default.
+ * Can be overridden.
*
* @param worker - The newly created worker.
*/
- protected abstract afterWorkerSetup (worker: Worker): void
+ protected afterWorkerSetup (worker: Worker): void {
+ // Listen to worker messages.
+ this.registerWorkerMessageListener(worker, this.workerListener())
+ }
/**
* Creates a new worker and sets it up completely in the pool worker nodes.
isKillBehavior(KillBehaviors.HARD, message.kill) ||
(message.kill != null &&
((this.opts.enableTasksQueue === false &&
- this.workerNodes[workerNodeKey].workerUsage.tasks.executing ===
- 0) ||
+ this.workerNodes[workerNodeKey].usage.tasks.executing === 0) ||
(this.opts.enableTasksQueue === true &&
- this.workerNodes[workerNodeKey].workerUsage.tasks.executing ===
- 0 &&
+ this.workerNodes[workerNodeKey].usage.tasks.executing === 0 &&
this.tasksQueueSize(workerNodeKey) === 0)))
) {
// Kill message received from the worker: no new tasks are submitted to that worker for a while ( > maxInactiveTime)
*/
protected workerListener (): (message: MessageValue<Response>) => void {
return message => {
- if (message.id != null) {
+ if (message.workerId != null && message.started != null) {
+ // Worker started message received
+ const worker = this.getWorkerById(message.workerId)
+ if (worker != null) {
+ this.workerNodes[this.getWorkerNodeKey(worker)].info.started =
+ message.started
+ } else {
+ throw new Error(
+ `Worker started message received from unknown worker '${message.workerId}'`
+ )
+ }
+ } else if (message.id != null) {
// Task execution response received
const promiseResponse = this.promiseResponseMap.get(message.id)
if (promiseResponse != null) {
workerNode: WorkerNode<Worker, Data>,
workerUsage: WorkerUsage
): void {
- workerNode.workerUsage = workerUsage
+ workerNode.usage = workerUsage
}
/**
private pushWorkerNode (worker: Worker): number {
this.workerNodes.push({
worker,
- workerUsage: this.getWorkerUsage(),
+ info: { id: this.getWorkerId(worker), started: true },
+ usage: this.getWorkerUsage(),
tasksQueue: new Queue<Task<Data>>()
})
const workerNodeKey = this.getWorkerNodeKey(worker)
return this.workerNodes.length
}
+ /**
+ * Gets the worker id.
+ *
+ * @param worker - The worker.
+ * @returns The worker id.
+ */
+ private getWorkerId (worker: Worker): number | undefined {
+ if (this.worker === WorkerTypes.thread) {
+ return worker.threadId
+ } else if (this.worker === WorkerTypes.cluster) {
+ return worker.id
+ }
+ }
+
// /**
// * Sets the given worker in the pool worker nodes.
// *
// * @param workerNodeKey - The worker node key.
// * @param worker - The worker.
+ // * @param workerInfo - The worker info.
// * @param workerUsage - The worker usage.
// * @param tasksQueue - The worker task queue.
// */
// private setWorkerNode (
// workerNodeKey: number,
// worker: Worker,
+ // workerInfo: WorkerInfo,
// workerUsage: WorkerUsage,
// tasksQueue: Queue<Task<Data>>
// ): void {
// this.workerNodes[workerNodeKey] = {
// worker,
- // workerUsage,
+ // info: workerInfo,
+ // usage: workerUsage,
// tasksQueue
// }
// }