When connection sets up, there is:

Client ------SYN-----> Server

Client <---ACK/SYN---- Server ----①

Client ------ACK-----> Server

and when termination comes, there is:

Client ------FIN-----> Server

Client <-----ACK------ Server ----②

Client <-----FIN------ Server ----③

Client ------ACK-----> Server

my question is why ② and ③ can not set in the same package like ① which is ACK and SYN set in one package ???

  • In the Three-Way Handshake (connection setup) : The server must acknowledge (ACK) the client's SYN and the server must also send its own SYN containing the initial sequence number for the data that the server will send on the connection.
    That why the server sends its SYN and the ACK of the client's SYN in a single segment.
  • In connection Termination : it takes four segments to terminate a connection since a FIN and an ACK are required in each direction.
    (2) means that The received FIN (first segment) is acknowledged (ACK) by TCP
    (3) means that sometime later the application that received the end-of-file will close its socket. This causes its TCP to send a FIN.
    And then the last segment will mean that The TCP on the system that receives this final FIN acknowledges (ACK) the FIN.
  • 31
    You just paraphrased his image in the question. This still doesn't "explain" why but it only explains a TCP termination. – deppfx Feb 22 '18 at 20:48
  • 1
    @deppfx However, I think the phrase some time later explained clear to me. – Wason Jul 9 '19 at 9:11
  • @deppfx Sometimes the server needs a break to end. 4-way is more flexible I think. While set up stage needn't that wait time. – Wason Jul 9 '19 at 9:16
  • This doesn't explains much, just rephrasing the question, please be clear in your answer. – melvil james Feb 11 '20 at 17:55
  • Why there is no FIN-ACK ? Like SYN-ACK, but for closing. – Vinigas Jul 4 '20 at 15:13

After googling a lot, I recognized that the four-way is actually two pairs of two-way handshakes.

If termination is a REAL four-way actions, the 2 and 3 indeed can be set 1 at the same packet.

But this a two-phase work: the first phase (i.e. the first two-way handshake) is :

Client ------FIN-----> Server

Client <-----ACK------ Server

At this moment the client has been in FIN_WAIT_2 state waiting for a FIN from Server. As a bidirectional and full-duplex protocol, at present one direction has break down, no more data would be sent, but receiving still work, client has to wait for the other "half-duplex" to be terminated.

While the FIN from the Server was sent to Client, then Client response a ACK to terminate the connection.

Concluding note: the 2 and 3 can not merge into one package, because they belong to different states. But, if server has no more data or no data at all to be sent when received the FIN from client, it's ok to merge 2 and 3 in one package.


  1. http://www.tcpipguide.com/free/t_TCPConnectionTermination-2.htm
  2. http://www.tcpipguide.com/free/t_TCPConnectionEstablishmentProcessTheThreeWayHandsh-3.htm
  3. http://www.tcpipguide.com/free/t_TCPOperationalOverviewandtheTCPFiniteStateMachineF-2.htm
  • 4
    oh! So this means that the server can send more actual data to client when client is in the FIN_WAIT_2 state.. as the connection is now simplex?? Then once it's done sending all data, it can send the second FIN to the client? – Sush Apr 21 '20 at 18:53
  • Why there is no FIN-ACK ? Like SYN-ACK, but for closing. – Vinigas Jul 4 '20 at 15:14

I think of course the 2 and 3 can merge technically, but not flexible enough as not atomic.
The first FIN1 C to S means and only means: I would close on my way of communication. The first ACK1 S to C means a response to FIN1. OK, I know your channel is disconnected but for my S(server) way connection, I'm not sure yet. Maybe my receiving buffer is not fully handled yet. The time I need is uncertain. Thus 2 and 3 are not appropriate to merge. Only the server would have right to decide when his way of connection can be disconnected.

  • Best explanation so far. Really gets to the "why"s with a clear example. – Weipeng L May 9 '20 at 3:25

From Wikipedia - "It is also possible to terminate the connection by a 3-way handshake, when host A sends a FIN and host B replies with a FIN & ACK (merely combines 2 steps into one) and host A replies with an ACK.[14]"


Wikipedia - https://en.wikipedia.org/wiki/Transmission_Control_Protocol

[14] - Tanenbaum, Andrew S. (2003-03-17). Computer Networks (Fourth ed.). Prentice Hall. ISBN 0-13-066102-3.

  • that's quite particular... emmm, in that case, FIN and ACK bits are all set in ONE packet? and what should the status shifting should be then?? i mean is there still have FIN_WAIT2 phaze(Client side) and CLOST_WAIT phaze(Server side) exists??? – touchstone Feb 15 '19 at 16:03

If this is observed from the angle of coding, it is more reasonable to have 4 way than 3 way although both are possible ways for use.

When a connection is to be terminated by one side, there are multiple possibilities or states that the peer may have. At least one is normal, one is on transmitting or receiving, one is in disconnected state somehow all of a sudden before this initiation.

The way of termination should take at least above three into consideration for they all have high probabilities to happen in real life.

So it becomes more natural to find out why based on above. If the peer is in offline state, then things are quite easy for client to infer the peer state by delving into the packet content captured in the procedure since the first ack msg could not be received from peer. But if the two messages are combined together, then it becomes much difficult for the client to know why the peer does not respond because not only offline state could lead to the packet missing but also the various exceptions in the procedure of processing in server side could make this happen. Not to mention the client needs to wait large amount of time until timeout. With the additional 1 message, the two problems could become more easier to handle from client side.

The reason for it looks like coding because the information contained in the message is just like the log of code.

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