First off, I am developing my own implementation of DBCP (database connection pooling), as such,
I won't accept any suggestions to use 3rd party DBCP like c3p0.
I'm using the producer-consumer design model as the main design template for my DBCP.
PRODUCER | CONSUMER Pn, ... P3, P2, P1 >> << C1, C2, C3, ... Cn
For both producer and consumer, I use LinkedList queue.
It would be populated by a maximum number of SQLConnectionWrapper instances. I have taken steps to ensure the connections are unique in the queue. Upon .close(), the connection would,
- first, remove the first element in the C-queue, if any,
- else, queue into the P-Queue.
I employ a house-keeper thread to remove stale/expired connections in the queue, and to spawn new connections to keep the minimum number of connections as configured.
It would be populated by FutureTask instances. Apps using my DBCP would call
Connection conn = dbcp.getConnection(long timeout);
- first create a Consumer FutureTask,
- remove the first element in the P-queue, if any,
- else, queue into the C-queue,
- blocking on .get(timeout) until it is 'fed' by a Producer or time-out, which ever comes first.
Can this design can be further improved? Any notable weaknesses?
My priority is stability in a concurrent usage environment. I've learned from my current testing that it needs synchronization on both sides since 2 queues are involved.
Right now, I am exploring ideas like :
- reduce the 2 queues into 1 deque (though I have trouble thinking on how to get the P-side to annihilate the C-side)
- create a synchronized annihilator thread, removing the need for PRODUCER and CONSUMER to check each other.