After extensive testing of my own application I might be able to shed some light on this. The phenomenon I was observing was the following:
When closing a Java
SSLSocket, which was opened and is handled in
Thread A, from a concurrent
Thread B, the
close() call sometimes blocks until the next
Tread A, which then retruns indicating
EOF. Between the asynchronous call to
close() inThread B and any
Thread A, A can successfully perform
write() operations on that socket.
I have now figured that this is only the case if
Thread B performs the
close() before the
startHandshake() call initiated by
Thread A has finished. After that, there seems to be no problem with closing the SSLSocket asynchronously.
This leaves us with the question how to solve the issue. Obviously, a bit of a state-based behaviour would help.
If one can live with a delay for the asynchronous
Thread B, calling
close() seems to work very well, because it makes B wait until A has the SSL session ready. However, this may cause a delay per socket, and also may lead to additional effort in case the
close() does not get executed in
Thread B before A starts to use the socket.
A better, yet less simplistic solution would be to work with two uni-directional flags. One (
handshakeDone) would be used by A to indicate that the SSL handshake has been completed (there's no non-blocking API way for B to find this out). The other (
toBeClosed) would be used by B to indicate that the socket is supposed to be closed.
A would check
toBeClosed after the handshake has been performed. B would call
handshakeDone is false or set
Note that for this to succeed, there need to be atomic blocks both in A and B. I'll leave the specific implementation (possibly optimized as compared to the algorithm described above) up to you.
There may be other situations where asynchronous
close() calls on SSL sockets misbehave, though.