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Listening for Connections

Now let us consider what the server process must do to accept connections on a socket. First it must use the listen function to enable connection requests on the socket, and then accept each incoming connection with a call to accept (see section Accepting Connections). Once connection requests are enabled on a server socket, the select function reports when the socket has a connection ready to be accepted (see section Waiting for Input or Output).

The listen function is not allowed for sockets using connectionless communication styles.

You can write a network server that does not even start running until a connection to it is requested. See section inetd Servers.

In the Internet namespace, there are no special protection mechanisms for controlling access to connect to a port; any process on any machine can make a connection to your server. If you want to restrict access to your server, make it examine the addresses associated with connection requests or implement some other handshaking or identification protocol.

In the File namespace, the ordinary file protection bits control who has access to connect to the socket.

Function: int listen (int socket, unsigned int n)
The listen function enables the socket socket to accept connections, thus making it a server socket.

The argument n specifies the length of the queue for pending connections. When the queue fills, new clients attempting to connect fail with ECONNREFUSED until the server calls accept to accept a connection from the queue.

The listen function returns 0 on success and -1 on failure. The following errno error conditions are defined for this function:

EBADF
The argument socket is not a valid file descriptor.
ENOTSOCK
The argument socket is not a socket.
EOPNOTSUPP
The socket socket does not support this operation.


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