utimensat(2)


NAME

   utimensat, futimens - change file timestamps with nanosecond precision

SYNOPSIS

   #include <fcntl.h> /* Definition of AT_* constants */
   #include <sys/stat.h>

   int utimensat(int dirfd, const char *pathname,
                 const struct timespec times[2], int flags);

   int futimens(int fd, const struct timespec times[2]);

   Feature Test Macro Requirements for glibc (see feature_test_macros(7)):

   utimensat():
       Since glibc 2.10:
           _POSIX_C_SOURCE >= 200809L
       Before glibc 2.10:
           _ATFILE_SOURCE
   futimens():
       Since glibc 2.10:
              _POSIX_C_SOURCE >= 200809L
       Before glibc 2.10:
              _GNU_SOURCE

DESCRIPTION

   utimensat()  and  futimens()  update  the  timestamps  of  a  file with
   nanosecond precision.  This contrasts with the historical utime(2)  and
   utimes(2),   which   permit  only  second  and  microsecond  precision,
   respectively, when setting file timestamps.

   With utimensat() the file  is  specified  via  the  pathname  given  in
   pathname.   With futimens() the file whose timestamps are to be updated
   is specified via an open file descriptor, fd.

   For both calls, the new file timestamps  are  specified  in  the  array
   times:  times[0] specifies the new "last access time" (atime); times[1]
   specifies the new  "last  modification  time"  (mtime).   Each  of  the
   elements  of  times  specifies  a  time  as  the  number of seconds and
   nanoseconds since the Epoch, 1970-01-01  00:00:00  +0000  (UTC).   This
   information is conveyed in a structure of the following form:

       struct timespec {
           time_t tv_sec;        /* seconds */
           long   tv_nsec;       /* nanoseconds */
       };

   Updated  file timestamps are set to the greatest value supported by the
   filesystem that is not greater than the specified time.

   If the tv_nsec field of one of the timespec structures has the  special
   value  UTIME_NOW,  then  the corresponding file timestamp is set to the
   current time.  If the tv_nsec field of one of the  timespec  structures
   has the special value UTIME_OMIT, then the corresponding file timestamp
   is  left  unchanged.   In  both  of  these  cases,  the  value  of  the
   corresponding tv_sec field is ignored.

   If times is NULL, then both timestamps are set to the current time.

   Permissions requirements
   To  set  both file timestamps to the current time (i.e., times is NULL,
   or both tv_nsec fields specify UTIME_NOW), either:

   1. the caller must have write access to the file;

   2. the caller's effective user ID must match the owner of the file; or

   3. the caller must have appropriate privileges.

   To make any change other than setting both timestamps  to  the  current
   time  (i.e.,  times is not NULL, and neither tv_nsec field is UTIME_NOW
   and neither tv_nsec field is UTIME_OMIT), either condition 2 or 3 above
   must apply.

   If  both  tv_nsec  fields  are  specified  as  UTIME_OMIT, then no file
   ownership or permission checks are performed, and the  file  timestamps
   are not modified, but other error conditions may still be detected.

   utimensat() specifics
   If  pathname is relative, then by default it is interpreted relative to
   the directory referred to by the open file  descriptor,  dirfd  (rather
   than  relative to the current working directory of the calling process,
   as is done by utimes(2) for a relative pathname).  See openat(2) for an
   explanation of why this can be useful.

   If  pathname  is relative and dirfd is the special value AT_FDCWD, then
   pathname is interpreted relative to the current  working  directory  of
   the calling process (like utimes(2)).

   If pathname is absolute, then dirfd is ignored.

   The  flags  field is a bit mask that may be 0, or include the following
   constant, defined in <fcntl.h>:

   AT_SYMLINK_NOFOLLOW
          If  pathname  specifies  a  symbolic  link,  then   update   the
          timestamps of the link, rather than the file to which it refers.

RETURN VALUE

   On  success,  utimensat()  and  futimens()  return  0.  On error, -1 is
   returned and errno is set to indicate the error.

ERRORS

   EACCES times is NULL, or both tv_nsec values are UTIME_NOW, and either:

          *  the effective user ID of the caller does not match the  owner
             of  the  file,  the  caller does not have write access to the
             file, and the caller is not privileged (Linux: does not  have
             either  the  CAP_FOWNER  or the CAP_DAC_OVERRIDE capability);
             or,

          *  the file is marked immutable (see chattr(1)).

   EBADF  (futimens()) fd is not a valid file descriptor.

   EBADF  (utimensat()) pathname is a  relative  pathname,  but  dirfd  is
          neither AT_FDCWD nor a valid file descriptor.

   EFAULT times pointed to an invalid address; or, dirfd was AT_FDCWD, and
          pathname is NULL or an invalid address.

   EINVAL Invalid value in flags.

   EINVAL Invalid value in one of the tv_nsec fields (value outside  range
          0  to  999,999,999,  and  not  UTIME_NOW  or  UTIME_OMIT); or an
          invalid value in one of the tv_sec fields.

   EINVAL pathname is NULL, dirfd is  not  AT_FDCWD,  and  flags  contains
          AT_SYMLINK_NOFOLLOW.

   ELOOP  (utimensat())  Too  many  symbolic  links  were  encountered  in
          resolving pathname.

   ENAMETOOLONG
          (utimensat()) pathname is too long.

   ENOENT (utimensat()) A component of  pathname  does  not  refer  to  an
          existing directory or file, or pathname is an empty string.

   ENOTDIR
          (utimensat())  pathname  is  a  relative  pathname, but dirfd is
          neither AT_FDCWD nor a file descriptor referring to a directory;
          or, one of the prefix components of pathname is not a directory.

   EPERM  The caller attempted to change one or both timestamps to a value
          other than the current time, or to change one of the  timestamps
          to the current time while leaving the other timestamp unchanged,
          (i.e., times is not NULL, neither tv_nsec  field  is  UTIME_NOW,
          and neither tv_nsec field is UTIME_OMIT) and either:

          *  the  caller's  effective  user ID does not match the owner of
             file, and the caller is not privileged (Linux: does not  have
             the CAP_FOWNER capability); or,

          *  the file is marked append-only or immutable (see chattr(1)).

   EROFS  The file is on a read-only filesystem.

   ESRCH  (utimensat())  Search permission is denied for one of the prefix
          components of pathname.

VERSIONS

   utimensat() was added to Linux in  kernel  2.6.22;  glibc  support  was
   added with version 2.6.

   Support for futimens() first appeared in glibc 2.6.

ATTRIBUTES

   For   an   explanation   of   the  terms  used  in  this  section,  see
   attributes(7).

   
   Interface                Attribute      Value   
   
   utimensat(), futimens()  Thread safety  MT-Safe 
   

CONFORMING TO

   futimens() and utimensat() are specified in POSIX.1-2008.

NOTES

   utimensat() obsoletes futimesat(2).

   On Linux, timestamps cannot be changed for a file marked immutable, and
   the  only  change  permitted for files marked append-only is to set the
   timestamps  to  the  current  time.   (This  is  consistent  with   the
   historical behavior of utime(2) and utimes(2) on Linux.)

   If  both  tv_nsec  fields  are  specified as UTIME_OMIT, then the Linux
   implementation of utimensat() succeeds even if the file referred to  by
   dirfd and pathname does not exist.

   C library/ kernel ABI differences
   On  Linux,  futimens()  is a library function implemented on top of the
   utimensat() system call.  To support this, the Linux utimensat() system
   call  implements  a  nonstandard feature: if pathname is NULL, then the
   call modifies the timestamps of  the  file  referred  to  by  the  file
   descriptor  dirfd  (which  may  refer to any type of file).  Using this
   feature, the call futimens(fd, times) is implemented as:

       utimensat(fd, NULL, times, 0);

   Note, however, that the glibc wrapper for utimensat() disallows passing
   NULL  as  the  value  for  file: the wrapper function returns the error
   EINVAL in this case.

BUGS

   Several bugs afflict  utimensat()  and  futimens()  on  kernels  before
   2.6.26.   These  bugs are either nonconformances with the POSIX.1 draft
   specification or inconsistencies with historical Linux behavior.

   *  POSIX.1 specifies that if one of the tv_nsec fields  has  the  value
      UTIME_NOW  or UTIME_OMIT, then the value of the corresponding tv_sec
      field should be ignored.  Instead, the value of the tv_sec field  is
      required to be 0 (or the error EINVAL results).

   *  Various  bugs mean that for the purposes of permission checking, the
      case where both tv_nsec fields are set  to  UTIME_NOW  isn't  always
      treated the same as specifying times as NULL, and the case where one
      tv_nsec value is UTIME_NOW and the other is UTIME_OMIT isn't treated
      the  same as specifying times as a pointer to an array of structures
      containing arbitrary time values.  As a result, in  some  cases:  a)
      file  timestamps  can  be  updated  by a process that shouldn't have
      permission to perform updates; b) file timestamps can't  be  updated
      by  a process that should have permission to perform updates; and c)
      the wrong errno value is returned in case of an error.

   *  POSIX.1 says that a process that has write access to  the  file  can
      make  a  call with times as NULL, or with times pointing to an array
      of structures in which both tv_nsec fields are UTIME_NOW,  in  order
      to  update both timestamps to the current time.  However, futimens()
      instead checks whether the access mode of the file descriptor allows
      writing.

SEE ALSO

   chattr(1),   touch(1),  futimesat(2),  openat(2),  stat(2),  utimes(2),
   futimes(3), path_resolution(7), symlink(7)

COLOPHON

   This page is part of release 4.09 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/.





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