csrc/node-v0.10.24/lib/cluster.js - third_party - Git at Google

 // 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 || {};

   // By default, V8 writes the profile data of all processes to a single
   // v8.log.
   //
   // Running that log file through a tick processor produces bogus numbers
   // because many events won't match up with the recorded memory mappings
   // and you end up with graphs where 80+% of ticks is unaccounted for.
   //
   // Fixing the tick processor to deal with multi-process output is not very
   // useful because the processes may be running wildly disparate workloads.
   //
   // That's why we fix up the command line arguments to include
   // a "--logfile=v8-%p.log" argument (where %p is expanded to the PID)
   // unless it already contains a --logfile argument.
   var execArgv = options.execArgv || process.execArgv;
   if (execArgv.some(function(s) { return /^--prof/.test(s); }) &&
       !execArgv.some(function(s) { return /^--logfile=/.test(s); }))
   {
     execArgv = execArgv.slice();
     execArgv.push('--logfile=v8-%p.log');
   }

   // Set settings object
   settings = cluster.settings = {
     exec: options.exec || process.argv[1],
     execArgv: 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.length > INTERNAL_PREFIX.length &&
       message.cmd.slice(0, INTERNAL_PREFIX.length) === INTERNAL_PREFIX;
 }

 // 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 if (message.addressType === 'udp4' ||
                message.addressType === 'udp6') {
       var dgram = require('dgram');
       handler = dgram._createSocketHandle.apply(net, args);
       serverHandlers[key] = handler;
     } else {
       handler = net._createServerHandle.apply(net, args);
       serverHandlers[key] = handler;
     }

     // 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.kill = Worker.prototype.destroy = function(signal) {
   if (!signal)
     signal = 'SIGTERM';

   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(signal);
       });
       self.process.disconnect();
     } else {
       self.process.kill(signal);
     }

   } 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 net.js and dgram.js when attempting to bind a
 // TCP server or UDP socket.
 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);
   });

 };
	// 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 \|\| {};

	// By default, V8 writes the profile data of all processes to a single
	// v8.log.
	//
	// Running that log file through a tick processor produces bogus numbers
	// because many events won't match up with the recorded memory mappings
	// and you end up with graphs where 80+% of ticks is unaccounted for.
	//
	// Fixing the tick processor to deal with multi-process output is not very
	// useful because the processes may be running wildly disparate workloads.
	//
	// That's why we fix up the command line arguments to include
	// a "--logfile=v8-%p.log" argument (where %p is expanded to the PID)
	// unless it already contains a --logfile argument.
	var execArgv = options.execArgv \|\| process.execArgv;
	if (execArgv.some(function(s) { return /^--prof/.test(s); }) &&
	!execArgv.some(function(s) { return /^--logfile=/.test(s); }))
	{
	execArgv = execArgv.slice();
	execArgv.push('--logfile=v8-%p.log');
	}

	// Set settings object
	settings = cluster.settings = {
	exec: options.exec \|\| process.argv[1],
	execArgv: 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.length > INTERNAL_PREFIX.length &&
	message.cmd.slice(0, INTERNAL_PREFIX.length) === INTERNAL_PREFIX;
	}

	// 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 if (message.addressType === 'udp4' \|\|
	message.addressType === 'udp6') {
	var dgram = require('dgram');
	handler = dgram._createSocketHandle.apply(net, args);
	serverHandlers[key] = handler;
	} else {
	handler = net._createServerHandle.apply(net, args);
	serverHandlers[key] = handler;
	}

	// 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.kill = Worker.prototype.destroy = function(signal) {
	if (!signal)
	signal = 'SIGTERM';

	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(signal);
	});
	self.process.disconnect();
	} else {
	self.process.kill(signal);
	}

	} 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 net.js and dgram.js when attempting to bind a
	// TCP server or UDP socket.
	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);
	});

	};