The underlying reason for your problems is that Java EE was designed to work in a different way - attempting to block/wait on a service thread is one of the important no-no's. I'll give the reason for this first, and how to solve the issue after that.
Java EE (both the web and EJB tier) is designed to be able to scale to very large size (hundreds of computers in a cluster). However, in order to do that, the designers had to make the following assumptions, which are specific limitations on how to code:
If we follow those rules, the Java EE container can successfully manage a cluster, including shutting down nodes, starting new ones and migrating user sessions, without any specific developer code. Developers write the graphical interface and the business logic - all the 'plumbing' is managed by configurable container features.
Also, at run time, the Java EE container can be monitored and managed by some pretty sophisticated software that can trace application performance and behavioural issues on a live system.
< snark >Well, that was the theory. Practice suggests there are pretty important limitations that were missed, which lead to AOSP and code injection techniques, but that's another story < /snark >
[There are many discussions around the 'net on this. One which focuses on EJBs is here: Why spawning threads in Java EE container is discouraged? Exactly the same is true for web containers such as Tomcat]
Sorry for the essay - but this is important to your problem. Because of the limitations on threads, you should not block on the web request waiting for another, later request.
Another problem with the current design is what should happen if the user becomes disconnected from the network, runs out of power, or simply decides to give up? Presumably you will time out, but after how long? Just too soon for some customers, perhaps, which will cause satisfaction problems. If the timeout is too long, you could end up blocking all worker threads in Tomcat and the server will freeze. This opens your organisation up for a denial of service attack.
EDIT : Improved suggestions after a more detailed description of the algorithm was published.
Notwithstanding the discussion above on the bad practice of blocking a web worker thread and also the possible denial of service, it's clear that the user is presented with a small time window in which to react to the the notification on the Android phone, and this can be kept reasonably small to enhance security. This time window can also be kept below Tomcat's timeout for responses as well. So the thread blocking approach could be used.
There are two ways this problem can be resolved:
- Communication between nodes in the cluster allowing the node receiving the authorization response from the Android App to unblock the node blocking the servlet's response.
True if the Android app authenticated. Advantage: client side, minimal implementation on the server, no thread blocking on the server. Disadvantages: During the waiting period, you have to make frequent calls (maybe one a second - the user will not notice this latency) which amounts to a lot of calls and some additional load on the server.
For approach 2, there is again choice:
Block the thread with an
Object.wait() optionally storing the node ID, IP or other identifier in a shared data store: If so, the node receiving the Android app authorization needs to:
- Either find the node that is currently blocking or broadcast to all nodes in the cluster
For each node in 1. above, send a message that identifies the user session to unblock. The message could be sent via:
- Have an internal-only servlet on each node - this is called by the servlet performing the Android app authorization. The internal servlet will call
Object.notify on the correct thread
- Use a JMS pub-sub message queue to broadcast to all members of the cluster. Each node is a subscriber that, on receipt of a notification will call
Object.notify() on the correct thread.
Poll a data store until the thread is authorized to continue: In this case, all the Android app needs to do is save the state in a SQL DB