Suppose that I've written a wsgi
application. I run this application on
Linux with multi-threaded
mod-wsgi configuration, so that my application is run in many threads per single process:
WSGIDaemonProcess mysite processes=3 threads=2 display-name=mod_wsgi WSGIProcessGroup mysite WSGIScriptAlias / /some/path/wsgi.py
The application code is:
def application(environ, start_response): from foo import racer status = '200 OK' response_headers = [('Content-type', 'text/plain')] start_response(status, response_headers) return [racer()] #call to racer creates a race condition?
a = 1 def racer(): global a a = a + 1 return str(a)
Did I just create a race condition with variable
a? I guess,
a is a module-level variable, that exists in
foo.py and is the same (shared) among threads?
More theoretical questions derived from this:
- Concurrent threads within the same process access and modify the same
avariable so my example is not thread-safe?
- If my web-server is
Apache, each thread of my application on Linux is created on C-level with
pthreadsAPI and the function, which the
pthreadmust execute is some kind of python interpreter's main function? Or does Apache protect me somehow from this error?
- What if I were running this on a python-written web-server like
HTTPServer? Web server, written in python, implements threads as python-level
threading.Threadobjects, and runs
applicationfunction in each thread. So, I suppose it's a race condition? (I also suppose, in this case I can abstract from underlying C-level
threading.Threadimplementation and worry only about python functions, because the interpreter won't allow me to modify C-level shared data and screw its functioning. So the only way to break thread-safety for me is to deal with global variables? Is that right?)