As far as I can tell the problem is very likely related to the way in which (or more specifically the order in which) the multiple threads acquire and release locks.
In the above example the two threads need access to two locks (or monitors):
From the stack trace on the two threads currently in a deadlock, we can see that thread 'ExecutionManager' has aquired the ExecutionManager monitor but is awaiting acquisition (while still holding the 'ExecutionManager' monitor) of the 'ESMarketMaker' monitor.
The 'StrategyManager' thread on the other hand, has acquired the 'ESMarketMaker' monitor but is awaiting acqusition (while still holding the 'ESMarketMaker' monitor) of the 'ExecutionManager' monitor.
This is a class example of deadlocks and the many ways in which order of acquisition of locks can cause deadlocks.
There are many ways to address these kind of problems:
- If possible, all threads needing some set of locks to operate, must acquire the shared locks in the same order (the inversed order is the problem in the above deadlock). But this is not always possible, as multiple threads may have only semi-overlapping lock usage in different conditions, why it may be hard or impossible to design a protocol of acquisition that will ensure uniform ordering.
- You may also use tryLock() instead, which is a non-blocking acquisition, it returns a flag to indicate success or failure and gives you the option to do something else before re-trying. One thing I would recommend in this case, is that if acquisition fails, it is to drop all currently owned locks and try from scratch again (thus giving way for any who is blocked on any or all locks the current thread holds, to complete their work, maybe freeing the locks this thread needs when it retries).
One thing to note though, is that sometimes when deciding on the protocol to use, you need more explicit control over your locks, rather than normal synchronization in Java. In these cases, the usage of explicit ReentrantLock instances can be a benefit, as these allows you to do stuff like inspecting whether a lock is unlocked or currently locked, and do non-blocking try-locks as described above.
I hope this helps, I'm sorry I can't be more specific, but I would need to see the source code for that. :-)
(Oh an p.s., a third thing one might opt for, if deadlock is something that must be avoided by all cost, is to look into modeling tools, to model a state machine over the states of the program and locks, which can be used together with analysis tools which can check for possible deadlocks in such a model and give you examples if any such is found).