Some OOP design appeared in my head. It's like a pool and a factory.
The factory creates resources that can be shared between multiple threads. One resource entity is expensive and its creation takes many time. A resource can be used by multiple threads at one time.
In my particular case a resource is a SSH connection. SSH connection uses one TCP socket. But one SSH connection can have multiple sessions. Each thread creates new session for itself. Session creation doesn't require to work with the factory.
Multiple threads can try to interact with the same remote host.
I defined statuses for a resource:
init some thread tried to get SSH connection but it doesn't exists. there is a long process of resource creation. If another thread will try to get the same resource too it gets that the required resource is on the progress and the second thread goes to wait a notification.
free all sessions are closed and no thread uses the SSH connection
busy at least one thread has taken the SSH connection
closed tcp socket is destroyed
There is a state diagram of a resource:
-> init -> busy -> free -> closed
free -> busy
I read books about OOP patterns, enterprise application patterns, concurrent patterns but I cannot remember a situation that I described above.
SSH is just example. This pattern fits to any heavy resource that supports concurrent work. When second thread wants to get creating resource but creation second instance of resource is nonsense.
If it's a pattern then what's his name? I confident this design is already described somewhere.