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We all know that eval is dangerous, even if you hide dangerous functions, because you can use Python's introspection features to dig down into things and re-extract them. For example, even if you delete __builtins__, you can retrieve them with

[c for c in ().__class__.__base__.__subclasses__()  
 if c.__name__ == 'catch_warnings'][0]()._module.__builtins__

However, every example I've seen of this uses attribute access. What if I disable all builtins, and disable attribute access (by tokenizing the input with a Python tokenizer and rejecting it if it has an attribute access token)?

And before you ask, no, for my use-case, I do not need either of these, so it isn't too crippling.

What I'm trying to do is make SymPy's sympify function more safe. Currently it tokenizes the input, does some transformations on it, and evals it in a namespace. But it's unsafe because it allows attribute access (even though it really doesn't need it).

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That depends on what you mean by dangerous... I imagine that an attacker could create an expression to make a really big integer that would cause you to run out of memory.... – mgilson Mar 4 at 19:58
@mgilson that's a valid point. I suppose it's possible to protect against this by putting memory/time guards on your application, but definitely worth being aware of. – asmeurer Mar 4 at 20:00
I think this also depends on the locals that you pass in... a + b is only as safe as a.__add__ and b.__radd__ are safe... – mgilson Mar 4 at 20:06
is ast.literal_eval a possibility or do you need more than that but still not attributes? What about calls? – Jason S Mar 4 at 20:10
related:… – wim Mar 4 at 20:25

I'm going to mention one of the new features of Python 3.6 - f-strings.

They can evaluate expressions,

>>> eval('f"{().__class__.__base__}"', {'__builtins__': None}, {})
"<class 'object'>"

but the attribute access won't be detected by Python's tokenizer:

0,0-0,0:            ENCODING       'utf-8'        
1,0-1,1:            ERRORTOKEN     "'"            
1,1-1,27:           STRING         'f"{().__class__.__base__}"'
2,0-2,0:            ENDMARKER      '' 
share|improve this answer
Well, you simply have to consider the contents of all f-strings and check them (or more safely: disallow them). – Bakuriu Mar 4 at 21:40
This really highlights how much of a moving target trying to secure eval is. Right now, it's f-strings. Who knows what 3.7 will bring? – user2357112 Mar 4 at 22:51

It is possible to construct a return value from eval that would throw an exception outside eval if you tried to print, log, repr, anything:

eval('''((lambda f: (lambda x: x(x))(lambda y: f(lambda *args: y(y)(*args))))
        (lambda f: lambda n: (1,(1,(1,(1,f(n-1))))) if n else 1)(300))''')

This creates a nested tuple of form (1,(1,(1,(1...; that value cannot be printed (on Python 3), stred or repred; all attempts to debug it would lead to

RuntimeError: maximum recursion depth exceeded while getting the repr of a tuple

pprint and saferepr fails too:

  File "/usr/lib/python3.4/", line 390, in _safe_repr
    orepr, oreadable, orecur = _safe_repr(o, context, maxlevels, level)
  File "/usr/lib/python3.4/", line 340, in _safe_repr
    if issubclass(typ, dict) and r is dict.__repr__:
RuntimeError: maximum recursion depth exceeded while calling a Python object

Thus there is no safe built-in function to stringify this: the following helper could be of use:

def excsafe_repr(obj):
        return repr(obj)
        return object.__repr__(obj).replace('>', ' [exception raised]>')

And then there is the problem that print in Python 2 does not actually use str/repr, so you do not have any safety due to lack of recursion checks. That is, take the return value of the lambda monster above, and you cannot str, repr it, but ordinary print (not print_function!) prints it nicely. However, you can exploit this to generate a SIGSEGV on Python 2 if you know it will be printed using the print statement:

print eval('(lambda i: [i for i in ((i, 1) for j in range(1000000))][-1])(1)')

crashes Python 2 with SIGSEGV. This is WONTFIX in the bug tracker. Thus never use print-the-statement if you want to be safe. from __future__ import print_function!

This is not a crash, but

eval('(1,' * 100 + ')' * 100)

when run, outputs

s_push: parser stack overflow
Traceback (most recent call last):
  File "", line 1, in <module>
    eval('(1,' * 100 + ')' * 100)

The MemoryError can be caught, is a subclass of Exception. The parser has some really conservative limits to avoid crashes from stackoverflows (pun intended). However, s_push: parser stack overflow is output to stderr by C code, and cannot be suppressed.

And just yesterday I asked why doesn't Python 3.4 be fixed for a crash from,

% python3  
Python 3.4.3 (default, Mar 26 2015, 22:03:40) 
[GCC 4.9.2] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> class A:
...     def f(self):
...         nonlocal __x
[4]    19173 segmentation fault (core dumped)  python3

and Serhiy Storchaka's answer confirmed that Python core devs do not consider SIGSEGV on seemingly well-formed code a security issue:

Only security fixes are accepted for 3.4.

Thus it can be concluded that it can never be considered safe to execute any code from 3rd party in Python, sanitized or not.

And Nick Coghlan then added:

And as some additional background as to why segmentation faults provoked by Python code aren't currently considered a security bug: since CPython doesn't include a security sandbox, we're already relying entirely on the OS to provide process isolation. That OS level security boundary isn't affected by whether the code is running "normally", or in a modified state following a deliberately triggered segmentation fault.

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"Thus there is no safe way to dump this value into logs, or anything - any attempt would lead to further exceptions being thrown." Bug-worthy? – cat Mar 5 at 1:23
A well-known issue. – Antti Haapala Mar 5 at 6:10
See, Haskell doesn't have that issue :-D Even the weirdest of stuff either bottoms out and can be easily caught or stringifies to an ordinary infinitely long string, which you can print an arbitrarily long part of. – Jan Dvorak Mar 5 at 9:25
The first one can be achieved in 3.6 with f-strings, no eval needed. – cat Mar 5 at 19:11
@tac you cannot do f-strings at runtime without eval... – Antti Haapala Mar 5 at 19:12

Users can still DoS you by inputting an expression that evaluates to a huge number, which would fill your memory and crash the Python process, for example


I am definitely still curious if more traditional attacks, like recovering builtins or creating a segfault, are possible here.

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The only way to avoid this is to use a timeout that blocks the execution of the thread that is running that after x time or when too many allocations are performed (which could be pretty hard to do...) – Bakuriu Mar 4 at 21:50
@Bakuriu: If you're working within Python, that's going to be a lot harder because this is likely to be evaluated while holding the GIL. For a number that big, there's also a nonzero chance of OOMing, depending on the circumstances. – Kevin Mar 5 at 5:24

I don't believe Python is designed to have any security against untrusted code. Here's an easy way to induce a segfault via stack overflow (on the C stack) in the official Python 2 interpreter:

eval('()' * 98765)

From my answer to the "Shortest code that returns SIGSEGV" Code Golf question.

share|improve this answer
In Python 3 this gives maximum recursion depth exceeded. If your Python 2 didn't give an exception or crash, you need to increase the number! I needed 987650 on 1 system. – Antti Haapala Mar 5 at 6:14
Your original did crash there btw :D – Antti Haapala Mar 5 at 6:30

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