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nodejs/lib/cluster.js
Aaditya Bhatia c668185add cluster: make 'listening' handler see actual port
Make the 'listening' event handler in the master process see the actual port
that the worker bound to when the worker specified port 0, i.e. a random port.
2012-10-09 16:23:24 +02:00

559 lines
15 KiB
JavaScript

// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
var assert = require('assert');
var fork = require('child_process').fork;
var net = require('net');
var EventEmitter = require('events').EventEmitter;
var util = require('util');
function isObject(o) {
return (typeof o === 'object' && o !== null);
}
var debug;
if (process.env.NODE_DEBUG && /cluster/.test(process.env.NODE_DEBUG)) {
debug = function(x) {
var prefix = process.pid + ',' +
(process.env.NODE_UNIQUE_ID ? 'Worker' : 'Master');
console.error(prefix, x);
};
} else {
debug = function() { };
}
// cluster object:
function Cluster() {
EventEmitter.call(this);
}
util.inherits(Cluster, EventEmitter);
var cluster = module.exports = new Cluster();
// Used in the master:
var masterStarted = false;
var ids = 0;
var serverHandlers = {};
// Used in the worker:
var serverListeners = {};
var queryIds = 0;
var queryCallbacks = {};
// Define isWorker and isMaster
cluster.isWorker = 'NODE_UNIQUE_ID' in process.env;
cluster.isMaster = ! cluster.isWorker;
// The worker object is only used in a worker
cluster.worker = cluster.isWorker ? {} : null;
// The workers array is only used in the master
cluster.workers = cluster.isMaster ? {} : null;
// Settings object
var settings = cluster.settings = {};
// Simple function to call a function on each worker
function eachWorker(cb) {
// Go through all workers
for (var id in cluster.workers) {
if (cluster.workers.hasOwnProperty(id)) {
cb(cluster.workers[id]);
}
}
}
// Extremely simple progress tracker
function ProgressTracker(missing, callback) {
this.missing = missing;
this.callback = callback;
}
ProgressTracker.prototype.done = function() {
this.missing -= 1;
this.check();
};
ProgressTracker.prototype.check = function() {
if (this.missing === 0) this.callback();
};
cluster.setupMaster = function(options) {
// This can only be called from the master.
assert(cluster.isMaster);
// Don't allow this function to run more than once
if (masterStarted) return;
masterStarted = true;
// Get filename and arguments
options = options || {};
// Set settings object
settings = cluster.settings = {
exec: options.exec || process.argv[1],
execArgv: options.execArgv || process.execArgv,
args: options.args || process.argv.slice(2),
silent: options.silent || false
};
// emit setup event
cluster.emit('setup');
};
// Check if a message is internal only
var INTERNAL_PREFIX = 'NODE_CLUSTER_';
function isInternalMessage(message) {
return (isObject(message) &&
typeof message.cmd === 'string' &&
message.cmd.indexOf(INTERNAL_PREFIX) === 0);
}
// Modify message object to be internal
function internalMessage(inMessage) {
var outMessage = util._extend({}, inMessage);
// Add internal prefix to cmd
outMessage.cmd = INTERNAL_PREFIX + (outMessage.cmd || '');
return outMessage;
}
// Handle callback messages
function handleResponse(outMessage, outHandle, inMessage, inHandle, worker) {
// The message there will be sent
var message = internalMessage(outMessage);
// callback id - will be undefined if not set
message._queryEcho = inMessage._requestEcho;
// Call callback if a query echo is received
if (inMessage._queryEcho) {
queryCallbacks[inMessage._queryEcho](inMessage.content, inHandle);
delete queryCallbacks[inMessage._queryEcho];
}
// Send if outWrap contains something useful
if (!(outMessage === undefined && message._queryEcho === undefined)) {
sendInternalMessage(worker, message, outHandle);
}
}
// Handle messages from both master and workers
var messageHandler = {};
function handleMessage(worker, inMessage, inHandle) {
// Remove internal prefix
var message = util._extend({}, inMessage);
message.cmd = inMessage.cmd.substr(INTERNAL_PREFIX.length);
var respondUsed = false;
function respond(outMessage, outHandler) {
respondUsed = true;
handleResponse(outMessage, outHandler, inMessage, inHandle, worker);
}
// Run handler if it exists
if (messageHandler[message.cmd]) {
messageHandler[message.cmd](message, worker, respond);
}
// Send respond if it hasn't been called yet
if (respondUsed === false) {
respond();
}
}
// Messages to the master will be handled using these methods
if (cluster.isMaster) {
// Handle online messages from workers
messageHandler.online = function(message, worker) {
worker.state = 'online';
debug('Worker ' + worker.process.pid + ' online');
worker.emit('online');
cluster.emit('online', worker);
};
// Handle queryServer messages from workers
messageHandler.queryServer = function(message, worker, send) {
// This sequence of information is unique to the connection
// but not to the worker
var args = [message.address,
message.port,
message.addressType,
message.fd];
var key = args.join(':');
var handler;
if (serverHandlers.hasOwnProperty(key)) {
handler = serverHandlers[key];
} else {
handler = serverHandlers[key] = net._createServerHandle.apply(net, args);
}
// echo callback with the fd handler associated with it
send({}, handler);
};
// Handle listening messages from workers
messageHandler.listening = function(message, worker) {
worker.state = 'listening';
// Emit listening, now that we know the worker is listening
worker.emit('listening', {
address: message.address,
port: message.port,
addressType: message.addressType,
fd: message.fd
});
cluster.emit('listening', worker, {
address: message.address,
port: message.port,
addressType: message.addressType,
fd: message.fd
});
};
// Handle suicide messages from workers
messageHandler.suicide = function(message, worker) {
worker.suicide = true;
};
}
// Messages to a worker will be handled using these methods
else if (cluster.isWorker) {
// Handle worker.disconnect from master
messageHandler.disconnect = function(message, worker) {
worker.disconnect();
};
}
function toDecInt(value) {
value = parseInt(value, 10);
return isNaN(value) ? null : value;
}
// Create a worker object, that works both for master and worker
function Worker(customEnv) {
if (!(this instanceof Worker)) return new Worker();
EventEmitter.call(this);
var self = this;
var env = process.env;
// Assign a unique id, default null
this.id = cluster.isMaster ? ++ids : toDecInt(env.NODE_UNIQUE_ID);
// XXX: Legacy. Remove in 0.9
this.workerID = this.uniqueID = this.id;
// Assign state
this.state = 'none';
// Create or get process
if (cluster.isMaster) {
// Create env object
// first: copy and add id property
var envCopy = util._extend({}, env);
envCopy['NODE_UNIQUE_ID'] = this.id;
// second: extend envCopy with the env argument
if (isObject(customEnv)) {
envCopy = util._extend(envCopy, customEnv);
}
// fork worker
this.process = fork(settings.exec, settings.args, {
'env': envCopy,
'silent': settings.silent,
'execArgv': settings.execArgv
});
} else {
this.process = process;
}
if (cluster.isMaster) {
// Save worker in the cluster.workers array
cluster.workers[this.id] = this;
// Emit a fork event, on next tick
// There is no worker.fork event since this has no real purpose
process.nextTick(function() {
cluster.emit('fork', self);
});
}
// handle internalMessage, exit and disconnect event
this.process.on('internalMessage', handleMessage.bind(null, this));
this.process.once('exit', function(exitCode, signalCode) {
prepareExit(self, 'dead');
self.emit('exit', exitCode, signalCode);
cluster.emit('exit', self, exitCode, signalCode);
});
this.process.once('disconnect', function() {
prepareExit(self, 'disconnected');
self.emit('disconnect');
cluster.emit('disconnect', self);
});
// relay message and error
this.process.on('message', this.emit.bind(this, 'message'));
this.process.on('error', this.emit.bind(this, 'error'));
}
util.inherits(Worker, EventEmitter);
cluster.Worker = Worker;
function prepareExit(worker, state) {
// set state to disconnect
worker.state = state;
// Make suicide a boolean
worker.suicide = !!worker.suicide;
// Remove from workers in the master
if (cluster.isMaster) {
delete cluster.workers[worker.id];
}
}
// Send internal message
function sendInternalMessage(worker, message/*, handler, callback*/) {
// Exist callback
var callback = arguments[arguments.length - 1];
if (typeof callback !== 'function') {
callback = undefined;
}
// exist handler
var handler = arguments[2] !== callback ? arguments[2] : undefined;
if (!isInternalMessage(message)) {
message = internalMessage(message);
}
// Store callback for later
if (callback) {
message._requestEcho = worker.id + ':' + (++queryIds);
queryCallbacks[message._requestEcho] = callback;
}
worker.send(message, handler);
}
// Send message to worker or master
Worker.prototype.send = function() {
// You could also just use process.send in a worker
this.process.send.apply(this.process, arguments);
};
// Kill the worker without restarting
Worker.prototype.destroy = function() {
var self = this;
this.suicide = true;
if (cluster.isMaster) {
// Disconnect IPC channel
// this way the worker won't need to propagate suicide state to master
if (self.process.connected) {
self.process.once('disconnect', function() {
self.process.kill();
});
self.process.disconnect();
} else {
self.process.kill();
}
} else {
// Channel is open
if (this.process.connected) {
// Inform master to suicide and then kill
sendInternalMessage(this, {cmd: 'suicide'}, function() {
process.exit(0);
});
// When channel is closed, terminate the process
this.process.once('disconnect', function() {
process.exit(0);
});
} else {
process.exit(0);
}
}
};
// The .disconnect function will close all servers
// and then disconnect the IPC channel.
if (cluster.isMaster) {
// Used in master
Worker.prototype.disconnect = function() {
this.suicide = true;
sendInternalMessage(this, {cmd: 'disconnect'});
};
} else {
// Used in workers
Worker.prototype.disconnect = function() {
var self = this;
this.suicide = true;
// keep track of open servers
var servers = Object.keys(serverListeners).length;
var progress = new ProgressTracker(servers, function() {
// There are no more servers open so we will close the IPC channel.
// Closing the IPC channel will emit a disconnect event
// in both master and worker on the process object.
// This event will be handled by prepareExit.
self.process.disconnect();
});
// depending on where this function was called from (master or worker)
// The suicide state has already been set,
// but it doesn't really matter if we set it again.
sendInternalMessage(this, {cmd: 'suicide'}, function() {
// in case there are no servers
progress.check();
// closing all servers gracefully
var server;
for (var key in serverListeners) {
server = serverListeners[key];
// in case the server is closed we won't close it again
if (server._handle === null) {
progress.done();
continue;
}
server.on('close', progress.done.bind(progress));
server.close();
}
});
};
}
// Fork a new worker
cluster.fork = function(env) {
// This can only be called from the master.
assert(cluster.isMaster);
// Make sure that the master has been initialized
cluster.setupMaster();
return (new cluster.Worker(env));
};
// execute .disconnect on all workers and close handlers when done
cluster.disconnect = function(callback) {
// This can only be called from the master.
assert(cluster.isMaster);
// Close all TCP handlers when all workers are disconnected
var workers = Object.keys(cluster.workers).length;
var progress = new ProgressTracker(workers, function() {
for (var key in serverHandlers) {
serverHandlers[key].close();
delete serverHandlers[key];
}
// call callback when done
if (callback) callback();
});
// begin disconnecting all workers
eachWorker(function(worker) {
worker.once('disconnect', progress.done.bind(progress));
worker.disconnect();
});
// in case there weren't any workers
progress.check();
};
// Internal function. Called from src/node.js when worker process starts.
cluster._setupWorker = function() {
// Get worker class
var worker = cluster.worker = new Worker();
// we will terminate the worker
// when the worker is disconnected from the parent accidentally
process.once('disconnect', function() {
if (worker.suicide !== true) {
process.exit(0);
}
});
// Tell master that the worker is online
worker.state = 'online';
sendInternalMessage(worker, { cmd: 'online' });
};
// Internal function. Called by lib/net.js when attempting to bind a server.
cluster._getServer = function(tcpSelf, address, port, addressType, fd, cb) {
// This can only be called from a worker.
assert(cluster.isWorker);
// Store tcp instance for later use
var key = [address, port, addressType, fd].join(':');
serverListeners[key] = tcpSelf;
// Send a listening message to the master
tcpSelf.once('listening', function() {
cluster.worker.state = 'listening';
sendInternalMessage(cluster.worker, {
cmd: 'listening',
address: address,
port: tcpSelf.address().port || port,
addressType: addressType,
fd: fd
});
});
// Request the fd handler from the master process
var message = {
cmd: 'queryServer',
address: address,
port: port,
addressType: addressType,
fd: fd
};
// The callback will be stored until the master has responded
sendInternalMessage(cluster.worker, message, function(msg, handle) {
cb(handle);
});
};