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This was a question raised by one of the software engineers in my organisation. I'm interested in the broadest definition.

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    Just to reiterate, sockets are not limited to network IO. They're available in all sorts of situations for streaming data between various applications. – Oli Sep 30 '08 at 10:14

35 Answers 35

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These are basic networking concepts so I will explain them in an easy way:

  • A socket is like a telephone (i.e. end to end device for communication)
  • IP is like your telephone number (i.e. address of your socket)
  • Port is like the person you want to talk to (i.e. the service you want to order from that address)

So the socket is (address + port) that means the person you want to talk to (port) can be reachable from many telephone numbers (IPs).

This is a precise, simple yet an enough explanation to understand. Hope it clears you doubts

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A port is an entity that is used by networking protocols to attain access to connected hosts. Ports could be application-specific or related to a certain communication medium. Different protocols use different ports to access the hosts, like HTTP uses port 80 or FTP uses port 23. You can assign user-defined port numbers in your application, but they should be above 1023.

Ports open up the connection to the required host while sockets are an endpoint in an inter-network or an inter-process communication. Sockets are assigned by APIs(Application Programming Interface) by the system.

A more subtle difference can be made saying that, when a system is rebooted ports will be present while the sockets will be destroyed.

  • No they won't. Ports will only be present when a process opens one for TCP listening or UDP send/receive. – user207421 Jan 29 '17 at 1:24
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As simply as possible, there's no physical difference between a socket and a port, the way there is between, e.g., PATA and SATA. They're just bits of software reading and writing a NIC.

A port is essentially a public socket, some of which are well-known/well-accepted, the usual example being 80, dedicated to HTTP. Anyone who wants to exchange traffic using a certain protocol, HTTP in this instance, canonically goes to port 80. Of course, 80 is not physically dedicated to HTTP (it's not physically anything, it's just a number, a logical value), and could be used on some particular machine for some other protocol ad libitum, as long as those attempting to connect know which protocol (which could be quite private) to use.

A socket is essentially a private port, established for particular purposes known to the connecting parties but not necessarily known to anyone else. The underlying transport layer is usually TCP or UDP, but it doesn't have to be. The essential characteristic is that both ends know what's going on, whatever that might be.

The key here is that when a connection request is received on some port, the reply handshake includes information about the socket created to service the particular requester. Subsequent communication takes place through that (private) socket connection, not the public port connection on which the service continues to listen for connection requests.

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    A port is not a 'public socket', and a socket is not a 'private port'. The reply handshake contains no such thing as 'information about the socket', and subsequent communication happens between the same local and remote IP address and port as the connection request. See RFC 793. Answer is complete nonsense. – user207421 Jun 28 '16 at 18:28
  • @EJP: I'm sorry that you didn't like how I phrased my answer, or perhaps didn't understand it. But it's not "complete nonsense". When the server executes the accept() routine, the process forks and allocates a new socket for the private use of that connection. The original process continues to listen on the socket indexed by the port number on which the connection was requested. If you still think my answer is nonsense, I'd urge you to read Stevens's Unix Network Programming. – MMacD Jun 30 '16 at 11:12
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    None of this irrelevant waffle addresses what I actually wrote. The words I quoted from your post are unsupported by RFC 793, and the only adequate response to that is to provide a supporting citation from that document. Stevens is not a normative reference, although there is nothing there either that supports your statement. – user207421 Jul 2 '16 at 1:03
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A connection socket (fd) is presented for local address + local port + peer address + peer port. Process recv/send data via socket abstract. A listening socket (fd) is presented for local address + local listening port. Process can accept new connection via socket.

  • Please don't think that adding arbitrary boldface everywhere is a substitute for expressing yourself clearly and correctly. – user207421 Aug 31 '15 at 4:17
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A socket allows to the communication between two applications in a single machine or two machine. actually it is like door. if the door opens there can be a connection between the process or application that are inside the door and outside the door.

There are 4 types of sockets:

  • stream sockets
  • datagram sockets
  • raw sockets
  • sequential packet sockets.

Sockets are mostly used in client-server applications. The port identifies different end points on a network address. It contains a numerical value. As overall a socket is a combination of a port and a network address.

  • A port is a numerical value. Not much understanding conveyed here. – user207421 Aug 31 '15 at 4:24

protected by Community Apr 18 '16 at 3:20

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