This property is only present if the family autoselection algorithm is enabled in `socket.connect(options)` and it is an array of the addresses that have been attempted. Each address is a string in the form of `$IP:$PORT`. If the connection was successful, then the last address is the one that the socket is currently connected to.

This property shows the number of characters buffered for writing. The buffer may contain strings whose length after encoding is not yet known. So this number is only an approximation of the number of bytes in the buffer. `net.Socket` has the property that `socket.write()` always works. This is to help users get up and running quickly. The computer cannot always keep up with the amount of data that is written to a socket. The network connection simply might be too slow. Node.js will internally queue up the data written to a socket and send it out over the wire when it is possible. The consequence of this internal buffering is that memory may grow. Users who experience large or growing `bufferSize` should attempt to "throttle" the data flows in their program with `socket.pause()` and `socket.resume()`.

The amount of received bytes.

The amount of bytes sent.

If `true`, `socket.connect(options[, connectListener])` was called and has not yet finished. It will stay `true` until the socket becomes connected, then it is set to `false` and the `'connect'` event is emitted. Note that the `socket.connect(options[, connectListener])` callback is a listener for the `'connect'` event.

See `writable.destroyed` for further details.

The string representation of the local IP address the remote client is connecting on. For example, in a server listening on `'0.0.0.0'`, if a client connects on `'192.168.1.1'`, the value of `socket.localAddress` would be`'192.168.1.1'`.

The string representation of the local IP family. `'IPv4'` or `'IPv6'`.

The numeric representation of the local port. For example, `80` or `21`.

This is `true` if the socket is not connected yet, either because `.connect()`has not yet been called or because it is still in the process of connecting (see `socket.connecting`).

This property represents the state of the connection as a string. * If the stream is connecting `socket.readyState` is `opening`. * If the stream is readable and writable, it is `open`. * If the stream is readable and not writable, it is `readOnly`. * If the stream is not readable and writable, it is `writeOnly`.

The string representation of the remote IP address. For example,`'74.125.127.100'` or `'2001:4860:a005::68'`. Value may be `undefined` if the socket is destroyed (for example, if the client disconnected).

The string representation of the remote IP family. `'IPv4'` or `'IPv6'`. Value may be `undefined` if the socket is destroyed (for example, if the client disconnected).

The numeric representation of the remote port. For example, `80` or `21`. Value may be `undefined` if the socket is destroyed (for example, if the client disconnected).

The socket timeout in milliseconds as set by `socket.setTimeout()`. It is `undefined` if a timeout has not been set.

events.EventEmitter 1. close 2. connect 3. connectionAttempt 4. connectionAttemptFailed 5. connectionAttemptTimeout 6. data 7. drain 8. end 9. error 10. lookup 11. ready 12. timeout

Returns the bound `address`, the address `family` name and `port` of the socket as reported by the operating system:`{ port: 12346, family: 'IPv4', address: '127.0.0.1' }`

Initiate a connection on a given socket. Possible signatures: * `socket.connect(options[, connectListener])` * `socket.connect(path[, connectListener])` for `IPC` connections. * `socket.connect(port[, host][, connectListener])` for TCP connections. * Returns: `net.Socket` The socket itself. This function is asynchronous. When the connection is established, the `'connect'` event will be emitted. If there is a problem connecting, instead of a `'connect'` event, an `'error'` event will be emitted with the error passed to the `'error'` listener. The last parameter `connectListener`, if supplied, will be added as a listener for the `'connect'` event **once**. This function should only be used for reconnecting a socket after`'close'` has been emitted or otherwise it may lead to undefined behavior.

Destroys the socket after all data is written. If the `finish` event was already emitted the socket is destroyed immediately. If the socket is still writable it implicitly calls `socket.end()`.

Half-closes the socket. i.e., it sends a FIN packet. It is possible the server will still send some data. See `writable.end()` for further details.

Pauses the reading of data. That is, `'data'` events will not be emitted. Useful to throttle back an upload.

Opposite of `unref()`, calling `ref()` on a previously `unref`ed socket will _not_ let the program exit if it's the only socket left (the default behavior). If the socket is `ref`ed calling `ref` again will have no effect.

Close the TCP connection by sending an RST packet and destroy the stream. If this TCP socket is in connecting status, it will send an RST packet and destroy this TCP socket once it is connected. Otherwise, it will call `socket.destroy` with an `ERR_SOCKET_CLOSED` Error. If this is not a TCP socket (for example, a pipe), calling this method will immediately throw an `ERR_INVALID_HANDLE_TYPE` Error.

Resumes reading after a call to `socket.pause()`.

Set the encoding for the socket as a `Readable Stream`. See `readable.setEncoding()` for more information.

Enable/disable keep-alive functionality, and optionally set the initial delay before the first keepalive probe is sent on an idle socket. Set `initialDelay` (in milliseconds) to set the delay between the last data packet received and the first keepalive probe. Setting `0` for`initialDelay` will leave the value unchanged from the default (or previous) setting. Enabling the keep-alive functionality will set the following socket options: * `SO_KEEPALIVE=1` * `TCP_KEEPIDLE=initialDelay` * `TCP_KEEPCNT=10` * `TCP_KEEPINTVL=1`

Enable/disable the use of Nagle's algorithm. When a TCP connection is created, it will have Nagle's algorithm enabled. Nagle's algorithm delays data before it is sent via the network. It attempts to optimize throughput at the expense of latency. Passing `true` for `noDelay` or not passing an argument will disable Nagle's algorithm for the socket. Passing `false` for `noDelay` will enable Nagle's algorithm.

Sets the socket to timeout after `timeout` milliseconds of inactivity on the socket. By default `net.Socket` do not have a timeout. When an idle timeout is triggered the socket will receive a `'timeout'` event but the connection will not be severed. The user must manually call `socket.end()` or `socket.destroy()` to end the connection. ```js socket.setTimeout(3000); socket.on('timeout', () => { console.log('socket timeout'); socket.end(); }); ``` If `timeout` is 0, then the existing idle timeout is disabled. The optional `callback` parameter will be added as a one-time listener for the `'timeout'` event.

Calling `unref()` on a socket will allow the program to exit if this is the only active socket in the event system. If the socket is already `unref`ed calling`unref()` again will have no effect.

Sends data on the socket. The second parameter specifies the encoding in the case of a string. It defaults to UTF8 encoding. Returns `true` if the entire data was flushed successfully to the kernel buffer. Returns `false` if all or part of the data was queued in user memory.`'drain'` will be emitted when the buffer is again free. The optional `callback` parameter will be executed when the data is finally written out, which may not be immediately. See `Writable` stream `write()` method for more information.