# Child Process Stability: 3 - Stable Node provides a tri-directional `popen(3)` facility through the `child_process` module. It is possible to stream data through a child's `stdin`, `stdout`, and `stderr` in a fully non-blocking way. To create a child process use `require('child_process').spawn()` or `require('child_process').fork()`. The semantics of each are slightly different, and explained below. ## Class: ChildProcess `ChildProcess` is an [EventEmitter][]. Child processes always have three streams associated with them. `child.stdin`, `child.stdout`, and `child.stderr`. These may be shared with the stdio streams of the parent process, or they may be separate stream objects which can be piped to and from. The ChildProcess class is not intended to be used directly. Use the `spawn()` or `fork()` methods to create a Child Process instance. ### Event: 'exit' * `code` {Number} the exit code, if it exited normally. * `signal` {String} the signal passed to kill the child process, if it was killed by the parent. This event is emitted after the child process ends. If the process terminated normally, `code` is the final exit code of the process, otherwise `null`. If the process terminated due to receipt of a signal, `signal` is the string name of the signal, otherwise `null`. Note that the child process stdio streams might still be open. See `waitpid(2)`. ### Event: 'close' This event is emitted when the stdio streams of a child process have all terminated. This is distinct from 'exit', since multiple processes might share the same stdio streams. ### Event: 'disconnect' This event is emitted after using the `.disconnect()` method in the parent or in the child. After disconnecting it is no longer possible to send messages. An alternative way to check if you can send messages is to see if the `child.connected` property is `true`. ### Event: 'message' * `message` {Object} a parsed JSON object or primitive value * `sendHandle` {Handle object} a Socket or Server object Messages send by `.send(message, [sendHandle])` are obtained using the `message` event. ### child.stdin * {Stream object} A `Writable Stream` that represents the child process's `stdin`. Closing this stream via `end()` often causes the child process to terminate. If the child stdio streams are shared with the parent, then this will not be set. ### child.stdout * {Stream object} A `Readable Stream` that represents the child process's `stdout`. If the child stdio streams are shared with the parent, then this will not be set. ### child.stderr * {Stream object} A `Readable Stream` that represents the child process's `stderr`. If the child stdio streams are shared with the parent, then this will not be set. ### child.pid * {Integer} The PID of the child process. Example: var spawn = require('child_process').spawn, grep = spawn('grep', ['ssh']); console.log('Spawned child pid: ' + grep.pid); grep.stdin.end(); ### child.kill([signal]) * `signal` {String} Send a signal to the child process. If no argument is given, the process will be sent `'SIGTERM'`. See `signal(7)` for a list of available signals. var spawn = require('child_process').spawn, grep = spawn('grep', ['ssh']); grep.on('exit', function (code, signal) { console.log('child process terminated due to receipt of signal '+signal); }); // send SIGHUP to process grep.kill('SIGHUP'); Note that while the function is called `kill`, the signal delivered to the child process may not actually kill it. `kill` really just sends a signal to a process. See `kill(2)` ### child.send(message, [sendHandle]) * `message` {Object} * `sendHandle` {Handle object} When using `child_process.fork()` you can write to the child using `child.send(message, [sendHandle])` and messages are received by a `'message'` event on the child. For example: var cp = require('child_process'); var n = cp.fork(__dirname + '/sub.js'); n.on('message', function(m) { console.log('PARENT got message:', m); }); n.send({ hello: 'world' }); And then the child script, `'sub.js'` might look like this: process.on('message', function(m) { console.log('CHILD got message:', m); }); process.send({ foo: 'bar' }); In the child the `process` object will have a `send()` method, and `process` will emit objects each time it receives a message on its channel. There is a special case when sending a `{cmd: 'NODE_foo'}` message. All messages containing a `NODE_` prefix in its `cmd` property will not be emitted in the `message` event, since they are internal messages used by node core. Messages containing the prefix are emitted in the `internalMessage` event, you should by all means avoid using this feature, it is subject to change without notice. The `sendHandle` option to `child.send()` is for sending a TCP server or socket object to another process. The child will receive the object as its second argument to the `message` event. **send server object** Here is an example of sending a server: var child = require('child_process').fork('child.js'); // Open up the server object and send the handle. var server = require('net').createServer(); server.on('connection', function (socket) { socket.end('handled by parent'); }); server.listen(1337, function() { child.send('server', server); }); And the child would the recive the server object as: process.on('message', function(m, server) { if (m === 'server') { server.on('connection', function (socket) { socket.end('handled by child'); }); } }); Note that the server is now shared between the parent and child, this means that some connections will be handled by the parent and some by the child. **send socket object** Here is an example of sending a socket. It will spawn two childs and handle connections with the remote address `74.125.127.100` as VIP by sending the socket to a "special" child process. Other sockets will go to a "normal" process. var normal = require('child_process').fork('child.js', ['normal']); var special = require('child_process').fork('child.js', ['special']); // Open up the server and send sockets to child var server = require('net').createServer(); server.on('connection', function (socket) { // if this is a VIP if (socket.remoteAddress === '74.125.127.100') { special.send('socket', socket); return; } // just the usual dudes normal.send('socket', socket); }); server.listen(1337); The `child.js` could look like this: process.on('message', function(m, socket) { if (m === 'socket') { socket.end('You where handled as a ' + process.argv[2] + ' person'); } }); Note that once a single socket has been sent to a child the parent can no longer keep track of when the socket is destroyed. To indicate this condition the `.connections` property becomes `null`. It is also recomended not to use `.maxConnections` in this condition. ### child.disconnect() To close the IPC connection between parent and child use the `child.disconnect()` method. This allows the child to exit gracefully since there is no IPC channel keeping it alive. When calling this method the `disconnect` event will be emitted in both parent and child, and the `connected` flag will be set to `false`. Please note that you can also call `process.disconnect()` in the child process. ## child_process.spawn(command, [args], [options]) * `command` {String} The command to run * `args` {Array} List of string arguments * `options` {Object} * `cwd` {String} Current working directory of the child process * `stdio` {Array|String} Child's stdio configuration. (See below) * `customFds` {Array} **Deprecated** File descriptors for the child to use for stdio. (See below) * `env` {Object} Environment key-value pairs * `detached` {Boolean} The child will be a process group leader. (See below) * return: {ChildProcess object} Launches a new process with the given `command`, with command line arguments in `args`. If omitted, `args` defaults to an empty Array. The third argument is used to specify additional options, which defaults to: { cwd: undefined, env: process.env } `cwd` allows you to specify the working directory from which the process is spawned. Use `env` to specify environment variables that will be visible to the new process. Example of running `ls -lh /usr`, capturing `stdout`, `stderr`, and the exit code: var util = require('util'), spawn = require('child_process').spawn, ls = spawn('ls', ['-lh', '/usr']); ls.stdout.on('data', function (data) { console.log('stdout: ' + data); }); ls.stderr.on('data', function (data) { console.log('stderr: ' + data); }); ls.on('exit', function (code) { console.log('child process exited with code ' + code); }); Example: A very elaborate way to run 'ps ax | grep ssh' var util = require('util'), spawn = require('child_process').spawn, ps = spawn('ps', ['ax']), grep = spawn('grep', ['ssh']); ps.stdout.on('data', function (data) { grep.stdin.write(data); }); ps.stderr.on('data', function (data) { console.log('ps stderr: ' + data); }); ps.on('exit', function (code) { if (code !== 0) { console.log('ps process exited with code ' + code); } grep.stdin.end(); }); grep.stdout.on('data', function (data) { console.log('' + data); }); grep.stderr.on('data', function (data) { console.log('grep stderr: ' + data); }); grep.on('exit', function (code) { if (code !== 0) { console.log('grep process exited with code ' + code); } }); Example of checking for failed exec: var spawn = require('child_process').spawn, child = spawn('bad_command'); child.stderr.setEncoding('utf8'); child.stderr.on('data', function (data) { if (/^execvp\(\)/.test(data)) { console.log('Failed to start child process.'); } }); Note that if spawn receives an empty options object, it will result in spawning the process with an empty environment rather than using `process.env`. This due to backwards compatibility issues with a deprecated API. The 'stdio' option to `child_process.spawn()` is an array where each index corresponds to a fd in the child. The value is one of the following: 1. `'pipe'` - Create a pipe between the child process and the parent process. The parent end of the pipe is exposed to the parent as a property on the `child_process` object as `ChildProcess.stdio[fd]`. Pipes created for fds 0 - 2 are also available as ChildProcess.stdin, ChildProcess.stdout and ChildProcess.stderr, respectively. 2. `'ipc'` - Create an IPC channel for passing messages/file descriptors between parent and child. A ChildProcess may have at most *one* IPC stdio file descriptor. Setting this option enables the ChildProcess.send() method. If the child writes JSON messages to this file descriptor, then this will trigger ChildProcess.on('message'). If the child is a Node.js program, then the presence of an IPC channel will enable process.send() and process.on('message'). 3. `'ignore'` - Do not set this file descriptor in the child. Note that Node will always open fd 0 - 2 for the processes it spawns. When any of these is ignored node will open `/dev/null` and attach it to the child's fd. 4. `Stream` object - Share a readable or writable stream that refers to a tty, file, socket, or a pipe with the child process. The stream's underlying file descriptor is duplicated in the child process to the fd that corresponds to the index in the `stdio` array. 5. Positive integer - The integer value is interpreted as a file descriptor that is is currently open in the parent process. It is shared with the child process, similar to how `Stream` objects can be shared. 6. `null`, `undefined` - Use default value. For stdio fds 0, 1 and 2 (in other words, stdin, stdout, and stderr) a pipe is created. For fd 3 and up, the default is `'ignore'`. As a shorthand, the `stdio` argument may also be one of the following strings, rather than an array: * `ignore` - `['ignore', 'ignore', 'ignore']` * `pipe` - `['pipe', 'pipe', 'pipe']` * `inherit` - `[process.stdin, process.stdout, process.stderr]` or `[0,1,2]` Example: var spawn = require('child_process').spawn; // Child will use parent's stdios spawn('prg', [], { stdio: 'inherit' }); // Spawn child sharing only stderr spawn('prg', [], { stdio: ['pipe', 'pipe', process.stderr] }); // Open an extra fd=4, to interact with programs present a // startd-style interface. spawn('prg', [], { stdio: ['pipe', null, null, null, 'pipe'] }); If the `detached` option is set, the child process will be made the leader of a new process group. This makes it possible for the child to continue running after the parent exits. By default, the parent will wait for the detached child to exit. To prevent the parent from waiting for a given `child`, use the `child.unref()` method, and the parent's event loop will not include the child in its reference count. Example of detaching a long-running process and redirecting its output to a file: var fs = require('fs'), spawn = require('child_process').spawn, out = fs.openSync('./out.log', 'a'), err = fs.openSync('./out.log', 'a'); var child = spawn('prg', [], { detached: true, stdio: [ 'ignore', out, err ] }); child.unref(); When using the `detached` option to start a long-running process, the process will not stay running in the background unless it is provided with a `stdio` configuration that is not connected to the parent. If the parent's `stdio` is inherited, the child will remain attached to the controlling terminal. There is a deprecated option called `customFds` which allows one to specify specific file descriptors for the stdio of the child process. This API was not portable to all platforms and therefore removed. With `customFds` it was possible to hook up the new process' `[stdin, stdout, stderr]` to existing streams; `-1` meant that a new stream should be created. Use at your own risk. There are several internal options. In particular `stdinStream`, `stdoutStream`, `stderrStream`. They are for INTERNAL USE ONLY. As with all undocumented APIs in Node, they should not be used. See also: `child_process.exec()` and `child_process.fork()` ## child_process.exec(command, [options], callback) * `command` {String} The command to run, with space-separated arguments * `options` {Object} * `cwd` {String} Current working directory of the child process * `stdio` {Array|String} Child's stdio configuration. (See above) * `customFds` {Array} **Deprecated** File descriptors for the child to use for stdio. (See above) * `env` {Object} Environment key-value pairs * `encoding` {String} (Default: 'utf8') * `timeout` {Number} (Default: 0) * `maxBuffer` {Number} (Default: 200*1024) * `killSignal` {String} (Default: 'SIGTERM') * `callback` {Function} called with the output when process terminates * `error` {Error} * `stdout` {Buffer} * `stderr` {Buffer} * Return: ChildProcess object Runs a command in a shell and buffers the output. var exec = require('child_process').exec, child; child = exec('cat *.js bad_file | wc -l', function (error, stdout, stderr) { console.log('stdout: ' + stdout); console.log('stderr: ' + stderr); if (error !== null) { console.log('exec error: ' + error); } }); The callback gets the arguments `(error, stdout, stderr)`. On success, `error` will be `null`. On error, `error` will be an instance of `Error` and `err.code` will be the exit code of the child process, and `err.signal` will be set to the signal that terminated the process. There is a second optional argument to specify several options. The default options are { encoding: 'utf8', timeout: 0, maxBuffer: 200*1024, killSignal: 'SIGTERM', cwd: null, env: null } If `timeout` is greater than 0, then it will kill the child process if it runs longer than `timeout` milliseconds. The child process is killed with `killSignal` (default: `'SIGTERM'`). `maxBuffer` specifies the largest amount of data allowed on stdout or stderr - if this value is exceeded then the child process is killed. ## child_process.execFile(file, args, options, callback) * `file` {String} The filename of the program to run * `args` {Array} List of string arguments * `options` {Object} * `cwd` {String} Current working directory of the child process * `stdio` {Array|String} Child's stdio configuration. (See above) * `customFds` {Array} **Deprecated** File descriptors for the child to use for stdio. (See above) * `env` {Object} Environment key-value pairs * `encoding` {String} (Default: 'utf8') * `timeout` {Number} (Default: 0) * `maxBuffer` {Number} (Default: 200\*1024) * `killSignal` {String} (Default: 'SIGTERM') * `callback` {Function} called with the output when process terminates * `error` {Error} * `stdout` {Buffer} * `stderr` {Buffer} * Return: ChildProcess object This is similar to `child_process.exec()` except it does not execute a subshell but rather the specified file directly. This makes it slightly leaner than `child_process.exec`. It has the same options. ## child\_process.fork(modulePath, [args], [options]) * `modulePath` {String} The module to run in the child * `args` {Array} List of string arguments * `options` {Object} * `cwd` {String} Current working directory of the child process * `env` {Object} Environment key-value pairs * `encoding` {String} (Default: 'utf8') * Return: ChildProcess object This is a special case of the `spawn()` functionality for spawning Node processes. In addition to having all the methods in a normal ChildProcess instance, the returned object has a communication channel built-in. See `child.send(message, [sendHandle])` for details. By default the spawned Node process will have the stdout, stderr associated with the parent's. To change this behavior set the `silent` property in the `options` object to `true`. The child process does not automatically exit once it's done, you need to call `process.exit()` explicitly. This limitation may be lifted in the future. These child Nodes are still whole new instances of V8. Assume at least 30ms startup and 10mb memory for each new Node. That is, you cannot create many thousands of them. [EventEmitter]: events.html#events_class_events_eventemitter