'use strict'; const common = require('../common'); if ((process.config.variables.arm_version === '6') || (process.config.variables.arm_version === '7')) common.skip('Too slow for armv6 and armv7 bots'); const assert = require('assert'); const fork = require('child_process').fork; const net = require('net'); const N = 80; if (process.argv[2] !== 'child') { for (let i = 0; i < N; ++i) { const worker = fork(__filename, ['child']); worker.once('message', common.mustCall((msg, handle) => { assert.strictEqual(msg, 'handle'); assert.ok(handle); worker.send('got'); let recvData = ''; handle.on('data', common.mustCall((data) => { recvData += data; })); handle.on('end', () => { assert.strictEqual(recvData, 'hello'); worker.kill(); }); })); } } else { let socket; let cbcalls = 0; function socketConnected() { if (++cbcalls === 2) process.send('handle', socket); } // As a side-effect, listening for the message event will ref the IPC channel, // so the child process will stay alive as long as it has a parent process/IPC // channel. Once this is done, we can unref our client and server sockets, and // the only thing keeping this worker alive will be IPC. This is important, // because it means a worker with no parent will have no referenced handles, // thus no work to do, and will exit immediately, preventing process leaks. process.on('message', common.mustCall()); const server = net.createServer((c) => { process.once('message', function(msg) { assert.strictEqual(msg, 'got'); c.end('hello'); }); socketConnected(); }).unref(); server.listen(0, common.localhostIPv4, () => { const port = server.address().port; socket = net.connect(port, common.localhostIPv4, socketConnected).unref(); }); }