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/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include "alloc-util.h"
#include "dirent-util.h"
#include "fd-util.h"
#include "fileio.h"
#include "fs-util.h"
#include "missing_syscall.h"
#include "mountpoint-util.h"
#include "recurse-dir.h"
#include "sort-util.h"
#define DEFAULT_RECURSION_MAX 100
static int sort_func(struct dirent * const *a, struct dirent * const *b) {
return strcmp((*a)->d_name, (*b)->d_name);
}
static bool ignore_dirent(const struct dirent *de, RecurseDirFlags flags) {
assert(de);
/* Depending on flag either ignore everything starting with ".", or just "." itself and ".." */
return FLAGS_SET(flags, RECURSE_DIR_IGNORE_DOT) ?
de->d_name[0] == '.' :
dot_or_dot_dot(de->d_name);
}
int readdir_all(int dir_fd,
RecurseDirFlags flags,
DirectoryEntries **ret) {
_cleanup_free_ DirectoryEntries *de = NULL;
struct dirent *entry;
DirectoryEntries *nde;
size_t add, sz, j;
int r;
assert(dir_fd >= 0);
/* Returns an array with pointers to "struct dirent" directory entries, optionally sorted. Free the
* array with readdir_all_freep().
*
* Start with space for up to 8 directory entries. We expect at least 2 ("." + ".."), hence hopefully
* 8 will cover most cases comprehensively. (Note that most likely a lot more entries will actually
* fit in the buffer, given we calculate maximum file name length here.) */
de = malloc(offsetof(DirectoryEntries, buffer) + DIRENT_SIZE_MAX * 8);
if (!de)
return -ENOMEM;
de->buffer_size = 0;
for (;;) {
size_t bs;
ssize_t n;
bs = MIN(MALLOC_SIZEOF_SAFE(de) - offsetof(DirectoryEntries, buffer), (size_t) SSIZE_MAX);
assert(bs > de->buffer_size);
n = getdents64(dir_fd, (uint8_t*) de->buffer + de->buffer_size, bs - de->buffer_size);
if (n < 0)
return -errno;
if (n == 0)
break;
msan_unpoison((uint8_t*) de->buffer + de->buffer_size, n);
de->buffer_size += n;
if (de->buffer_size < bs - DIRENT_SIZE_MAX) /* Still room for one more entry, then try to
* fill it up without growing the structure. */
continue;
if (bs >= SSIZE_MAX - offsetof(DirectoryEntries, buffer))
return -EFBIG;
bs = bs >= (SSIZE_MAX - offsetof(DirectoryEntries, buffer))/2 ? SSIZE_MAX - offsetof(DirectoryEntries, buffer) : bs * 2;
nde = realloc(de, bs);
if (!nde)
return -ENOMEM;
de = nde;
}
de->n_entries = 0;
FOREACH_DIRENT_IN_BUFFER(entry, de->buffer, de->buffer_size) {
if (ignore_dirent(entry, flags))
continue;
if (FLAGS_SET(flags, RECURSE_DIR_ENSURE_TYPE)) {
r = dirent_ensure_type(dir_fd, entry);
if (r == -ENOENT)
/* dentry gone by now? no problem, let's just suppress it */
continue;
if (r < 0)
return r;
}
de->n_entries++;
}
sz = ALIGN(offsetof(DirectoryEntries, buffer) + de->buffer_size);
add = sizeof(struct dirent*) * de->n_entries;
if (add > SIZE_MAX - add)
return -ENOMEM;
nde = realloc(de, sz + add);
if (!nde)
return -ENOMEM;
de = nde;
de->entries = (struct dirent**) ((uint8_t*) de + ALIGN(offsetof(DirectoryEntries, buffer) + de->buffer_size));
j = 0;
FOREACH_DIRENT_IN_BUFFER(entry, de->buffer, de->buffer_size) {
if (ignore_dirent(entry, flags))
continue;
/* If d_type == DT_UNKNOWN that means we failed to ensure the type in the earlier loop and
* didn't include the dentry in de->n_entries and as such should skip it here as well. */
if (FLAGS_SET(flags, RECURSE_DIR_ENSURE_TYPE) && entry->d_type == DT_UNKNOWN)
continue;
de->entries[j++] = entry;
}
assert(j == de->n_entries);
if (FLAGS_SET(flags, RECURSE_DIR_SORT))
typesafe_qsort(de->entries, de->n_entries, sort_func);
if (ret)
*ret = TAKE_PTR(de);
return 0;
}
int readdir_all_at(int fd, const char *path, RecurseDirFlags flags, DirectoryEntries **ret) {
_cleanup_close_ int dir_fd = -EBADF;
assert(fd >= 0 || fd == AT_FDCWD);
dir_fd = xopenat(fd, path, O_DIRECTORY|O_CLOEXEC);
if (dir_fd < 0)
return dir_fd;
return readdir_all(dir_fd, flags, ret);
}
int recurse_dir(
int dir_fd,
const char *path,
unsigned statx_mask,
unsigned n_depth_max,
RecurseDirFlags flags,
recurse_dir_func_t func,
void *userdata) {
_cleanup_free_ DirectoryEntries *de = NULL;
STRUCT_STATX_DEFINE(root_sx);
int r;
assert(dir_fd >= 0);
assert(func);
/* This is a lot like ftw()/nftw(), but a lot more modern, i.e. built around openat()/statx()/O_PATH,
* and under the assumption that fds are not as 'expensive' as they used to be. */
if (n_depth_max == 0)
return -EOVERFLOW;
if (n_depth_max == UINT_MAX) /* special marker for "default" */
n_depth_max = DEFAULT_RECURSION_MAX;
if (FLAGS_SET(flags, RECURSE_DIR_TOPLEVEL)) {
if (statx_mask != 0) {
r = statx_fallback(dir_fd, "", AT_EMPTY_PATH, statx_mask, &root_sx);
if (r < 0)
return r;
}
r = func(RECURSE_DIR_ENTER,
path,
-1, /* we have no parent fd */
dir_fd,
NULL, /* we have no dirent */
statx_mask != 0 ? &root_sx : NULL,
userdata);
if (IN_SET(r, RECURSE_DIR_LEAVE_DIRECTORY, RECURSE_DIR_SKIP_ENTRY))
return 0;
if (r != RECURSE_DIR_CONTINUE)
return r;
}
/* Mask out RECURSE_DIR_ENSURE_TYPE so we can do it ourselves and avoid an extra statx() call. */
r = readdir_all(dir_fd, flags & ~RECURSE_DIR_ENSURE_TYPE, &de);
if (r < 0)
return r;
for (size_t i = 0; i < de->n_entries; i++) {
_cleanup_close_ int inode_fd = -EBADF, subdir_fd = -EBADF;
_cleanup_free_ char *joined = NULL;
STRUCT_STATX_DEFINE(sx);
bool sx_valid = false;
const char *p;
/* For each directory entry we'll do one of the following:
*
* 1) If the entry refers to a directory, we'll open it as O_DIRECTORY 'subdir_fd' and then statx() the opened directory via that new fd (if requested)
* 2) Otherwise, if RECURSE_DIR_INODE_FD is set we'll open it as O_PATH 'inode_fd' and then statx() the opened inode via that new fd (if requested)
* 3) Otherwise, we'll statx() the directory entry via the directory fd we are currently looking at (if requested)
*/
if (path) {
joined = path_join(path, de->entries[i]->d_name);
if (!joined)
return -ENOMEM;
p = joined;
} else
p = de->entries[i]->d_name;
if (IN_SET(de->entries[i]->d_type, DT_UNKNOWN, DT_DIR)) {
subdir_fd = openat(dir_fd, de->entries[i]->d_name, O_DIRECTORY|O_NOFOLLOW|O_CLOEXEC);
if (subdir_fd < 0) {
if (errno == ENOENT) /* Vanished by now, go for next file immediately */
continue;
/* If it is a subdir but we failed to open it, then fail */
if (!IN_SET(errno, ENOTDIR, ELOOP)) {
log_debug_errno(errno, "Failed to open directory '%s': %m", p);
assert(errno <= RECURSE_DIR_SKIP_OPEN_DIR_ERROR_MAX - RECURSE_DIR_SKIP_OPEN_DIR_ERROR_BASE);
r = func(RECURSE_DIR_SKIP_OPEN_DIR_ERROR_BASE + errno,
p,
dir_fd,
-1,
de->entries[i],
NULL,
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (!IN_SET(r, RECURSE_DIR_CONTINUE, RECURSE_DIR_SKIP_ENTRY))
return r;
continue;
}
/* If it's not a subdir, then let's handle it like a regular inode below */
} else {
/* If we managed to get a DIR* off the inode, it's definitely a directory. */
de->entries[i]->d_type = DT_DIR;
if (statx_mask != 0 || (flags & RECURSE_DIR_SAME_MOUNT)) {
r = statx_fallback(subdir_fd, "", AT_EMPTY_PATH, statx_mask, &sx);
if (r < 0)
return r;
sx_valid = true;
}
}
}
if (subdir_fd < 0) {
/* It's not a subdirectory. */
if (flags & RECURSE_DIR_INODE_FD) {
inode_fd = openat(dir_fd, de->entries[i]->d_name, O_PATH|O_NOFOLLOW|O_CLOEXEC);
if (inode_fd < 0) {
if (errno == ENOENT) /* Vanished by now, go for next file immediately */
continue;
log_debug_errno(errno, "Failed to open directory entry '%s': %m", p);
assert(errno <= RECURSE_DIR_SKIP_OPEN_INODE_ERROR_MAX - RECURSE_DIR_SKIP_OPEN_INODE_ERROR_BASE);
r = func(RECURSE_DIR_SKIP_OPEN_INODE_ERROR_BASE + errno,
p,
dir_fd,
-1,
de->entries[i],
NULL,
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (!IN_SET(r, RECURSE_DIR_CONTINUE, RECURSE_DIR_SKIP_ENTRY))
return r;
continue;
}
/* If we open the inode, then verify it's actually a non-directory, like we
* assume. Let's guarantee that we never pass statx data of a directory where
* caller expects a non-directory */
r = statx_fallback(inode_fd, "", AT_EMPTY_PATH, statx_mask | STATX_TYPE, &sx);
if (r < 0)
return r;
assert(sx.stx_mask & STATX_TYPE);
sx_valid = true;
if (S_ISDIR(sx.stx_mode)) {
/* What? It's a directory now? Then someone must have quickly
* replaced it. Let's handle that gracefully: convert it to a
* directory fd — which should be riskless now that we pinned the
* inode. */
subdir_fd = fd_reopen(inode_fd, O_DIRECTORY|O_CLOEXEC);
if (subdir_fd < 0)
return subdir_fd;
inode_fd = safe_close(inode_fd);
}
} else if (statx_mask != 0 || (de->entries[i]->d_type == DT_UNKNOWN && (flags & RECURSE_DIR_ENSURE_TYPE))) {
r = statx_fallback(dir_fd, de->entries[i]->d_name, AT_SYMLINK_NOFOLLOW, statx_mask | STATX_TYPE, &sx);
if (r == -ENOENT) /* Vanished by now? Go for next file immediately */
continue;
if (r < 0) {
log_debug_errno(r, "Failed to stat directory entry '%s': %m", p);
assert(errno <= RECURSE_DIR_SKIP_STAT_INODE_ERROR_MAX - RECURSE_DIR_SKIP_STAT_INODE_ERROR_BASE);
r = func(RECURSE_DIR_SKIP_STAT_INODE_ERROR_BASE + -r,
p,
dir_fd,
-1,
de->entries[i],
NULL,
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (!IN_SET(r, RECURSE_DIR_CONTINUE, RECURSE_DIR_SKIP_ENTRY))
return r;
continue;
}
assert(sx.stx_mask & STATX_TYPE);
sx_valid = true;
if (S_ISDIR(sx.stx_mode)) {
/* So it suddenly is a directory, but we couldn't open it as such
* earlier? That is weird, and probably means somebody is racing
* against us. We could of course retry and open it as a directory
* again, but the chance to win here is limited. Hence, let's
* propagate this as EISDIR error instead. That way we make this
* something that can be reasonably handled, even though we give the
* guarantee that RECURSE_DIR_ENTRY is strictly issued for
* non-directory dirents. */
log_debug_errno(r, "Non-directory entry '%s' suddenly became a directory: %m", p);
r = func(RECURSE_DIR_SKIP_STAT_INODE_ERROR_BASE + EISDIR,
p,
dir_fd,
-1,
de->entries[i],
NULL,
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (!IN_SET(r, RECURSE_DIR_CONTINUE, RECURSE_DIR_SKIP_ENTRY))
return r;
continue;
}
}
}
if (sx_valid) {
/* Copy over the data we acquired through statx() if we acquired any */
if (sx.stx_mask & STATX_TYPE) {
assert((subdir_fd < 0) == !S_ISDIR(sx.stx_mode));
de->entries[i]->d_type = IFTODT(sx.stx_mode);
}
if (sx.stx_mask & STATX_INO)
de->entries[i]->d_ino = sx.stx_ino;
}
if (subdir_fd >= 0) {
if (FLAGS_SET(flags, RECURSE_DIR_SAME_MOUNT)) {
bool is_mount;
if (sx_valid && FLAGS_SET(sx.stx_attributes_mask, STATX_ATTR_MOUNT_ROOT))
is_mount = FLAGS_SET(sx.stx_attributes, STATX_ATTR_MOUNT_ROOT);
else {
r = fd_is_mount_point(dir_fd, de->entries[i]->d_name, 0);
if (r < 0)
log_debug_errno(r, "Failed to determine whether %s is a submount, assuming not: %m", p);
is_mount = r > 0;
}
if (is_mount) {
r = func(RECURSE_DIR_SKIP_MOUNT,
p,
dir_fd,
subdir_fd,
de->entries[i],
statx_mask != 0 ? &sx : NULL, /* only pass sx if user asked for it */
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (!IN_SET(r, RECURSE_DIR_CONTINUE, RECURSE_DIR_SKIP_ENTRY))
return r;
continue;
}
}
if (n_depth_max <= 1) {
/* When we reached max depth, generate a special event */
r = func(RECURSE_DIR_SKIP_DEPTH,
p,
dir_fd,
subdir_fd,
de->entries[i],
statx_mask != 0 ? &sx : NULL, /* only pass sx if user asked for it */
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (!IN_SET(r, RECURSE_DIR_CONTINUE, RECURSE_DIR_SKIP_ENTRY))
return r;
continue;
}
r = func(RECURSE_DIR_ENTER,
p,
dir_fd,
subdir_fd,
de->entries[i],
statx_mask != 0 ? &sx : NULL, /* only pass sx if user asked for it */
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (r == RECURSE_DIR_SKIP_ENTRY)
continue;
if (r != RECURSE_DIR_CONTINUE)
return r;
r = recurse_dir(subdir_fd,
p,
statx_mask,
n_depth_max - 1,
flags &~ RECURSE_DIR_TOPLEVEL, /* we already called the callback for this entry */
func,
userdata);
if (r != 0)
return r;
r = func(RECURSE_DIR_LEAVE,
p,
dir_fd,
subdir_fd,
de->entries[i],
statx_mask != 0 ? &sx : NULL, /* only pass sx if user asked for it */
userdata);
} else
/* Non-directory inode */
r = func(RECURSE_DIR_ENTRY,
p,
dir_fd,
inode_fd,
de->entries[i],
statx_mask != 0 ? &sx : NULL, /* only pass sx if user asked for it */
userdata);
if (r == RECURSE_DIR_LEAVE_DIRECTORY)
break;
if (!IN_SET(r, RECURSE_DIR_SKIP_ENTRY, RECURSE_DIR_CONTINUE))
return r;
}
if (FLAGS_SET(flags, RECURSE_DIR_TOPLEVEL)) {
r = func(RECURSE_DIR_LEAVE,
path,
-1,
dir_fd,
NULL,
statx_mask != 0 ? &root_sx : NULL,
userdata);
if (!IN_SET(r, RECURSE_DIR_LEAVE_DIRECTORY, RECURSE_DIR_SKIP_ENTRY, RECURSE_DIR_CONTINUE))
return r;
}
return 0;
}
int recurse_dir_at(
int atfd,
const char *path,
unsigned statx_mask,
unsigned n_depth_max,
RecurseDirFlags flags,
recurse_dir_func_t func,
void *userdata) {
_cleanup_close_ int fd = -EBADF;
assert(atfd >= 0 || atfd == AT_FDCWD);
assert(func);
fd = openat(atfd, path ?: ".", O_DIRECTORY|O_CLOEXEC);
if (fd < 0)
return -errno;
return recurse_dir(fd, path, statx_mask, n_depth_max, flags, func, userdata);
}
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