// code provided by tzlil require("dotenv").config(); const os = require("os"); const { Worker, isMainThread, parentPort } = require("worker_threads"); const magick = require("../utils/image.js"); const execPromise = require("util").promisify(require("child_process").exec); const net = require("net"); const dgram = require("dgram"); // for UDP servers const socket = dgram.createSocket("udp4"); // Our universal UDP socket, this might cause issues and we may have to use a seperate socket for each connection const start = process.hrtime(); const log = (msg, thread) => { console.log(`[${process.hrtime(start)[1] / 1000000}${(thread)?`:${thread}`:""}]\t ${msg}`); }; const jobs = {}; // Should look like UUID : { addr : "someaddr", port: someport msg: "request" } const queue = []; // Array of UUIDs if (isMainThread) { const { v4: uuidv4 } = require("uuid"); let cpuLoad; const getAverage = () => { const cpus = os.cpus(); let idle = 0; let tick = 0; for (const cpu of cpus) { for (const type in cpu.times) { tick += cpu.times[type]; } idle += cpu.times.idle; } return { idle: idle / cpus.length, tick: tick / cpus.length }; }; let measure = getAverage(); setInterval(() => { const newMeasure = getAverage(); const idleDiff = newMeasure.idle - measure.idle; const tickDiff = newMeasure.tick - measure.tick; cpuLoad = 100 - ~~(100 * idleDiff / tickDiff); measure = newMeasure; }, 5000); const MAX_WORKERS = process.env.WORKERS === "" ? parseInt(process.env.WORKERS) : os.cpus().length * 4; // Completely arbitrary, should usually be some multiple of your amount of cores let workingWorkers = 0; const acceptJob = (uuid) => { workingWorkers++; const worker = new Worker(__filename); queue.shift(); worker.once("message", (uuid) => { // This means the worker is finished workingWorkers--; if (queue.length > 0) { acceptJob(queue[0]); // Get the next job UUID in queue and remove it from the original queue delete jobs[uuid]; } }); worker.on("error", err => { console.error("worker error:", err); socket.send(Buffer.concat([Buffer.from([0x2]), Buffer.from(uuid), Buffer.from(err.toString())]), jobs[uuid].port, jobs[uuid].addr); workingWorkers--; if (queue.length > 0) { acceptJob(queue[0]); delete jobs[uuid]; } }); worker.on("exit", (code) => { workingWorkers--; if (queue.length > 0) { acceptJob(queue[0]); delete jobs[uuid]; } if (code !== 0) console.error(`Worker stopped with exit code ${code}`); }); worker.postMessage({ uuid: uuid, msg: jobs[uuid].msg, addr: jobs[uuid].addr, port: jobs[uuid].port, threadNum: workingWorkers }); }; const server = dgram.createSocket("udp4"); //Create a UDP server for listening to requests, we dont need tcp server.on("message", (msg, rinfo) => { const opcode = msg.readUint8(0); const req = msg.toString().slice(1,msg.length); // 0x0 == Cancel job // 0x1 == Queue job // 0x2 == Get CPU usage if (opcode == 0x0) { queue.shift(); delete jobs[req]; } else if (opcode == 0x1) { const job = { addr: rinfo.address, port: rinfo.port, msg: req }; const uuid = uuidv4(); jobs[uuid] = job; queue.push(uuid); if (workingWorkers < MAX_WORKERS) { acceptJob(uuid); } const newBuffer = Buffer.concat([Buffer.from([0x0]), Buffer.from(uuid)]); socket.send(newBuffer, rinfo.port, rinfo.address); } else if (opcode == 0x2) { socket.send(Buffer.concat([Buffer.from([0x3]), Buffer.from(cpuLoad.toString())]), rinfo.port, rinfo.address); } else { log("Could not parse message"); } }); server.on("listening", () => { const address = server.address(); log(`server listening ${address.address}:${address.port}`); }); server.bind(8080); // ATTENTION: Always going to be bound to 0.0.0.0 !!! } else { parentPort.once("message", async (job) => { log(`${job.uuid} worker got: ${job.msg}`, job.threadNum); try { const object = JSON.parse(job.msg); let type; if (object.path) { type = object.type; if (!object.type) { type = await magick.getType(object.path); } if (!type) { throw new TypeError("Unknown image type"); } object.type = type.split("/")[1]; if (object.type !== "gif" && object.onlyGIF) throw new TypeError(`Expected a GIF, got ${object.type}`); object.delay = object.delay ? object.delay : 0; } if (object.type === "gif" && !object.delay) { const delay = (await execPromise(`ffprobe -v 0 -of csv=p=0 -select_streams v:0 -show_entries stream=r_frame_rate ${object.path}`)).stdout.replace("\n", ""); object.delay = (100 / delay.split("/")[0]) * delay.split("/")[1]; } const data = await magick.run(object, true); log(`${job.uuid} is done`, job.threadNum); const server = net.createServer(function(socket) { socket.write(Buffer.concat([Buffer.from(type ? type : "image/png"), Buffer.from("\n"), data]), (err) => { if (err) console.error(err); socket.end(() => { process.exit(); }); }); }); server.listen(job.port, job.addr); // handle address in use errors server.on("error", (e) => { if (e.code === "EADDRINUSE") { console.log("Address in use, retrying..."); setTimeout(() => { server.close(); server.listen(job.port, job.addr); }, 500); } }); socket.send(Buffer.concat([Buffer.from([0x1]), Buffer.from(job.uuid), Buffer.from(job.port.toString())]), job.port, job.addr); parentPort.postMessage(job.uuid); //Inform main thread about this worker freeing up } catch (e) { socket.send(Buffer.concat([Buffer.from([0x2]), Buffer.from(job.uuid), Buffer.from(e.toString())]), job.port, job.address); parentPort.postMessage(job.uuid); } }); }