First.. a couple missing use-cases here if we're talking about ways to inject anonymous code..
loading C compiled shared objects? example: _socket?)
But, the real question is, what is your goal - are you trying to enforce some sort of security? Or are you just interested in whats being loaded.
If you're interested in security, the filename that is being imported via exec/execfile is inconsequential - you should use rexec, which offers the following:
This module contains the RExec class,
which supports r_eval(), r_execfile(),
r_exec(), and r_import() methods, which
are restricted versions of the standard
Python functions eval(), execfile() and
the exec and import statements. Code
executed in this restricted environment
will only have access to modules and
functions that are deemed safe; you can
subclass RExec add or remove capabilities as
However, if this is more of an academic pursuit.. here are a couple goofy approaches that you
might be able to dig a little deeper into..
print ' >> level 1'
print ' << level 1'
print '\t >> level 2'
exec("import sys; sys.path.append('/tmp'); import deepest")
print '\t << level 2'
print '\t\t >> level 3'
print '\t\t\t I can see the earths core.'
print '\t\t << level 3'
import sys, os
def overseer(frame, event, arg):
print "loaded(%s)" % os.path.abspath(frame.f_code.co_filename)
>> level 1
>> level 2
>> level 3
I can see the earths core.
<< level 3
<< level 2
<< level 1
Of course, this is a resource-intensive way to do it, you'd be tracing
all your code.. Not very efficient. But, I think it's a novel approach
since it continues to work even as you get deeper into the nest.
You can't override 'eval'. Although you can override execfile().
Note, this approach only coveres exec/execfile, not 'import'.
For higher level 'module' load hooking you might be able to use use
sys.path_hooks (Write-up courtesy of PyMOTW).
Thats all I have off the top of my head.