I'm currently familiarizing myself with the WSGI specifications for web applications in Python. I set up Apache (with mod-wsgi) to call a small application that currently just displays the thread id number, in an attempt to observe the uniqueness of each request:
import thread def application(environ, start_response) start_response('200 Ok', [('Content-type', 'text/plain')]) output = "current thread id: %s" % thread.get_ident() return [output]
I soon noticed that after a little while, the same threads are being reused by subsequent requests.
If my understanding is correct, in order for my application to have "context-specific" variables, I need to store them with a scheme similar to this:
lock = thread.allocate_lock() lock.acquire() thread_id = get_ident() threadsafe[thread_id]['user'] = request.username lock.release()
I can then access them from different part of the application in a similar fashion. The only guarantee that I have in this case is that the value belongs to that specific thread. However, requests using that same thread might still step on each other's toes (e.g. a request accessing left-over values from a previous request). My conclusion is that to handle each request in a truly unique fashion, in addition to the "thread_id", I'll need another key that can differentiate between requests that use the same thread.
Using a unique key such as uuid, I could do this
lock.acquire() uuid = uuid.uuid4() thread_id = get_ident() threadsafe[(thread_id, uuid)]['user'] = request.username lock.release()
but this implies that I have a way to also retrieve the uuid value in a thread-safe way, the same way I can retrieve the thread_id later.
Did I draw the right conclusions? If so, how do I get that additional key?
It just occured to me that my problem is a false dichotomy. I'm approaching things with the perspective that a thread could be running concurrently to itself, when in fact this is not possible. Requests using the same thread, would have to run in series. Therefore, I could actually use the uuid to avoid using the thread's stale values, but only after storing it as a thread-save value itself.
# somewhere early in the request threadsafe[thread_id]['current_uuid'] = uuid.uuid4() # later lock.acquire() thread_id = get_ident() uuid = threadsafe[thread_id]['current_uuid'] threadsafe[(thread_id, uuid)]['user'] = request.username lock.release()