While I tried to submit my code which contains eval() function, all of the web compilers like those in pythontutor.com, programmr.com, coursera.org autotester, etc., returned a name error. What is the reason for not implementing this function on web compilers?
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Code execution can be limited on multiple levels. The most powerful tool to limit the functionality of code is AST inspection and AST modification. Python code is parsed, tokenized, transformed into an abstract syntax tree and finally the abstract syntax tree is validated and modified.
Eval and exec can be abused to sneak code around AST inspection. Because the feature is not needed for online examples it's simply omitted.
I'll take a stab at this:
I don't like admitting I'm wrong but in this case I think I have to.
I'll point out that it's still true that you're executing use code either way, so you need to actually secure the interpreter. I still believe that "there is no point whatsoever trying to blacklist, or even whitelist, allowed actions if those actions exist within the interpreter" and thus blocking
Here's the key point:
The maker of that Python Tutor executed code handed to them from the outside. Despite blocking many things, including
Further Edit: I've contacted the owner of Python Tutor and he's said he's aware of such, supposedly protections exist at a lower level, too. So it's not an exploit, but that's primarily because there are protections at "a lower level". That's how you're meant to guard against attacks, not blacklists.
Further, Further Edit: I've brought down Python Tutor, although the site seems to be up again (not functional, just up), 'cause I was seeing whether I could read/write anything with this exploit of mine (at the request of Philip Guo, the owner). It seems I can at least break the site :/. Sorry, 'twas an accident. It does prove that running untrusted code is dangerous, though, which is what I've been saying all along.
However, the question asks about intention, not about whether blocking
I won't admit that I'm wrong about how you should treat
What I previously wrote:
Firstly, it is almost definitely nothing to do with safety. Safety by obscurity never works, and it's a silly thing to try. You cannot blacklist bad functions by looking for calls to the function in a dynamic language. An easy example of obscuring
so there's no protection. I'll say it again: there is no point whatsoever trying to blacklist, or even whitelist, allowed actions if those actions exist within the interpreter. This means that anything
If you ever deeply inspect code, you'll realise that at compile-to-bytecode-time some stuff gets hard coded, such as name bindings. When running things like "eval" you cannot just run the code inline, you have to compile and dynamically extract things from a scope. Supporting such dynamism in a target language is a challenging task, and the writers probably just didn't think that it was worth doing.
This is especially true if the code is compiled in the cloud and executed locally:
That's my guess, although I don't know how this stuff is actually implemented.