TCP三次握手

http://en.wikipedia.org/wiki/Transmission_Control_Protocol


Connection establishment [edit]

To establish a connection, TCP uses a three-way handshake. Before a client attempts to connect with a server, the server must first bind to and listen at a port to open it up for connections: this is called a passive open. Once the passive open is established, a client may initiate an active open. To establish a connection, the three-way (or 3-step) handshake occurs:

  1. SYN: The active open is performed by the client sending a SYN to the server. The client sets the segment's sequence number to a random value A.
  2. SYN-ACK: In response, the server replies with a SYN-ACK. The acknowledgment number is set to one more than the received sequence number (A + 1), and the sequence number that the server chooses for the packet is another random number, B.
  3. ACK: Finally, the client sends an ACK back to the server. The sequence number is set to the received acknowledgement value i.e. A + 1, and the acknowledgement number is set to one more than the received sequence number i.e. B + 1.

At this point, both the client and server have received an acknowledgment of the connection. The steps 1, 2 establish the connection parameter (sequence number) for one direction and it is acknowledged. The steps 2, 3 establish the connection parameter (sequence number) for the other direction and it is acknowledged. With these, a full-duplex communication is established.


  • Sequence number (32 bits) – has a dual role:
  • If the SYN flag is set (1), then this is the initial sequence number. The sequence number of the actual first data byte and the acknowledged number in the corresponding ACK are then this sequence number plus 1.
  • If the SYN flag is clear (0), then this is the accumulated sequence number of the first data byte of this segment for the current session.
  • Acknowledgment number (32 bits) – if the ACK flag is set then the value of this field is the next sequence number that the receiver is expecting. This acknowledges receipt of all prior bytes (if any). The first ACK sent by each end acknowledges the other end's initial sequence number itself, but no data.

  • Reserved (3 bits) – for future use and should be set to zero
  • Flags (9 bits) (aka Control bits) – contains 9 1-bit flags
  • NS (1 bit) – ECN-nonce concealment protection (added to header by RFC 3540).
  • CWR (1 bit) – Congestion Window Reduced (CWR) flag is set by the sending host to indicate that it received a TCP segment with the ECE flag set and had responded in congestion control mechanism (added to header by RFC 3168).
  • ECE (1 bit) – ECN-Echo indicates
  • If the SYN flag is set (1), that the TCP peer is ECN capable.
  • If the SYN flag is clear (0), that a packet with Congestion Experienced flag in IP header set is received during normal transmission (added to header by RFC 3168).
  • URG (1 bit) – indicates that the Urgent pointer field is significant
  • ACK (1 bit) – indicates that the Acknowledgment field is significant. All packets after the initial SYN packet sent by the client should have this flag set.
  • PSH (1 bit) – Push function. Asks to push the buffered data to the receiving application.
  • RST (1 bit) – Reset the connection
  • SYN (1 bit) – Synchronize sequence numbers. Only the first packet sent from each end should have this flag set. Some other flags change meaning based on this flag, and some are only valid for when it is set, and others when it is clear.
  • FIN (1 bit) – No more data from sender


第一次握手:建立连接时,客户端发送syn包(syn=j)到服务器,并进入SYN_SENT状态,等待服务器确认;SYN:同步序列编号(Synchronize Sequence Numbers)。

第二次握手:服务器收到syn包,必须确认客户的SYN(ack=j+1),同时自己也发送一个SYN包(syn=k),即SYN+ACK包,此时服务器进入SYN_RECV状态;

第三次握手:客户端收到服务器的SYN+ACK包,向服务器发送确认包ACK(ack=k+1),此包发送完毕,客户端和服务器进入ESTABLISHED状态,完成三次握手。


用Wireshark抓包:

TCP三次握手_第1张图片

TCP三次握手_第2张图片

TCP三次握手_第3张图片

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