// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. import { fork } from "node:child_process"; import process from "node:process"; import { setImmediate } from "node:timers"; if (process.env.CHILD) { const len = +process.env.CHILD; const msg = ".".repeat(len); let waiting = false; const send = () => { while ( process.send(msg, undefined, undefined, (_e) => { if (waiting) { waiting = false; setImmediate(send); } }) ); // Wait: backlog of unsent messages exceeds threshold // once the message is sent, the callback will be called // and we'll resume waiting = true; }; send(); } else { function main(dur, len) { const p = new Promise((resolve) => { const start = performance.now(); const options = { "stdio": ["inherit", "inherit", "inherit", "ipc"], "env": { "CHILD": len.toString() }, }; const path = new URL("child_process_ipc.mjs", import.meta.url).pathname; const child = fork( path, options, ); let bytes = 0; let total = 0; child.on("message", (msg) => { bytes += msg.length; total += 1; }); setTimeout(() => { child.kill(); const end = performance.now(); const mb = bytes / 1024 / 1024; const sec = (end - start) / 1000; const mbps = mb / sec; console.log(`${len} bytes: ${mbps.toFixed(2)} MB/s`); console.log(`${total} messages`); resolve(); }, dur * 1000); }); return p; } const len = [ 64, 256, 1024, 4096, 16384, 65536, 65536 << 4, 65536 << 6 - 1, ]; for (const l of len) { await main(5, l); } }