Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

How safe are command lists in shell (or bash) from race conditions?

if [ -h "$dir" ]; then
  echo 'Directory exists and is a symlink'
  exit 1
cd "$dir"

The above code is obviously prone to race conditions: An attacker can create a symlink after the check, but still before changing the directory into it.

Does the same apply to || command lists? In other words: is the below command immune to race conditions, or do the same rules as above still apply?

[ -h "$dir" ] || cd "$dir"

With error message:

[ -h "$dir" ]
  && { echo 'Directory exists and is a symlink'; exit 1; }
  || cd "$dir"
share|improve this question
Are you concerned that an attacker might replace an existing directory with a symlink, or that s/he might create a symlink, or both? – Adam Liss Mar 4 '12 at 1:06
From the test manpage regarding -h: This operator is retained for compatibility with previous versions of this program. Do not rely on its existence; use -L instead. – William Pursell Mar 4 '12 at 1:08
@WilliamPursell: Interesting… my manpage of sh(1) says exactly the opposite: »-L file True if file exists and is a symbolic link. This operator is retained for compatibility with previous versions of this program. Do not rely on its existence; use -h instead.« man bash(1) does not mention any difference between the two. – knittl Mar 4 '12 at 7:51
@AdamLiss: both. Anything he might do to trick me into a wrong directory. With creation a single racy if should suffice, but when he replaces an existing directory with a symlink after check but before changing to the directory, I might end up somewhere else. – knittl Mar 4 '12 at 7:58
@knittl pubs.opengroup.org/onlinepubs/009695399 The open group specification does not appear to indicate any difference between -h and -L. – William Pursell Mar 4 '12 at 13:27

This is a great educational question, but in practice you're solving the wrong problem. Rather than worrying about scripting concurrency issues, the linux security model relies on file system permissions.

If you're worried that an attacker may change the working environment beneath an executing program, then you should protect the environment: ensure that only you have write access to the scripts and binaries that will be running, and create files and directories only in locations that only you can write to.

For binary executables, look into using the setuid bit, which allows an ordinary user to execute them with elevated privileges, but be warned that any process that runs in this fashion must be carefully debugged and checked for security issues. Most linux distributions won't allow scripts to run in this manner, however.

It's worth mentioning that an attacker who's obtained your (or the root) password can easily defeat this and other security measures, but in that case you've got bigger problems. :-)

Good luck!

share|improve this answer
Thanks for your answer. The script in question is/will be run as setuid and gets passed a directory as its first argument, which it will cd into and then perform a number of chmod+chown tasks. (And I don't want someone to perform that tasks on files he is not allowed to) – knittl Mar 4 '12 at 13:40
You're better off using a different programming language, probably. – James Youngman Mar 5 '12 at 23:46
If instead there is something special about the chown commands, perhaps that all the changes are between a limited number of Unix users, and issued by a limited (possibly disjoint) set of users, then you can avoid having a setuid shell scripts, and instead change chown to sudo chown in the script. – James Youngman Mar 7 '12 at 9:51
@JamesYoungman: I don't see a difference between setuid and running a script through sudo. In the end, it's executed as root. – knittl Mar 7 '12 at 11:06
@knittl, yikes! You should never make a shell script setuid. That is a major security hole: there's no reasonable way to make it secure. You need to use a language that is better-suited for this: probably C. – D.W. Mar 7 '12 at 16:47

There are only two secure and relatively portable ways to change directory without following a symbolic link. Neither is easily possible in shell scripts.

Assume for the sake of discussion that we're trying to safely chdir into "foo". The first way is to save the current directory in an open file descriptor with open(".", O_RDONLY), lstat() the "foo" directory, record the st_dev and st_ino values that result, call chdir("foo") and then stat() ".". Compare the resulting the st_dev and st_ino values. If they are the same, you won the race. If not, issue an error message, fchdir() back using your saved fd, and then either abort or try again.

The second, less portable way, is to use fd = open("foo", O_RDONLY|O_NOFOLLOW) and then fchdir(fd). You can also use openat instead of open here. The portability problem is that not all systems have O_NOFOLLOW and some older kernels won't correctly interpret that flag (instead they ignore it, which is a security issue).

For more information take a look at the source code of GNU find, in which I go to quite some trouble to avoid this kind of problem, using a method very similar to the one described above.

As for solving this problem in a shell script:

If your system has a stat(1) command or something like Perl, you can use those to perform the stat operations; you can record the result in a shell variable. This means you can more or less implement the first method in a shell script, except for the need to use fchdir to recover. If it is OK to simply abort immediately when your shell script loses the race, you can certainly adapt the first method for use in the shell. But in the end writing secure code in shell is very, very difficult.

share|improve this answer
Thanks for this detailed answer. I'm already using stat to compare inodes after changing into the directory – knittl Mar 7 '12 at 8:47

I see no reason why using || would not be vulnerable to the same race condition. Indeed, for it not to be vulnerable, it would need to be implemented using either

  • some kind of atomic stat-and-chdir filesystem operation (which I'm pretty sure doesn't exist), or

  • some kind of double check after the cd to ensure that the directory still points to the same place it used to.

I'm no bash guru, but I'm pretty sure neither of these is the case.

share|improve this answer
Double checking sounds like a good idea and is perhaps the only safe way. – knittl Mar 3 '12 at 20:37
I suspect that's the way to go, too. Do note, however, that it's not enough to check that the original directory path still resolves to the same place: someone could've changed it twice. Instead, you need to stat the directory you've actually changed to and check that it's the same directory you stated originally. – Ilmari Karonen Mar 3 '12 at 21:12
thanks for making sure I do it the right way. I'm already comparing inodes: stat -c%i dir && cd dir && stat -c%i '.' && compare both inodes. I don't know how I would even check if the path resolves to the same directory without introducing another race condition ;) – knittl Mar 3 '12 at 21:18
@D.W.: I'm only doing a single check. – knittl Mar 7 '12 at 8:44

Generally speaking, you can't avoid race conditions in shell scripts. You'll need to use C, and use the TOCTTOU-safe interfaces, like openat, fchdir, and the like. Avoiding TOCTTOU (race) vulnerabilities is non-trivial and requires careful study.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.