'use strict'; const EventEmitter = require('events').EventEmitter; const assert = require('assert'); const dgram = require('dgram'); const fork = require('child_process').fork; const net = require('net'); const util = require('util'); const SCHED_NONE = 1; const SCHED_RR = 2; const uv = process.binding('uv'); const cluster = new EventEmitter(); module.exports = cluster; cluster.Worker = Worker; cluster.isWorker = ('NODE_UNIQUE_ID' in process.env); cluster.isMaster = (cluster.isWorker === false); function Worker(options) { if (!(this instanceof Worker)) return new Worker(options); EventEmitter.call(this); if (options === null || typeof options !== 'object') options = {}; this.suicide = undefined; this.state = options.state || 'none'; this.id = options.id | 0; if (options.process) { this.process = options.process; this.process.on('error', this.emit.bind(this, 'error')); this.process.on('message', this.emit.bind(this, 'message')); } } util.inherits(Worker, EventEmitter); Worker.prototype.kill = function() { this.destroy.apply(this, arguments); }; Worker.prototype.send = function() { this.process.send.apply(this.process, arguments); }; Worker.prototype.isDead = function isDead() { return this.process.exitCode != null || this.process.signalCode != null; }; Worker.prototype.isConnected = function isConnected() { return this.process.connected; }; // Master/worker specific methods are defined in the *Init() functions. function SharedHandle(key, address, port, addressType, backlog, fd) { this.key = key; this.workers = []; this.handle = null; this.errno = 0; // FIXME(bnoordhuis) Polymorphic return type for lack of a better solution. var rval; if (addressType === 'udp4' || addressType === 'udp6') rval = dgram._createSocketHandle(address, port, addressType, fd); else rval = net._createServerHandle(address, port, addressType, fd); if (typeof rval === 'number') this.errno = rval; else this.handle = rval; } SharedHandle.prototype.add = function(worker, send) { assert(this.workers.indexOf(worker) === -1); this.workers.push(worker); send(this.errno, null, this.handle); }; SharedHandle.prototype.remove = function(worker) { var index = this.workers.indexOf(worker); if (index === -1) return false; // The worker wasn't sharing this handle. this.workers.splice(index, 1); if (this.workers.length !== 0) return false; this.handle.close(); this.handle = null; return true; }; // Start a round-robin server. Master accepts connections and distributes // them over the workers. function RoundRobinHandle(key, address, port, addressType, backlog, fd) { this.key = key; this.all = {}; this.free = []; this.handles = []; this.handle = null; this.server = net.createServer(assert.fail); if (fd >= 0) this.server.listen({ fd: fd }); else if (port >= 0) this.server.listen(port, address); else this.server.listen(address); // UNIX socket path. var self = this; this.server.once('listening', function() { self.handle = self.server._handle; self.handle.onconnection = self.distribute.bind(self); self.server._handle = null; self.server = null; }); } RoundRobinHandle.prototype.add = function(worker, send) { assert(worker.id in this.all === false); this.all[worker.id] = worker; var self = this; function done() { if (self.handle.getsockname) { var out = {}; self.handle.getsockname(out); // TODO(bnoordhuis) Check err. send(null, { sockname: out }, null); } else { send(null, null, null); // UNIX socket. } self.handoff(worker); // In case there are connections pending. } if (this.server === null) return done(); // Still busy binding. this.server.once('listening', done); this.server.once('error', function(err) { // Hack: translate 'EADDRINUSE' error string back to numeric error code. // It works but ideally we'd have some backchannel between the net and // cluster modules for stuff like this. var errno = uv['UV_' + err.errno]; send(errno, null); }); }; RoundRobinHandle.prototype.remove = function(worker) { if (worker.id in this.all === false) return false; delete this.all[worker.id]; var index = this.free.indexOf(worker); if (index !== -1) this.free.splice(index, 1); if (Object.getOwnPropertyNames(this.all).length !== 0) return false; for (var handle; handle = this.handles.shift(); handle.close()); this.handle.close(); this.handle = null; return true; }; RoundRobinHandle.prototype.distribute = function(err, handle) { this.handles.push(handle); var worker = this.free.shift(); if (worker) this.handoff(worker); }; RoundRobinHandle.prototype.handoff = function(worker) { if (worker.id in this.all === false) { return; // Worker is closing (or has closed) the server. } var handle = this.handles.shift(); if (handle === undefined) { this.free.push(worker); // Add to ready queue again. return; } var message = { act: 'newconn', key: this.key }; var self = this; sendHelper(worker.process, message, handle, function(reply) { if (reply.accepted) handle.close(); else self.distribute(0, handle); // Worker is shutting down. Send to another. self.handoff(worker); }); }; if (cluster.isMaster) masterInit(); else workerInit(); function masterInit() { cluster.workers = {}; var intercom = new EventEmitter(); cluster.settings = {}; // XXX(bnoordhuis) Fold cluster.schedulingPolicy into cluster.settings? var schedulingPolicy = { 'none': SCHED_NONE, 'rr': SCHED_RR }[process.env.NODE_CLUSTER_SCHED_POLICY]; if (schedulingPolicy === undefined) { // FIXME Round-robin doesn't perform well on Windows right now due to the // way IOCP is wired up. Bert is going to fix that, eventually. schedulingPolicy = (process.platform === 'win32') ? SCHED_NONE : SCHED_RR; } cluster.schedulingPolicy = schedulingPolicy; cluster.SCHED_NONE = SCHED_NONE; // Leave it to the operating system. cluster.SCHED_RR = SCHED_RR; // Master distributes connections. // Keyed on address:port:etc. When a worker dies, we walk over the handles // and remove() the worker from each one. remove() may do a linear scan // itself so we might end up with an O(n*m) operation. Ergo, FIXME. var handles = {}; var initialized = false; cluster.setupMaster = function(options) { var settings = { args: process.argv.slice(2), exec: process.argv[1], execArgv: process.execArgv, silent: false }; settings = util._extend(settings, cluster.settings); settings = util._extend(settings, options || {}); // Tell V8 to write profile data for each process to a separate file. // Without --logfile=v8-%p.log, everything ends up in a single, unusable // file. (Unusable because what V8 logs are memory addresses and each // process has its own memory mappings.) if (settings.execArgv.some(function(s) { return /^--prof/.test(s); }) && !settings.execArgv.some(function(s) { return /^--logfile=/.test(s); })) { settings.execArgv = settings.execArgv.concat(['--logfile=v8-%p.log']); } cluster.settings = settings; if (initialized === true) return process.nextTick(setupSettingsNT, settings); initialized = true; schedulingPolicy = cluster.schedulingPolicy; // Freeze policy. assert(schedulingPolicy === SCHED_NONE || schedulingPolicy === SCHED_RR, 'Bad cluster.schedulingPolicy: ' + schedulingPolicy); var hasDebugArg = process.execArgv.some(function(argv) { return /^(--debug|--debug-brk)(=\d+)?$/.test(argv); }); process.nextTick(setupSettingsNT, settings); // Send debug signal only if not started in debug mode, this helps a lot // on windows, because RegisterDebugHandler is not called when node starts // with --debug.* arg. if (hasDebugArg) return; process.on('internalMessage', function(message) { if (message.cmd !== 'NODE_DEBUG_ENABLED') return; var key; for (key in cluster.workers) { var worker = cluster.workers[key]; if (worker.state === 'online' || worker.state === 'listening') { process._debugProcess(worker.process.pid); } else { worker.once('online', function() { process._debugProcess(this.process.pid); }); } } }); }; function setupSettingsNT(settings) { cluster.emit('setup', settings); } function createWorkerProcess(id, env) { var workerEnv = util._extend({}, process.env); var execArgv = cluster.settings.execArgv.slice(); var debugPort = process.debugPort + id; var hasDebugArg = false; workerEnv = util._extend(workerEnv, env); workerEnv.NODE_UNIQUE_ID = '' + id; for (var i = 0; i < execArgv.length; i++) { var match = execArgv[i].match(/^(--debug|--debug-(brk|port))(=\d+)?$/); if (match) { execArgv[i] = match[1] + '=' + debugPort; hasDebugArg = true; } } if (!hasDebugArg) execArgv = ['--debug-port=' + debugPort].concat(execArgv); return fork(cluster.settings.exec, cluster.settings.args, { env: workerEnv, silent: cluster.settings.silent, execArgv: execArgv, gid: cluster.settings.gid, uid: cluster.settings.uid }); } var ids = 0; cluster.fork = function(env) { cluster.setupMaster(); const id = ++ids; const workerProcess = createWorkerProcess(id, env); const worker = new Worker({ id: id, process: workerProcess }); worker.on('message', this.emit.bind(this, 'message')); function removeWorker(worker) { assert(worker); delete cluster.workers[worker.id]; if (Object.keys(cluster.workers).length === 0) { assert(Object.keys(handles).length === 0, 'Resource leak detected.'); intercom.emit('disconnect'); } } function removeHandlesForWorker(worker) { assert(worker); for (var key in handles) { var handle = handles[key]; if (handle.remove(worker)) delete handles[key]; } } worker.process.once('exit', function(exitCode, signalCode) { /* * Remove the worker from the workers list only * if it has disconnected, otherwise we might * still want to access it. */ if (!worker.isConnected()) removeWorker(worker); worker.suicide = !!worker.suicide; worker.state = 'dead'; worker.emit('exit', exitCode, signalCode); cluster.emit('exit', worker, exitCode, signalCode); }); worker.process.once('disconnect', function() { /* * Now is a good time to remove the handles * associated with this worker because it is * not connected to the master anymore. */ removeHandlesForWorker(worker); /* * Remove the worker from the workers list only * if its process has exited. Otherwise, we might * still want to access it. */ if (worker.isDead()) removeWorker(worker); worker.suicide = !!worker.suicide; worker.state = 'disconnected'; worker.emit('disconnect'); cluster.emit('disconnect', worker); }); worker.process.on('internalMessage', internal(worker, onmessage)); process.nextTick(emitForkNT, worker); cluster.workers[worker.id] = worker; return worker; }; function emitForkNT(worker) { cluster.emit('fork', worker); } cluster.disconnect = function(cb) { var workers = Object.keys(cluster.workers); if (workers.length === 0) { process.nextTick(intercom.emit.bind(intercom, 'disconnect')); } else { for (var key in workers) { key = workers[key]; if (cluster.workers[key].isConnected()) cluster.workers[key].disconnect(); } } if (cb) intercom.once('disconnect', cb); }; Worker.prototype.disconnect = function() { this.suicide = true; send(this, { act: 'disconnect' }); }; Worker.prototype.destroy = function(signo) { signo = signo || 'SIGTERM'; var proc = this.process; if (this.isConnected()) { this.once('disconnect', proc.kill.bind(proc, signo)); this.disconnect(); return; } proc.kill(signo); }; function onmessage(message, handle) { var worker = this; if (message.act === 'online') online(worker); else if (message.act === 'queryServer') queryServer(worker, message); else if (message.act === 'listening') listening(worker, message); else if (message.act === 'suicide') worker.suicide = true; else if (message.act === 'close') close(worker, message); } function online(worker) { worker.state = 'online'; worker.emit('online'); cluster.emit('online', worker); } function queryServer(worker, message) { var args = [message.address, message.port, message.addressType, message.fd]; var key = args.join(':'); var handle = handles[key]; if (handle === undefined) { var constructor = RoundRobinHandle; // UDP is exempt from round-robin connection balancing for what should // be obvious reasons: it's connectionless. There is nothing to send to // the workers except raw datagrams and that's pointless. if (schedulingPolicy !== SCHED_RR || message.addressType === 'udp4' || message.addressType === 'udp6') { constructor = SharedHandle; } handles[key] = handle = new constructor(key, message.address, message.port, message.addressType, message.backlog, message.fd); } if (!handle.data) handle.data = message.data; // Set custom server data handle.add(worker, function(errno, reply, handle) { reply = util._extend({ errno: errno, key: key, ack: message.seq, data: handles[key].data }, reply); if (errno) delete handles[key]; // Gives other workers a chance to retry. send(worker, reply, handle); }); } function listening(worker, message) { var info = { addressType: message.addressType, address: message.address, port: message.port, fd: message.fd }; worker.state = 'listening'; worker.emit('listening', info); cluster.emit('listening', worker, info); } // Round-robin only. Server in worker is closing, remove from list. function close(worker, message) { var key = message.key; var handle = handles[key]; if (handle.remove(worker)) delete handles[key]; } function send(worker, message, handle, cb) { sendHelper(worker.process, message, handle, cb); } } function workerInit() { var handles = {}; // Called from src/node.js cluster._setupWorker = function() { var worker = new Worker({ id: +process.env.NODE_UNIQUE_ID | 0, process: process, state: 'online' }); cluster.worker = worker; process.once('disconnect', function() { worker.emit('disconnect'); if (!worker.suicide) { // Unexpected disconnect, master exited, or some such nastiness, so // worker exits immediately. process.exit(0); } }); process.on('internalMessage', internal(worker, onmessage)); send({ act: 'online' }); function onmessage(message, handle) { if (message.act === 'newconn') onconnection(message, handle); else if (message.act === 'disconnect') worker.disconnect(); } }; // obj is a net#Server or a dgram#Socket object. cluster._getServer = function(obj, address, port, addressType, fd, cb) { var message = { addressType: addressType, address: address, port: port, act: 'queryServer', fd: fd, data: null }; // Set custom data on handle (i.e. tls tickets key) if (obj._getServerData) message.data = obj._getServerData(); send(message, function(reply, handle) { if (obj._setServerData) obj._setServerData(reply.data); if (handle) shared(reply, handle, cb); // Shared listen socket. else rr(reply, cb); // Round-robin. }); obj.once('listening', function() { cluster.worker.state = 'listening'; var address = obj.address(); message.act = 'listening'; message.port = address && address.port || port; send(message); }); }; // Shared listen socket. function shared(message, handle, cb) { var key = message.key; // Monkey-patch the close() method so we can keep track of when it's // closed. Avoids resource leaks when the handle is short-lived. var close = handle.close; handle.close = function() { delete handles[key]; return close.apply(this, arguments); }; assert(handles[key] === undefined); handles[key] = handle; cb(message.errno, handle); } // Round-robin. Master distributes handles across workers. function rr(message, cb) { if (message.errno) return cb(message.errno, null); var key = message.key; function listen(backlog) { // TODO(bnoordhuis) Send a message to the master that tells it to // update the backlog size. The actual backlog should probably be // the largest requested size by any worker. return 0; } function close() { // lib/net.js treats server._handle.close() as effectively synchronous. // That means there is a time window between the call to close() and // the ack by the master process in which we can still receive handles. // onconnection() below handles that by sending those handles back to // the master. if (key === undefined) return; send({ act: 'close', key: key }); delete handles[key]; key = undefined; } function getsockname(out) { if (key) util._extend(out, message.sockname); return 0; } // XXX(bnoordhuis) Probably no point in implementing ref() and unref() // because the control channel is going to keep the worker alive anyway. function ref() { } function unref() { } // Faux handle. Mimics a TCPWrap with just enough fidelity to get away // with it. Fools net.Server into thinking that it's backed by a real // handle. var handle = { close: close, listen: listen, ref: ref, unref: unref, }; if (message.sockname) { handle.getsockname = getsockname; // TCP handles only. } assert(handles[key] === undefined); handles[key] = handle; cb(0, handle); } // Round-robin connection. function onconnection(message, handle) { var key = message.key; var server = handles[key]; var accepted = server !== undefined; send({ ack: message.seq, accepted: accepted }); if (accepted) server.onconnection(0, handle); } Worker.prototype.disconnect = function() { this.suicide = true; var waitingHandles = 0; function checkRemainingHandles() { waitingHandles--; if (waitingHandles === 0) { process.disconnect(); } } for (var key in handles) { var handle = handles[key]; delete handles[key]; waitingHandles++; handle.owner.close(checkRemainingHandles); } if (waitingHandles === 0) { process.disconnect(); } }; Worker.prototype.destroy = function() { this.suicide = true; if (!this.isConnected()) process.exit(0); var exit = process.exit.bind(null, 0); send({ act: 'suicide' }, exit); process.once('disconnect', exit); process.disconnect(); }; function send(message, cb) { sendHelper(process, message, null, cb); } } var seq = 0; var callbacks = {}; function sendHelper(proc, message, handle, cb) { // Mark message as internal. See INTERNAL_PREFIX in lib/child_process.js message = util._extend({ cmd: 'NODE_CLUSTER' }, message); if (cb) callbacks[seq] = cb; message.seq = seq; seq += 1; proc.send(message, handle); } // Returns an internalMessage listener that hands off normal messages // to the callback but intercepts and redirects ACK messages. function internal(worker, cb) { return function(message, handle) { if (message.cmd !== 'NODE_CLUSTER') return; var fn = cb; if (message.ack !== undefined) { fn = callbacks[message.ack]; delete callbacks[message.ack]; } fn.apply(worker, arguments); }; }