"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); Object.defineProperty(exports, "Worker", { enumerable: true, get: function() { return Worker; } }); const _jestworker = require("next/dist/compiled/jest-worker"); const _utils = require("../server/lib/utils"); const RESTARTED = Symbol("restarted"); const cleanupWorkers = (worker)=>{ var _worker__workerPool; for (const curWorker of ((_worker__workerPool = worker._workerPool) == null ? void 0 : _worker__workerPool._workers) || []){ var _curWorker__child; (_curWorker__child = curWorker._child) == null ? void 0 : _curWorker__child.kill("SIGINT"); } }; class Worker { constructor(workerPath, options){ let { timeout, onRestart, ...farmOptions } = options; let restartPromise; let resolveRestartPromise; let activeTasks = 0; this._worker = undefined; const createWorker = ()=>{ var _farmOptions_forkOptions; this._worker = new _jestworker.Worker(workerPath, { ...farmOptions, forkOptions: { ...farmOptions.forkOptions, env: { ...((_farmOptions_forkOptions = farmOptions.forkOptions) == null ? void 0 : _farmOptions_forkOptions.env) || {}, ...process.env, // we don't pass down NODE_OPTIONS as it can // extra memory usage NODE_OPTIONS: (0, _utils.getNodeOptionsWithoutInspect)().replace(/--max-old-space-size=[\d]{1,}/, "").trim() } } }); restartPromise = new Promise((resolve)=>resolveRestartPromise = resolve); /** * Jest Worker has two worker types, ChildProcessWorker (uses child_process) and NodeThreadWorker (uses worker_threads) * Next.js uses ChildProcessWorker by default, but it can be switched to NodeThreadWorker with an experimental flag * * We only want to handle ChildProcessWorker's orphan process issue, so we access the private property "_child": * https://github.com/facebook/jest/blob/b38d7d345a81d97d1dc3b68b8458b1837fbf19be/packages/jest-worker/src/workers/ChildProcessWorker.ts * * But this property is not available in NodeThreadWorker, so we need to check if we are using ChildProcessWorker */ if (!farmOptions.enableWorkerThreads) { var _this__worker__workerPool; for (const worker of ((_this__worker__workerPool = this._worker._workerPool) == null ? void 0 : _this__worker__workerPool._workers) || []){ var _worker__child; (_worker__child = worker._child) == null ? void 0 : _worker__child.on("exit", (code, signal)=>{ // log unexpected exit if .end() wasn't called if ((code || signal && signal !== "SIGINT") && this._worker) { console.error(`Static worker unexpectedly exited with code: ${code} and signal: ${signal}`); } }); } } this._worker.getStdout().pipe(process.stdout); this._worker.getStderr().pipe(process.stderr); }; createWorker(); const onHanging = ()=>{ const worker = this._worker; if (!worker) return; const resolve = resolveRestartPromise; createWorker(); worker.end().then(()=>{ resolve(RESTARTED); }); }; let hangingTimer = false; const onActivity = ()=>{ if (hangingTimer) clearTimeout(hangingTimer); hangingTimer = activeTasks > 0 && setTimeout(onHanging, timeout); }; for (const method of farmOptions.exposedMethods){ if (method.startsWith("_")) continue; this[method] = timeout ? async (...args)=>{ activeTasks++; try { let attempts = 0; for(;;){ onActivity(); const result = await Promise.race([ this._worker[method](...args), restartPromise ]); if (result !== RESTARTED) return result; if (onRestart) onRestart(method, args, ++attempts); } } finally{ activeTasks--; onActivity(); } } : this._worker[method].bind(this._worker); } } end() { const worker = this._worker; if (!worker) { throw new Error("Farm is ended, no more calls can be done to it"); } cleanupWorkers(worker); this._worker = undefined; return worker.end(); } /** * Quietly end the worker if it exists */ close() { if (this._worker) { cleanupWorkers(this._worker); this._worker.end(); } } } //# sourceMappingURL=worker.js.map