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I understand the basics of how ports work. However, what I don't get is how multiple clients can simultaneously connect to say port 80. I know each client has a unique (for their machine) port. Does the server reply back from an available port to the client, and simply state the reply came from 80? How does this work?

marked as duplicate by user207421 tcp Jul 10 at 11:15

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    @EJP I wouldn't think that's a duplicate with the given title, because a Google search for "multiple connections on same port" pulls up this question as the #1 search result, whereas the possible duplicate you've mentioned does not appear on the first page of results. I think the title matters in this case. – Dan Nissenbaum Nov 16 '14 at 15:22
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    @DanNissenbaum Funny how this community works. A while ago, my question was closed for the exact same reason you decided that this question was not a duplicate. – Jase Feb 18 '15 at 10:25
  • @DanNissenbaum I don't see why decisions about duplicates should be based on what Google thinks. – user207421 Mar 3 '17 at 6:19
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    @EJP I don't agree. This is the real world. I think your comment represents a failure of imagination. The title is a critical part of the question in particular because it impacts search results. – Dan Nissenbaum Mar 3 '17 at 6:43
up vote 393 down vote accepted

First off, a "port" is just a number. All a "connection to a port" really represents is a packet which has that number specified in its "destination port" header field.

Now, there are two answers to your question, one for stateful protocols and one for stateless protocols.

For a stateless protocol (ie UDP), there is no problem because "connections" don't exist - multiple people can send packets to the same port, and their packets will arrive in whatever sequence. Nobody is ever in the "connected" state.

For a stateful protocol (like TCP), a connection is identified by a 4-tuple consisting of source and destination ports and source and destination IP addresses. So, if two different machines connect to the same port on a third machine, there are two distinct connections because the source IPs differ. If the same machine (or two behind NAT or otherwise sharing the same IP address) connects twice to a single remote end, the connections are differentiated by source port (which is generally a random high-numbered port).

Simply, if I connect to the same web server twice from my client, the two connections will have different source ports from my perspective and destination ports from the web server's. So there is no ambiguity, even though both connections have the same source and destination IP addresses.

Ports are a way to multiplex IP addresses so that different applications can listen on the same IP address/protocol pair. Unless an application defines its own higher-level protocol, there is no way to multiplex a port. If two connections using the same protocol simultaneously have identical source and destination IPs and identical source and destination ports, they must be the same connection.

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    If you connect to the same web server twice from your client, the two connections will have the same destination port too. Only the source port is different. – notacat Jul 25 '10 at 15:10
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    @notacat: "and destination ports on the remote end". From the perspective of the server, the connections have different source ports. Clarified. – Borealid Jul 25 '10 at 15:16
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    "If two connections using the same protocol have identical source and destination IPs and identical source and destination ports, they must be the same connection." - That should go in wikipedia! – Ritesh Nov 3 '11 at 3:10
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    What happens if two NAT'ed computers happened to pick the same source port by chance? – Hello World Apr 26 '14 at 10:12
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    @HelloWorld There are two "source port"s in play in a NAT scenario. The source port that the original computer set, and the external source port on the router. The latter is chosen by the router, not the hosts. Since, internally, each host has a different IP address, there is no collision. – Borealid Apr 27 '14 at 1:39

Important:

I'm sorry to say that the response from "Borealid" is imprecise and somewhat incorrect - firstly there is no relation to statefulness or statelessness to answer this question, and most importantly the definition of the tuple for a socket is incorrect.

First remember below two rules:

  1. Primary key of a socket: A socket is identified by {SRC-IP, SRC-PORT, DEST-IP, DEST-PORT, PROTOCOL} not by {SRC-IP, SRC-PORT, DEST-IP, DEST-PORT} - Protocol is an important part of a socket's definition.

  2. OS Process & Socket mapping: A process can be associated with (can open/can listen to) multiple sockets which might be obvious to many readers.

Example 1: Two clients connecting to same server port means: socket1 {SRC-A, 100, DEST-X,80, TCP} and socket2{SRC-B, 100, DEST-X,80, TCP}. This means host A connects to server X's port 80 and another host B also connects to same server X to the same port 80. Now, how the server handles these two sockets depends on if the server is single threaded or multiple threaded (I'll explain this later). What is important is that one server can listen to multiple sockets simultaneously.

To answer the original question of the post:

Irrespective of stateful or stateless protocols, two clients can connect to same server port because for each client we can assign a different socket (as client IP will definitely differ). Same client can also have two sockets connecting to same server port - since such sockets differ by SRC-PORT. With all fairness, "Borealid" essentially mentioned the same correct answer but the reference to state-less/full was kind of unnecessary/confusing.

To answer the second part of the question on how a server knows which socket to answer. First understand that for a single server process that is listening to same port, there could be more than one sockets (may be from same client or from different clients). Now as long as a server knows which request is associated with which socket, it can always respond to appropriate client using the same socket. Thus a server never needs to open another port in its own node than the original one on which client initially tried to bind connect. If any server allocates different server-ports after a socket is bound, then in my opinion the server is wasting its resource and it must be needing the client to bind connect again to the new port assigned.

A bit more for completeness:

Example 2: It's very interesting question that can a server's two different processes listen to same port. If you do not consider protocol as one of parameter defining socket then the answer is no. Initiatively this is so because we can say that in such case for a single client trying to connect to a server-port will not have any mechanism to mention which of the two listening process the client intends to. This is the same theme asserted by rule (2). However this is WRONG answer because 'protocol' is also a part of the socket definition. Thus two processes in same node can listen to same port only if they are using different protocol. For example two unrelated clients (say one is using TCP and another is using UDP) can bind connect and communicate to the same server node and to the same port but they must be served by two different server-processes.

Server Types - single & multiple:

When a server's processes listening to a port that means multiple sockets can simultaneously connect and communicate with the same server-process. If a server uses only a single child-process to serve all the sockets then the server is called single-process/threaded and if the server uses many sub-processes to serve each socket by one sub-process then the server is called multi-process/threaded server. Note that irrespective of the server's type a server can/should always uses the same initial socket to respond back (no need to allocate another server-port).

Suggested Books and rest of the two volumes if you can.

A Note on Parent/Child Process (in response to query/comment of 'Ioan Alexandru Cucu')

Wherever I mentioned any concept in relation to two processes say A and B, consider that they are not related by parent child relationship. OS's (especially UNIX) by design allow a child process to inherit all File-descriptors (FD) from parents. Thus all the sockets (in UNIX like OS are also part of FD) that a process A listening to, can be listened by many more processes A1, A2, .. as long as they are related by parent-child relation to A. But an independent process B (i.e. having no parent-child relation to A) cannot listen to same socket. In addition, also note that this rule of disallowing two independent processes to listen to same socket lies on an OS (or its network libraries) and by far it's obeyed by most OS's. However, one can create own OS which can very well violate this restrictions.

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    Thanks a lot 'Mualig' for making my post more readable. – KGhatak Jul 7 '12 at 3:47
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    Great explanation. One more thing, using "SO_REUSEADDR" two processes can share same socket but that's multicast. If I have new ServerSocket(80) and I span new thread for each accept() then I am serving one client at a time (I can't send data packets simultaneously even with non blocking queue). So only real difference between single/multi thread web server is it that single process cannot serve second client until HTTP request for first is complete. – d1val Oct 9 '12 at 5:26
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    Not sure if "Thus two processes in same node can listen to same port only if they are using different protocol" is actually true... You could have a process listen on a port and then fork itself. You would then end up with two processes listening on the same port. When a new connection arrives it's the OS' responsibility to decide which one of the two processes will handle the request. – Ioan Alexandru Cucu Sep 28 '13 at 20:36
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    @Ioan Alexandru Cucu - You're right and to accommodate concerns like yours, I've added a note to my response. Thanks for bringing this up. However, note that OS doesn't fork from a process that's already listening on a socket (at least I'm not aware of), it's rather the application program which might fork. In such cases, the program must be careful in listening and processing incoming data by parent and/or child process. – KGhatak Sep 30 '13 at 11:57
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    It would be worth adding that an independent process B still has a mechanism to take over the socket from process A, if processA transfers the socket's file descriptor to processB over a local unix domain socket as an ancillary message (aka control message) using sendmsg() system call with SCM_RIGHTS. This is true not just for sockets, but any file-descriptor owned by a process can be transferred to another process even if it is not a child process. – Tuxdude Apr 27 '15 at 0:14

TCP / HTTP Listening On Ports: How Can Many Users Share the Same Port

So, what happens when a server listen for incoming connections on a TCP port? For example, let's say you have a web-server on port 80. Let's assume that your computer has the public IP address of 24.14.181.229 and the person that tries to connect to you has IP address 10.1.2.3. This person can connect to you by opening a TCP socket to 24.14.181.229:80. Simple enough.

Intuitively (and wrongly), most people assume that it looks something like this:

    Local Computer    | Remote Computer
    --------------------------------
    <local_ip>:80     | <foreign_ip>:80

    ^^ not actually what happens, but this is the conceptual model a lot of people have in mind.

This is intuitive, because from the standpoint of the client, he has an IP address, and connects to a server at IP:PORT. Since the client connects to port 80, then his port must be 80 too? This is a sensible thing to think, but actually not what happens. If that were to be correct, we could only serve one user per foreign IP address. Once a remote computer connects, then he would hog the port 80 to port 80 connection, and no one else could connect.

Three things must be understood:

1.) On a server, a process is listening on a port. Once it gets a connection, it hands it off to another thread. The communication never hogs the listening port.

2.) Connections are uniquely identified by the OS by the following 5-tuple: (local-IP, local-port, remote-IP, remote-port, protocol). If any element in the tuple is different, then this is a completely independent connection.

3.) When a client connects to a server, it picks a random, unused high-order source port. This way, a single client can have up to ~64k connections to the server for the same destination port.

So, this is really what gets created when a client connects to a server:

    Local Computer   | Remote Computer           | Role
    -----------------------------------------------------------
    0.0.0.0:80       | <none>                    | LISTENING
    127.0.0.1:80     | 10.1.2.3:<random_port>    | ESTABLISHED

Looking at What Actually Happens

First, let's use netstat to see what is happening on this computer. We will use port 500 instead of 80 (because a whole bunch of stuff is happening on port 80 as it is a common port, but functionally it does not make a difference).

    netstat -atnp | grep -i ":500 "

As expected, the output is blank. Now let's start a web server:

    sudo python3 -m http.server 500

Now, here is the output of running netstat again:

    Proto Recv-Q Send-Q Local Address           Foreign Address         State  
    tcp        0      0 0.0.0.0:500             0.0.0.0:*               LISTEN      - 

So now there is one process that is actively listening (State: LISTEN) on port 500. The local address is 0.0.0.0, which is code for "listening for all". An easy mistake to make is to listen on address 127.0.0.1, which will only accept connections from the current computer. So this is not a connection, this just means that a process requested to bind() to port IP, and that process is responsible for handling all connections to that port. This hints to the limitation that there can only be one process per computer listening on a port (there are ways to get around that using multiplexing, but this is a much more complicated topic). If a web-server is listening on port 80, it cannot share that port with other web-servers.

So now, let's connect a user to our machine:

    quicknet -m tcp -t localhost:500 -p Test payload.

This is a simple script (https://github.com/grokit/dcore/tree/master/apps/quicknet) that opens a TCP socket, sends the payload ("Test payload." in this case), waits a few seconds and disconnects. Doing netstat again while this is happening displays the following:

    Proto Recv-Q Send-Q Local Address           Foreign Address         State  
    tcp        0      0 0.0.0.0:500             0.0.0.0:*               LISTEN      -
    tcp        0      0 192.168.1.10:500        192.168.1.13:54240      ESTABLISHED -

If you connect with another client and do netstat again, you will see the following:

    Proto Recv-Q Send-Q Local Address           Foreign Address         State  
    tcp        0      0 0.0.0.0:500             0.0.0.0:*               LISTEN      -
    tcp        0      0 192.168.1.10:500        192.168.1.13:26813      ESTABLISHED -

... that is, the client used another random port for the connection. So there is never confusion between the IP addresses.

Normally, for every connecting client the server forks a child process that communicates with the client (TCP). The parent server hands off to the child process an established socket that communicates back to the client.

When you send the data to a socket from your child server, the TCP stack in the OS creates a packet going back to the client and sets the "from port" to 80.

  • You answered my question. Thanks! – IamIC Jul 25 '10 at 23:22
  • So if a server had say 1,000 simultaneous connections (I know that is high), it would have to contend with 1,000 threads!? That seems out of control. Or are fibers used (thread barreling). – IamIC Jul 25 '10 at 23:49
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    @IanC Not all the web-servers are multi-thread (Apache with worker module) or multi-process (Apache with pre-fork module). Look for Lighty (formally Lighttpd) and NginX for some very capable non-threaded web servers. Even in a multi-thread environment, you don't have to handle all the incoming connections at once. You may employ a queue with a preset maximum size. – اشکان نظری Jan 26 '12 at 14:05
  • So since the packet sent back to the client is said to be from port 80, does that mean when the data goes thorugh the main server, so it can be directed to the proper child-process again? – Griffin Jan 27 '12 at 23:00
  • So since the header in the packet that is returned to the client is said to be from port 80, doesn't that mean the client program will continually se – Griffin Jan 27 '12 at 23:24

Multiple clients can connect to the same port (say 80) on the server because on the server side, after creating a socket and binding (setting local IP and port) listen is called on the socket which tells the OS to accept incoming connections.

When a client tries to connect to server on port 80, the accept call is invoked on the server socket. This creates a new socket for the client trying to connect and similarly new sockets will be created for subsequent clients using same port 80.

Words in italics are system calls.

Ref

http://www.scs.stanford.edu/07wi-cs244b/refs/net2.pdf

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