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I wish to write to a file based on whether that file already exists or not, only writing if it doesn't already exist (in practice, I wish to keep trying files until I find one that doesn't exist).

The following code shows a way in which a potentially attacker could insert a symlink, as suggested in this post in between a test for the file and the file being written. If the code is run with high enough permissions, this could overwrite an arbitrary file.

Is there any way to solve this problem?

import os
import errno

file_to_be_attacked = 'important_file'

with open(file_to_be_attacked, 'w') as f:
    f.write('Some important content!\n')

test_file = 'testfile'

try:
    with open(test_file) as f: pass
except IOError, e:

    # symlink created here
    os.symlink(file_to_be_attacked, test_file)

    if e.errno != errno.ENOENT:
        raise
    else:
        with open(test_file, 'w') as f:
            f.write('Hello, kthxbye!\n')
share|improve this question
    
Check atomic writing with Python stackoverflow.com/questions/2333872/… –  Mikko Ohtamaa Jun 11 '12 at 11:19
    
@Mikko That doesn’t help here. –  Konrad Rudolph Jun 11 '12 at 11:19
    
Ah ok. I understood what's the matter... you write ONLY if the file exist? –  Mikko Ohtamaa Jun 11 '12 at 11:23
    
Could you write the file in a temporary location, then do a copy command without allowing overwrite? –  Eric Jun 11 '12 at 11:33

5 Answers 5

up vote 32 down vote accepted

Yes, but not using Python's standard open() call. You'll need to use os.open() instead, which allows you to specify flags to the underlying C code.

In particular, you want to use O_CREAT | O_EXCL. From the man page for open(2) under O_EXCL on my Unix system:

Ensure that this call creates the file: if this flag is specified in conjunction with O_CREAT, and pathname already exists, then open() will fail. The behavior of O_EXCL is undefined if O_CREAT is not specified.

When these two flags are specified, symbolic links are not followed: if pathname is a symbolic link, then open() fails regardless of where the symbolic link points to.

O_EXCL is only supported on NFS when using NFSv3 or later on kernel 2.6 or later. In environments where NFS O_EXCL support is not provided, programs that rely on it for performing locking tasks will contain a race condition.

So it's not perfect, but AFAIK it's the closest you can get to avoiding this race condition.

Edit: the other rules of using os.open() instead of open() still apply. In particular, if you want use the returned file descriptor for reading or writing, you'll need one of the O_RDONLY, O_WRONLY or O_RDWR flags as well.

All the O_* flags are in Python's os module, so you'll need to import os and use os.O_CREAT etc.

Example:

import os
import errno

flags = os.O_CREAT | os.O_EXCL | os.O_WRONLY

try:
    file_handle = os.open('filename', flags)
except OSError as e:
    if e.errno == errno.EEXIST:  # Failed as the file already exists.
        pass
    else:  # Something unexpected went wrong so reraise the exception.
        raise
else:  # No exception, so the file must have been created successfully.
    with os.fdopen(file_handle, 'w') as file_obj:
        # Using `os.fdopen` converts the handle to an object that acts like a
        # regular Python file object, and the `with` context manager means the
        # file will be automatically closed when we're done with it.
        file_obj.write("Look, ma, I'm writing to a new file!")
share|improve this answer
    
+1 for the obviously correct answer. I'm personally curious to know how many people actually have issues with the NFS caveat—I (perhaps recklessly) dismiss it as an obsolete environment my code should never be run on. –  zigg Jun 11 '12 at 11:59
1  
@zigg: NFSv3 is from 1995, so it seems fair to regard older versions as obsolete. –  larsmans Jun 11 '12 at 12:20
1  
I'd be more worried about the kernel version, personally. If you're running anything even vaguely resembling an up-to-date system, you should have no issue, but RHEL 3 (still in extended support phase) is running a 2.4 kernel, for example. Also, I've not investigated if they provide atomic writes on Windows on FAT or NTFS, which is a potentially major limitation. –  me_and Jun 11 '12 at 12:38
1  
@me_and The python page on open flag constants suggests that this works fine with Windows. I'll be trying it shortly! –  Henry Gomersall Jun 11 '12 at 12:42
1  
True, but I've not seen anywhere (including MSDN) that explicitly says these flags give atomic file creation. Possibly I'm being overly paranoid, but I'd want to see that "atomic" keyword before trusting this for anything that's security-critical. –  me_and Jun 11 '12 at 13:36

For reference, Python 3.3 implements a new 'x' mode in the open() function to cover this use-case (create only, fail if file exists).

share|improve this answer
    
Good suggestion. Unfortunately this appears to be POSIX-only (doesn't work on Windows): Python 3.2 (r32:88445, Feb 20 2011, 21:30:00) [MSC v.1500 64 bit (AMD64)] on win32 >>> open("c:/temp/foo.csv","wx") ValueError: invalid mode: 'wx' –  Dan Lenski Mar 5 at 16:28
2  
You're using python 3.2; the 'x' mode is in 3.3 and above but it is cross platform. Incidentally, you only use 'x' instead of 'wx' - the write mode is redundant as the only thing you could do with the file is write to it anyway –  Dave Jones Mar 8 at 13:19

This code will easily create a FILE if one does not exists.

import os
if not os.path.exists('file'):
    open('file', 'w').close() 
share|improve this answer
7  
Yes it will. The important point about the question was the safety aspect. The problem is that between identifying the presence of the file and using it or creating it, something might change that results in a bad outcome (as in the original question). –  Henry Gomersall Mar 14 '13 at 9:49

You can use the code below to do this:

import os
if not os.path.exists('file'):
    open('file', 'w').close() 
share|improve this answer

Based on the comments, here is my tentative solution. Feel free to highlight any problems!

import os
import errno
import tempfile

file_to_be_attacked = 'important_file'

with open(file_to_be_attacked, 'w') as f:
    f.write('Some important content!\n')

test_file = 'testfile'

import os, errno
try:
    with open(test_file) as f: pass
except IOError, e:

    # symlink created here
    os.symlink(file_to_be_attacked, test_file)

    if e.errno != errno.ENOENT:
        raise
    else:
        with tempfile.NamedTemporaryFile(
                'w', dir=os.getcwd(), delete=False) as f:
            f.write('Hello, kthxbye!\n')
            temp_name = f.name

        os.rename(temp_name, test_file)
share|improve this answer
    
I don’t see that this solves the problem. The original race condition is still there in the same form. –  Konrad Rudolph Jun 11 '12 at 11:47
    
This will have you silently overwriting that test file on Unix. Which I'm guessing isn't what you want, since that's exactly what would happen in your original code. –  me_and Jun 11 '12 at 11:48
    
But the symlink gets overwritten with test_file only if the file did not already exist, which is exactly what I was expecting. It solves one half of the problem in that I think it stops the security hole, but doesn't necessarily stop the problem of a competing file creator wanting to use the same file as me. –  Henry Gomersall Jun 11 '12 at 11:52
    
Right, your worry is specifically about symlinks causing you to clobber a different file, not just about overwriting files in general? In that case, I suspect this is the simplest Python solution, but it would help to make that being the specific requirement clearer in your question. –  me_and Jun 11 '12 at 11:55

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