This is likely happening because of an unhandled exception in your asynchronous
Task(s), which, by default (since .NET 2.0), terminates the process that owns the faulted thread.
The process in ASP.NET being your IIS worker process. When the worker process is terminated, it kills all current user sessions, invalidating any authentication they had with the running web app, and forcing them to log in again.
Because you are not waiting for a started task to complete (
Task<T>.Result), and presumably not catching and handling the exceptions within the Tasks, .NET performs its default operation with unhandled exceptions, which is to terminate the process.
There's a good synopsis of how this changed from .NET 1.1 to .NET 2.0+ as well as some options for handling errors here, as well as more TPL error-handling techniques here.
Fixing the process terminations depends on your requirements.
Wait. The safest approach would be to wait on all tasks completing:
Task.WaitAll(t1, t2, ...). You can start them all in parallel, so the wait time would only be as long as the longest task, thus leveraging parallelism for some speedup.
If you simply can't wait, and really want to let them runaway in the background, you need some protection:
Swallow. Wrap the body of the task's action/function in a
try-catch, and do some logging in the catch, but "swallow" the exception rather than re-throwing it. This is dirty because you're basically ignoring faults in your application, and could lead to downstream problems when you've assumed the task was successful.
Continue to Ignore. This is basically the same as swallowing the exception, with the benefit of the
Task.Status flag getting set to
Faulted rather than erroneously advertising
RanToCompletion. If you have setup some kind of Task-tracking mechanism, this may be helpful in recovering, or at least not assuming it went ok (more details about error continuations in the first link above).
Task.Factory.StartNew(() => myFunction(myObject, httpSessionState))
var ex = faultedTask.Exception; // reading the exception will ensure the process won't terminate
Log.Error("Task Xyz failed", ex);
Handle It. You should set up some way to track failed tasks, recover from failures, or retry the tasks. If you can capture the success/failure of an async task, your ajax client could at least be equipped with information to make a smart next move. Possibly you could use some kind of state (page, Session, database) to store and lookup the status of a task by the same key you were going to use to store the task results in Session. Then only go to Session to get the results based on a
RanToCompletion status; wait or recover otherwise.