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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
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It's the wrong question, certainly. It's a bit like asking what is the difference between a wheel and a trolley. The thing is, if he knew the right question to ask, he wouldn't need to ask it. You could retitle this "Ports, sockets and connections, how does it all fit together?" but the fact that this question is favourited by 26 people shows that the question is resonant as posed. Therefore, leave it be. –  Peter Wone Jun 21 '12 at 22:58
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25 Answers

Summary

A TCP socket is an endpoint instance defined by an IP address and a port in the context of either a particular TCP connection or the listening state.

A port is a virtualisation identifier defining a service endpoint (as distinct from a service instance endpoint aka session identifier).

A TCP socket is not a connection, it is the endpoint of a specific connection.

There can be concurrent connections to a service endpoint, because a connection is identified by both its local and remote endpoints, allowing traffic to be routed to a specific service instance.

There can only be one listener socket for a given address/port combination.

Exposition

This was an interesting question that forced me to re-examine a number of things I thought I knew inside out. You'd think a name like "socket" would be self-explanatory: it was obviously chosen to evoke imagery of the endpoint into which you plug a network cable, there being strong functional parallels. Nevertheless, in network parlance the word "socket" carries so much baggage that a careful re-examination is necessary.

In the broadest possible sense, a port is a point of ingress or egress. The French word porte literally means door. Ports, then, are transportation endpoints whether you ship data or big steel containers.

For the purpose of this discussion I will limit consideration to the context of TCP-IP networks. The OSI model is all very well but has never been completely implemented, much less widely deployed in high-traffic high-stress conditions.

The combination of an IP address and a port is strictly known as an endpoint and is sometimes called a socket. This usage originates with RFC793, the original TCP specification.

A TCP connection is defined by two endpoints aka sockets.

An endpoint (socket) is defined by the combination of a network address and a port identifier. Note that address/port does not completely identify a socket (more on this later).

The purpose of ports is to differentiate multiple endpoints on a given network address. You could say that a port is a virtualised endpoint. This virtualisation makes multiple concurrent connections on a single network interface possible.

It is the socket pair (the 4-tuple consisting of the client IP address, client port number, server IP address, and server port number) that specifies the two endpoints that uniquely identifies each TCP connection in an internet. (TCP-IP Illustrated Volume 1, W. Richard Stevens)

In most C-derived lanaguages, TCP connections are established and manipulated using methods on an instance of a Socket class. Although it is common to operate on a higher level of abstraction, typically an instance of a NetworkStream class, this generally exposes a reference to a socket object. To the coder this socket object appears to represent the connection because the connection is created and manipulated using methods of the socket object.

In C#, to establish a TCP connection (to an existing listener) first you create a TcpClient. If you don't specify an endpoint to the TcpClient constructor it uses defaults - one way or another the local endpoint is defined. Then you invoke the Connect method on the instance you've created. This method requires a parameter describing the other endpoint.

All this is a bit confusing and leads you to believe that a socket is a connection, which is bollocks. I was labouring under this misapprehension until Richard Dorman asked the question.

Having done a lot of reading and thinking, I'm now convinced that it would make a lot more sense to have a class TcpConnection with a constructor that takes two arguments, LocalEndpoint and RemoteEndpoint. You could probably support a single argument RemoteEndpoint when defaults are acceptable for the local endpoint. This is ambiguous on multihomed computers, but the ambiguity can be resolved using the routing table by selecting the interface with the shortest route to the remote endpoint.

Clarity would be enhanced in other respects, too. A socket is not identified by the combination of IP address and port:

[...]TCP demultiplexes incoming segments using all four values that comprise the local and foreign addresses: destination IP address, destination port number, source IP address, and source port number. TCP cannot determine which process gets an incoming segment by looking at the destination port only. Also, the only one of the [various] endpoints at [a given port number] that will receive incoming connection requests is the one in the listen state. (p255, TCP-IP Illustrated Volume 1, W. Richard Stevens)

As you can see, it is not just possible but quite likely for a network service to have numerous sockets with the same address/port, but only one listener socket on a particular address/port combination. Use of a socket object as a proxy for a TCP connection is thus very misleading.

References

  1. TCP-IP Illustrated Volume 1 The Protocols, W. Richard Stevens, 1994 Addison Wesley

  2. RFC793, Information Sciences Institute, University of Southern California for DARPA

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+1 for an excellent answer –  jscharf Jan 19 '10 at 4:54
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really very well explained. –  RATHI Jul 13 '12 at 10:29
    
We need more citations and references in our answers. Kudos to you, @Peter Wone –  Shurane Oct 17 '12 at 3:38
    
Perhaps, a real world analogy to keywords socket and port would help those who up-voted the question. Still a great explanation! –  rohitverma Feb 8 '13 at 18:24
    
@rohitverma - a real world analogy to ports has been present since very early drafts. Personally I think "socket" is an explanation in one word, but I have acted on your suggested and pointed this out in the article text. –  Peter Wone Jul 21 '13 at 23:57
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A socket represents a single connection between two network applications. These two applications nominally run on different computers, but sockets can also be used for interprocess communication on a single computer. Applications can create multiple sockets for communicating with each other. Sockets are bidirectional, meaning that either side of the connection is capable of both sending and receiving data. Therefore a socket can be created theoretically at any level of the OSI model from 2 upwards. Programmers often use sockets in network programming, albeit indirectly. Programming libraries like Winsock hide many of the low-level details of socket programming. Sockets have been in widespread use since the early 1980s. A port represents an endpoint or "channel" for network communications. Port numbers allow different applications on the same computer to utilize network resources without interfering with each other. Port numbers most commonly appear in network programming, particularly socket programming. Sometimes, though, port numbers are made visible to the casual user. For example, some Web sites a person visits on the Internet use a URL like the following:

http://www.mairie-metz.fr:8080/ In this example, the number 8080 refers to the port number used by the Web browser to connect to the Web server. Normally, a Web site uses port number 80 and this number need not be included with the URL (although it can be).

In IP networking, port numbers can theoretically range from 0 to 65535. Most popular network applications, though, use port numbers at the low end of the range (such as 80 for HTTP).

Note: The term port also refers to several other aspects of network technology. A port can refer to a physical connection point for peripheral devices such as serial, parallel, and USB ports. The term port also refers to certain Ethernet connection points, such as those on a hub, switch, or router.

ref http://compnetworking.about.com/od/basicnetworkingconcepts/l/bldef_port.htm

ref http://compnetworking.about.com/od/itinformationtechnology/l/bldef_socket.htm

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Layer 2 on the OSI model is a connection between nodes, it has no mechanism of connecting processes. I don't believe you can consider a socket existing at OSI l2. –  Antonio Haley Sep 30 '08 at 12:45
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A circuit is a connection - a socket is an endpoint. A connection consists of 2 sockets. –  Mark Brackett Sep 30 '08 at 14:33
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A socket consists of three things:

  1. An IP address
  2. A transport protocol
  3. A port number

A port is a number between 1 and 65535 inclusive that signifies a logical gate in a device. Every connection between a client and server requires a unique socket.

For example:

  • 1030 is a port.
  • (10.1.1.2 , TCP , port 1030) is a socket.
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No. A socket consists of five things: {protocol, local address, local port, remote address, remote port}. –  EJP Jul 22 '13 at 1:30
    
Thanks! now it's more clear –  Sobiaholic Sep 29 '13 at 18:55
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@EJP No, again. See the selected answer for more information. –  kehrk Oct 10 '13 at 20:58
    
Very clean cut answer. Thanks –  curiousBoy Jan 9 at 21:25
    
@RT_ - "An IP address... Atransport protocol..." if you called out an IP address, you already specified the transport protocol. Anyways, I've always seen them formally described as the 4-tuple {local address, local port, remote address, remote port} (similar to EJP's answer). –  jww Jan 17 at 11:36
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Firsty, I think we should start with a little understanding of what constitutes getting a packet from A to B.

A common definition for a network is the use of the OSI Model which separates a network out into a number of layers according to purpose. There are a few important ones, which we'll cover here:

  • The data link layer. This layer is responsible for getting packets of data from one network device to another and is just above the layer that actually does the transmitting. It talks about MAC addresses and knows how to find hosts based on their MAC (hardware) address, but nothing more.
  • The network layer is the layer that allows you to transport data across machines and over physical boundaries, such as physical devices. The network layer must essentially support an additional address based mechanism which relates somehow to the physical address; enter the Internet Protocol (IPv4). An IP address can get your packet from A to B over the internet, but knows nothing about how to traverse individual hops. This is handled by the layer above in accordance with routing information.
  • The transport layer. This layer is responsible for defining the way information gets from A to B and any restrictions, checks or errors on that behaviour. For example, TCP adds additional information to a packet such that it is possible to deduce if packets have been lost.

TCP contains, amongst other things, the concept of ports. These are effectively different data endpoints on the same IP address to which an Internet Socket (AF_INET) can bind.

As it happens, so too does UDP, and other transport layer protocols. They don't technically need to feature ports, but these ports do provide a way for multiple applications in the layers above to use the same computer to receive (and indeed make) outgoing connections.

Which brings us to the anatomy of a TCP or UDP connection. Each features a source port and address, and a target port and address. This is so that in any given session, the target application can respond, as well as receive, from the source.

So ports are essentially a specification-mandated way of allowing multiple concurrent connections sharing the same address.

Now, we need to take a look at how you communicate from an application point of view to the outside world. To do this, you need to kindly ask your operating system and since most OSes support the Berkeley Sockets way of doing things, we see we can create sockets involving ports from an application like this:

int fd = socket(AF_INET, SOCK_STREAM, 0); // tcp socket
int fd = socket(AF_INET, SOCK_DGRAM, 0); // udp socket
// later we bind...

Great! So in the sockaddr structures, we'll specify our port and bam! Job done! Well, almost, except:

int fd = socket(AF_UNIX, SOCK_STREAM, 0);

is also possible. Urgh, that's thrown a spanner in the works!

Ok, well actually it hasn't. All we need to do is come up with some appropriate definitions:

  • An internet socket is the combination of an IP address, a protocol and its associated port number on which a service may provide data. So tcp port 80, stackoverflow.com is an internet socket.
  • An unix socket is an IPC endpoint represented in the file system, e.g. /var/run/database.sock.
  • A socket API is a method of requesting an application be able to read and write data to a socket.

Voila! That tidies things up. So in our scheme then,

  • A port is a numeric identifier which, as part of a transport layer protocol, identifies the service number which should respond to the given request.

So really a port is a subset of the requirements for forming an internet socket. Unfortunately, it just so happens that the meaning of the word socket has been applied to several different ideas. So I heartily advise you name your next project socket, just to add to the confusion ;)

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This is why bullets don't leave and won't leave Powerpoint; they work! –  Anurag Kalia Mar 1 '13 at 18:47
    
Very nice introduction to tcp-ip and network communication. Beginners, read this first. –  Colin Mar 14 '13 at 18:43
    
Very good explanation. Thank you! –  Alpár Oct 25 '13 at 8:20
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There seems to be a lot of answers equating socket with the connection between 2 PC's..which I think is absolutely incorrect. A socket has always been the endpoint on 1 PC, that may or may not be connected - surely we've all used listener or UDP sockets* at some point. The important part is that it's addressable and active. Sending a message to 1.1.1.1:1234 is not likely to work, as there is no socket defined for that endpoint.

Sockets are protocol specific - so the implementation of uniqueness that both TCP/IP and UDP/IP uses* (ipaddress:port), is different than eg., IPX (Network, Node, and...ahem, socket - but a different socket than is meant by the general "socket" term. IPX socket numbers are equivalent to IP ports). But, they all offer a unique addressable endpoint.

Since IP has become the dominant protocol, a port (in networking terms) has become synonomous with either a UDP or TCP port number - which is a portion of the socket address.

  • UDP is connection-less - meaning no virtual circuit between the 2 endpoints is ever created. However, we still refer to UDP sockets as the endpoint. The API functions make it clear that both are just different type of sockets - SOCK_DGRAM is UDP (just sending a message) and SOCK_STREAM is TCP (creating a virtual circuit).

  • Technically, the IP header holds the IP Address, and the protocol on top of IP (UDP or TCP) holds the port number. This makes it possible to have other protocols (eg. ICMP that have no port numbers, but do have IP addressing information).

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A socket = IP Address + a port (numeric address)
Together they identify an end-point for a network connection on a machine. (Did I just flunk network 101?)

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I believe port has broader meaning than your definition. –  Richard Dorman Sep 30 '08 at 10:09
    
And sockets are not only subject to the TCP/IP stack. See UNIX domain sockets or inter process communication sockets in general. –  matthias krull May 1 '12 at 23:04
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They are terms from two different domains: 'port' is a concept from TCP/IP networking, 'socket' is an API (programming) thing. A 'socket' is made (in code) by taking a port and a hostname or network adapter and combining them into a data structure that you can use to send or receive data.

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After reading the excellent up-voted answers, I found that the following point needed emphasis for me, a newcomer to network programming:

TCP-IP connections are bi-directional pathways connecting one address:port combination with another address:port combination. Therefore, whenever you open a connection from your local machine to a port on a remote server (say www.google.com:80), you are also associating a new port number on your machine with the connection, to allow the server to send things back to you, (e.g. 127.0.0.1:65234). It can be helpful to use netstat to look at your machine's connections:

> netstat -nWp tcp (on OS X)
Active Internet connections
Proto Recv-Q Send-Q  Local Address          Foreign Address        (state)    
tcp4       0      0  192.168.0.6.49871      17.172.232.57.5223     ESTABLISHED
...
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A socket is a communication endpoint. A socket is not bound to TCP/IP, it can be any protocol. You create a socket by either defining a local address (in case of TCP/IP an address is an IP address and usually, in case it's a TCP or UDP socket, a port number, both can be ANY) and then binding the socket to it and just use it a server socket, or you can create a socket by defining a remote address and then connecting the socket to it (additionally you can bind it to a local address in advance, if you want to keep control of the local address and port as well) and use it as a client socket. Once you have a socket, consider it a communication pipe. You send data to it and the other side (to that you connected or that connected to you) receives the data you send there. Both ends of a socket can be on the same host or million of miles away. Once a socket is fully connected, you don't need to care anymore what kind of socket that is. If it is a TCP/IP socket, whether it is IPv4 or IPv6 or any other protocol, you just send traffic through the socket and everything else is handled by the system for you.

This has all nothing to do with ports. A port is a concept used by the TCP/IP protocol family to distinguish multiple communication tunnels between hosts on the Internet. E.g. if there were no ports, I could connect to server1.example.net to fetch a webpage or I could connect there to fetch mail, but never both at the same time. If I do both at the same time and server1.example.net sends me some data, how can I know if this data belongs to the webpage I just requested or is part of the fetch new mail request? I can't use IP addresses for that, in either case the packet would have the same source and dest address. However ports allow it to further distinguish communication pipes between two Internet hosts. That way I know that traffic for my webpage will come from port 80 and arrive here at port 4130 and traffic from my fetch mail call will come from port 143 and arrive locally 5322. If you program with sockets, the only time you ever get in contact with ports is when you bind or connect the socket, once it is bound and/or connected, you don't care for ports at all anymore.

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This is incorrect. A socket is not an endpoint. A socket is defined by two endpoints. Each endpoint is defined by a network address and a port. The purpose of ports is to differentiate multiple endpoints on the same network address, so that multiple concurrent sockets can be supported. –  Peter Wone Sep 30 '08 at 11:18
    
I notice that RFC793 (original TCP spec) does refer to the combination of a network address and a port as a socket, so I can see where you got this, but it's still incorrect inasmuchas a socket is necessarily defined by two endpoints. –  Peter Wone Sep 30 '08 at 11:28
    
On reflection the literature is contradictory and I apologise. Very strictly speaking communication does not occur until a TCP connection is established between two endpoints (aka sockets) each of which is identified by a network address and a port. I give up. –  Peter Wone Sep 30 '08 at 12:29
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Generally you will get a lot of theoretical but one of the easiest ways to differentiate these two concepts is as follows:

In order to get a service you need a service number. This service number is called a port. Simple as that.

For example, the HTTP as a service is running on port 80.

Now, many people can request the service and a connection from client- server has established. There will be a lot of connections. Each connection represent a client. In order to maintain each of the connection, the server creates socket per connection to maintain it's client.

Hope this helps.Thank you.

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Does each socket require it's own port? –  Daniel M Jul 2 at 14:45
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Relative TCP/IP terminology which is what I assume is implied by the question. In layman's terms:

A PORT is like the telephone number of a particular house in a particular zip code. The ZIP code of the town could be thought of as the IP address of the town and all the houses in that town.

A SOCKET on the other hand is more like an established phone call between telephones of a pair of houses talking to each other. Those calls can be established between houses in the same town or two houses in different towns. It's that temporary established pathway between the pair of phones talking to each other that is the SOCKET.

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Short brief answer.

A port can be described as an internal address within a host that identifies a program or process.

A socket can be described as a programming interface allowing a program talk to other programs or processes, on the internet, or locally.

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A socket is basically an endpoint for network communication, consisting of at least an IP-address and a port. In Java/C# a socket is a higher level implementation of one side of a two-way connection.

Also, a definition in the Java documentation.

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A socket is a data I/O mechanism. A port is a contractual concept of a communication protocol. A socket can exist without a port. A port can exist witout a specific socket (e.g. if several sockets are active on the same port, which may be allowed for some protocols).

A port is used to determine which socket the receiver should route the packet to, with many protocols, but it is not always required and the receiving socket selection can be done by other means - a port is entirely a tool used by the protocol handler in the network subsystem. e.g. if a protocol does not use a port, packets can go to all listening sockets or any socket.

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Port:

A port can refer to a physical connection point for peripheral devices such as serial, parallel, and USB ports. The term port also refers to certain Ethernet connection points, s uch as those on a hub, switch, or router.

Socket:

A socket represents a single connection between two network applications. These two applications nominally run on different computers, but sockets can also be used for interprocess communication on a single computer. Applications can create multiple sockets for communicating with each other. Sockets are bidirectional, meaning that either side of the connection is capable of both sending and receiving data.

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A socket is a structure in your software. It's more-or-less a file; it has operations like read and write. It isn't a physical thing; it's a way for your software to refer to physical things.

A port is a device-like thing. Each host has one or more networks (those are physical); a host has an address on each network. Each address can have thousands of ports.

One socket only may be using a port at an address. The socket allocates the port approximately like allocating a device for file system I/O. Once the port is allocated, no other socket can connect to that port. The port will be freed when the socket is closed.

Take a look at TCP/IP Terminology.

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This description of socket is pretty off base. A socket is about the connection between a pair of tuples where a tuple refers to an IP ADDR & Port pair. Additionally many sockets CAN connect to the same port. How do you think a web server takes multiple connections on port 80? This is a poor answer –  Tall Jeff Sep 30 '08 at 12:15
    
I agree. Downvoted. –  Alvaro Rodriguez Sep 30 '08 at 12:24
    
Sorry. Multiple sockets are not connected to port 80. One socket is connected and spawns additional sockets where the real transfer happens. See opengroup.org/onlinepubs/009695399/functions/listen.html. –  S.Lott Sep 30 '08 at 12:39
    
Actually, the description at opengroup.org/onlinepubs/009695399/functions/connect.html is better. The peer socket returned by a connection is NOT on port 80. –  S.Lott Sep 30 '08 at 12:41
    
This post is incorrect in several particulars and misleading in several respects. –  Peter Wone Oct 2 '08 at 2:12
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Socket is an abstraction provided by kernel to user applications for data I/O. A socket type is defined by the protocol its handling, an IPC communication etc. So if somebody creates a TCP socket he can do manipulations like reading data to socket and writing data to it by simple methods and the lower level protocol handling like TCP conversions and forwarding packets to lower level network protocols is done by the particular socket implementation in the kernel. The advantage is that user need not worry about handling protocol specific nitigrities and should just read and write data to socket like a normal buffer. Same is true in case of IPC, user just reads and writes data to socket and kernel handles all lower level details based on the type of socket created.

Port together with IP is like providing an address to the socket, though its not necessary, but it helps in network communications.

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from oracle javase documentation:

A socket is one endpoint of a two-way communication link between two programs running on the network. A socket is bound to a port number so that the TCP layer can identify the application that data is destined to be sent to.

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A port denotes a communication endpoint in the TCP and UDP transports for the IP network protocol. A socket is a software abstraction for a communication endpoint commonly used in implementations of these protocols (socket API). An alternative implementation is the XTI/TLI API.

See also:

Stevens, W. R. 1998, UNIX Network Programming: Networking APIs: Sockets and XTI; Volume 1, Prentice Hall.
Stevens, W. R., 1994, TCP/IP Illustrated, Volume 1: The Protocols, Addison-Wesley.

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In a broad sense, Socket - is just that, a socket, just like your electrical, cable or telephone socket. A point where "requisite stuff" (power, signal, information) can go out and come in from. It hides a lot of detailed stuff, which is not required for the use of the "requisite stuff". In software parlance, it provides a generic way of defining a mechanism of communication between two entities (those entities could be anything - two applications, two physically separate devices, User & Kernel space within an OS, etc)

A Port is an endpoint discriminator. It differentiates one endpoint from another. At networking level, it differentiates one application from another, so that the networking stack can pass on information to the appropriate application.

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A connection socket(fd) is presented for local addr + local port + peer addr + peer port. Process recv/send data via socket abstract. A listening socket(fd) is presented for local addr + local listening port. Process can accept new connection via socket.

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Quoted from this very explanatory tutorial:

When an ap­pli­ca­tion wants to connect to a port to start waiting for in­com­ing con­nec­tions, it first asks Winsock to create a socket handle. Winsock creates the socket and hands control of it to the ap­pli­ca­tion. From this point the ap­pli­ca­tion is said to 'own' the socket. Then, the ap­pli­ca­tion binds the socket on to a spec­i­fied port. The socket is then free to begin lis­ten­ing for in­com­ing con­nec­tions (back to the factory analogy, it's as if the em­ploy­ee tells the mail sorter that he wants his mail de­liv­ered to say, pi­geon-​hole no.​15 — in essence he binds himself to the pigeon hole.)

A port is not a socket (a common con­fu­sion), though there is a close re­la­tion­ship between the two. A socket is as­so­ci­at­ed with a port, though this is po­ten­tial­ly a many-​to-​one re­la­tion­ship. Each port can have a single passive socket binded to it, await­ing in­com­ing con­nec­tions, and mul­ti­ple active sockets, each cor­re­spond­ing to an open con­nec­tion on the port. It's as if the factory worker is waiting for new mes­sages to arrive (he rep­re­sents the passive socket), and when one message arrives from a new sender, he ini­ti­ates a cor­re­spon­dence (a con­nec­tion) with them by del­e­gat­ing someone else (an active socket) to ac­tu­al­ly read the packet and respond back to the sender if nec­es­sary. This permits the factory worker to be free to receive new packets.

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Winsuck. It doesn't need to be Winsock. –  user142019 Jan 16 '11 at 19:19
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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.

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Already theoretical answers have been given to this question. I would like to give a practical example to this question, which will clear your understanding about Socket and Port.

I found it here

This example will walk you thru the process of connecting to a website, such as Wiley. You would open your web browser (like Mozilla Firefox) and type www.wiley.com into the address bar. Your web browser uses a Domain Name System (DNS) server to look up the name www.wiley.com to identify its IP address is. For this example, the address is 192.0.2.100.

Firefox makes a connection to the 192.0.2.100 address and to the port where the application layer web server is operating. Firefox knows what port to expect because it is a well-known port . The well-known port for a web server is TCP port 80.

The destination socket that Firefox attempts to connect is written as socket:port, or in this example, 192.0.2.100:80. This is the server side of the connect, but the server needs to know where to send the web page you want to view in Mozilla Firefox, so you have a socket for the client side of the connection also.

The client side connection is made up of your IP address, such as 192.168.1.25, and a randomly chosen dynamic port number. The socket associated with Firefox looks like 192.168.1.25:49175. Because web servers operate on TCP port 80, both of these sockets are TCP sockets, whereas if you were connecting to a server operating on a UDP port, both the server and client sockets would be UDP sockets.

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A socket is a special type of file handle which is used by a process to request network services from the operating system. A socket address is the triple: {protocol, local-address, local-process}

In the TCP/IP suite, for example:

{tcp, 193.44.234.3, 12345}

A conversation is the communication link between two processes. An association is the 5-tuple that completely specifies the two processes that comprise a connection: {protocol, local-address, local-process, foreign-address, foreign-process}

In the TCP/IP suite, for example:

{tcp, 193.44.234.3, 1500, 193.44.234.5, 21}

could be a valid association.

A half-association is either: {protocol, local-address, local-process}

or

{protocol, foreign-address, foreign-process}

which specify each half of a connection.

The half-association is also called a socket or a transport address. That is, a socket is an end point for communication that can be named and addressed in a network. The socket interface is one of several application programming interfaces (APIs) to the communication protocols. Designed to be a generic communication programming interface, it was first introduced by the 4.2BSD UNIX system. Although it has not been standardized, it has become a de facto industry standard.

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