# Moving a directory atomically

I have two directories in the same parent directory. Call the parent directory base and the children directories alpha and bravo. I want to replace alpha with bravo. The simplest method is:

rm -rf alpha
mv bravo alpha


The mv command is atomic, but the rm -rf is not. Is there a simple way in bash to atomically replace alpha with bravo? If not, is there a complicated way?

By the by, it's not an insurmountable problem if the directory doesn't exist for a short period. There's only one place that tries to access alpha, and it checks if alpha exists before doing anything critical. If not, it gives an error message. But it would be nice if there was a way to do this. :) Maybe there's some way to modify the inodes directly, or something...

• Your test in the addendum isn't safe - there is a race condition. Consider what happens if the check runs first (and Alpha exists) and then it is switched out while the second process deletes Alpha, and then it is switched back in to continue the run, with Alpha now missing. – Oddthinking Nov 21 '08 at 1:29

You can do this if you use symlinks:

Let's say alpha is a symlink to directory alpha_1, and you want to switch the symlink to point to alpha_2. Here's what that looks like before the switch:

$ls -l lrwxrwxrwx alpha -> alpha_1 drwxr-xr-x alpha_1 drwxr-xr-x alpha_2  To make alpha refer to alpha_2, use ln -nsf: $ ln -nsf alpha_2 alpha
$ls -l lrwxrwxrwx alpha -> alpha_2 drwxr-xr-x alpha_1 drwxr-xr-x alpha_2  Now you can remove the old directory: $ rm -rf alpha_1


Note that this is NOT actually a fully atomic operation, but it does happen very quickly since the "ln" command both unlinks and then immediately recreates the symlink. You can verify this behaviour with strace:

$strace ln -nsf alpha_2 alpha ... symlink("alpha_2", "alpha") = -1 EEXIST (File exists) unlink("alpha") = 0 symlink("alpha_2", "alpha") = 0 ...  You can repeat this procedure as desired: e.g. when you have a new version, alpha_3: $ ln -nsf alpha_3 alpha
$rm -rf alpha_2  • linux VFS doesn't support multiple directory hardlinks. Some other *nixes have limited support, restricted to the superuser. You also still would have to collect all the now orphaned links of the subdirectories and files. – JimB Nov 21 '08 at 1:45 • Yes, it should be a soft link to be generally applicable. I have edited my response. However I don't believe there will be any orphans as long as alpha is always a link, which is what I meant by changing the question slightly. Of course, you will always have to remove the previous version of the dir – Doug Currie Nov 21 '08 at 3:32 • Very close; turns out you need the -n flag too, otherwise you'll end up creating a symlink under the original directory. I actually tried your idea before posting the question, and it didn't work, but when I looked again and noticed the -n flag, that did it. Also, poop on whoever voted you down :) – dirtside Nov 21 '08 at 18:59 • process A tries to do something within alpha whatever you do after this point might be atomic or not, you can still erase the directory while it is used. Being atomic is useless, what you need is serialisation, not atomicity, unless your code accessing alpha is also atomic. – shodanex Nov 16 '09 at 16:54 • @dirtside Why did you accept this answer? It is clearly not atomic. – Navin May 14 '17 at 2:30 The final solution is combining the symlink- and the rename-approach: mkdir alpha_real ln -s alpha_real alpha # now use "alpha" mkdir beta_real ln -s beta_real tmp # atomically rename "tmp" to "alpha" # use -T to actually replace "alpha" instead of moving *into* "alpha" mv -T tmp alpha  Of course, the application accessing alpha has to be able to deal with symlinks changing in the path. Picking up on David's solution here, which is fully atomic ... the only problem you'd run into is that the -T option for mv is non-POSIX, and so certain POSIX OSes may not support it (FreeBSD, Solaris, etc. ... http://pubs.opengroup.org/onlinepubs/9699919799/utilities/mv.html). With slight modification, this approach can be altered to be fully atomic, and portable across all POSIX OSes: mkdir -p tmp/real_dir1 tmp/real_dir2 touch tmp/real_dir1/a tmp/real_dir2/a # start with ./target_dir pointing to tmp/real_dir1 ln -s tmp/real_dir1 target_dir # create a symlink named target_dir in tmp, pointing to real_dir2 ln -sf tmp/real_dir2 tmp/target_dir # atomically mv it into ./ replacing ./target_dir mv tmp/target_dir ./  If you mean atomic across both operations, I don't believe so. The closest would be: mv alpha delta mv bravo alpha rm -rf delta  but that would still have a small window where alpha didn't exist. To minimize the likelihood of anything trying to use alpha while it's not there you could (if you have the authority): nice --20 ( mv alpha delta ; mv bravo alpha ) rm -rf delta  which will crank up your process priority substantially while the mv operations are happening. If, as you say in your addendum, there's only one place that checks alpha and it errors if it's not there, you could change that code to not error immediately, but try again in a short time (easily sub-second for two mv operations) - these retries should alleviate any problem unless you're replacing alpha very frequently. • That's about as fast as you can do it in the shell; you could write a custom piece of C to move the two directories which would shave a few milliseconds off the time interval, or use a Perl script (or choose your own poison). There'd be no point in rewriting 'rm -fr', though. – Jonathan Leffler Nov 21 '08 at 1:28 Use a separate, guaranteed atomic, operation to act as a semaphore. So, if the creating and removing a file operations are atomic: 1) create a file called "semaphore". 2) If and only if that is successful (no conflict with existing file), do the operation (either process alpha or move the directory, depending on the process) 3) rm semaphore. • that would only help if any operation supposed to happen on alpha is re-written to check for semaphore first and wait for being able to lock the semaphore itself .. and if they prevent you from creating your semaphore when they start their own operation. – PypeBros Sep 2 '15 at 14:14 • @PypeBros: Yes. If you don't check it before you do the operation, it isn't being used as a semaphore. If it can be created by two concurrent processes, it isn't a semaphore. – Oddthinking Sep 2 '15 at 16:25 The SQLite documentation section File Locking and Concurrency in SQLite Version 3 has a well-written description of its escalating locking protocol to control concurrent reading, exclusive writing, and rollback after a crash. Some of those ideas apply here. This should do the trick: mkdir bravo_dir alpha_dir ln -s bravo_dir bravo ln -s alpha_dir alpha mv -fT bravo alpha  strace mv -fT bravo alpha shows: rename("bravo", "alpha")  which looks pretty atomic to me. Since Linux 3.15, the new renameat2 system call can atomically exchange two paths on the same file system. However, there’s not even a glibc wrapper for it yet, let alone a coreutils way to access it. So it would look something like this: int dirfd = open(".../base", O_PATH | O_DIRECTORY | O_CLOEXEC); syscall(SYS_renameat2, dirfd, "alpha", dirfd, "bravo", RENAME_EXCHANGE); close(dirfd); system("rm -rf alpha");  (Of course, you should do proper error handling etc. – see this gist for a more sophisticated renameat2 wrapper.) That said – the symlink solution mentioned by others is both easier and portable, so unless bravo already exists and you must atomically update it, go with the symlink instead. Even if you were accessing the inodes directly there would still be no way to atomically swap the inode values in user-space. Worrying about the atomic nature of the operation is meaningless. The thing is, the access to alpha by the other task will not be atomic anyway. Oddthinking's semaphore approach is the only way to go. If you can't modify the other task then you'll have to ensure it's not running before doing the replacement. I don't believe there's any atomic way to do this. Your best bet is to do something like this: mv alpha delme mv bravo alpha rm -rf delme  Something to keep in mind is that if your process has any of the files in alpha open when this move/delete occurs the process will not notice and any data written will be lost when the file is closed and finally removed. mv and ln can be used for atomic operations. I've used ln(1) to deploy web applications atomically. The correct way to replace a symlink is with ln -nsf ln -nsf <target> <link_name>  e.g. $ mkdir dir1
$mkdir dir2$ ln -s dir1 mylink
$ls -l mylink lrwxrwxrwx 1 phil phil 4 Nov 16 14:45 mylink -> dir1$ ln -nsf dir2 mylink
lrwxrwxrwx  1 phil phil 4 Nov 16 14:46 mylink -> dir2


It is also possible to replace a whole parts of the content at once in some prefix (Z here) using unionfs-fuse:

# mkdir a b c Z
# touch a/1 b/2 c/3
# ln -s a X
# ln -s b Y
# unionfs X=RW:Y=RW Z
# shopt -s globstar
# file **
a:   directory
a/1: empty
b:   directory
b/2: empty
c:   directory
c/3: empty
Z:   directory
Z/1: empty
Z/2: empty
# ln -sfn c Y
# file **/*
a:   directory
a/1: empty
b:   directory
b/2: empty
c:   directory
c/3: empty
X/1: empty
Y/3: empty
Z:   directory
Z/1: empty
Z/3: empty
# fusermount -u Z
# rm -r a b c X Y Z


Why don't you just do something like:

rm -rf alpha/*
mv bravo/* alpha/
rm -rf bravo/


That would mean that everything in alpha is destroyed, alpha never gets deleted, and all the contents get moved.