#include "cache.h" #include "dir.h" #include "iterator.h" #include "dir-iterator.h" struct dir_iterator_level { DIR *dir; /* * The length of the directory part of path at this level * (including a trailing '/'): */ size_t prefix_len; }; /* * The full data structure used to manage the internal directory * iteration state. It includes members that are not part of the * public interface. */ struct dir_iterator_int { struct dir_iterator base; /* * The number of levels currently on the stack. After the first * call to dir_iterator_begin(), if it succeeds to open the * first level's dir, this will always be at least 1. Then, * when it comes to zero the iteration is ended and this * struct is freed. */ size_t levels_nr; /* The number of levels that have been allocated on the stack */ size_t levels_alloc; /* * A stack of levels. levels[0] is the uppermost directory * that will be included in this iteration. */ struct dir_iterator_level *levels; /* Combination of flags for this dir-iterator */ unsigned int flags; }; /* * Push a level in the iter stack and initialize it with information from * the directory pointed by iter->base->path. It is assumed that this * strbuf points to a valid directory path. Return 0 on success and -1 * otherwise, setting errno accordingly and leaving the stack unchanged. */ static int push_level(struct dir_iterator_int *iter) { struct dir_iterator_level *level; ALLOC_GROW(iter->levels, iter->levels_nr + 1, iter->levels_alloc); level = &iter->levels[iter->levels_nr++]; if (!is_dir_sep(iter->base.path.buf[iter->base.path.len - 1])) strbuf_addch(&iter->base.path, '/'); level->prefix_len = iter->base.path.len; level->dir = opendir(iter->base.path.buf); if (!level->dir) { int saved_errno = errno; if (errno != ENOENT) { warning_errno("error opening directory '%s'", iter->base.path.buf); } iter->levels_nr--; errno = saved_errno; return -1; } return 0; } /* * Pop the top level on the iter stack, releasing any resources associated * with it. Return the new value of iter->levels_nr. */ static int pop_level(struct dir_iterator_int *iter) { struct dir_iterator_level *level = &iter->levels[iter->levels_nr - 1]; if (level->dir && closedir(level->dir)) warning_errno("error closing directory '%s'", iter->base.path.buf); level->dir = NULL; return --iter->levels_nr; } /* * Populate iter->base with the necessary information on the next iteration * entry, represented by the given dirent de. Return 0 on success and -1 * otherwise, setting errno accordingly. */ static int prepare_next_entry_data(struct dir_iterator_int *iter, struct dirent *de) { int err, saved_errno; strbuf_addstr(&iter->base.path, de->d_name); /* * We have to reset these because the path strbuf might have * been realloc()ed at the previous strbuf_addstr(). */ iter->base.relative_path = iter->base.path.buf + iter->levels[0].prefix_len; iter->base.basename = iter->base.path.buf + iter->levels[iter->levels_nr - 1].prefix_len; if (iter->flags & DIR_ITERATOR_FOLLOW_SYMLINKS) err = stat(iter->base.path.buf, &iter->base.st); else err = lstat(iter->base.path.buf, &iter->base.st); saved_errno = errno; if (err && errno != ENOENT) warning_errno("failed to stat '%s'", iter->base.path.buf); errno = saved_errno; return err; } int dir_iterator_advance(struct dir_iterator *dir_iterator) { struct dir_iterator_int *iter = (struct dir_iterator_int *)dir_iterator; if (S_ISDIR(iter->base.st.st_mode) && push_level(iter)) { if (errno != ENOENT && iter->flags & DIR_ITERATOR_PEDANTIC) goto error_out; if (iter->levels_nr == 0) goto error_out; } /* Loop until we find an entry that we can give back to the caller. */ while (1) { struct dirent *de; struct dir_iterator_level *level = &iter->levels[iter->levels_nr - 1]; strbuf_setlen(&iter->base.path, level->prefix_len); errno = 0; de = readdir(level->dir); if (!de) { if (errno) { warning_errno("error reading directory '%s'", iter->base.path.buf); if (iter->flags & DIR_ITERATOR_PEDANTIC) goto error_out; } else if (pop_level(iter) == 0) { return dir_iterator_abort(dir_iterator); } continue; } if (is_dot_or_dotdot(de->d_name)) continue; if (prepare_next_entry_data(iter, de)) { if (errno != ENOENT && iter->flags & DIR_ITERATOR_PEDANTIC) goto error_out; continue; } return ITER_OK; } error_out: dir_iterator_abort(dir_iterator); return ITER_ERROR; } int dir_iterator_abort(struct dir_iterator *dir_iterator) { struct dir_iterator_int *iter = (struct dir_iterator_int *)dir_iterator; for (; iter->levels_nr; iter->levels_nr--) { struct dir_iterator_level *level = &iter->levels[iter->levels_nr - 1]; if (level->dir && closedir(level->dir)) { int saved_errno = errno; strbuf_setlen(&iter->base.path, level->prefix_len); errno = saved_errno; warning_errno("error closing directory '%s'", iter->base.path.buf); } } free(iter->levels); strbuf_release(&iter->base.path); free(iter); return ITER_DONE; } struct dir_iterator *dir_iterator_begin(const char *path, unsigned int flags) { struct dir_iterator_int *iter = xcalloc(1, sizeof(*iter)); struct dir_iterator *dir_iterator = &iter->base; int saved_errno; strbuf_init(&iter->base.path, PATH_MAX); strbuf_addstr(&iter->base.path, path); ALLOC_GROW(iter->levels, 10, iter->levels_alloc); iter->levels_nr = 0; iter->flags = flags; /* * Note: stat already checks for NULL or empty strings and * inexistent paths. */ if (stat(iter->base.path.buf, &iter->base.st) < 0) { saved_errno = errno; goto error_out; } if (!S_ISDIR(iter->base.st.st_mode)) { saved_errno = ENOTDIR; goto error_out; } return dir_iterator; error_out: dir_iterator_abort(dir_iterator); errno = saved_errno; return NULL; }