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If you recursively traverse a directory tree by the obvious method, you'll run into trouble with infinite recursion when a symlink points to a parent directory.

An obvious solution would be to just check for symlinks and not follow them at all. But that might be an unpleasant surprise for a user who doesn't expect what behaves for other purposes like a perfectly normal directory to be silently ignored.

An alternative solution might be to keep a hash table of all directories visited so far, and use this to check for loops. But this would require there to be some canonical representation, some way to get the identity, of the directory you are currently looking at (regardless of the path by which you reached it).

Would Unix users typically regard the second solution as less surprising?

If so, is there a way to obtain such a canonical representation/identity of a directory, that's portable across Unix systems? (I'd like it to work across Linux, BSD, Mac OS, Solaris etc. I expect to have to write separate code for Windows.)

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5 Answers 5

up vote 3 down vote accepted

The most frequently ignored API in this field would be

nftw

Nftw has options to avoid it traversing symlinks. It has much more advanced capabilities than that. Here is a simple sample from the man page itself:

#define _XOPEN_SOURCE 500
#include <ftw.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>

static int
display_info(const char *fpath, const struct stat *sb,
             int tflag, struct FTW *ftwbuf)
{
    printf("%-3s %2d %7jd   %-40s %d %s\n",
           (tflag == FTW_D) ?   "d"   : (tflag == FTW_DNR) ? "dnr" :
           (tflag == FTW_DP) ?  "dp"  : (tflag == FTW_F) ?   "f" :
           (tflag == FTW_NS) ?  "ns"  : (tflag == FTW_SL) ?  "sl" :
           (tflag == FTW_SLN) ? "sln" : "???",
           ftwbuf->level, (intmax_t) sb->st_size,
           fpath, ftwbuf->base, fpath + ftwbuf->base);
    return 0;           /* To tell nftw() to continue */
}

int
main(int argc, char *argv[])
{
    int flags = 0;

    if (argc > 2 && strchr(argv[2], 'd') != NULL)
        flags |= FTW_DEPTH;
    if (argc > 2 && strchr(argv[2], 'p') != NULL)
        flags |= FTW_PHYS;

    if (nftw((argc < 2) ? "." : argv[1], display_info, 20, flags)
            == -1)
    {
        perror("nftw");
        exit(EXIT_FAILURE);
    }
    exit(EXIT_SUCCESS);
}

See also

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Not only symlinks, but hard-links as well. Not very common, but not forbidden. (Only root can hardlink directories) The only thing that is canonical is {device_number, inode_number}. But network filesystems can misbehave.

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This problem of identical files must be solved by many applications, for example a checker for file doublettes (indentical contents, different names) and utilities acting on whole directory hierarchies, like tar.

A good implementation wouldn't want to give false positives for hard linked files and symlinked files, either through symlinks to parent directories or to files.

The most portable approach to solve this is identifying files by looking at the POSIX stat/fstat functions and the struct stat they fill in with st_dev and st_ino members. A real world implementation of a file dupe checker in C employing this strategy is samefile (a different implementation of which was a winning entry of the 1998 IOCCC :-)

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The absolute path of the directory is such a representation. You can get it with the realpath function, which is defined in the POSIX standard, so it will work on any POSIX-compliant system. See man 3 realpath.

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Since you haven't specified what language you're working with (if any), let's start with just the shell: if you're on a system with GNU readlink, just use readlink -f <path> to canonicalize it.

If you're on a Mac (which has a non-GNU readlink that behaves differently), see How can I get the behavior of GNU's readlink -f on a Mac? for the way to accomplish the same task.

The other option is to use inode ids to track unique files (via stat or similar), but that'll require first following all of the symlinks anyway (since symlinks themselves do have their own unique inode id), and the simplest way to follow all of the symlinks is, well, readlink.


Alternatively, many programming languages have bindings to the POSIX realpath function, which essentially performs the same function as readlink -f (but as a library call). For instance, Python has os.path.realpath(), C has it as a function in stdlib.h, et cetera.

If you're already working in a language that has such a function, using it is highly recommended, since you'll often get cross-platform compatibility for free (assuming your language is cross-platform).

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