from that it seems that objects referenced by a ThreadLocal variable are garbage collected only when thread dies.
That is an over-simplification. What it actually says is two things:
The value of the variable won't be garbage collected while the thread is alive (hasn't terminated), AND the
ThreadLocal object is strongly reachable.
The value will be subject to normal garbage collection rules when the thread terminates.
There is an important third case where the thread is still live but the
ThreadLocal is no longer strongly reachable. That is not covered by the javadoc. Thus, the GC behaviour in that case is unspecified, and could potentially be different across different Java implementations.
In fact, for OpenJDK Java 6 through OpenJDK Java 8 (and other implementations derived from those code-bases) the actual behaviour is rather complicated. The valuas of a thread's thread-locals are held in a
ThreadLocalMap object. The comments say this:
ThreadLocalMap is a customized hash map suitable only for maintaining thread local values. [...] To help deal with very large and long-lived usages, the hash table entries use
WeakReferences for keys. However, since reference queues are not used, stale entries are guaranteed to be removed only when the table starts running out of space.
If you look at the code, stale map entries (with broken
WeakReferences) may also be removed in other circumstances. If stale entry is encountered in a get, set, insert or remove operation on the map, the corresponding value is nulled. In some cases, the code does a partial scan heuristic, but the only situation where we can guarantee that all stale map entries are removed is when the hash table is resized (grows).
Then during context undeploy application classloader becomes a subject for garbage collection, but thread is from a thread pool so it does not die. Will object
b be subject for garbage collection?
The best we can say is that it may be ... depending on how the application manages other thread locals the thread in question.
So yes, stale thread-local map entries could be a storage leak if you redeploy a webapp, unless the web container destroys and recreates all of the request threads in the thread pool. (But I would expect a web container to do that ...)