const char *path;
pthread_mutex_lock(&handle->lock);
- lttng_inode_get_location(handle->inode, NULL, &path);
+ lttng_inode_borrow_location(handle->inode, NULL, &path);
if (handle->fd >= 0) {
DBG_NO_LOC(" %s [active, fd %d%s]", path, handle->fd,
const struct lttng_directory_handle *node_directory_handle;
pthread_mutex_lock(&handle->lock);
- lttng_inode_get_location(handle->inode, &node_directory_handle, &path);
+ lttng_inode_borrow_location(
+ handle->inode, &node_directory_handle, &path);
assert(handle->fd >= 0);
if (handle->in_use) {
/* This handle can't be suspended as it is currently in use. */
const char *path;
const struct lttng_directory_handle *node_directory_handle;
- lttng_inode_get_location(handle->inode, &node_directory_handle, &path);
+ lttng_inode_borrow_location(
+ handle->inode, &node_directory_handle, &path);
assert(handle->fd == -1);
assert(path);
const char *path = NULL;
struct fs_handle_tracked *handle =
container_of(_handle, struct fs_handle_tracked, parent);
+ struct lttng_directory_handle *inode_directory_handle = NULL;
if (!handle) {
ret = -EINVAL;
pthread_mutex_lock(&handle->tracker->lock);
pthread_mutex_lock(&handle->lock);
if (handle->inode) {
- lttng_inode_get_location(handle->inode, NULL, &path);
+ lttng_inode_borrow_location(handle->inode, NULL, &path);
+ /*
+ * Here a reference to the inode's directory handle is acquired
+ * to prevent the last reference to it from being released while
+ * the tracker's lock is taken.
+ *
+ * If this wasn't done, the directory handle could attempt to
+ * close its underlying directory file descriptor, which would
+ * attempt to lock the tracker's lock, resulting in a deadlock.
+ *
+ * Since a new reference to the directory handle is taken within
+ * the scope of this function, it is not possible for the last
+ * reference to the inode's location directory handle to be
+ * released during the call to lttng_inode_put().
+ *
+ * We wait until the tracker's lock is released to release the
+ * reference. Hence, the call to the tracker is delayed just
+ * enough to not attempt to recursively acquire the tracker's
+ * lock twice.
+ */
+ inode_directory_handle =
+ lttng_inode_get_location_directory_handle(
+ handle->inode);
}
fd_tracker_untrack(handle->tracker, handle);
if (handle->fd >= 0) {
pthread_mutex_destroy(&handle->lock);
pthread_mutex_unlock(&handle->tracker->lock);
free(handle);
+ lttng_directory_handle_put(inode_directory_handle);
end:
return ret;
}