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I know that there are questions similar to this, but a lot of them are very open and don't help me too much...

I need to recursively list all directories and files in C programming. I have looked into FTW but that is not included with the 2 operating systems that I am using (Fedora and Minix). I am starting to get a big headache from all the different things that I have read over the past few hours.

If somebody knows of a code snippet I could look at that would be amazing or if anyone can give me good direction on this I would be very grateful.

Thanks

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Why not just do this in a scripting language? That would be faster and easier to write. –  dbeer Dec 8 '11 at 20:21
2  
@dbeer What if he needs this information inside a C program? –  user529758 Oct 1 '13 at 13:38

3 Answers 3

up vote 10 down vote accepted

Here is a recursive version:

#include <unistd.h>
#include <sys/types.h>
#include <dirent.h>
#include <stdio.h>

void listdir(const char *name, int level)
{
    DIR *dir;
    struct dirent *entry;

    if (!(dir = opendir(name)))
        return;
    if (!(entry = readdir(dir)))
        return;

    do {
        if (entry->d_type == DT_DIR) {
            char path[1024];
            int len = snprintf(path, sizeof(path)-1, "%s/%s", name, entry->d_name);
            path[len] = 0;
            if (strcmp(entry->d_name, ".") == 0 || strcmp(entry->d_name, "..") == 0)
                continue;
            printf("%*s[%s]\n", level*2, "", entry->d_name);
            listdir(path, level + 1);
        }
        else
            printf("%*s- %s\n", level*2, "", entry->d_name);
    } while (entry = readdir(dir));
    closedir(dir);
}

int main(void)
{
    listdir(".", 0);
    return 0;
}
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Should be defined in <dirent.h>. What platform are you compiling this on? –  lloydm Dec 8 '11 at 23:00
    
gcc under fedora. –  Charlie Dec 8 '11 at 23:07
    
it was actually the built in compiler with the IDE i was using didnt like it, it ran fine through GCC in terminal –  Charlie Dec 8 '11 at 23:24
    
Oh BTW, change this code so it's while ((entry = readdir(dir)) and remove if (!(entry = readdir(dir)), or at least if readdir fails, make sure you call closedir before returning. –  lloydm Dec 9 '11 at 0:00
    
How does this behave in the presence of cyclic links? –  Kerrek SB Mar 25 '12 at 10:47
int is_directory_we_want_to_list(const char *parent, char *name) {
  struct stat st_buf;
  if (!strcmp(".", name) || !strcmp("..", name))
    return 0;
  char *path = alloca(strlen(name) + strlen(parent) + 2);
  sprintf(path, "%s/%s", parent, name);
  stat(path, &st_buf);
  return S_ISDIR(st_buf.st_mode);
}

int list(const char *name) {
  DIR *dir = opendir(name);
  struct dirent *ent;
  while (ent = readdir(dir)) {
    char *entry_name = ent->d_name;
    printf("%s\n", entry_name);
    if (is_directory_we_want_to_list(name, entry_name)) {
      // You can consider using alloca instead.
      char *next = malloc(strlen(name) + strlen(entry_name) + 2);
      sprintf(next, "%s/%s", name, entry_name);
      list(next);
      free(next);
    }
  }
  closedir(dir);
}

Header files worth being skimmed in this context: stat.h, dirent.h. Bear in mind that the code above isn't checking for any errors which might occur.

A completely different approach is offered by ftw defined in ftw.h.

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you aren't recursing. it doesn't look like it at least. Did you mean to call list(entry_name) below your comment? –  Jon Dec 8 '11 at 20:09
1  
@Jon, that's true, I just wrote a skeleton to help the OP to get started. If it's not enough I can elaborate. –  Jan Dec 8 '11 at 20:12
    
So that would list all files in a directory along with all the sub directories and all of the files inside of the sub directories? –  Charlie Dec 8 '11 at 20:24
    
It's the start of a snippet that does. He put in comments what else needed to be added. As posted there is no check for file vs. dir, or to ensure directory isn't . or .., and no recursive call, so I think it will only print the files in the given directory. –  prelic Dec 8 '11 at 20:31
    
I've updated the answer. Now it lists contents of given directory and recurs to subdirectories for which is_directory_we_want_to_list returns a non-zero value. HTH. –  Jan Dec 8 '11 at 20:33

Why does everyone insist on reinventing the wheel again and again?

POSIX.1-2008 standardized the nftw() function, also defined in the Single Unix Specification v4 (SuSv4), and available in Linux (glibc, man 3 nftw), OS X, and most current BSD variants. It is not new at all.

Naïve opendir()/readdir()/closedir() -based implementations almost never handle the cases where directories or files are moved, renamed, or deleted during the tree traversal, whereas nftw() should handle them gracefully.

As an example, consider the following C program that lists the directory tree starting at the current working directory, or at each of the directories named on the command line, or just the files named at the command line:

/* We want POSIX.1-2008 + XSI, i.e. SuSv4, features */
#define _XOPEN_SOURCE 700

#include <stdlib.h>
#include <unistd.h>
#include <ftw.h>
#include <time.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>


/* POSIX.1 says each process has at least 20 file descriptors.
 * Three of those belong to the standard streams.
 * Here, we use a conservative estimate of 15 available;
 * assuming we use at most two for other uses in this program,
 * we should never run into any problems.
 * Most trees are shallower than that, so it is efficient.
 * Deeper trees are traversed fine, just a bit slower.
 * (Linux allows typically hundreds to thousands of open files,
 *  so you'll probably never see any issues even if you used
 *  a much higher value, say a couple of hundred, but
 *  15 is a safe, reasonable value.)
*/
#ifndef USE_FDS
#define USE_FDS 15
#endif

int print_entry(const char *filepath, const struct stat *info,
                const int typeflag, struct FTW *pathinfo)
{
    /* const char *const filename = filepath + pathinfo->base; */
    const double bytes = (double)info->st_size; /* Not exact if large! */
    struct tm mtime;

    localtime_r(&(info->st_mtime), &mtime);

    printf("%04d-%02d-%02d %02d:%02d:%02d",
           mtime.tm_year+1900, mtime.tm_mon+1, mtime.tm_mday,
           mtime.tm_hour, mtime.tm_min, mtime.tm_sec);

    if (bytes >= 1099511627776.0)
        printf(" %9.3f TiB", bytes / 1099511627776.0);
    else
    if (bytes >= 1073741824.0)
        printf(" %9.3f GiB", bytes / 1073741824.0);
    else
    if (bytes >= 1048576.0)
        printf(" %9.3f MiB", bytes / 1048576.0);
    else
    if (bytes >= 1024.0)
        printf(" %9.3f KiB", bytes / 1024.0);
    else
        printf(" %9.0f B  ", bytes);

    if (typeflag == FTW_SL) {
        char   *target;
        size_t  maxlen = 1023;
        ssize_t len;

        while (1) {

            target = malloc(maxlen + 1);
            if (target == NULL)
                return ENOMEM;

            len = readlink(filepath, target, maxlen);
            if (len == (ssize_t)-1) {
                const int saved_errno = errno;
                free(target);
                return saved_errno;
            }
            if (len >= (ssize_t)maxlen) {
                free(target);
                maxlen += 1024;
                continue;
            }

            target[len] = '\0';
            break;
        }

        printf(" %s -> %s\n", filepath, target);
        free(target);

    } else
    if (typeflag == FTW_SLN)
        printf(" %s (dangling symlink)\n", filepath);
    else
    if (typeflag == FTW_F)
        printf(" %s\n", filepath);
    else
    if (typeflag == FTW_D || typeflag == FTW_DP)
        printf(" %s/\n", filepath);
    else
    if (typeflag == FTW_DNR)
        printf(" %s/ (unreadable)\n", filepath);
    else
        printf(" %s (unknown)\n", filepath);

    return 0;
}


int print_directory_tree(const char *const dirpath)
{
    int result;

    /* Invalid directory path? */
    if (dirpath == NULL || *dirpath == '\0')
        return errno = EINVAL;

    result = nftw(dirpath, print_entry, USE_FDS, FTW_PHYS);
    if (result >= 0)
        errno = result;

    return errno;
}

int main(int argc, char *argv[])
{
    int arg;

    if (argc < 2) {

        if (print_directory_tree(".")) {
            fprintf(stderr, "%s.\n", strerror(errno));
            return EXIT_FAILURE;
        }

    } else {

        for (arg = 1; arg < argc; arg++) {
            if (print_directory_tree(argv[arg])) {
                fprintf(stderr, "%s.\n", strerror(errno));
                return EXIT_FAILURE;
            }
        }

    }

    return EXIT_SUCCESS;
}

Most of the code above is in print_entry(). Its task is to print out each directory entry. In print_directory_tree(), we tell nftw() to call it for each directory entry it sees.

The only hand-wavy detail above is the decision on how many file descriptors one should let nftw() use. If your program uses at most two extra file descriptors (in addition to the standard streams) during the file tree walk, 15 is known to be safe (on all systems having nftw() and being mostly POSIX-compliant).

In Linux, you could use sysconf(_SC_OPEN_MAX) to find the maximum number of open files, and subtract the number you use concurrently with the nftw() call, but I wouldn't bother (unless I knew the utility would be used mostly with pathologically deep directory structures). Fifteen descriptors does not limit the tree depth; nftw() just gets slower (and might not detect changes in a directory if walking a directory deeper than 13 directories from that one, although the tradeoffs and general ability to detect changes vary between systems and C library implementations). Just using a compile-time constant like that keeps the code portable -- it should work not just on Linux, but on Mac OS X and all current BSD variants, and most other not-too-old Unix variants, too.

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