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OPEN_BY_HANDLE_AT(2)	   Linux Programmer's Manual	  OPEN_BY_HANDLE_AT(2)



NAME
       name_to_handle_at, open_by_handle_at - obtain handle for a pathname and
       open file via a handle

SYNOPSIS
       #define _GNU_SOURCE	   /* See feature_test_macros(7) */
       #include <sys/types.h>
       #include <sys/stat.h>
       #include <fcntl.h>

       int name_to_handle_at(int dirfd, const char *pathname,
			     struct file_handle *handle,
			     int *mount_id, int flags);

       int open_by_handle_at(int mount_fd, struct file_handle *handle,
			     int flags);

DESCRIPTION
       The name_to_handle_at() and open_by_handle_at() system calls split  the
       functionality  of openat(2) into two parts: name_to_handle_at() returns
       an opaque handle that corresponds to  a	specified  file;  open_by_han-
       dle_at()	 opens the file corresponding to a handle returned by a previ-
       ous call to name_to_handle_at() and returns an open file descriptor.

   name_to_handle_at()
       The name_to_handle_at() system call returns a file handle and  a	 mount
       ID  corresponding to the file specified by the dirfd and pathname argu-
       ments.  The file handle is returned via the argument handle, which is a
       pointer to a structure of the following form:

	   struct file_handle {
	       unsigned int  handle_bytes;   /* Size of f_handle [in, out] */
	       int	     handle_type;    /* Handle type [out] */
	       unsigned char f_handle[0];    /* File identifier (sized by
						caller) [out] */
	   };

       It is the caller's responsibility to allocate the structure with a size
       large enough to hold the handle returned in f_handle.  Before the call,
       the  handle_bytes  field should be initialized to contain the allocated
       size for f_handle.  (The constant MAX_HANDLE_SZ, defined in  <fcntl.h>,
       specifies  the maximum possible size for a file handle.)	 Upon success-
       ful return, the handle_bytes field is updated to contain the number  of
       bytes actually written to f_handle.

       The caller can discover the required size for the file_handle structure
       by making a call in which handle->handle_bytes is zero; in  this	 case,
       the call fails with the error EOVERFLOW and handle->handle_bytes is set
       to indicate the required size; the caller can then use this information
       to allocate a structure of the correct size (see EXAMPLE below).

       Other  than  the use of the handle_bytes field, the caller should treat
       the file_handle structure as an opaque data type: the  handle_type  and
       f_handle	 fields	 are  needed only by a subsequent call to open_by_han-
       dle_at().

       The flags argument is a bit mask constructed by ORing together zero  or
       more of AT_EMPTY_PATH and AT_SYMLINK_FOLLOW, described below.

       Together,  the pathname and dirfd arguments identify the file for which
       a handle is to be obtained.  There are four distinct cases:

       *  If pathname is a nonempty string containing  an  absolute  pathname,
	  then a handle is returned for the file referred to by that pathname.
	  In this case, dirfd is ignored.

       *  If pathname is a nonempty string containing a relative pathname  and
	  dirfd	 has  the special value AT_FDCWD, then pathname is interpreted
	  relative to the current working directory of the caller, and a  han-
	  dle is returned for the file to which it refers.

       *  If  pathname is a nonempty string containing a relative pathname and
	  dirfd is a file descriptor referring to a directory,	then  pathname
	  is interpreted relative to the directory referred to by dirfd, and a
	  handle is returned for the file to which it refers.  (See  openat(2)
	  for an explanation of why "directory file descriptors" are useful.)

       *  If  pathname	is  an	empty  string  and  flags  specifies the value
	  AT_EMPTY_PATH, then dirfd can be an open file	 descriptor  referring
	  to any type of file, or AT_FDCWD, meaning the current working direc-
	  tory, and a handle is returned for the file to which it refers.

       The mount_id argument returns an identifier for	the  filesystem	 mount
       that  corresponds  to pathname.	This corresponds to the first field in
       one of the records in /proc/self/mountinfo.  Opening  the  pathname  in
       the  fifth  field of that record yields a file descriptor for the mount
       point; that file descriptor  can	 be  used  in  a  subsequent  call  to
       open_by_handle_at().

       By  default, name_to_handle_at() does not dereference pathname if it is
       a symbolic link, and thus returns a handle for  the  link  itself.   If
       AT_SYMLINK_FOLLOW is specified in flags, pathname is dereferenced if it
       is a symbolic link (so that the call returns  a	handle	for  the  file
       referred to by the link).

   open_by_handle_at()
       The  open_by_handle_at() system call opens the file referred to by han-
       dle, a file handle returned by a previous call to name_to_handle_at().

       The mount_fd argument is a file descriptor for any object (file, direc-
       tory,  etc.)   in  the  mounted filesystem with respect to which handle
       should be interpreted.  The special value AT_FDCWD  can	be  specified,
       meaning the current working directory of the caller.

       The  flags  argument is as for open(2).	If handle refers to a symbolic
       link, the caller must specify the O_PATH flag, and the symbolic link is
       not dereferenced; the O_NOFOLLOW flag, if specified, is ignored.

       The  caller  must  have	the  CAP_DAC_READ_SEARCH  capability to invoke
       open_by_handle_at().

RETURN VALUE
       On success,  name_to_handle_at()	 returns  0,  and  open_by_handle_at()
       returns a nonnegative file descriptor.

       In  the event of an error, both system calls return -1 and set errno to
       indicate the cause of the error.

ERRORS
       name_to_handle_at() and	open_by_handle_at()  can  fail	for  the  same
       errors  as openat(2).  In addition, they can fail with the errors noted
       below.

       name_to_handle_at() can fail with the following errors:

       EFAULT pathname, mount_id, or handle  points  outside  your  accessible
	      address space.

       EINVAL flags includes an invalid bit value.

       EINVAL handle->handle_bytes is greater than MAX_HANDLE_SZ.

       ENOENT pathname is an empty string, but AT_EMPTY_PATH was not specified
	      in flags.

       ENOTDIR
	      The file descriptor supplied in dirfd does not refer to a direc-
	      tory,   and  it  is  not	the  case  that	 both  flags  includes
	      AT_EMPTY_PATH and pathname is an empty string.

       EOPNOTSUPP
	      The filesystem does not support decoding of a pathname to a file
	      handle.

       EOVERFLOW
	      The  handle->handle_bytes	 value	passed	into  the call was too
	      small.  When this error occurs, handle->handle_bytes is  updated
	      to indicate the required size for the handle.

       open_by_handle_at() can fail with the following errors:

       EBADF  mount_fd is not an open file descriptor.

       EFAULT handle points outside your accessible address space.

       EINVAL handle->handle_bytes  is	greater than MAX_HANDLE_SZ or is equal
	      to zero.

       ELOOP  handle refers to a symbolic link, but O_PATH was	not  specified
	      in flags.

       EPERM  The caller does not have the CAP_DAC_READ_SEARCH capability.

       ESTALE The  specified  handle  is not valid.  This error will occur if,
	      for example, the file has been deleted.

VERSIONS
       These system calls first appeared in Linux 2.6.39.  Library support  is
       provided in glibc since version 2.14.

CONFORMING TO
       These system calls are nonstandard Linux extensions.

       FreeBSD	has  a	broadly	 similar  pair	of system calls in the form of
       getfh() and openfh().

NOTES
       A file handle can be generated in one process using name_to_handle_at()
       and later used in a different process that calls open_by_handle_at().

       Some filesystem don't support the translation of pathnames to file han-
       dles, for example, /proc, /sys, and various network filesystems.

       A file handle may become invalid ("stale") if a file is deleted, or for
       other  filesystem-specific reasons.  Invalid handles are notified by an
       ESTALE error from open_by_handle_at().

       These system calls are designed for use	by  user-space	file  servers.
       For  example,  a user-space NFS server might generate a file handle and
       pass it to an NFS client.  Later, when the client  wants	 to  open  the
       file,  it could pass the handle back to the server.  This sort of func-
       tionality allows a user-space file server to  operate  in  a  stateless
       fashion with respect to the files it serves.

       If  pathname  refers  to	 a  symbolic  link  and flags does not specify
       AT_SYMLINK_FOLLOW, then name_to_handle_at() returns a  handle  for  the
       link  (rather than the file to which it refers).	 The process receiving
       the handle can later perform operations on the symbolic	link  by  con-
       verting	the handle to a file descriptor using open_by_handle_at() with
       the O_PATH flag, and then passing the  file  descriptor	as  the	 dirfd
       argument in system calls such as readlinkat(2) and fchownat(2).

   Obtaining a persistent filesystem ID
       The  mount IDs in /proc/self/mountinfo can be reused as filesystems are
       unmounted  and  mounted.	  Therefore,  the   mount   ID	 returned   by
       name_to_handle_at()  (in	 *mount_id) should not be treated as a persis-
       tent identifier for the corresponding mounted filesystem.  However,  an
       application can use the information in the mountinfo record that corre-
       sponds to the mount ID to derive a persistent identifier.

       For example, one can use the device name in  the	 fifth	field  of  the
       mountinfo  record  to  search for the corresponding device UUID via the
       symbolic links in  /dev/disks/by-uuid.	(A  more  comfortable  way  of
       obtaining  the  UUID  is to use the libblkid(3) library.)  That process
       can then be reversed, using the UUID to look up the  device  name,  and
       then  obtaining	the corresponding mount point, in order to produce the
       mount_fd argument used by open_by_handle_at().

EXAMPLE
       The two programs below demonstrate the use of  name_to_handle_at()  and
       open_by_handle_at().   The  first  program (t_name_to_handle_at.c) uses
       name_to_handle_at() to obtain the file handle and mount ID for the file
       specified  in  its  command-line	 argument; the handle and mount ID are
       written to standard output.

       The second program (t_open_by_handle_at.c) reads a mount	 ID  and  file
       handle  from  standard  input.	The  program then employs open_by_han-
       dle_at() to open the file using that handle.  If an  optional  command-
       line  argument is supplied, then the mount_fd argument for open_by_han-
       dle_at() is obtained by opening the directory named in  that  argument.
       Otherwise,  mount_fd  is	 obtained  by scanning /proc/self/mountinfo to
       find a record whose mount ID matches the mount ID  read	from  standard
       input,  and  the	 mount	directory  specified in that record is opened.
       (These programs do not deal with the fact that mount IDs are  not  per-
       sistent.)

       The following shell session demonstrates the use of these two programs:

	   $ echo 'Can you please think about it?' > cecilia.txt
	   $ ./t_name_to_handle_at cecilia.txt > fh
	   $ ./t_open_by_handle_at < fh
	   open_by_handle_at: Operation not permitted
	   $ sudo ./t_open_by_handle_at < fh	  # Need CAP_SYS_ADMIN
	   Read 31 bytes
	   $ rm cecilia.txt

       Now  we delete and (quickly) re-create the file so that it has the same
       content and (by chance) the  same  inode.   Nevertheless,  open_by_han-
       dle_at() recognizes that the original file referred to by the file han-
       dle no longer exists.

	   $ stat --printf="%i\n" cecilia.txt	  # Display inode number
	   4072121
	   $ rm cecilia.txt
	   $ echo 'Can you please think about it?' > cecilia.txt
	   $ stat --printf="%i\n" cecilia.txt	  # Check inode number
	   4072121
	   $ sudo ./t_open_by_handle_at < fh
	   open_by_handle_at: Stale NFS file handle

   Program source: t_name_to_handle_at.c

       #define _GNU_SOURCE
       #include <sys/types.h>
       #include <sys/stat.h>
       #include <fcntl.h>
       #include <stdio.h>
       #include <stdlib.h>
       #include <unistd.h>
       #include <errno.h>
       #include <string.h>

       #define errExit(msg)    do { perror(msg); exit(EXIT_FAILURE); \
			       } while (0)

       int
       main(int argc, char *argv[])
       {
	   struct file_handle *fhp;
	   int mount_id, fhsize, flags, dirfd, j;
	   char *pathname;

	   if (argc != 2) {
	       fprintf(stderr, "Usage: %s pathname\n", argv[0]);
	       exit(EXIT_FAILURE);
	   }

	   pathname = argv[1];

	   /* Allocate file_handle structure */

	   fhsize = sizeof(*fhp);
	   fhp = malloc(fhsize);
	   if (fhp == NULL)
	       errExit("malloc");

	   /* Make an initial call to name_to_handle_at() to discover
	      the size required for file handle */

	   dirfd = AT_FDCWD;	       /* For name_to_handle_at() calls */
	   flags = 0;		       /* For name_to_handle_at() calls */
	   fhp->handle_bytes = 0;
	   if (name_to_handle_at(dirfd, pathname, fhp,
		       &mount_id, flags) != -1 || errno != EOVERFLOW) {
	       fprintf(stderr, "Unexpected result from name_to_handle_at()\n");
	       exit(EXIT_FAILURE);
	   }

	   /* Reallocate file_handle structure with correct size */

	   fhsize = sizeof(struct file_handle) + fhp->handle_bytes;
	   fhp = realloc(fhp, fhsize);	       /* Copies fhp->handle_bytes */
	   if (fhp == NULL)
	       errExit("realloc");

	   /* Get file handle from pathname supplied on command line */

	   if (name_to_handle_at(dirfd, pathname, fhp, &mount_id, flags) == -1)
	       errExit("name_to_handle_at");

	   /* Write mount ID, file handle size, and file handle to stdout,
	      for later reuse by t_open_by_handle_at.c */

	   printf("%d\n", mount_id);
	   printf("%d %d   ", fhp->handle_bytes, fhp->handle_type);
	   for (j = 0; j < fhp->handle_bytes; j++)
	       printf(" %02x", fhp->f_handle[j]);
	   printf("\n");

	   exit(EXIT_SUCCESS);
       }

   Program source: t_open_by_handle_at.c

       #define _GNU_SOURCE
       #include <sys/types.h>
       #include <sys/stat.h>
       #include <fcntl.h>
       #include <limits.h>
       #include <stdio.h>
       #include <stdlib.h>
       #include <unistd.h>
       #include <string.h>

       #define errExit(msg)    do { perror(msg); exit(EXIT_FAILURE); \
			       } while (0)

       /* Scan /proc/self/mountinfo to find the line whose mount ID matches
	  'mount_id'. (An easier way to do this is to install and use the
	  'libmount' library provided by the 'util-linux' project.)
	  Open the corresponding mount path and return the resulting file
	  descriptor. */

       static int
       open_mount_path_by_id(int mount_id)
       {
	   char *linep;
	   size_t lsize;
	   char mount_path[PATH_MAX];
	   int mi_mount_id, found;
	   ssize_t nread;
	   FILE *fp;

	   fp = fopen("/proc/self/mountinfo", "r");
	   if (fp == NULL)
	       errExit("fopen");

	   found = 0;
	   linep = NULL;
	   while (!found) {
	       nread = getline(&linep, &lsize, fp);
	       if (nread == -1)
		   break;

	       nread = sscanf(linep, "%d %*d %*s %*s %s",
			      &mi_mount_id, mount_path);
	       if (nread != 2) {
		   fprintf(stderr, "Bad sscanf()\n");
		   exit(EXIT_FAILURE);
	       }

	       if (mi_mount_id == mount_id)
		   found = 1;
	   }
	   free(linep);

	   fclose(fp);

	   if (!found) {
	       fprintf(stderr, "Could not find mount point\n");
	       exit(EXIT_FAILURE);
	   }

	   return open(mount_path, O_RDONLY);
       }

       int
       main(int argc, char *argv[])
       {
	   struct file_handle *fhp;
	   int mount_id, fd, mount_fd, handle_bytes, j;
	   ssize_t nread;
	   char buf[1000];
       #define LINE_SIZE 100
	   char line1[LINE_SIZE], line2[LINE_SIZE];
	   char *nextp;

	   if ((argc > 1 && strcmp(argv[1], "--help") == 0) || argc > 2) {
	       fprintf(stderr, "Usage: %s [mount-path]\n", argv[0]);
	       exit(EXIT_FAILURE);
	   }

	   /* Standard input contains mount ID and file handle information:

		Line 1: <mount_id>
		Line 2: <handle_bytes> <handle_type>   <bytes of handle in hex>
	   */

	   if ((fgets(line1, sizeof(line1), stdin) == NULL) ||
		  (fgets(line2, sizeof(line2), stdin) == NULL)) {
	       fprintf(stderr, "Missing mount_id / file handle\n");
	       exit(EXIT_FAILURE);
	   }

	   mount_id = atoi(line1);

	   handle_bytes = strtoul(line2, &nextp, 0);

	   /* Given handle_bytes, we can now allocate file_handle structure */

	   fhp = malloc(sizeof(struct file_handle) + handle_bytes);
	   if (fhp == NULL)
	       errExit("malloc");

	   fhp->handle_bytes = handle_bytes;

	   fhp->handle_type = strtoul(nextp, &nextp, 0);

	   for (j = 0; j < fhp->handle_bytes; j++)
	       fhp->f_handle[j] = strtoul(nextp, &nextp, 16);

	   /* Obtain file descriptor for mount point, either by opening
	      the pathname specified on the command line, or by scanning
	      /proc/self/mounts to find a mount that matches the 'mount_id'
	      that we received from stdin. */

	   if (argc > 1)
	       mount_fd = open(argv[1], O_RDONLY);
	   else
	       mount_fd = open_mount_path_by_id(mount_id);

	   if (mount_fd == -1)
	       errExit("opening mount fd");

	   /* Open file using handle and mount point */

	   fd = open_by_handle_at(mount_fd, fhp, O_RDONLY);
	   if (fd == -1)
	       errExit("open_by_handle_at");

	   /* Try reading a few bytes from the file */

	   nread = read(fd, buf, sizeof(buf));
	   if (nread == -1)
	       errExit("read");

	   printf("Read %zd bytes\n", nread);

	   exit(EXIT_SUCCESS);
       }

SEE ALSO
       open(2), libblkid(3), blkid(8), findfs(8), mount(8)

       The libblkid  and  libmount  documentation  in  the  latest  util-linux
       release at <https://www.kernel.org/pub/linux/utils/util-linux/>

COLOPHON
       This  page  is  part of release 4.10 of the Linux man-pages project.  A
       description of the project, information about reporting bugs,  and  the
       latest	  version     of     this    page,    can    be	   found    at
       https://www.kernel.org/doc/man-pages/.



Linux				  2014-06-13		  OPEN_BY_HANDLE_AT(2)