There are a couple of approaches to this.
The first approach is what I would consider to be the ideal approach. And that is to never terminate threads. The reasons for this are multiple, but here are some biggies:
- If your thread owns a synchronization object, they won't be released
- RAII objects don't get a chance to clean up
- Allocated memory won't be freed
- If you are in the middle of certian kernel calls, you could hose your entire application
So going with this approach, you would identify the reasons why the threads are not shutting down, and fix that problem. You may find that the problems run deep. You may find deadlocks, race conditions, etc. Static analysis can help to find these problems.
The ideal approach is the one you should always persue. And in doing this, it's best not to use a spin lock. Instead, Wait() on the thread handle with a timeout. By spinning, your'e wasting resources, and stealing time slices from the thread you're waiting for.
But in the real world, in production code, you need a fallback measure in case everything else fails. You should first try multiple methods to trigger your thread to shut itself down. If everything fails as an absolute last resort, kill the thread. But because of the dangers behind killing a zombie thread, once you've done this, you should restart your entire application. When you kill a thread, you can put your process in a non-deterministic state. So start over. Log an error message, shut the app down, and start again.