I'm experimenting with a simple actor model in haskell, where each actor:
- is a haskell thread
- has a zeroMQ PULL socket upon which it receives messages
Some actors are "well known", have indefinite lifetimes, and hence have their socket bound to a well known port. Other actors are short lived and transient, and hence need a random free port assigned to them.
I was previously unaware of the ability of zmq3 to allow binding to an ephemeral port, as described here: http://api.zeromq.org/3-2:zmq-tcp
Hence, for transient actors I currently have code that tries to bind to a free port within a given range. This works as intended, but brings to light a zmq behavior which causes me problems: If a transient actor closes it's port and exits, and a new transient actor starts, it's likely to bind to the same port os the old one. In this circumstance any outstanding or subsequent messages queued for the old actor will be received by the new one.
How can I avoid this?
If I bound my transient actors sockets using the wildcard to get a system assigned ephemeral port, would I still potentially see this problem?
How can I generate a new unique PULL socket with the TCP transport that is guaranteed to be distinct from any others?