I like to write a template system in Python, which allows to include files.


    This is a template
    You can safely include files with safe_include`othertemplate.rst`

As you know, including files might be dangerous. For example, if I use the template system in a web application which allows users to create their own templates, they might do something like

I want your passwords: safe_include`/etc/password`

So therefore, I have to restrict the inclusion of files to files which are for example in a certain subdirectory (e.g. /home/user/templates)

The question is now: How can I check, whether /home/user/templates/includes/inc1.rst is in a subdirectory of /home/user/templates?

Would the following code work and be secure?

import os.path

def in_directory(file, directory, allow_symlink = False):
    #make both absolute    
    directory = os.path.abspath(directory)
    file = os.path.abspath(file)

    #check whether file is a symbolic link, if yes, return false if they are not allowed
    if not allow_symlink and os.path.islink(file):
        return False

    #return true, if the common prefix of both is equal to directory
    #e.g. /a/b/c/d.rst and directory is /a/b, the common prefix is /a/b
    return os.path.commonprefix([file, directory]) == directory

As long, as allow_symlink is False, it should be secure, I think. Allowing symlinks of course would make it insecure if the user is able to create such links.

UPDATE - Solution The code above does not work, if intermediate directories are symbolic links. To prevent this, you have to use realpath instead of abspath.

UPDATE: adding a trailing / to directory to solve the problem with commonprefix() Reorx pointed out.

This also makes allow_symlink unnecessary as symlinks are expanded to their real destination

import os.path

def in_directory(file, directory):
    #make both absolute    
    directory = os.path.join(os.path.realpath(directory), '')
    file = os.path.realpath(file)

    #return true, if the common prefix of both is equal to directory
    #e.g. /a/b/c/d.rst and directory is /a/b, the common prefix is /a/b
    return os.path.commonprefix([file, directory]) == directory

13 Answers 13


Python 3's pathlib module makes this straightforward with its Path.parents attribute. For example:

from pathlib import Path

root = Path('/path/to/root')
child = root / 'some' / 'child' / 'dir'
other = Path('/some/other/path')


>>> root in child.parents
>>> other in child.parents
  • 3
    If you consider a path to be a child / parent of itself (for example if you want to test if a path is either /a/b/c or a subdirectory of /a/b/c) then you can use root in [child] + [p for p in child.parents]
    – Tom Bull
    May 8, 2016 at 13:55
  • 5
    Most Pythonic way for Python 3, pathlib really makes things easier to read. It would be worth mentioning if you're playing a lot with relative paths that you might want to call .resolve() before checking if A in B.parents.
    – vincent-lg
    Jun 15, 2018 at 17:06
  • 4
    root in [child] + [p for p in child.parents] can be simplified to root in (child, *child.parents) Jul 9, 2019 at 13:13
  • 3
    It's important to mention that it's a hard requirement to call resolve() on the child first. Otherwise if the child is within ANY part of the root it'll return True.
    – omni
    Nov 22, 2019 at 17:08
  • 6
    Python 3.9 added is_relative_to to `pathlib' which performs this directly.
    – Tom Bull
    Mar 14, 2021 at 16:13

Problems with many of the suggested methods

If you're going to test for directory parentage with string comparison or os.path.commonprefix methods, these are prone to errors with similarly-named paths or relative paths. For example:

  • /path/to/files/myfile would be shown as a child path of /path/to/file using many of the methods.
  • /path/to/files/../../myfiles would not be shown as a parent of /path/myfiles/myfile by many of the methods. In fact, it is.

The previous answer by Rob Dennis provides a good way to compare path parentage without encountering these problems. Python 3.4 added the pathlib module which can perform these kind of path operations in a more sophisticated way, optionally without referencing the underlying OS. jme has described in another previous answer how to use pathlib for the purpose of accurately determining if one path is a child of another. If you prefer not to use pathlib (not sure why, it's pretty great) then Python 3.5 introduced a new OS-based method in os.path that allows you to do perform path parent-child checks in a similarly accurate and error-free manner with a lot less code.

New for Python 3.5

Python 3.5 introduced the function os.path.commonpath. This is a method that is specific to the OS that the code is running on. You can use commonpath in the following way to accurately determine path parentage:

def path_is_parent(parent_path, child_path):
    # Smooth out relative path names, note: if you are concerned about symbolic links, you should use os.path.realpath too
    parent_path = os.path.abspath(parent_path)
    child_path = os.path.abspath(child_path)

    # Compare the common path of the parent and child path with the common path of just the parent path. Using the commonpath method on just the parent path will regularise the path name in the same way as the comparison that deals with both paths, removing any trailing path separator
    return os.path.commonpath([parent_path]) == os.path.commonpath([parent_path, child_path])

Accurate one-liner

You can combine the whole lot into a one-line if statement in Python 3.5. It's ugly, it includes unnecessary duplicate calls to os.path.abspath and it definitely won't fit in the PEP 8 79-character line-length guidelines, but if you like that kind of thing, here goes:

if os.path.commonpath([os.path.abspath(parent_path_to_test)]) == os.path.commonpath([os.path.abspath(parent_path_to_test), os.path.abspath(child_path_to_test)]):
    # Yes, the child path is under the parent path

New for Python 3.9

pathlib has a new method on PurePath called is_relative_to which performs this function directly. You can read the python documentation on how is_relative_to works if you need to see how to use it. Or you can see my other answer for a more full description of how to use it.

  • 5
    WTF would it be necessarry to take a commonpath of 1 path ? imo: abs_parent_path==commonpath([abs_parent_path, abs_child_path]) should suffice ... Jun 29, 2017 at 15:01
  • @MiloslavRaus is correct. Since the os.path.abspath and os.path.realpath functions implicitly chomp trailing directory separators, there's no need to call os.path.commonpath on a single dirname (e.g., '/usr' == os.path.abspath('/usr/') == os.path.realpath('/usr/')). In all other respects, this answer remains the most efficient and robust solution for Python 3.5+. Oct 10, 2019 at 6:20
  • 2
    NOTE: The is_relative_to() method does NOT accurately deal with ../. E.g.: Path('/test1/../test2/myfile.txt').is_relative_to('/test2') == False. If you have those in your path you need to use the Accurate one-liner instead of the New for Python 3.9 suggestion.
    – ropeladder
    Nov 15, 2021 at 15:09
  • Regarding the solution described in this answer and ropeladder's comment, it should be mentioned that the functions os.path.abspath and pathlib.Path.absolute() and thus also is_relative_to all assume that a relative path is meant as relative to the current working directory. Depending on the use case, this assumption can be wrong, eg. if you read the relative path from some config file which assumes a different working directory. In such cases one can use (assuming parent and child are Path objects) parent.resolve() in (parent / child).resolve().parents or child == parent
    – hvb
    Dec 30, 2022 at 13:38
def is_subdir(path, directory):
    path = os.path.realpath(path)
    directory = os.path.realpath(directory)
    relative = os.path.relpath(path, directory)
    return not relative.startswith(os.pardir + os.sep)
  • 4
    os.path.relpath does not include os.sep in my tests, e.g. os.path.relpath("/a", "/a/b"). Oct 12, 2015 at 7:43
  • 10
    @TorstenBronger Good point. Therefore, the answer is wrong as it stands, unless the last line is changed to return not (relative == os.pardir or relative.startswith(os.pardir + os.sep)). By the way, if we insist on proper subdirectory, then also check using (relative == os.curdir). Dec 6, 2015 at 5:05
  • 3
    If you're not on Python 2 don't use this but rather use pathlib as shown in other examples. If you're on Python 2: move.
    – omni
    Nov 22, 2019 at 16:51

os.path.realpath(path): Return the canonical path of the specified filename, eliminating any symbolic links encountered in the path (if they are supported by the operating system).

Use it on directory and subdirectory name, then check latter starts with former.

  • 17
    security vulnerability: see comment by Reorx on OP for example.
    – ninjagecko
    Mar 3, 2013 at 11:02
  • 3
    actually, you need to append the os.sep (if not already included) when calling startswith, as noted by jgoeders,
    – DanJ
    Aug 27, 2015 at 7:06
  • 3
    'a/b/cde' starts with 'a/b/c' but is not a subdirectory.
    – yeoman
    May 1, 2018 at 11:54

New for Python 3.9

pathlib has a new method on PurePath called is_relative_to which performs this function directly. You can read the python documentation on how is_relative_to works, or use this example:

from pathlib import Path

child_path = Path("/path/to/file")
if child_path.is_relative_to("/path"):
    print("/path/to/file is a child of /path") # This prints
if child_path.is_relative_to("/anotherpath"):
    print("/path/to/file is a child of /anotherpath") # This does not print
  • 1
    Thank you for answer. However, in case of child_path = Path("/path/to/../../file") the condition give me wrong result. To fix this, should be if child_path.resolve().is_relative_to("/path"):
    – Jan
    Apr 3 at 18:27

so, I needed this, and due to the criticisms about commonprefx, I went a different way:

def os_path_split_asunder(path, debug=False):
    parts = []
    while True:
        newpath, tail = os.path.split(path)
        if debug: print repr(path), (newpath, tail)
        if newpath == path:
            assert not tail
            if path: parts.append(path)
        path = newpath
    return parts

def is_subdirectory(potential_subdirectory, expected_parent_directory):
    Is the first argument a sub-directory of the second argument?

    :param potential_subdirectory:
    :param expected_parent_directory:
    :return: True if the potential_subdirectory is a child of the expected parent directory

    >>> is_subdirectory('/var/test2', '/var/test')
    >>> is_subdirectory('/var/test', '/var/test2')
    >>> is_subdirectory('var/test2', 'var/test')
    >>> is_subdirectory('var/test', 'var/test2')
    >>> is_subdirectory('/var/test/sub', '/var/test')
    >>> is_subdirectory('/var/test', '/var/test/sub')
    >>> is_subdirectory('var/test/sub', 'var/test')
    >>> is_subdirectory('var/test', 'var/test')
    >>> is_subdirectory('var/test', 'var/test/fake_sub/..')
    >>> is_subdirectory('var/test/sub/sub2/sub3/../..', 'var/test')
    >>> is_subdirectory('var/test/sub', 'var/test/fake_sub/..')
    >>> is_subdirectory('var/test', 'var/test/sub')

    def _get_normalized_parts(path):
        return os_path_split_asunder(os.path.realpath(os.path.abspath(os.path.normpath(path))))

    # make absolute and handle symbolic links, split into components
    sub_parts = _get_normalized_parts(potential_subdirectory)
    parent_parts = _get_normalized_parts(expected_parent_directory)

    if len(parent_parts) > len(sub_parts):
        # a parent directory never has more path segments than its child
        return False

    # we expect the zip to end with the short path, which we know to be the parent
    return all(part1==part2 for part1, part2 in zip(sub_parts, parent_parts))
  • All the string comparison / os.path.commonprefix methods are prone to errors with similarly-named paths or relative paths. This is a much better way of determining if a path is a child of another path and is not subject to the same bugs. If you're using Python 3.5+, there is a new method os.path.commonpath which lends itself to a simpler, more elegant method which is similarly accurate and will not lead to errors when paths are named similarly or specified as relative paths. I've provided a basic implementation in a separate answer.
    – Tom Bull
    May 8, 2016 at 2:26
def is_in_directory(filepath, directory):
    return os.path.realpath(filepath).startswith(
        os.path.realpath(directory) + os.sep)

I like the "path in other_path.parents" approached mentioned in another answer because I'm a big fan of pathlib, BUT I feel that approach is a bit heavy (it creates one Path instance for each parent to root of path). Also the case where path == other_path will fail with that approach, whereas os.commonpath would succeed on that case.

The following is a different approach, with its own set of pros and cons compared to other methods identified in the various answers:

except ValueError:
   ...no common path...
   ...common path...

which is a little more verbose but can easily be added as a function in your application's common utilities module or even add the method to Path at startup time.

  • 5
    Oliver's answer appears to work, but .resolve() still needs to be called on both paths before running .relative_to(), if dealing with potentially relative paths.
    – txace
    May 8, 2019 at 0:16

I used below function for similar problem:

def is_subdir(p1, p2):
    """returns true if p1 is p2 or its subdirectory"""
    p1, p2 = os.path.realpath(p1), os.path.realpath(p2)
    return p1 == p2 or p1.startswith(p2+os.sep)

After running into problems with symbolic link I've modified the function. Now it checks if both paths are directories.

def is_subdir(p1, p2):
    """check if p1 is p2 or its subdirectory
    :param str p1: subdirectory candidate
    :param str p2: parent directory
    :returns True if p1,p2 are directories and p1 is p2 or its subdirectory"""
    if os.path.isdir(p1) and os.path.isdir(p2):
        p1, p2 = os.path.realpath(p1), os.path.realpath(p2)
        return p1 == p2 or p1.startswith(p2+os.sep)
        return False

with your inspirations, this method has been added to my utils:

def is_in_basefolder(path_to_check: PosixPath, basefolder: PosixPath):
        check if a given path is in base folder
            path_to_check: a path to match with base folder
            basefolder: the base folder
        path = path_to_check.resolve()
        base = basefolder.resolve()
        if path == base:
            return True
        if base.stem in path.parts:
            return True
            return False
  • 1
    It would be useful to know how you would use this code. Perhaps give us a directory structure and a few scenarios where we can see the desired output. Feb 23, 2021 at 18:59
import os
from typing import Union

def equals_or_contained(path: Union[str, os.PathLike], directory: Union[str, os.PathLike]) -> bool:
    """checks whether the path is inside the directory or is equal to it"""
    p = Path(path).absolute()
    d = Path(directory).absolute()
    if p == d:
        return True
        return True
    except ValueError:
        return False

I would test the result from commonprefix against the filename to get a better answer, something like this:

def is_in_folder(filename, folder='/tmp/'):
    # normalize both parameters
    fn = os.path.normpath(filename)
    fd = os.path.normpath(folder)

    # get common prefix
    commonprefix = os.path.commonprefix([fn, fd])
    if commonprefix == fd:
        # in case they have common prefix, check more:
        sufix_part = fn.replace(fd, '')
        sufix_part = sufix_part.lstrip('/')
        new_file_name = os.path.join(fd, sufix_part)
        if new_file_name == fn:
            return True
    # for all other, it's False
    return False

Based on another answer here, with correction, and with a user-friendlier name:

def isA_subdirOfB_orAisB(A, B):
    """It is assumed that A is a directory."""
    relative = os.path.relpath(os.path.realpath(A), 
    return not (relative == os.pardir
            or  relative.startswith(os.pardir + os.sep))

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