TCP's primary design goal is to allow reliable data communication in the face of packet loss, packet reordering, and — key, here — packet duplication.
It's fairly obvious how a TCP/IP network stack deals with all this while the connection is up, but there's an edge case that happens just after the connection closes. What happens if a packet sent right at the end of the conversation is duplicated and delayed, such that the 4-way shutdown packets get to the receiver before the delayed packet? The stack dutifully closes down its connection. Then later, the delayed duplicate packet shows up. What should the stack do?
More importantly, what should it do if the program that owned that connection immediately dies, then another starts up wanting the same IP address and TCP port number?
There are a couple of choices:
Disallow reuse of that IP/port combo for at least 2 times the maximum time a packet could be in flight. In TCP, this is usually called the 2×MSL delay. You sometimes also see 2×RTT, which is roughly equivalent.
This is the default behavior of all common TCP/IP stacks. 2×MSL is typically between 30 and 120 seconds. (This is the
TIME_WAIT period.) After that time, the stack assumes that any rogue packets have been dropped en route due to expired TTLs, so it leaves the
TIME_WAIT state, allowing that IP/port combo to be reused.
Allow the new program to re-bind to that IP/port combo. In stacks with BSD sockets interfaces — essentially all Unixes and Unix-like systems, plus Windows via Winsock — you have to ask for this behavior by setting the
SO_REUSEADDR option via
setsockopt() before you call
SO_REUSEADDR is most commonly set in server programs.
The reason is, a common pattern is that you change a server configuration file and need to restart that server to make it reload its configuration. Without
bind() call in the restarted program's new instance will fail if there were connections open to the previous instance when you killed it. Those connections will hold the TCP port in the
TIME_WAIT state for 30-120 seconds, so you fall into case 1 above.
The safe thing to do is wait out the
TIME_WAIT period, but in practice this isn't a big enough risk that it's worth doing that. It's better to get the server back up immediately so as to not miss any more incoming connections than necessary.