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The accept() blocks, until another connection is made and the return the sockfd the can communicate both sides on. But why is it accept() that blocks, when the first thing that is done is the three way handshake. And the handshake is not done by accept(), but by listen(). So I would expect to listen() block rather then accept(), since it is firstly involved in TCP. I know the kernel does some queuing of the incoming connections, but still the very first function involved in is listen(), then the connection is moved forward in the queue to accept(). So when I do first connection, listen() will do the 3whs, and the server blocks in accept(). So another connection cannot do another 3whs, becuase the server does no go back to listen(), which does the 3whs? Or why does accept() blocks and not listen()?

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  • @Carcigenicate i did not say anything about changing the behaviour of the listen() function (so it would not return connfd as accept()), it would just process the connection down to accept() as normally. But accept() is not the very first function involved in TCP as listen() is. That does not make sense to me Jan 12, 2021 at 18:02
  • As I said, the listen would block, new connection arrived, 2whs is done, the process will follow with accept(). The functionality is the same as it is now, but the first encounter with the new connection would be listen instead of accept, since accept does not perform 3whs. So in current model, it does not make sense for me, because if accept blocs, new connection cannot do 3whs since that does listen and not accept Jan 12, 2021 at 18:13
  • listen() neither blocks (contrary to some documentation) nor performs the handshake. All it does is put the port into the LISTEN state and allocate a backlog queue of the given size, or something like it (the system can change it, and there is no system call to discover the actual value). The handshake is performed asynchronously by the kernel.
    – user207421
    Apr 1 at 3:58

2 Answers 2

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listen() and accept() are two completely different operations. Yourr understanding of how they work is incorrect.

listen() merely sets up the listening socket's backlog and opens the bound port, so clients can start connecting to the socket. That opening is a very quick operation, there is no need to worry about it blocking.

A 3-way handshake is not performed by listen(). It is performed by the kernel when a client tries to connect to the opened port and gets placed into the listening socket's backlog. Each new client connection performs its own 3-way handshake.

Once a client connection is fully handshaked, that connection is made available for accept() to extract it from the backlog. accept() blocks (or, if you use a non-blocking listening socket, accept() succeeds) only when a new client connection is available for subsequent communication.

You call listen() only 1 time, to open the listening port, that is all it does. Then you have to call accept() for each client that you want to communicate with. That is why accept() blocks and listen() does not.

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  • If kernel does the 3whs, then when? Is it done between the calls to listen and accept, or while accept, or when? Jan 12, 2021 at 19:11
  • The kernel can do 2whs anytime the port is open? which it is after listen? Jan 12, 2021 at 19:12
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    Yes, the 3-way handshake can be performed at any time after listen() exits. But how the handshake is managed depends on the kernel. When a new connection arrives, some kernels complete the 3-way handshake immediately and put the connection into a separate queue for accept() to pull from. Some kernels only perform a partial handshake and then finish it only when accept() is actually called. Jan 12, 2021 at 19:20
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    But, you don't really need to concern yourself with those details, the kernel handles them for you. All you need to concern yourself with is calling listen() to open the chosen port, and calling accept() to receive connections from it. The rest is handled behind the scenes for you. If you don't want accept() blocking your code, move it to a worker thread, or use a non-blocking listening socket. Jan 12, 2021 at 19:21
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    The timing is implementation-specific in the kernel, but no matter when it is handled, it is handled entirely by the kernel, and it is still handled AFTER listen() exits and BEFORE accept() exits. Why do you care WHEN the handshake is performed? It is not in your control. Jan 12, 2021 at 19:40
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The listen() syscall is called only once by the program (server process), and the "listening" is done by the kernel. If a SYN packet is received, the kernel will put it into a queue of "incomplete connections" and will send a SYNACK packet to the client. After the client ACKs the SYNACK (i.e., after the three-way handshake is completed for that connection), the connection in the queue of incomplete connections will be put into a queue of "complete connections". All this is done by the kernel, meaning that it's not "blocking" the execution of the program.

On the other hand, the accept() syscall is called by the program to return a completed connection from the front of the queue of completed connections. If this queue is empty, the process is put to sleep and waits until a connection arrives at the queue. In this sense, accept() is blocking the execution of the program (assuming that the socket was set as "blocking").

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